WO2018113229A1 - Air-purifying pure water generator - Google Patents

Air-purifying pure water generator Download PDF

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Publication number
WO2018113229A1
WO2018113229A1 PCT/CN2017/090487 CN2017090487W WO2018113229A1 WO 2018113229 A1 WO2018113229 A1 WO 2018113229A1 CN 2017090487 W CN2017090487 W CN 2017090487W WO 2018113229 A1 WO2018113229 A1 WO 2018113229A1
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WIPO (PCT)
Prior art keywords
water
air
condenser
purifying
controller
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PCT/CN2017/090487
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French (fr)
Chinese (zh)
Inventor
吴达镕
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吴达镕
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Publication of WO2018113229A1 publication Critical patent/WO2018113229A1/en

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    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03BINSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
    • E03B3/00Methods or installations for obtaining or collecting drinking water or tap water
    • E03B3/28Methods or installations for obtaining or collecting drinking water or tap water from humid air

Definitions

  • the present invention relates to air condensation water production, and more particularly to an air purification purification water machine.
  • Freshwater resources that are relatively easy to use by humans are mainly from rivers, lakes and shallow groundwater. Freshwater resources are not only in short supply, but also have serious pollution and uneven regional distribution, even where electricity and energy are abundant. Clean water resources are still relatively lacking and need to be energy-saving and protected. Water resources have become valuable resources for human beings. Water resources issues have become a major strategy related to national economic and social sustainable development and long-term stability.
  • the invention of the application No. 2016105944757 discloses an air purification condensing water system including at least one water making device including a fuselage, a raw water tank and a refrigeration system, the refrigeration system including an evaporator and a first a condenser, the evaporator is arranged on the side of the fuselage; the raw water tank is arranged at the bottom of the fuselage, below the evaporator, the first condenser is arranged at the top of the fuselage; the outside air enters the machine through the evaporator located on the side of the fuselage In the middle of the body, it is discharged through the first condenser from the air outlet at the top of the fuselage.
  • the invention can obtain pure drinking water at a reasonable cost in a place with energy and electric power, and can solve the problem of drinking water difficulty in a remote and arid area lacking water source.
  • the problem with the invention is that for an air purification and purifying water machine used indoors, the first condensation The heat generated by the device returns to the room, which will increase the temperature in the room. In addition, when the inlet air temperature is low, it will affect the water production of the air purification and purification machine.
  • the technical problem to be solved by the present invention is to provide an air purification and purifying water machine capable of increasing the water production amount by utilizing the waste heat of the condenser.
  • the technical solution adopted by the present invention is an air purification and purification water machine, which comprises a casing, a water system, a refrigeration system and a control circuit, and the refrigeration system includes a first evaporator, a fan, a compressor and a first condenser, the casing includes an air inlet and an air outlet, and a raw water tank of the water system is disposed at a lower portion of the casing, below the first evaporator, the refrigeration system includes a second condenser, and the second condenser The first condenser is connected in parallel, and the second condenser is arranged between the air inlet and the first evaporator; the external air enters from the air inlet, passes through the second condenser, passes through the first evaporator, and then passes through the first condenser.
  • the air outlet is discharged;
  • the control circuit includes a controller, a first electronically controlled valve, a temperature sensor, and a humidity sensor; the first electronically controlled valve is disposed at an inlet of the second condenser, and the temperature sensor and the humidity sensor are disposed at the second condenser and In the air passage between the evaporators; the control end of the first electrically controlled valve, the output of the first electrically controlled valve temperature sensor and the output of the humidity sensor Connect to the controller separately.
  • the controller when the temperature data fed back by the temperature sensor is lower than the set temperature value, and the humidity data fed back by the humidity sensor is higher than the set humidity value, the controller is first
  • the electric control valve uses the waste heat of the second condenser to preheat the intake air; the lower the feedback temperature data, the higher the feedback humidity data, the greater the twist of the first electric control valve
  • the control circuit comprises a fan driving circuit, a compressor driving circuit and a first water level sensor, the first water level sensor is located in the raw water tank; the output end of the first water level sensor, the first The control end of the electric control valve, the control end of the fan drive circuit and the control end of the compressor drive circuit are respectively connected to the controller; the fan drive circuit and the compressor drive circuit each include a frequency converter.
  • the water system includes a water pump, a water filter device, and a water purification tank
  • the refrigeration system includes a second evaporator; the air inlet and the air outlet are located in a middle portion of the side panel of the casing, and the water purification tank is located at an upper portion of the casing; the water inlet of the water pump is connected to the original water tank, and the water outlet is connected to the water purification tank through the water filtering device; The second evaporator is placed in the water purification tank in series with the first evaporator.
  • the control circuit comprises a second electric control valve, a bypass valve, a water purifying tank temperature sensor and a second water level sensor, the second water level sensor is located in the water purifying tank, the second The electric control valve is arranged at the inlet of the second evaporator, the bypass valve is connected in parallel with the second evaporator, the control end of the second electric control valve, the control end of the bypass valve, the output end of the water purification cylinder temperature sensor and the second The output of the water level sensor is respectively connected to the controller; the controller controls the twist of the second electronically controlled valve and the bypass valve according to the temperature in the clean water tank, the water level and the water level in the raw water tank.
  • the air purifying and purifying water machine described above comprises an air cleaner and an negative ion purifier, and the air cleaner is arranged at the air inlet, and comprises a gauze, a PP fiber filter, an activated carbon air filter, which are sequentially connected in series. And an electrostatic air filter; the negative ion purifier is disposed between the air cleaner and the second condenser, and the control terminal of the negative ion purifier is terminated.
  • the water making system comprises a primary activated carbon filter, a water receiving tray and a PP fiber filtering system, and the primary activated carbon filter, the water receiving tray and the PP fiber filtering system are arranged first in the first step. Between the evaporator and the raw water tank.
  • the water filtering device comprises a PP fiber filter, an activated carbon filter, a magnetized filter, an RO water treatment device and a UV sterilization system, a PP fiber filter, an activated carbon filter,
  • the magnetized filter, the RO water treatment device and the UV sterilization system are connected in series; the inlet of the PP fiber filter is connected to the raw water tank through a water pump, and the outlet of the UV sterilization system is connected to the clean water tank.
  • the above air purifying and purifying water machine comprises a first electromagnetic valve and a second electromagnetic valve, wherein the raw water tank is connected to the water inlet of the water pump through the first electromagnetic valve, and the lower part of the water purification water tank is connected to the water pump through the second electromagnetic valve.
  • the air purifying and purifying water machine described above including an induction hob and a ferromagnetic material, is made of electromagnetic a heated, movable electric kettle, the lower part of the water purification tank includes an outlet pipe, and the outlet pipe is provided with a drain valve; the front panel of the casing includes a water intake chamber; and the nozzle of the outlet pipe extends into the front panel of the casing
  • the induction cooker is installed at the bottom of the water intake chamber and located below the nozzle;
  • the control circuit includes a relay and a Hall sensor, and the induction cooker is connected to the power supply through the relay;
  • the Hall sensor is mounted on the side wall of the water intake chamber, the Hall sensor
  • the output terminals and relay control terminals are connected to the controller.
  • the air purifying and purifying water machine described above, the fan driving circuit and the compressor driving circuit each include a frequency converter.
  • the present invention utilizes a second condenser to heat the intake air, which can increase the amount of water produced, and can reduce the amount of heat discharged into the room.
  • FIG. 1 is a schematic structural view of an air purifying and purifying water machine according to an embodiment of the present invention.
  • FIG. 2 is a schematic view of a refrigeration system and a hot and cold water system according to an embodiment of the present invention.
  • FIG. 3 is a block diagram showing the structure of a water filtering device according to an embodiment of the present invention.
  • FIG. 1 to FIG. 3 The structure of the air purification and purifying water machine of the embodiment of the present invention is as shown in FIG. 1 to FIG. 3, and includes a casing 1, a raw water tank 2, a high pressure water pump 3, a water purification tank 4, a refrigeration system and a control circuit.
  • the casing 1 includes an air inlet 101 and an air outlet 102, and the air inlet 101 and the air outlet 102 are located at the middle of the opposite side plates of the casing 1.
  • the air cleaner 5 is disposed on the air inlet 101, and includes a gauze, a PP fiber filter, an activated carbon air filter 36, and an electrostatic air filter in order from the outside to the inside.
  • the refrigeration system includes a first evaporator 6, a second evaporator 7, a fan 8, a compressor 9, a first condenser 10, and a second condenser 11.
  • the second condenser 11 is connected in parallel with the first condenser 10, the second evaporator 7 and the first evaporator
  • the bypass valve is connected in parallel with the second evaporator.
  • the second condenser 11 is disposed between the air inlet 101 and the first evaporator 6. The outside air enters from the air inlet 101, passes through the second condenser 11 and then passes through the first evaporator 6, and then is discharged from the air outlet 102 through the first condenser 10.
  • the control circuit includes a controller (microcomputer system), a fan drive circuit, a compressor drive circuit, a first electronically controlled valve, and a second electronically controlled valve.
  • the power source of the fan drive circuit and the power source of the compressor drive circuit each include a frequency converter.
  • the temperature sensor 12 and the humidity sensor 13 are disposed in an air passage between the second condenser 11 and the first evaporator 6.
  • the output of the first water level sensor, the output of the second water level sensor, the output of the water purification cylinder temperature sensor, the output of the temperature sensor 12, and the output of the humidity sensor 13 are respectively connected to the controller.
  • the control end of the wind turbine drive circuit and the control end of the compressor drive circuit are respectively connected to the controller.
  • a first electrically controlled valve is disposed at an inlet of the second condenser 11, and a second electrically controlled valve is disposed at an inlet of the second evaporator 7; a control end of the first electrically controlled valve, a second electrically controlled valve The control end and the control end of the bypass valve are respectively connected to the controller.
  • the bypass valve, the first control valve, and the second control valve are electric regulating valves.
  • the raw water tank 2 is disposed at a lower portion of the casing 1,
  • the water receiving tray 17 is placed below the first evaporator 6, and the water droplets condensed by the first evaporator 6 are collected by the water receiving tray, and the water outlet of the water receiving tray is connected to the raw water tank 2 through the filter.
  • the first water level sensor is located in the raw water tank 2.
  • the water purification tank 4 is located at an upper portion of the casing 1.
  • the water inlet of the high pressure water pump 3 is connected to the original water tank 2 through the first electromagnetic valve 20, and the water outlet of the high pressure water pump 3 is connected to the water purification tank 4 through the water filter device 19, and the second evaporator 7 and the second water level sensor are placed in the water purification tank 4
  • the water outlet of the bottom of the water purification tank 4 is connected to the inlet of the water filter device 19 through the second electromagnetic valve 21, and the control end of the first electromagnetic valve 20 and the control end of the second electromagnetic valve 21 are connected to the controller.
  • the water filtering device 19 includes a PP fiber filter, an activated carbon filter, a magnetized filter, an RO water treatment device, and a UV sterilization system, a PP fiber filter, an activated carbon filter, a magnetized filter, The RO water treatment device and the UV sterilization system are connected in series; the inlet of the PP fiber filter is connected to the raw water tank through a water pump, and the outlet of the UV sterilization system is connected to the clean water tank.
  • the second water level sensor in the water purification tank 4 transmits the water level signal of the water purification tank to the controller, and when the water level in the water purification tank drops to the lowest water level, the controller smashes the first electromagnetic valve 20 and the high pressure water pump 3 , the original water pump in the raw water tank 2 is sent to the clean water tank 4, when the water level in the clean water tank 4 rises to the highest water level, the controller is turned off.
  • the first solenoid valve 20 and the high pressure water pump 3 stop pumping water to the water purification cylinder 4 and start counting.
  • the controller smashes the second electromagnetic valve 21 and the high pressure water pump 3 to filter out the water stored in the water purification tank. Bacteria, complete a live water cycle. After each filter sterilization cycle is completed, the controller begins to recalculate and prepare for the next live water cycle.
  • the water purification filter sterilization system can periodically and automatically filter and sterilize the water stored in the water purification tank to ensure that the drinking water has good water quality, is fresh and delicious, and satisfies the drinking requirements.
  • the negative ion purifier 15 is disposed between the air cleaner 5 and the second condenser 11, and the control of the negative ion purifier is terminated to the controller.
  • the temperature sensor 12 and the humidity sensor 13 transmit the temperature and humidity data to the controller, the controller issues a command according to the temperature and humidity data, the first electric control valve is closed, and the second condenser 11 preheats the air by using the residual heat. .
  • the first evaporator 6 decomposes and depletes trace substances in the air, and the produced water passes through the primary activated carbon filter 16, and isolates and decomposes the decomposed trace substances.
  • the collected water is collected by the water receiving tray 17, and then passed through the activated carbon and the PP fiber filtration system 18 to absorb the odor in the water to the raw water tank 2.
  • the controller slams the first electronically controlled valve, using the second condensation
  • the waste heat of the device preheats the incoming air; the lower the temperature data of the feedback, the higher the feedback humidity data, the greater the twist of the first electronically controlled valve, which can reduce the waste heat to the indoors and affect the indoor temperature rise. It also prevents cold air from entering the evaporator, freezing/frosting, and defrosting the evaporator to increase the amount of water produced.
  • the controller adjusts the rotation speed of the fan 8 and the rotation speed of the compressor 9 according to the temperature data fed back by the temperature sensor and the humidity data fed back by the humidity sensor; the frequency converter of the fan 8 controls the rotation speed of the fan 8 and the amount of exhaust air according to a command issued by the controller.
  • the inverter of compressor 9 operates according to the instructions issued by the controller to increase the dew point range and system.
  • the water source in the raw water tank 2 is pressurized to the water filter device 19 by the high pressure water pump 3, and the water source is purified and sterilized, and then pumped to the water purification tank 4, and the first water level sensor in the raw water tank 2 feeds back the water level data to the controller. , Control the high pressure water pump 3 ⁇ /OFF, the UV sterilization system in the original water tank 2 is ⁇ /OFF according to the controller's command.
  • the water level sensor 4 water level sensor and the temperature sensor feed back the water level data and the temperature data to the controller, and the second evaporator 7 in the water purification tank 4 issues a command to the second electric control valve according to the controller. Refrigeration work, .
  • the lower part of the water purification tank has a water outlet pipe for the cold water, and the nozzle of the discharge pipe with the discharge valve and the outlet pipe extends into the water intake chamber of the front panel of the casing.
  • the induction hob is mounted at the bottom of the water intake chamber below the nozzle.
  • the induction hob is connected to the power source through a relay.
  • the Hall sensor is mounted on the side wall of the water intake chamber.
  • the water purifier water level sensor output terminal, the output port of the water purifying tank temperature sensor, the output end of the Hall sensor and the control terminating controller of the relay, the control panel is installed on the upper part of the front panel of the casing, and is electrically connected to the controller.
  • the movable electric kettle is made of a ferromagnetic material, placed on an induction hob, and heated by an induction hob.
  • the user needs hot water, puts the electric kettle on the electromagnetic oven plate in the water intake chamber of the front panel of the casing, slams the drain valve, and adds the water in the water purification tank to the electric kettle, and the amount of water added is controlled by the user. .
  • the electric kettle is placed on the electric hob, triggering the Hall sensor, the Hall sensor sends a signal to the controller, the controller slams the relay of the electromagnet plate, and the induction hob heats the electric kettle. After the water in the electric kettle is burned, the user removes the electric kettle, and the Hall sensor sends a signal to the controller again, and the controller turns off the induction hob. Electric kettle After using the chamber for a while, the user can clean the electric kettle by himself.
  • the user sets the cold water temperature (4. C to 12, c) in the clean water tank on the control panel on the casing.
  • the controller calculates how much remaining cold energy can be cooled or Pre-cooling the water in the clean water tank does not affect the water production and the most efficient use of cold energy.
  • the control valve controls the refrigerant to enter the second evaporator according to the instruction of the controller.
  • the controller controls the temperature of the electric control valve according to the water quantity and water temperature fed back by the water level sensor and the temperature sensor in the water purification tank (0%, 50%, 75%). And 100%), the refrigerant enters the water in the second evaporator cooling water purification tank through the electric regulating valve.
  • the temperature sensor in the water purification tank detects that the water temperature reaches the set temperature ⁇ , the data is fed back to the controller, and the electric control valve is closed by the controller.
  • the condenser of the air inlet can reduce the waste heat into the room, affect the indoor temperature increase, and increase the water production amount; use the controller to calculate the inlet air temperature and the humidity control wind speed. , to make the evaporator work in an optimal state, to increase the water production; the air filter separates the air The impurities are isolated to make the produced water more pure, reduce the amount of work that the downstream water purification system needs to filter due to impurities entering the water system, thereby increasing the service life of the filter and reducing the operating cost.

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  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Water Treatment By Sorption (AREA)
  • Vaporization, Distillation, Condensation, Sublimation, And Cold Traps (AREA)
  • Physical Water Treatments (AREA)

Abstract

Disclosed is an air-purifying pure water generator, comprising a housing (1), a water generation system, a refrigeration system and a control circuit, wherein the refrigeration system comprises a first evaporator (6), a fan (8), a compressor (9), a first condenser (10) and a second condenser (11), the housing (1) comprises an air inlet (101) and an air outlet (102), the second condenser (11) and the first condenser (10) are connected in parallel, and the second condenser (11) is arranged between the air inlet (101) and the first evaporator (6); external air enters through the air inlet (101), firstly passes through the second condenser (11), then through the first evaporator (6), and finally passes through the first condenser (10) and is discharged from the air outlet (102); the control circuit comprises a controller, a first electrically controlled valve, a temperature sensor (12) and a humidity sensor (13); the first electrically controlled valve is arranged at an inlet of the second condenser (11), and a control end of the first electrically controlled valve, an output end of the first electrically controlled valve temperature sensor (12) and an output end of the humidity sensor (13) are respectively connected to the controller. The use of the second condenser (11) to heat intake air can increase the amount of water generated while reducing the heat discharged indoors.

Description

发明名称:一种空气净化提纯制水机  Title of the invention: an air purification and purification water machine
技术领域  Technical field
[0001] 本发明涉及空气冷凝制水, 尤其涉及一种空气净化提纯制水机。  [0001] The present invention relates to air condensation water production, and more particularly to an air purification purification water machine.
背景技术  Background technique
[0002] 目前人类比较容易利用的淡水资源, 主要来自河流、 湖泊及浅层地下水, 淡水 资源在大量使用下不仅短缺, 加上污染严重而且地区分布极不平衡, 即使电和 能源都充沛的地方, 清洁的水资源仍然相对缺乏和需要节能和保护, 水资源已 经为成人类宝贵的资源, 水资源问题更成为关系到国家经济、 社会可持续发展 和长治久安的重大战略。  [0002] Freshwater resources that are relatively easy to use by humans are mainly from rivers, lakes and shallow groundwater. Freshwater resources are not only in short supply, but also have serious pollution and uneven regional distribution, even where electricity and energy are abundant. Clean water resources are still relatively lacking and need to be energy-saving and protected. Water resources have become valuable resources for human beings. Water resources issues have become a major strategy related to national economic and social sustainable development and long-term stability.
[0003] 在一些极难获得清洁及缺乏水源的偏远干旱贫困地区, 难以铺设长距离供水的 长输管线提供饮用水, 或不计算运输成本通过运输工具往返运送饮用水, 或安 装大型净水系统, 安全用水成本变得非常高昂; 除用水成本高昂外, 也可能因 长距离的输送或运送, 导致水质的变化或二级污染, 使人们无法直接安全饮用  [0003] In remote and impoverished areas where access to cleanliness and lack of water is extremely difficult, it is difficult to lay long-distance water supply to provide drinking water, or to calculate transportation costs by transporting drinking water to and from vehicles, or to install large water purification systems. The cost of safe water has become very high; in addition to the high cost of water, it may also be caused by long-distance transportation or transportation, resulting in changes in water quality or secondary pollution, making it impossible for people to drink directly and safely.
[0004] 另外, 人们日常饮用水的个人需求量不一定巨大 (按照不同地区、 不同的气候 及不同的环境需求量不同), 但其卫生、 清洁、 无菌、 无毒害的要求则较高, 如 何在有能源及电力的地方, 在合理的成本下制造清纯饮水, 是迫切需要解决的 重大问题。 [0004] In addition, the personal demand for daily drinking water is not necessarily large (according to different regions, different climates, and different environmental requirements), but its requirements for hygiene, cleanliness, sterility, and non-toxicity are high. How to make pure drinking water at a reasonable cost in places with energy and electricity is a major problem that needs to be solved urgently.
[0005] 申请号为 2016105944757的发明公幵了一种空气提纯冷凝制水系统, 包括至少 一台制水装置, 制水装置包括机身、 原水缸和制冷系统, 制冷系统包括蒸发器 和第一冷凝器, 蒸发器布置在机身的侧面; 原水缸布置在机身的底部,位于蒸发 器的下方, 第一冷凝器布置在机身的顶部; 外部空气通过位于机身侧面的蒸发 器进入机身中部, 再经过第一冷凝器从机身顶部的出风口排出。 本发明能够在 有能源及电力的地方, 在合理的成本下获取清纯的饮用水, 可以为缺乏水源的 偏远干旱地区解决饮用水困难的问题。  [0005] The invention of the application No. 2016105944757 discloses an air purification condensing water system including at least one water making device including a fuselage, a raw water tank and a refrigeration system, the refrigeration system including an evaporator and a first a condenser, the evaporator is arranged on the side of the fuselage; the raw water tank is arranged at the bottom of the fuselage, below the evaporator, the first condenser is arranged at the top of the fuselage; the outside air enters the machine through the evaporator located on the side of the fuselage In the middle of the body, it is discharged through the first condenser from the air outlet at the top of the fuselage. The invention can obtain pure drinking water at a reasonable cost in a place with energy and electric power, and can solve the problem of drinking water difficulty in a remote and arid area lacking water source.
[0006] 该发明存在的问题是, 对于在室内使用的空气净化提纯制水机来说, 第一冷凝 器产生的热量回到室内, 会使室内的温度升高; 另外当进风温度较低吋, 会影 响空气净化提纯制水机的制水量。 [0006] The problem with the invention is that for an air purification and purifying water machine used indoors, the first condensation The heat generated by the device returns to the room, which will increase the temperature in the room. In addition, when the inlet air temperature is low, it will affect the water production of the air purification and purification machine.
技术问题  technical problem
问题的解决方案  Problem solution
技术解决方案  Technical solution
[0007] 本发明要解决的技术问题是提供一种能利用冷凝器废热增加制水量的空气净化 提纯制水机。  [0007] The technical problem to be solved by the present invention is to provide an air purification and purifying water machine capable of increasing the water production amount by utilizing the waste heat of the condenser.
[0008] 为了解决上述技术问题, 本发明采用的技术方案是, 一种空气净化提纯制水机 , 包括机壳、 制水系统、 制冷系统和控制电路, 制冷系统包括第一蒸发器、 风 机、 压缩机和第一冷凝器, 机壳包括进风口和出风口, 制水系统的原水缸布置 在机壳下部,位于第一蒸发器的下方, 制冷系统包括第二冷凝器, 第二冷凝器与 第一冷凝器并联, 第二冷凝器布置进风口与第一蒸发器之间; 外部空气从进风 口进入, 先经过第第二冷凝器后再通过第一蒸发器, 然后经第一冷凝器从出风 口排出; 控制电路包括控制器、 第一电控阀、 温度传感器和湿度传感器; 第一 电控阀布置在第二冷凝器的入口处, 温度传感器和湿度传感器布置在第二冷凝 器与第一蒸发器之间的风道中; 第一电控阀的控制端、 第一电控阀温度传感器 的输出端和湿度传感器的输出端分别接控制器。  [0008] In order to solve the above technical problem, the technical solution adopted by the present invention is an air purification and purification water machine, which comprises a casing, a water system, a refrigeration system and a control circuit, and the refrigeration system includes a first evaporator, a fan, a compressor and a first condenser, the casing includes an air inlet and an air outlet, and a raw water tank of the water system is disposed at a lower portion of the casing, below the first evaporator, the refrigeration system includes a second condenser, and the second condenser The first condenser is connected in parallel, and the second condenser is arranged between the air inlet and the first evaporator; the external air enters from the air inlet, passes through the second condenser, passes through the first evaporator, and then passes through the first condenser. The air outlet is discharged; the control circuit includes a controller, a first electronically controlled valve, a temperature sensor, and a humidity sensor; the first electronically controlled valve is disposed at an inlet of the second condenser, and the temperature sensor and the humidity sensor are disposed at the second condenser and In the air passage between the evaporators; the control end of the first electrically controlled valve, the output of the first electrically controlled valve temperature sensor and the output of the humidity sensor Connect to the controller separately.
[0009] 以上所述的空气净化提纯制水机, 当温度传感器反馈的温度数据低于设定的温 度值、 湿度传感器反馈的湿度数据高于设定的湿度值吋, 控制器打幵第一电控 阀, 利用第二冷凝器的废热对进风进行预热; 反馈的温度数据越低、 反馈的湿 度数据越高, 第一电控阀的幵度越大 [0009] The air purifying and purifying water machine described above, when the temperature data fed back by the temperature sensor is lower than the set temperature value, and the humidity data fed back by the humidity sensor is higher than the set humidity value, the controller is first The electric control valve uses the waste heat of the second condenser to preheat the intake air; the lower the feedback temperature data, the higher the feedback humidity data, the greater the twist of the first electric control valve
[0010] 以上所述的空气净化提纯制水机, 控制电路包括风机驱动电路、 压缩机驱动电 路和第一水位传感器, 第一水位传感器位于原水缸中; 第一水位传感器的输出 端、 第一电控阀的控制端、 风机驱动电路的控制端和压缩机驱动电路的控制端 分别接控制器; 风机驱动电路和压缩机驱动电路各包括变频器。 [0010] The above air purifying and purifying water machine, the control circuit comprises a fan driving circuit, a compressor driving circuit and a first water level sensor, the first water level sensor is located in the raw water tank; the output end of the first water level sensor, the first The control end of the electric control valve, the control end of the fan drive circuit and the control end of the compressor drive circuit are respectively connected to the controller; the fan drive circuit and the compressor drive circuit each include a frequency converter.
[0011] 以上所述的空气净化提纯制水机, 制水系统包括水泵、 水质过滤装置和净水缸 [0011] The air purification and purifying water machine described above, the water system includes a water pump, a water filter device, and a water purification tank
, 制冷系统包括第二蒸发器; 进风口和出风口位于机壳侧板的中部, 净水缸位 于机壳的上部; 水泵的进水口接原水缸, 出水口通过水质过滤装置接净水缸; 第二蒸发器置于净水缸中, 与第一蒸发器串联。 The refrigeration system includes a second evaporator; the air inlet and the air outlet are located in a middle portion of the side panel of the casing, and the water purification tank is located at an upper portion of the casing; the water inlet of the water pump is connected to the original water tank, and the water outlet is connected to the water purification tank through the water filtering device; The second evaporator is placed in the water purification tank in series with the first evaporator.
[0012] 以上所述的空气净化提纯制水机, 控制电路包括第二电控阀、 旁通阀、 净水缸 温度传感器和第二水位传感器, 第二水位传感器位于净水缸中, 第二电控阀布 置在第二蒸发器的入口处, 旁通阀与第二蒸发器并联, 第二电控阀的控制端、 旁通阀的控制端、 净水缸温度传感器的输出端和第二水位传感器的输出端分别 接控制器; 控制器根据净水缸中的温度、 水位和原水缸中的水位, 控制第二电 控阀和旁通阀的幵度。 [0012] The above air purifying and purifying water machine, the control circuit comprises a second electric control valve, a bypass valve, a water purifying tank temperature sensor and a second water level sensor, the second water level sensor is located in the water purifying tank, the second The electric control valve is arranged at the inlet of the second evaporator, the bypass valve is connected in parallel with the second evaporator, the control end of the second electric control valve, the control end of the bypass valve, the output end of the water purification cylinder temperature sensor and the second The output of the water level sensor is respectively connected to the controller; the controller controls the twist of the second electronically controlled valve and the bypass valve according to the temperature in the clean water tank, the water level and the water level in the raw water tank.
[0013] 以上所述的空气净化提纯制水机, 包括空气滤清器和负离子净化器, 空气滤清 器布置在进风口, 包括依次串接的纱网、 PP纤维过滤网、 活性炭空气过滤网和 静电空气过滤网; 负离子净化器布置在空气滤清器与第二冷凝器之间, 负离子 净化器的控制端接控制器。  [0013] The air purifying and purifying water machine described above comprises an air cleaner and an negative ion purifier, and the air cleaner is arranged at the air inlet, and comprises a gauze, a PP fiber filter, an activated carbon air filter, which are sequentially connected in series. And an electrostatic air filter; the negative ion purifier is disposed between the air cleaner and the second condenser, and the control terminal of the negative ion purifier is terminated.
[0014] 以上所述的空气净化提纯制水机, 制水系统包括初级活性炭过滤网、 接水盘和 PP纤维过滤系统, 初级活性炭过滤网、 接水盘和 PP纤维过滤系统依次布置在第 一蒸发器与原水缸之间。  [0014] The air purifying and purifying water machine described above, the water making system comprises a primary activated carbon filter, a water receiving tray and a PP fiber filtering system, and the primary activated carbon filter, the water receiving tray and the PP fiber filtering system are arranged first in the first step. Between the evaporator and the raw water tank.
[0015] 以上所述的空气净化提纯制水机, 水质过滤装置包括 PP纤维过滤器、 活性炭过 滤器、 磁化过滤器、 RO水处理装置和 UV灭菌系统, PP纤维过滤器、 活性炭过滤 器、 磁化过滤器、 RO水处理装置和 UV灭菌系统依次串接; PP纤维过滤器的入口 通过水泵接原水缸, UV灭菌系统的出口接净水缸。  [0015] The air purifying and purifying water machine described above, the water filtering device comprises a PP fiber filter, an activated carbon filter, a magnetized filter, an RO water treatment device and a UV sterilization system, a PP fiber filter, an activated carbon filter, The magnetized filter, the RO water treatment device and the UV sterilization system are connected in series; the inlet of the PP fiber filter is connected to the raw water tank through a water pump, and the outlet of the UV sterilization system is connected to the clean water tank.
[0016] 以上所述的空气净化提纯制水机, 包括第一电磁阀和第二电磁阀, 原水缸通过 第一电磁阀接水泵的进水口, 净水缸的下部通过第二电磁阀接水泵的进水口; 第一电磁阀的控制端和第二电磁阀的控制端接控制器; 当净水缸中的水位下降 到最低水位吋, 控制器打幵第一电磁阀和水泵, 将原水缸中的原水泵到净水缸 中, 当当净水缸中的水位上升到最高水位吋, 控制器关闭第一电磁阀和高压水 泵, 停止向净水缸泵水, 并幵始计吋; 在设定的吋间段内, 净水缸中的水位还 没有下降到最低水位吋, 控制器打幵第二电磁阀和高压水泵, 对净水缸中存储 的水进行过滤灭菌, 完成一次活水循环; 每次过滤灭菌循环完成后, 控制器幵 始重新计吋, 准备下一次的活水循环。  [0016] The above air purifying and purifying water machine comprises a first electromagnetic valve and a second electromagnetic valve, wherein the raw water tank is connected to the water inlet of the water pump through the first electromagnetic valve, and the lower part of the water purification water tank is connected to the water pump through the second electromagnetic valve. The water inlet; the control end of the first solenoid valve and the control terminal of the second solenoid valve; when the water level in the water purification tank drops to the lowest water level, the controller slams the first solenoid valve and the water pump, and the raw water tank In the original water pump to the water purification tank, when the water level in the water purification tank rises to the highest water level, the controller closes the first solenoid valve and the high pressure water pump, stops pumping water to the water purification cylinder, and starts counting; In the fixed section, the water level in the water purification tank has not dropped to the lowest water level. The controller smashes the second solenoid valve and the high pressure water pump to filter and sterilize the water stored in the water purification tank to complete a live water cycle. After each filter sterilization cycle is completed, the controller begins to recalculate and prepare for the next live water cycle.
[0017] 以上所述的空气净化提纯制水机, 包括电磁炉盘和用铁磁材料制作的、 由电磁 炉盘加热的、 可移动的电热壶, 净水缸的下部包括出水管, 出水管装有放水阀 ; 机壳的前面板包括取水腔; 出水管的管口伸入到机壳前面板的取水腔中; 电 磁炉盘安装在取水腔的底部, 位于管口的下方; 控制电路包括继电器和霍尔传 感器, 电磁炉盘通过继电器接电源; 霍尔传感器安装在取水腔的侧壁上, 霍尔 传感器的输出端和继电器的控制端接控制器。 以上所述的空气净化提纯制水机 , 风机驱动电路和压缩机驱动电路各包括变频器。 [0017] The air purifying and purifying water machine described above, including an induction hob and a ferromagnetic material, is made of electromagnetic a heated, movable electric kettle, the lower part of the water purification tank includes an outlet pipe, and the outlet pipe is provided with a drain valve; the front panel of the casing includes a water intake chamber; and the nozzle of the outlet pipe extends into the front panel of the casing The induction cooker is installed at the bottom of the water intake chamber and located below the nozzle; the control circuit includes a relay and a Hall sensor, and the induction cooker is connected to the power supply through the relay; the Hall sensor is mounted on the side wall of the water intake chamber, the Hall sensor The output terminals and relay control terminals are connected to the controller. The air purifying and purifying water machine described above, the fan driving circuit and the compressor driving circuit each include a frequency converter.
发明的有益效果  Advantageous effects of the invention
有益效果  Beneficial effect
[0018] 本发明利用第二冷凝器对进风加热, 可以增加制水量, 同吋可以减少排到室内 的热量。  [0018] The present invention utilizes a second condenser to heat the intake air, which can increase the amount of water produced, and can reduce the amount of heat discharged into the room.
对附图的简要说明  Brief description of the drawing
附图说明  DRAWINGS
[0019] 下面结合附图和具体实施方式对本发明作进一步详细的说明。  [0019] The present invention will be further described in detail below in conjunction with the drawings and specific embodiments.
[0020] 图 1是本发明实施例空气净化提纯制水机的结构示意图。 1 is a schematic structural view of an air purifying and purifying water machine according to an embodiment of the present invention.
[0021] 图 2是本发明实施例制冷系统和冷热水系统的示意图。 2 is a schematic view of a refrigeration system and a hot and cold water system according to an embodiment of the present invention.
[0022] 图 3是本发明实施例水质过滤装置的结构框图。 3 is a block diagram showing the structure of a water filtering device according to an embodiment of the present invention.
本发明的实施方式 Embodiments of the invention
[0023] 本发明实施例空气净化提纯制水机的结构如图 1至图 3所示, 包括机壳 1、 原水 缸 2、 高压水泵 3、 净水缸 4、 制冷系统和控制电路。  [0023] The structure of the air purification and purifying water machine of the embodiment of the present invention is as shown in FIG. 1 to FIG. 3, and includes a casing 1, a raw water tank 2, a high pressure water pump 3, a water purification tank 4, a refrigeration system and a control circuit.
[0024] 机壳 1包括进风口 101和出风口 102, 进风口 101和出风口 102位于机壳 1两相对侧 板的中部。 [0024] The casing 1 includes an air inlet 101 and an air outlet 102, and the air inlet 101 and the air outlet 102 are located at the middle of the opposite side plates of the casing 1.
[0025] 空气滤清器 5布置在进风口 101上, 由外向内依次包括纱网、 PP纤维过滤网、 活 性炭空气过滤网 36和静电空气过滤网。  [0025] The air cleaner 5 is disposed on the air inlet 101, and includes a gauze, a PP fiber filter, an activated carbon air filter 36, and an electrostatic air filter in order from the outside to the inside.
[0026] 制冷系统包括第一蒸发器 6、 第二蒸发器 7、 风机 8、 压缩机 9、 第一冷凝器 10和 第二冷凝器 11。 第二冷凝器 11与第一冷凝器 10并联, 第二蒸发器 7与第一蒸发器The refrigeration system includes a first evaporator 6, a second evaporator 7, a fan 8, a compressor 9, a first condenser 10, and a second condenser 11. The second condenser 11 is connected in parallel with the first condenser 10, the second evaporator 7 and the first evaporator
6串联, 旁通阀与第二蒸发器并联。 [0027] 第二冷凝器 11布置进风口 101与第一蒸发器 6之间。 外部空气从进风口 101进入 , 先经过第第二冷凝器 11后再通过第一蒸发器 6, 然后经第一冷凝器 10从出风口 102排出。 6 series, the bypass valve is connected in parallel with the second evaporator. [0027] The second condenser 11 is disposed between the air inlet 101 and the first evaporator 6. The outside air enters from the air inlet 101, passes through the second condenser 11 and then passes through the first evaporator 6, and then is discharged from the air outlet 102 through the first condenser 10.
[0028] 控制电路包括控制器 (微电脑系统) 、 风机驱动电路、 压缩机驱动电路、 第一 电控阀, 第二电控阀。 第一水位传感器、 第二水位传感器、 净水缸温度传感器 、 温度传感器 12和湿度传感器 13。 风机驱动电路的电源和压缩机驱动电路的电 源各包括变频器。  [0028] The control circuit includes a controller (microcomputer system), a fan drive circuit, a compressor drive circuit, a first electronically controlled valve, and a second electronically controlled valve. The first water level sensor, the second water level sensor, the water purification cylinder temperature sensor, the temperature sensor 12, and the humidity sensor 13. The power source of the fan drive circuit and the power source of the compressor drive circuit each include a frequency converter.
[0029] 温度传感器 12和湿度传感器 13布置在第二冷凝器 11与第一蒸发器 6之间的风道 中。 第一水位传感器的输出端、 第二水位传感器的输出端、 净水缸温度传感器 的输出端、 温度传感器 12的输出端和湿度传感器 13的输出端分别接控制器。 风 机驱动电路的控制端和压缩机驱动电路的控制端分别接控制器。  [0029] The temperature sensor 12 and the humidity sensor 13 are disposed in an air passage between the second condenser 11 and the first evaporator 6. The output of the first water level sensor, the output of the second water level sensor, the output of the water purification cylinder temperature sensor, the output of the temperature sensor 12, and the output of the humidity sensor 13 are respectively connected to the controller. The control end of the wind turbine drive circuit and the control end of the compressor drive circuit are respectively connected to the controller.
[0030] 第一电控阀布置在第二冷凝器 11的入口处, 第二电控阀布置在第二蒸发器 7的 入口处; 第一电控阀的控制端、 第二电控阀的控制端和旁通阀的控制端分别接 控制器。 旁通阀、 第一控制阀和第二控制阀是电动调节阀。  [0030] a first electrically controlled valve is disposed at an inlet of the second condenser 11, and a second electrically controlled valve is disposed at an inlet of the second evaporator 7; a control end of the first electrically controlled valve, a second electrically controlled valve The control end and the control end of the bypass valve are respectively connected to the controller. The bypass valve, the first control valve, and the second control valve are electric regulating valves.
[0031] 原水缸 2布置在机壳 1的下部,  [0031] The raw water tank 2 is disposed at a lower portion of the casing 1,
接水盘 17放置在第一蒸发器 6的下方、 第一蒸发器 6冷凝的水滴由接水盘收集, 接水盘的出水口通过过滤器接原水缸 2。 第一水位传感器位于原水缸 2中。  The water receiving tray 17 is placed below the first evaporator 6, and the water droplets condensed by the first evaporator 6 are collected by the water receiving tray, and the water outlet of the water receiving tray is connected to the raw water tank 2 through the filter. The first water level sensor is located in the raw water tank 2.
[0032] 净水缸 4位于机壳 1的上部。 高压水泵 3的进水口通过第一电磁阀 20接原水缸 2, 高压水泵 3的出水口通过水质过滤装置 19接净水缸 4, 第二蒸发器 7和第二水位传 感器置于净水缸 4中; 净水缸 4底部的出水口通过第二电磁阀 21接水质过滤装置 1 9的入口, 第一电磁阀 20的控制端和第二电磁阀 21的控制端接控制器。  [0032] The water purification tank 4 is located at an upper portion of the casing 1. The water inlet of the high pressure water pump 3 is connected to the original water tank 2 through the first electromagnetic valve 20, and the water outlet of the high pressure water pump 3 is connected to the water purification tank 4 through the water filter device 19, and the second evaporator 7 and the second water level sensor are placed in the water purification tank 4 The water outlet of the bottom of the water purification tank 4 is connected to the inlet of the water filter device 19 through the second electromagnetic valve 21, and the control end of the first electromagnetic valve 20 and the control end of the second electromagnetic valve 21 are connected to the controller.
[0033] 如图 3所示, 水质过滤装置 19包括 PP纤维过滤器、 活性炭过滤器、 磁化过滤器 、 RO水处理装置和 UV灭菌系统, PP纤维过滤器、 活性炭过滤器、 磁化过滤器、 RO水处理装置和 UV灭菌系统依次串接; PP纤维过滤器的入口通过水泵接原水缸 , UV灭菌系统的出口接净水缸。  [0033] As shown in FIG. 3, the water filtering device 19 includes a PP fiber filter, an activated carbon filter, a magnetized filter, an RO water treatment device, and a UV sterilization system, a PP fiber filter, an activated carbon filter, a magnetized filter, The RO water treatment device and the UV sterilization system are connected in series; the inlet of the PP fiber filter is connected to the raw water tank through a water pump, and the outlet of the UV sterilization system is connected to the clean water tank.
[0034] 净水缸 4中第二水位传感器将净水缸的水位信号传送给控制器, 当净水缸中的 水位下降到最低水位吋, 控制器打幵第一电磁阀 20和高压水泵 3, 将原水缸 2中 的原水泵到净水缸 4中, 当当净水缸 4中的水位上升到最高水位吋, 控制器关闭 第一电磁阀 20和高压水泵 3, 停止向净水缸 4泵水, 并幵始计吋。 当在设定的吋 间段内, 净水缸 4中的水位还没有下降到最低水位吋, 控制器打幵第二电磁阀 21 和高压水泵 3, 对净水缸中存储的水进行过滤灭菌, 完成一次活水循环。 每次过 滤灭菌循环完成后, 控制器幵始重新计吋, 准备下一次的活水循环。 [0034] The second water level sensor in the water purification tank 4 transmits the water level signal of the water purification tank to the controller, and when the water level in the water purification tank drops to the lowest water level, the controller smashes the first electromagnetic valve 20 and the high pressure water pump 3 , the original water pump in the raw water tank 2 is sent to the clean water tank 4, when the water level in the clean water tank 4 rises to the highest water level, the controller is turned off. The first solenoid valve 20 and the high pressure water pump 3 stop pumping water to the water purification cylinder 4 and start counting. When the water level in the water purification tank 4 has not dropped to the lowest water level in the set interval, the controller smashes the second electromagnetic valve 21 and the high pressure water pump 3 to filter out the water stored in the water purification tank. Bacteria, complete a live water cycle. After each filter sterilization cycle is completed, the controller begins to recalculate and prepare for the next live water cycle.
[0035] 这样, 净水过滤灭菌系统能够定期、 自动地对净水缸中的存水进行过滤和灭菌 , 保证饮用水的水质良好, 新鲜可口, 满足饮用的要求。  [0035] In this way, the water purification filter sterilization system can periodically and automatically filter and sterilize the water stored in the water purification tank to ensure that the drinking water has good water quality, is fresh and delicious, and satisfies the drinking requirements.
[0036] 负离子净化器 15布置在空气滤清器 5与第二冷凝器 11之间, 负离子净化器的控 制端接控制器。  [0036] The negative ion purifier 15 is disposed between the air cleaner 5 and the second condenser 11, and the control of the negative ion purifier is terminated to the controller.
[0037] 空气通过进风口 101进入, 通过空气滤清器 5的可清洗纱网、 隔离较大的尘埃, 再过 PP纤维过滤网、 把较小的尘埃隔离, 再通过活性炭空气过滤网、 把空气中 的异味吸收及分解有害物质, 再过一层静电空气过滤网、 把剩余的微麈隔离, 利用负离子净化器、 再次清洁及净化空气。  [0037] The air enters through the air inlet 101, passes through the cleanable gauze of the air filter 5, isolates the larger dust, passes through the PP fiber filter, separates the smaller dust, and then passes the activated carbon air filter, The odor in the air absorbs and decomposes harmful substances, and then passes through a layer of electrostatic air filter to isolate the remaining micro-caries, and uses an anion purifier to clean and purify the air again.
[0038] 温度传感器 12和湿度传感器 13将温度和湿度数据传递给控制器, 控制器根据温 度和湿度数据发出指令幵启幵关闭第一电控阀, 第二冷凝器 11利用余热对空气 预热。  [0038] The temperature sensor 12 and the humidity sensor 13 transmit the temperature and humidity data to the controller, the controller issues a command according to the temperature and humidity data, the first electric control valve is closed, and the second condenser 11 preheats the air by using the residual heat. .
[0039] 当净化后的空气进入第一蒸发器 6, 第一蒸发器 6把空气中的微量物质分解及制 水, 制出来的水通过初级活性炭过滤网 16、 把分解出来的微量物质隔离过滤, 通过接水盘 17、 把过滤后的水收集后再通过活性炭、 PP纤维过滤系统 18、 把水 中的异味吸收再到原水缸 2。  [0039] When the purified air enters the first evaporator 6, the first evaporator 6 decomposes and depletes trace substances in the air, and the produced water passes through the primary activated carbon filter 16, and isolates and decomposes the decomposed trace substances. The collected water is collected by the water receiving tray 17, and then passed through the activated carbon and the PP fiber filtration system 18 to absorb the odor in the water to the raw water tank 2.
[0040] 当温度传感器 12反馈的进风的温度数据低于 5°C、 湿度传感器 13反馈的进风的 湿度数据高于 35%吋, 控制器打幵第一电控阀, 利用第二冷凝器的废热对进风进 行预热; 反馈的温度数据越低、 反馈的湿度数据越高, 第一电控阀的幵度越大 , 既可减小废热排到室内, 影响室内温度升高, 又可防止冷空气进入蒸发器吋 结冰 /霜, 蒸发器停机除霜, 可以增加制水量。  [0040] When the temperature data of the incoming air fed back by the temperature sensor 12 is lower than 5 ° C, and the humidity data of the incoming air fed back by the humidity sensor 13 is higher than 35%, the controller slams the first electronically controlled valve, using the second condensation The waste heat of the device preheats the incoming air; the lower the temperature data of the feedback, the higher the feedback humidity data, the greater the twist of the first electronically controlled valve, which can reduce the waste heat to the indoors and affect the indoor temperature rise. It also prevents cold air from entering the evaporator, freezing/frosting, and defrosting the evaporator to increase the amount of water produced.
[0041] 控制器根据温度传感器反馈的温度数据和湿度传感器反馈的湿度数据调整风机 8的转速和压缩机 9的转速; 风机 8的变频器按控制器发出的指令控制风机 8转速 及抽风量。 压缩机 9的变频器按控制器所发出的指令工作, 以增加露点范围及制 [0042] 原水缸 2中的水源通过高压水泵 3加压至水质过滤装置 19, 把水源净化灭菌后泵 到净水缸 4, 原水缸 2内的第一水位传感器把水位数据回馈给控制器, 控制高压 水泵 3幵 /关, 原水缸 2内的 UV灭菌系统按控制器发出指令定吋幵 /关。 [0041] The controller adjusts the rotation speed of the fan 8 and the rotation speed of the compressor 9 according to the temperature data fed back by the temperature sensor and the humidity data fed back by the humidity sensor; the frequency converter of the fan 8 controls the rotation speed of the fan 8 and the amount of exhaust air according to a command issued by the controller. The inverter of compressor 9 operates according to the instructions issued by the controller to increase the dew point range and system. [0042] The water source in the raw water tank 2 is pressurized to the water filter device 19 by the high pressure water pump 3, and the water source is purified and sterilized, and then pumped to the water purification tank 4, and the first water level sensor in the raw water tank 2 feeds back the water level data to the controller. , Control the high pressure water pump 3幵/OFF, the UV sterilization system in the original water tank 2 is 吋幵/OFF according to the controller's command.
[0043] 净水缸 4水位传感器及温度传感器、 把水位数据和温度数据回馈给控制器, 净 水缸 4中的第二蒸发器 7按控制器发出指令幵 /关第二电控阀, 进行制冷工作, 。  [0043] The water level sensor 4 water level sensor and the temperature sensor feed back the water level data and the temperature data to the controller, and the second evaporator 7 in the water purification tank 4 issues a command to the second electric control valve according to the controller. Refrigeration work, .
[0044] 机壳前面板的中部有取水腔。 如图 2所示, 净水缸的下部有冷水的出水管, 出 水管上装有放水阀、 出水管的管口伸入到机壳前面板的取水腔中。 电磁炉盘安 装在取水腔的底部, 位于管口的下方。  [0044] There is a water intake cavity in the middle of the front panel of the casing. As shown in Fig. 2, the lower part of the water purification tank has a water outlet pipe for the cold water, and the nozzle of the discharge pipe with the discharge valve and the outlet pipe extends into the water intake chamber of the front panel of the casing. The induction hob is mounted at the bottom of the water intake chamber below the nozzle.
[0045] 电磁炉盘通过继电器接电源。 霍尔传感器安装在取水腔的侧壁上。 净水缸水位 传感器的输出端、 净水缸温度传感器的输出端、 霍尔传感器的输出端和继电器 的控制端接控制器, 控制屏安装在机壳前面板的上部, 与控制器电连接。  [0045] The induction hob is connected to the power source through a relay. The Hall sensor is mounted on the side wall of the water intake chamber. The water purifier water level sensor output terminal, the output port of the water purifying tank temperature sensor, the output end of the Hall sensor and the control terminating controller of the relay, the control panel is installed on the upper part of the front panel of the casing, and is electrically connected to the controller.
[0046] 可移动的电热壶用用铁磁材料制作的、 放在电磁炉盘上, 由电磁炉盘加热。  [0046] The movable electric kettle is made of a ferromagnetic material, placed on an induction hob, and heated by an induction hob.
[0047] 用户需要热水吋, 将电热壶放到机壳前面板取水腔中的电磁炉盘上, 打幵放水 阀, 将净水缸中的水加入到电热壶中, 加入的水量由用户掌握。 电热壶放到电 磁炉盘上吋, 触发霍尔传感器, 霍尔传感器向控制器发出信号, 控制器打幵电 磁炉盘的继电器, 电磁炉盘对电热壶进行加热。 电热壶中的水烧幵后, 用户取 下电热壶, 霍尔传感器再次向控制器发出信号, 控制器关闭电磁炉盘。 电热壶 使用一段吋间后, 用户可以自行清洁电热壶。  [0047] The user needs hot water, puts the electric kettle on the electromagnetic oven plate in the water intake chamber of the front panel of the casing, slams the drain valve, and adds the water in the water purification tank to the electric kettle, and the amount of water added is controlled by the user. . The electric kettle is placed on the electric hob, triggering the Hall sensor, the Hall sensor sends a signal to the controller, the controller slams the relay of the electromagnet plate, and the induction hob heats the electric kettle. After the water in the electric kettle is burned, the user removes the electric kettle, and the Hall sensor sends a signal to the controller again, and the controller turns off the induction hob. Electric kettle After using the chamber for a while, the user can clean the electric kettle by himself.
[0048] 用户在机壳上的控制屏上设置净水缸中的冷水温度( 4。C至 12。c ), 设置了制 冷水的温度后, 控制器计算有多少余下的冷能可以制冷或预冷净水缸的水, 既 不影响制水又可最有效地使用冷能。 控制阀按控制器的指令控制冷媒进入第二 蒸发器, 控制器是根据净水缸中水位传感器和温度传感器回馈的水量和水温, 控制电动调节阀的幵度 (0%、 50%、 75%及 100%), 冷媒便通过电动调节阀进入 第二蒸发器冷却净水缸中的水。 当净水缸中的温度传感器检测水温到达设定温 度吋, 回馈数据给控制器, 由控制器关闭电动调节阀。  [0048] The user sets the cold water temperature (4. C to 12, c) in the clean water tank on the control panel on the casing. After setting the temperature of the cooling water, the controller calculates how much remaining cold energy can be cooled or Pre-cooling the water in the clean water tank does not affect the water production and the most efficient use of cold energy. The control valve controls the refrigerant to enter the second evaporator according to the instruction of the controller. The controller controls the temperature of the electric control valve according to the water quantity and water temperature fed back by the water level sensor and the temperature sensor in the water purification tank (0%, 50%, 75%). And 100%), the refrigerant enters the water in the second evaporator cooling water purification tank through the electric regulating valve. When the temperature sensor in the water purification tank detects that the water temperature reaches the set temperature 吋, the data is fed back to the controller, and the electric control valve is closed by the controller.
[0049] 本发明以上实施例还有以下有益效果: 入风口的冷凝器既可减小废热进入室内 , 影响室内温度升高, 又可增加制水量; 利用控制器计算入风温度、 湿度控制 风速, 使蒸发器在最佳的状态下工作, 提高制水量; 空气滤清器把空气分离出 来的杂质隔离, 使制出来的水更纯净, 减少下游制水净化系统因杂质进入水系 统而要过滤的工作量, 从而增加过滤器的使用寿命, 降低运作成本。 [0049] The above embodiments of the present invention have the following beneficial effects: The condenser of the air inlet can reduce the waste heat into the room, affect the indoor temperature increase, and increase the water production amount; use the controller to calculate the inlet air temperature and the humidity control wind speed. , to make the evaporator work in an optimal state, to increase the water production; the air filter separates the air The impurities are isolated to make the produced water more pure, reduce the amount of work that the downstream water purification system needs to filter due to impurities entering the water system, thereby increasing the service life of the filter and reducing the operating cost.

Claims

权利要求书 Claim
[权利要求 1] 一种空气净化提纯制水机, 包括机壳、 制水系统、 制冷系统和控制电 路, 制冷系统包括第一蒸发器、 风机、 压缩机和第一冷凝器, 机壳包 括进风口和出风口, 制水系统的原水缸布置在机壳下部,位于第一蒸 发器的下方, 其特征在于, 制冷系统包括第二冷凝器, 第二冷凝器与 第一冷凝器并联, 第二冷凝器布置进风口与第一蒸发器之间; 外部空 气从进风口进入, 先经过第第二冷凝器后再通过第一蒸发器, 然后经 第一冷凝器从出风口排出; 控制电路包括控制器、 第一电控阀、 温度 传感器和湿度传感器; 第一电控阀布置在第二冷凝器的入口处, 温度 传感器和湿度传感器布置在第二冷凝器与第一蒸发器之间的风道中; 第一电控阀的控制端、 第一电控阀温度传感器的输出端和湿度传感器 的输出端分别接控制器。  [Claim 1] An air purification and purification water machine comprising a casing, a water system, a refrigeration system, and a control circuit, the refrigeration system including a first evaporator, a fan, a compressor, and a first condenser, the casing including the The tuyere and the air outlet, the raw water tank of the water making system is arranged in the lower part of the casing, below the first evaporator, characterized in that the refrigeration system comprises a second condenser, and the second condenser is connected in parallel with the first condenser, the second The condenser is arranged between the air inlet and the first evaporator; the external air enters from the air inlet, passes through the second condenser, passes through the first evaporator, and then is discharged from the air outlet through the first condenser; the control circuit includes control a first electronically controlled valve, a temperature sensor and a humidity sensor; a first electrically controlled valve is disposed at the inlet of the second condenser, and the temperature sensor and the humidity sensor are disposed in the air passage between the second condenser and the first evaporator The control end of the first electric control valve, the output end of the first electric control valve temperature sensor and the output end of the humidity sensor are respectively connected to the controller.
[权利要求 2] 根据权利要求 1所述的空气净化提纯制水机, 其特征在于, 当温度传 感器反馈的温度数据低于设定的温度值、 湿度传感器反馈的湿度数据 高于设定的湿度值吋, 控制器打幵第一电控阀, 利用第二冷凝器的废 热对进风进行预热; 反馈的温度数据越低、 反馈的湿度数据越高, 第 一电控阀的幵度越大。  [Claim 2] The air purifying and purifying water machine according to claim 1, wherein when the temperature data fed back by the temperature sensor is lower than the set temperature value, and the humidity data fed back by the humidity sensor is higher than the set humidity The value 吋, the controller slams the first electric control valve, and uses the waste heat of the second condenser to preheat the intake air; the lower the feedback temperature data, the higher the feedback humidity data, the more the first electric control valve has a greater degree of humidity Big.
[权利要求 3] 根据权利要求 1所述的空气净化提纯制水机, 其特征在于, 控制电路 包括风机驱动电路、 压缩机驱动电路和第一水位传感器, 第一水位传 感器位于原水缸中; 第一水位传感器的输出端、 第一电控阀的控制端 、 风机驱动电路的控制端和压缩机驱动电路的控制端分别接控制器; 风机驱动电路和压缩机驱动电路各包括变频器; 控制器根据温度传感 器反馈的温度数据和湿度传感器反馈的湿度数据调整风机的转速和压 缩机的转速。  [Claim 3] The air purifying and purifying water machine according to claim 1, wherein the control circuit comprises a fan driving circuit, a compressor driving circuit and a first water level sensor, wherein the first water level sensor is located in the raw water tank; The output end of the water level sensor, the control end of the first electric control valve, the control end of the fan drive circuit and the control end of the compressor drive circuit are respectively connected to the controller; the fan drive circuit and the compressor drive circuit each include a frequency converter; The fan speed and the compressor speed are adjusted based on the temperature data fed back by the temperature sensor and the humidity data fed back by the humidity sensor.
[权利要求 4] 根据权利要求 3所述的空气净化提纯制水机, 其特征在于, 制水系统 包括水泵、 水质过滤装置和净水缸, 制冷系统包括第二蒸发器; 进风 口和出风口位于机壳侧板的中部, 净水缸位于机壳的上部; 水泵的进 水口接原水缸, 出水口通过水质过滤装置接净水缸; 第二蒸发器置于 净水缸中, 与第一蒸发器串联。 [Claim 4] The air purifying and purifying water machine according to claim 3, wherein the water making system comprises a water pump, a water filtering device, and a water purifying cylinder, and the refrigerating system includes a second evaporator; an air inlet and an air outlet Located in the middle of the side panel of the casing, the water purification tank is located at the upper part of the casing; the water inlet of the water pump is connected to the original water tank, and the water outlet is connected to the water purification tank through the water filtering device; the second evaporator is placed In the water purification tank, it is connected in series with the first evaporator.
[权利要求 5] 根据权利要求 4所述的空气净化提纯制水机, 其特征在于, 控制电路 包括第二电控阀、 旁通阀、 净水缸温度传感器和第二水位传感器, 第 二水位传感器位于净水缸中, 第二电控阀布置在第二蒸发器的入口处 , 旁通阀与第二蒸发器并联, 第二电控阀的控制端、 旁通阀的控制端 、 净水缸温度传感器的输出端和第二水位传感器的输出端分别接控制 器; 控制器根据净水缸中的温度、 水位和原水缸中的水位, 控制第二 电控阀和旁通阀的幵度。  [Claim 5] The air purifying and purifying water machine according to claim 4, wherein the control circuit comprises a second electric control valve, a bypass valve, a water purification cylinder temperature sensor, and a second water level sensor, and the second water level The sensor is located in the water purification tank, the second electric control valve is arranged at the inlet of the second evaporator, the bypass valve is connected in parallel with the second evaporator, the control end of the second electric control valve, the control end of the bypass valve, the purified water The output end of the cylinder temperature sensor and the output end of the second water level sensor are respectively connected to the controller; the controller controls the twist of the second electric control valve and the bypass valve according to the temperature in the clean water tank, the water level and the water level in the raw water tank .
[权利要求 6] 根据权利要求 1所述的空气净化提纯制水机, 其特征在于, 包括空气 滤清器和负离子净化器, 空气滤清器布置在进风口, 包括依次串接的 纱网、 PP纤维过滤网、 活性炭空气过滤网和静电空气过滤网; 负离 子净化器布置在空气滤清器与第二冷凝器之间, 负离子净化器的控制 端接控制器。  [Claim 6] The air purifying and purifying water machine according to claim 1, comprising an air cleaner and an negative ion purifier, wherein the air cleaner is disposed at the air inlet, and includes a gauze which is sequentially connected in series, PP fiber filter, activated carbon air filter and electrostatic air filter; The negative ion purifier is arranged between the air filter and the second condenser, and the control terminal of the negative ion purifier is connected to the controller.
[权利要求 7] 根据权利要求 5所述的空气净化提纯制水机, 其特征在于, 制水系统 包括初级活性炭过滤网、 接水盘和 PP纤维过滤系统, 初级活性炭过 滤网、 接水盘和 PP纤维过滤系统依次布置在第一蒸发器与原水缸之 间。  [Claim 7] The air purifying and purifying water machine according to claim 5, wherein the water making system comprises a primary activated carbon filter, a water receiving tray and a PP fiber filtering system, a primary activated carbon filter, a water receiving tray, and The PP fiber filtration system is sequentially disposed between the first evaporator and the raw water tank.
[权利要求 8] 根据权利要求 4所述的空气净化提纯制水机, 其特征在于, 水质过滤 装置包括 PP纤维过滤器、 活性炭过滤器、 磁化过滤器、 RO水处理装 置和 UV灭菌系统, PP纤维过滤器、 活性炭过滤器、 磁化过滤器、 RO 水处理装置和 UV灭菌系统依次串接; PP纤维过滤器的入口通过水泵 接原水缸, UV灭菌系统的出口接净水缸。  [Claim 8] The air purifying and purifying water machine according to claim 4, wherein the water filtering device comprises a PP fiber filter, an activated carbon filter, a magnetizing filter, an RO water treatment device, and a UV sterilization system. The PP fiber filter, the activated carbon filter, the magnetized filter, the RO water treatment device and the UV sterilization system are connected in series; the inlet of the PP fiber filter is connected to the raw water tank through a water pump, and the outlet of the UV sterilization system is connected to the clean water tank.
[权利要求 9] 根据权利要求 4所述的空气净化提纯制水机, 其特征在于, 包括第一 电磁阀和第二电磁阀, 原水缸通过第一电磁阀接水泵的进水口, 净水 缸的下部通过第二电磁阀接水泵的进水口; 第一电磁阀的控制端和第 二电磁阀的控制端接控制器; 当净水缸中的水位下降到最低水位吋, 控制器打幵第一电磁阀和水泵, 将原水缸中的原水泵到净水缸中, 当 当净水缸中的水位上升到最高水位吋, 控制器关闭第一电磁阀和高压 水泵, 停止向净水缸泵水, 并幵始计吋; 在设定的吋间段内, 净水缸 中的水位还没有下降到最低水位吋, 控制器打幵第二电磁阀和高压水 泵, 对净水缸中存储的水进行过滤灭菌, 完成一次活水循环; 每次过 滤灭菌循环完成后, 控制器幵始重新计吋, 准备下一次的活水循环。 [Claim 9] The air purifying and purifying water machine according to claim 4, comprising: a first electromagnetic valve and a second electromagnetic valve, wherein the raw water tank is connected to the water inlet of the water pump through the first electromagnetic valve, the water purifying cylinder The lower part is connected to the water inlet of the water pump through the second electromagnetic valve; the control end of the first electromagnetic valve and the control end of the second electromagnetic valve are connected to the controller; when the water level in the clean water tank drops to the lowest water level, the controller slams the first A solenoid valve and a water pump, the original water pump in the raw water tank is sent to the water purification tank, and when the water level in the water purification tank rises to the highest water level, the controller closes the first electromagnetic valve and the high pressure The water pump stops pumping water to the clean water tank and starts counting; in the set interval, the water level in the water purification tank has not dropped to the lowest water level, the controller slams the second solenoid valve and the high pressure water pump Filtering and sterilizing the water stored in the water purification tank to complete a live water cycle; after each filter sterilization cycle is completed, the controller begins to re-calculate and prepare for the next live water cycle.
[权利要求 10] 根据权利要求 4所述的空气净化提纯制水机, 其特征在于, 包括电磁 炉盘和用铁磁材料制作的、 由电磁炉盘加热的、 可移动的电热壶, 净 水缸的下部包括出水管, 出水管装有放水阀; 机壳的前面板包括取水 腔; 出水管的管口伸入到机壳前面板的取水腔中; 电磁炉盘安装在取 水腔的底部, 位于管口的下方; 控制电路包括继电器和霍尔传感器, 电磁炉盘通过继电器接电源; 霍尔传感器安装在取水腔的侧壁上, 霍 尔传感器的输出端和继电器的控制端接控制器。 [Claim 10] The air purifying and purifying water machine according to claim 4, comprising: an induction hob and a movable electric kettle made of a ferromagnetic material and heated by an induction hob, a water purification tank The lower part includes an outlet pipe, and the outlet pipe is provided with a drain valve; the front panel of the casing includes a water intake chamber; the nozzle of the outlet pipe extends into the water intake cavity of the front panel of the casing; the induction cooker plate is installed at the bottom of the water intake chamber at the nozzle The control circuit includes a relay and a Hall sensor. The induction hob is connected to the power supply through a relay. The Hall sensor is mounted on the side wall of the water intake chamber, and the output end of the Hall sensor and the control end of the relay are connected to the controller.
PCT/CN2017/090487 2016-12-23 2017-06-28 Air-purifying pure water generator WO2018113229A1 (en)

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Families Citing this family (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN206339018U (en) * 2016-12-23 2017-07-18 吳達鎔 A kind of refrigeration and heating system of air cleaning water-making machine drinking water
CN106812178B (en) * 2016-12-23 2020-05-19 吴达鎔 Air purification water making machine
CN206581333U (en) * 2016-12-23 2017-10-24 吳達鎔 Air cleaning purifies water-making machine
CN206338971U (en) * 2016-12-23 2017-07-18 吳達鎔 A kind of water refrigeration system processed of air cleaning water-making machine
WO2021147155A1 (en) * 2020-01-20 2021-07-29 天泉鼎丰智能科技有限公司 Water circulating air water-making machine
WO2021147153A1 (en) * 2020-01-20 2021-07-29 天泉鼎丰智能科技有限公司 Air water-making machine with secondary water quality filtration
CN111155595A (en) * 2020-01-20 2020-05-15 天泉鼎丰智能科技有限公司 Ultraviolet light sterilization air water generator
WO2021147154A1 (en) * 2020-01-20 2021-07-29 天泉鼎丰智能科技有限公司 Air water-making machine capable of ultraviolet sterilization
CN111119278A (en) * 2020-01-20 2020-05-08 天泉鼎丰智能科技有限公司 Air water generator with circulating water
CN111139893A (en) * 2020-01-20 2020-05-12 天泉鼎丰智能科技有限公司 Air water generator with secondary water quality filtering function

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101821460A (en) * 2007-10-10 2010-09-01 易特耐水晶私人有限公司 Energy saving and environmentally friendly mobile atmospheric dehumidifier for water generator and drinking purposes
CN205145805U (en) * 2015-07-21 2016-04-13 吴达镕 Atmosphere sweet dew conversion system
CN102859083B (en) * 2010-03-24 2016-06-22 Wws公司 Device for extracting water from air and system and apparatus for producing drinking water
CN106088230A (en) * 2016-08-03 2016-11-09 吴乾明 A kind of method and apparatus collecting water from air
WO2016185239A1 (en) * 2015-05-15 2016-11-24 Seas Société De L'eau Aerienne Suisse Sa Water production apparatus for rigorous climates
CN106812178A (en) * 2016-12-23 2017-06-09 吴达鎔 A kind of purification of air purifies water-making machine

Family Cites Families (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5669221A (en) * 1996-04-08 1997-09-23 Worldwide Water, Inc. Portable, potable water recovery and dispensing apparatus
CN201546257U (en) * 2009-06-17 2010-08-11 林文静 Intelligent air drinking water machine
CN101967843A (en) * 2010-09-28 2011-02-09 浙江米利空气制水科技有限公司 Drinking water air-making equipment
CN103790209B (en) * 2014-01-27 2015-04-15 王卫平 Device for preparing drinking water from air
CN105174570A (en) * 2015-08-20 2015-12-23 林松 Machine with integrated functions of producing water from air, dehumidifying, and purifying and operating method thereof
CN105735416B (en) * 2016-04-12 2019-04-02 顾美红 It is a kind of can remote control air cleaning water-making machine
CN205636890U (en) * 2016-05-20 2016-10-12 苏州海派特热能设备有限公司 Condensation substep subcooling water extraction from air device
CN106049610A (en) * 2016-07-26 2016-10-26 吳達鎔 Water-making system through air purification and condensing
CN206368396U (en) * 2016-12-23 2017-08-01 吳達鎔 A kind of air cleaning purifies water-making machine

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101821460A (en) * 2007-10-10 2010-09-01 易特耐水晶私人有限公司 Energy saving and environmentally friendly mobile atmospheric dehumidifier for water generator and drinking purposes
CN102859083B (en) * 2010-03-24 2016-06-22 Wws公司 Device for extracting water from air and system and apparatus for producing drinking water
WO2016185239A1 (en) * 2015-05-15 2016-11-24 Seas Société De L'eau Aerienne Suisse Sa Water production apparatus for rigorous climates
CN205145805U (en) * 2015-07-21 2016-04-13 吴达镕 Atmosphere sweet dew conversion system
CN106088230A (en) * 2016-08-03 2016-11-09 吴乾明 A kind of method and apparatus collecting water from air
CN106812178A (en) * 2016-12-23 2017-06-09 吴达鎔 A kind of purification of air purifies water-making machine

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