KR20190002929U - A control circuit of a host machine for air condensing and purifying water system - Google Patents

Abstract

The invention includes condensing and purifying an air water system including a controller, a human-machine interaction module and a system feed extension, a human-machine interaction module and a wireless communication module for communicating with a control end of a pressure bath outlet outlet solenoid valve. A control circuit of a host machine is disclosed. The wireless communication module is connected to the control unit, respectively, and the condensation purification water production device includes a water quality improving device and a water quality improving device, the water supply device includes a purified water tank, and the water supply device includes a water feed pump and a pressurized device. The water tank and the feed pump water inlet are connected to the purified water tank, the outlet is connected to the pressurized water tank, the water outlet of the pressurized water tank is connected to the purified water supply system water supply extension through the feed solenoid valve, and the output end of the pressurized water tank pressure sensor And control stages of the feed pump drive circuit are respectively controlled.

Description

Control circuit of a host machine for air condensing and purifying water system

The present invention relates to an air condensation and purification water production system, and more particularly to a control circuit for a concentration and purification system host computer.

The air purification condensate system condenses the air through the condenser, collects the stored condensate, sterilizes it several times, and can be used directly as drinking water. Air condensation The condensate system replenishes water through the body to the water tank of the water supply station, to allow the user a continuous supply of drinking water.

The utility model of patent number CN201520599854.6 discloses an atmospheric pressure sensation water purifier. The utility model arranges the casing and the operation panel on the front panel of the casing, a refrigeration system composed of an evaporator, a condenser, a compressor and a fan is disposed in the casing, and a collecting tray is disposed below the evaporator. An air filter is disposed between the collecting tray and the fan, and the collecting tray is connected to the raw water tank. A water level detection device is arranged in the raw water tank, pressurized mercury is connected to the lower part of the raw water tank, and the pressurized mercury outlet is connected to water. A filtration system connected to an outlet of the purified water system, to an ultraviolet sterilizer and an ozone sterilizer installed in the purified water tank, and to a heater and a cooler respectively connected to a bottom of the purified water tank; The valve and damper tube, heater and cooler are each connected to the outlet faucet via a water outlet solenoid valve. The utility model can condense water and provide drinking water directly to the user, but it cannot supply purified water to the water tank of the water barrier and cannot be used as a host for air purification and condensate systems.

The technical problem to be solved by the present invention is to provide a control circuit for the host of the air condensation water purification system that can replenish the purified water in the water tank of the water supply substation.

In order to solve the above technical problem, the technical solution adopted in the present invention includes a controller, a human-machine interaction module, and a wireless communication module in communication with the system water supply extension, the control of the host system for condensing and purifying the water system. Circuit. And the freezing purification and water treatment device comprises the air purification and condensate production device, the water quality optimization device and the water supply device, and the water supply device includes a purified water tank and a water supply device. The inlet of the feedwater pump, including the feedwater pump and pressurized water tank, is connected to the water purification tank, the outlet is connected to the pressurized water tank, the water outlet of the pressurized water tank is connected to the water purification device of the water purification and condensation system through the water supply solenoid valve, and the pressure tank pressure The output of the sensor is connected separately to the controller of the control stage of the water pump drive circuit.

In the control circuit, the human-computer interaction module comprises a touch screen, which is connected to the controller.

The control circuit includes a temperature sensor, a humidity sensor and a cooling fan drive circuit and a refrigeration compressor drive circuit, an output end of the temperature sensor, an output end of the humidity sensor, a control end of the cooling fan drive circuit and a refrigeration compressor drive circuit control termination controller.

The control circuit includes an ultraviolet sterilizer driving circuit of the water quality optimization device, a driving circuit of the ultraviolet sterilizer of the water purification tank, a driving circuit of the ultraviolet sterilizer of the collecting tank, and a driving circuit of the ultraviolet sterilizer of the water quality optimization device. The drive circuit at the end of the ultraviolet sterilizer of the collection tank, the water tank ultraviolet sterilizer and the control stage of the drive circuit are each connected to a controller.

The control circuit includes a heater heating circuit and a cooler refrigeration circuit, wherein the control end of the heater heating circuit and the control end of the cooler refrigeration circuit are respectively connected to a controller, the heater and the cooler respectively comprising a temperature sensor and a heater. The output end of the temperature sensor and the output end of the cooler temperature sensor are respectively connected to the controller, and the heater and the cooler are respectively connected to the user water inlet of the water supply device through the solenoid valve, the control end of the heater solenoid valve and the control end of the cooler solenoid valve.

The control circuit, the air purification and condensate water producing apparatus includes a sump tank and a raw water pump, the inflow tank of the raw water pump is connected to the water, the outlet is connected to the water quality optimization device, and the outlet of the water quality optimization device is connected to the purified water tank. And an output stage of the water tank level sensor and a control stage of the raw water pump drive circuit are respectively connected to the controller, including the purified tank level sensor.

In the above-described control circuit, the controller is communicatively connected with a host apparatus in the system control room.

The control circuit comprises a backup water source solenoid valve, the inlet of the backup water source solenoid valve is connected to the backup water source, the outlet is connected to the water quality optimization device, and the control end of the backup water source solenoid valve is connected to the controller.

The present invention provides a control circuit for a host of an air condensation water purification system, whereby purified water can be replenished in a water tank of a water supply substation.

1 is a front view of a control circuit of a host of a condensation type water purification system according to an embodiment of the present invention.
2 is a plan view of a control circuit of a host of an air icing water purification system according to an embodiment of the present invention.
3 is a front view of the control circuit of the host of the condensate drainage purification system according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments.

Structural principles of the host and control circuitry of an air purification and condensate system of embodiments of the present invention are shown in FIGS. The host includes a housing 20, a water and water treatment system and control circuitry installed within the housing 20. Water and water treatment systems include air purification condensate production units, water quality optimizers, and feedwater units.

The control circuit includes a wireless communication module in communication with a controller, a human-machine interaction module, and a water supply extension. The human-machine interaction module and the wireless communication module are each connected to a controller and the controller is connected to a host of the control room of the system.

The human-machine interaction module is connected to the touch screen 21, the controller is a PLC controller, the touch screen 21 is connected to the controller, the touch screen 21 is disposed on top of the front panel 2001 of the housing 20, The user water inlet 51 of the water supply device has a touch screen 21. Panel 2001 also has a temperature sensor 40 and a humidity sensor 50. The outputs of the temperature sensor 40 and the humidity sensor 50 are connected to a controller, and the fresh air humidity and temperature parameters are fed back to the controller to make a wind speed control or shutdown command of the refrigeration unit.

The air purifying condensation device includes a refrigerating device, a collecting tray 22, a collecting tank 23, and a raw water pump 24. The refrigeration apparatus includes an air filter 25, an evaporator 26, a condenser 27, a compressor 28 and a fan 29, the air filter 25 is disposed on the air inlet of the casing 20, The sump tank 22 is arranged at the bottom of the evaporator 26, the sump tank 23 is disposed at the bottom of the sump tray 22, and the sump tank 23 is connected to the water quality optimization device through the raw water pump 24, The outlet of the water quality optimization device connects the water purification device to the water tank. The air filter 25 includes a filter layer, a fiber fabric layer and an activated carbon mesh layer. The control terminal of the cooling fan drive circuit and the control terminal of the refrigeration compressor drive circuit are connected to the controller. The collection tank 23 is connected to a controller by an ultraviolet sterilizer, a control stage of a water tank ultraviolet sterilizer driving circuit, and a control stage of a raw water pump driving circuit.

In the lower part of the casing 20, a water quality optimization device 39, a collecting tank 23, a raw water pump 24 and a compressor 28 are disposed, an air filter 25, an evaporator 26, a condenser 27 and The fan 29 is arranged in the middle of the housing 20.

The water supply device is disposed above the cabinet 20 and includes a water purification tank 30, a heater 31, a refrigerator 32, a water feed pump 33, and a pressurized tank 34. The feed port of the feed pump 33 is connected to the septic tank 30, and the outlet port is connected to the pressurized water tank 34. The water supply port of the pressurized water tank 34 is connected to the water purification device of the water purification and condensation system through the water supply solenoid valve 36, and the water purification tank 30 is equipped with an ultraviolet sterilization device. Then, the water level sensor, the output of the water level sensor, the control stage of the water tank ultraviolet sterilizer drive circuit, the control stage of the pressure water tank feed solenoid valve 36 and the control stage of the feed water water pump drive circuit are connected to the controller.

The water inlet of the heater 31 and the water inlet of the refrigerator 32 are respectively connected to the purified water tank 30, and the water outlet of the heater 31 and the water outlet of the refrigerator 32 are each water through the water discharge electromagnetic valve. It is connected to the user water inlet of the supply device.

The control end of the heater heating circuit and the control end of the cooler cooling circuit are respectively connected to the controller, the heater and the cooler each comprising a temperature sensor, the output end of the heater temperature sensor and the output end of the cooler temperature sensor are respectively connected to the controller. . The heater and the cooler are respectively connected to the user inlet 51 of the water supply device through the solenoid valve, and the control stages of the heater solenoid valve and the cooler solenoid valve are connected to the controller.

The water quality optimization device 39 includes a primary filtration device, a reverse osmosis purification device, a magnetization device and a secondary filtration device, an acid and alkaline regulator and a UV sterilizer, a primary filter device, a reverse osmosis purification device, a magnetizer, a secondary filter device. It includes. The acid-alkali regulator and UV sterilizer are connected in series, the inlet of the primary filtration unit is connected to the water outlet of the air purification condensing unit, the outlet of the primary UV sterilizer is the water purification tank 30 of the water supply unit Is connected to. The control end of the first UV sterilizer drive control circuit is connected to the controller.

The atmospheric water source interface is connected to the primary filtration device of the water quality optimization device via a backup water source solenoid valve 35. The control end of the atmospheric water source solenoid valve 35 is connected to the controller.

The fan 29 is started according to the instruction, and the adsorbed air passes through the air filter 25 and flows into the refrigeration apparatus. The compressor 20 for the refrigerating device is switched according to the instructions of the controller, and when entering the evaporator 26, water is extracted from the air and collected. The water level sensor in the collection tank 23 sends a high level signal of the collection tank to the controller, which instructs the starting water pump 24 to start. After pumping to the primary filtration system, the reverse osmosis purification system, the magnetizer and the secondary filtration system are used to balance the water quality with the acid alkali adjustment system, and the purified and purified water is finally purified to the purified water through the UV sterilizer. Stored. When the low water level signal in the sump 23 is transmitted to the controller, the controller issues a stop pump command, the raw water pump 24 stops operation, the entire water quality optimizer stops operation, and the UV sterilizer and sump 23 box 30 The UV sterilizer works according to the controller instructions.

The controllers of the heater 31 and the refrigerator 32 operate temperature control commands, and the outlet of the heater 31 and the outlet of the refrigerator 32 are controlled by the controller. The user controls the solenoid valve of the water outlet of the heater 31 and the outlet of the refrigerator 32 via the touch panel 21, and takes cold water or hot water from the user water inlet 51.

The output of the pressure tank pressure sensor is connected to the controller, the pressure parameter in the pressure tank 34 is transmitted to the controller, and if the pressure is lower than the set pressure, the controller gives an instruction to turn on the high pressure water pump 33 and the purified water tank Water is extracted from (30). When the pump reaches the pressurized water tank 34 and the pressure in the pressurized water tank 34 reaches the set pressure, the controller gives an instruction to stop the operation of the high pressure pump 33.

When the water level in the water supply extension tank is lowered, when the controller of the host computer receives the low water level signal of the water supply extension through the wireless communication module, the controller opens the water supply solenoid valve 36 at the outlet of the pressurized water tank 34 to supply the water supply extension. Instruct them to supply water. When the high water level signal of the water supply extension tank reaches the controller through the wireless communication module, the controller instructs the water supply solenoid valve 36 to be closed at the water outlet of the pressurized water tank 34, and the purified water is stopped and transmitted to the water supply extension portion.

If the temperature and humidity are too low to make the water efficient due to weather conditions in other regions (e.g. when the ambient temperature is detected below 5 ° C or the ambient humidity is below 38%), the tap or drinking standards Incompatible water can be used as follows: Atmospheric water source, post-filtration atmospheric water source (external filtration system) and atmospheric water source inlet (28). When the water level of the purified water tank 30 falls to the low water level, the controller instructs to turn on the solenoid valve of the atmospheric water source, the water quality optimizer 39 purifies the water of the atmospheric water source, and purifies the purified water tank 30 as a clean water tank. ) The high water level signal from the purified water tank 30 is transmitted to the controller, and the controller issues a command to close the standby water source solenoid valve and closes the standby water source solenoid valve.

20: housing 21: touch screen
22: sump 23: sump tank
24: raw water pump 25: air filter
26: evaporator 27: condenser
28: compressor 29: fan
30: water purification tank 31: heater
32: refrigerator 33: water supply pump
34: pressurized tank 35: water source solenoid valve
36: water supply solenoid valve 39: water quality optimization device
51: water inlet

Claims (8)

In a control circuit of a host system for condensing and purifying water systems for air purification, including a water purifier, a water quality optimizer, and a water feeder, the controller comprises: a water supply extension, a human-machine interaction module, a pressurized water tank outlet A human-computer interaction module and a wireless communication module in communication with the solenoid valve and the control stage of the wireless communication module are respectively connected to the controller, the feed water device comprising a feed pump, a pressure bath and a feed pump, the water outlet of the feed tank The control circuit is connected to the purified water condensate water supply extension through the feed solenoid valve, the output end of the feed tank pressure sensor and the control end of the feed pump drive circuit are connected to the controller, respectively. The control circuit of claim 1, wherein the human-machine interaction module comprises a touch screen, the touch screen being connected to the controller. 2. The control terminal of claim 1, comprising a temperature sensor, a humidity sensor and a cooling fan drive circuit and a refrigeration compressor drive circuit, the output of the temperature sensor, the output of the humidity sensor and the control end of the cooling fan drive circuit and the control end of the refrigeration compressor drive circuit. Circuit is connected to the controller. The ultraviolet sterilization apparatus according to claim 1, wherein the ultraviolet sterilization driving circuit including the water quality optimization device, the water tank ultraviolet sterilization driving circuit, and the water tank ultraviolet sterilization driving circuit, and a control circuit for controlling the ultraviolet light of the water quality optimization device are ultraviolet sterilizers. The control end of the drive circuit of the control circuit and the control end of the drive circuit of the ultraviolet sterilization apparatus of the collecting tank are respectively connected to the controller. The apparatus of claim 1, further comprising a heater heating circuit and a chiller refrigeration circuit, wherein the control end of the heater heating circuit and the control end of the cooler refrigeration circuit are each connected to the controller, the heater and the cooler temperature sensor including: The output of the heater temperature sensor and the output of the cooler temperature sensor are respectively connected to the controller, the heater and the cooler are respectively connected to the user water inlet of the water supply unit through the solenoid valve, the control end of the heater solenoid valve and the control of the cooling unit solenoid valve A control circuit, each end of which is connected to a controller. The apparatus of claim 1, wherein the air purification and condensate water producing apparatus includes a house modification tank and a raw water pump, the inlet water tank of the raw water pump is connected to the water tank, and the outlet is connected to the water quality optimization device, The discharge port of the water quality optimization device, the purified water tank and the purified water tank includes a water level sensor, and the output terminal of the purified water tank level sensor and the control stage of the raw water pump driving circuit are connected to the controller, respectively. 2. The control circuit of claim 1, wherein the controller is connected to the host in a control room of the system. 2. A control according to claim 1, comprising an atmospheric water source solenoid valve, an inlet of the atmospheric water source solenoid valve connected to an atmospheric water source, an outlet connected to a water quality optimization device, and a control end of the atmospheric water source solenoid valve connected to a controller. Circuit.

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