CN112479474B - Water purification integrated control system and method - Google Patents

Water purification integrated control system and method Download PDF

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Publication number
CN112479474B
CN112479474B CN202011493954.2A CN202011493954A CN112479474B CN 112479474 B CN112479474 B CN 112479474B CN 202011493954 A CN202011493954 A CN 202011493954A CN 112479474 B CN112479474 B CN 112479474B
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Prior art keywords
water
module
purification
quality
purifying
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CN202011493954.2A
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CN112479474A (en
Inventor
郭文文
潘叶江
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Vatti Co Ltd
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Vatti Co Ltd
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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F9/00Multistage treatment of water, waste water or sewage
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J27/00Cooking-vessels
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/44Parts or details or accessories of beverage-making apparatus
    • A47J31/46Dispensing spouts, pumps, drain valves or like liquid transporting devices
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/44Parts or details or accessories of beverage-making apparatus
    • A47J31/54Water boiling vessels in beverage making machines
    • A47J31/56Water boiling vessels in beverage making machines having water-level controls; having temperature controls
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J36/00Parts, details or accessories of cooking-vessels
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/418Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS], computer integrated manufacturing [CIM]
    • G05B19/4183Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS], computer integrated manufacturing [CIM] characterised by data acquisition, e.g. workpiece identification
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/34Treatment of water, waste water, or sewage with mechanical oscillations
    • C02F1/36Treatment of water, waste water, or sewage with mechanical oscillations ultrasonic vibrations
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/44Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis
    • C02F1/441Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis by reverse osmosis
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/48Treatment of water, waste water, or sewage with magnetic or electric fields

Abstract

The invention belongs to the technical field of kitchen electrical equipment, and discloses a water purification integrated control system and a method. The control system comprises a water purifying module, cooking equipment, a water using module and a control module; the water inlet end of the water purifying module is connected with a water source, the water outlet end of the water purifying module is respectively communicated with the water inlet end of the cooking module and the water inlet end of the water consuming module, and the water outlet end of the cooking module and/or the water outlet end of the water consuming module are also connected with the water inlet end of the water purifying module for conveying wastewater back to the water purifying module; the control module controls the water purifying module to work according to the water consumption type of the cooking equipment or the water consumption type of the water consumption module so as to achieve the aim of using the water quality of the water to reach the aim water quality, wherein the aim water quality is the water quality of the water consumption type. The control method is based on the target water quality Q Target object And the initial water quality Q 0 The water purification module is controlled to work so that the actual water quality Q of the used water output by the water purification module reaches the target water quality Q Target object . The invention can ensure that the quality of the used water can meet the target requirement.

Description

Water purification integrated control system and method
Technical Field
The invention belongs to the technical field of kitchen electrical equipment, and particularly relates to a water purification integrated control system and method.
Background
Along with popularization of small household appliances and diversification of functions, the built-in water tank of the cooking equipment cannot meet the demands of people, the cooking equipment is directly connected to tap water without any treatment, the direct cooking by adopting the tap water can influence the physical health of people, the conventional equipment usually adopts a repeated filtering or multi-layer filter membrane filtering mode to filter the tap water, and the filtering effect cannot be ensured.
Disclosure of Invention
The invention provides a water purification integrated control system, which aims to solve the problem that the current water quality can not meet the use requirement.
Another object of the present invention is to provide a water purification integrated control method in combination with the above water purification integrated control system.
The invention is realized by adopting the following scheme:
the invention relates to a water purification integrated control system which comprises a water purification module, cooking equipment, a water consumption module and a control module, wherein the water consumption module is connected with the water purification module;
the water inlet end of the water purification module is connected with a water source, the water outlet end of the water purification module is respectively communicated with the water inlet end of the cooking module and the water inlet end of the water consumption module, and the water outlet end of the cooking module and/or the water outlet end of the water consumption module are also connected with the water inlet end of the water purification module for conveying wastewater back to the water purification module;
The control module controls the water purification module to work according to the water consumption type of the cooking equipment or the water consumption type of the water consumption module so that the water quality of the used water output by the water purification module reaches a target water quality, wherein the target water quality is the water quality of the water consumption type.
The integrated control system for purifying water is further improved in that the integrated control system for purifying water further comprises a water quality detection module, wherein the water quality detection module is arranged on a water flow channel and is electrically connected with the control module for detecting the water quality of a water source, the water quality of wastewater and the water quality of used water;
the control module controls the water quality of the water purifying module to achieve the target water quality according to the water type of the cooking equipment or the water type of the water using module, the water quality of a water source and the water quality of wastewater.
The water purification integrated control system is further improved in that the water quality detection module comprises a first water quality detection unit, a second water quality detection unit and a third water quality detection unit;
the first water quality detection unit is arranged on a water flow passage between the water purification module and the water source and used for detecting the water quality of the water source, the second water quality detection unit is arranged on a waste water path and used for detecting the water quality of waste water flowing back to the water purification module, and the third water quality detection unit is arranged at the water outlet end of the water purification module and used for detecting the water quality of used water.
The integrated control system for water purification of the invention is further improved in that the integrated control system for water purification further comprises a flow detection module, wherein the flow detection unit is arranged on the water flow channel and is electrically connected with the control module for detecting the water quantity of the used water flowing out from the water outlet end of the water purification module, detecting the water quantity of the used water flowing into the cooking equipment and detecting the water quantity of the used water flowing into the water utilization module.
A further improvement of the integrated control system for purifying water of the present invention is that the flow rate detection module includes a first flow rate detection unit, a second flow rate detection unit, and a third flow rate detection unit;
the water purifying device comprises a water purifying module, a water inlet end, a water outlet end, a water inlet end, a water outlet end and a water outlet end, wherein the water outlet end of the water purifying module is arranged in the water inlet end of the water purifying module, the water inlet end of the water purifying module is provided with a first flow detection unit, the water outlet end of the water purifying module is used for detecting the water quantity of the used water flowing into the water consuming module, the water inlet end of the cooking device is provided with a second flow detection unit for detecting the water quantity of the used water flowing into the cooking device, and the water inlet end of the water consuming module is provided with a third flow detection unit.
A further improvement of the integrated control system for purifying water of the present invention is that the water purifying module includes a water purifying unit and a non-water purifying unit; the purification unit is connected in parallel with the non-water purification unit.
The integrated control system for purifying water is further improved in that the water purifying unit comprises an ultrasonic water purifying component, a polarized water purifying component, a filtering water purifying component and a valve body component;
the ultrasonic water purifying assembly, the polarized water purifying assembly and the filtering water purifying assembly are mutually communicated, and water sources and/or wastewater are respectively conveyed to the ultrasonic water purifying assembly, the polarized water purifying assembly and the filtering water purifying assembly through the valve body assembly, and used water purified by the water purifying unit is conveyed to the cooking equipment and/or the water using module.
A further improvement to the integrated control system for water purification of the present invention is that the valve body assembly includes a first valve body, a second valve body, and a third valve body;
the first valve body is arranged at the water inlet end of the ultrasonic water purification assembly, the second valve body is arranged at the water inlet end of the polarized water purification assembly, and the third valve body is arranged at the water inlet end of the filtering water purification assembly;
the water source and/or the wastewater are/is respectively conveyed to the ultrasonic water purifying component through the first valve body, the polarized water purifying component through the second valve body and the filtering water purifying component through the third valve body.
A further improvement to the integrated control system for water purification of the present invention is that the non-water purification unit comprises a fourth valve body through which water source and/or waste water is fed to the cooking device and/or the water usage module.
A further improvement to the integrated control system for water purification of the present invention is that the cooking apparatus includes an evaporator, and the water outlet end of the water purification module is in communication with the evaporator for delivering the use water to the evaporator.
A further improvement to the water purification integrated control system of the present invention is that the cooking apparatus further comprises a first spray head; the first spray head is arranged in the inner container of the cooking equipment, and the water outlet end of the water purifying module is communicated with the first spray head.
The integrated control system for purifying water is further improved in that the cooking equipment further comprises a first heating piece, and the first heating piece is arranged in the inner container of the cooking equipment and used for heating the inner container.
The water purification integrated control system is further improved in that the water use module is a direct drinking device, the cooking device is connected with the direct drinking device, and the first heating piece is used for preheating the direct drinking device.
A further improvement of the water purification integrated control system of the present invention is that the direct drinking water apparatus includes a drinking water part for holding the use water, and a second heating member and a temperature detector; the water drinking part is connected with the cooking equipment, the second heating piece is connected with the water drinking part and used for heating the used water in the water drinking part, and the temperature detector is also connected with the water drinking part and used for detecting the water temperature of the used water in the water drinking part.
The integrated control system for purifying water is further improved in that the water using module is an electrolytic water device, and the electrolytic water device is connected with the cooking equipment and used for conveying electrolytic water to the inner container of the cooking equipment to achieve disinfection.
The integrated control system for water purification is further improved in that the cooking equipment further comprises a second spray head, the second spray head is arranged in the inner container, and the water outlet end of the electrolysis device is communicated with the second spray head and used for spraying electrolyzed water to the inner container to achieve disinfection.
The integrated control system for water purification of the invention is further improved in that the integrated control system for water purification further comprises a water pumping module which is arranged on a water flow channel and is electrically connected with the control module for pumping water source or/and waste water to the water purification module, and for pumping the used water flowing out of the water purification module to the cooking equipment and/or the water utilization module.
The water purification integrated control system is further improved in that the water pumping module comprises a first water pumping unit, a second water pumping unit and a third water pumping unit;
the first water pumping unit is arranged between a water source and a water inlet end of the water purifying module and is used for pumping the water source to the water purifying module; the second water pumping unit is arranged on the wastewater waterway and is used for pumping wastewater to the water purifying module; the third water pumping unit is arranged at the water outlet end of the water purifying module and is used for pumping the used water to the cooking equipment and/or the water using module.
The invention also provides a water purification integrated control method, which comprises the following steps:
the control module determines the target water quality Q according to the water type of the cooking equipment or the water using module Target object
Acquiring initial water quality Q of water inlet end of water purification module 0 According to the target water quality Q Target object And the initial water quality Q 0 Controlling the water purification module to work so that the actual water quality Q of the used water output by the water purification module reaches the target water quality Q Target object
The water purification integrated control method is further improved in that the initial water quality Q of the water inlet end of the water purification module is obtained 0 According to the target water quality Q Target object And the initial water quality Q 0 Controlling the water purification module to work so that the actual water quality Q of the used water output by the water purification module reaches the target water quality Q Target object The method specifically comprises the following steps:
acquiring first water quality Q of water source 1 And second water quality Q of wastewater 2 Calculate the first water quality Q of the water source 1 And the target water quality Q Target object Is the first water quality difference DeltaQ 1 And a second water quality Q of wastewater 2 Q is equal to the target water quality Target object Is a second water quality difference DeltaQ 2
Comparing the first water quality difference DeltaQ 1 Delta Q is the difference from the second water quality 2 Taking a smaller water quality difference value as the initial water quality Q of the water inlet end of the water purifying module 0 Simultaneously, the water source or the wastewater corresponding to the smaller water quality difference value is conveyed to the water purifying module;
controlling the water purification module to work so that the actual water quality Q of the used water output by the water purification module reaches the target water quality Q Target object
A further improvement of the integrated control method for water purification of the present invention is that, before controlling the delivery of wastewater to the water purification module, it further comprises:
judging whether the wastewater amount is not smaller than the water amount required by the cooking equipment or the water using module; if yes, delivering the wastewater to the water purification module; if not, the water source is conveyed to the water purification module.
The integrated control method for water purification is further improved in that the TDS value is adopted to represent the water quality; the water type comprises purified water, mountain spring water, purified water, tap water and polluted water;
the TDS value of the purified water is 0-9; the TDS value of the mountain spring water is 10-60; the TDS value of the purified water is 61-100; the TDS value of the tap water is 101-300; the TDS value of the contaminated water is 301 or more.
The water purification integrated control method is further improved, wherein the working process of the water purification module comprises the following steps:
if the water type is purified water, the water purification module firstly carries out ultrasonic purification on a water source or wastewater for a first time threshold, then carries out filtration and purification for a second time threshold, and finally outputs the used water to the cooking equipment or/and the water purification module;
if the water type is mountain spring water, the water purifying module firstly performs polarization purification on a water source or wastewater for a third time threshold, then filters and purifies a fourth time threshold, and finally outputs the used water to the cooking equipment or/and the water purifying module;
if the water type is purified water, the water purification module firstly carries out ultrasonic purification on a water source or wastewater for a fifth time threshold, secondly carries out polarization purification for a sixth time threshold, and finally outputs the used water to the cooking equipment or/and the water purification module again for filtering purification for a seventh time threshold.
The water purification integrated control method is further improved, and the working process of the water purification module further comprises the following steps:
if the water type is tap water and the TDS value Q of the initial water quality of the water inlet end of the water purification module 0 If the water consumption is greater than 300, filtering and purifying a water source or wastewater for an eighth time threshold, and then outputting the used water to the cooking equipment or/and the water consumption module;
if the water type is tap water and the TDS value Q of the initial water quality of the water inlet end of the water purification module 0 101-300, directly outputting the water source or the wastewater to the cooking equipment or/and the water using module without purifying the water source or the wastewater.
The integrated control method for water purification is further improved in that the time for ultrasonic purification, polarization purification and filtration purification of the water purification module respectively follows the initial water quality Q of the water inlet end of the water purification module 0 Different and varying.
Compared with the prior art, the invention has the beneficial effects that by adopting the scheme, the invention has the following advantages:
in the control system of the invention, because the water source is connected with the water inlet end of the water purifying module, and the water outlet end of the cooking module and/or the water outlet end of the water using module are connected with the water inlet end of the water purifying module, the water supply of the water purifying module can come from the water source and also can come from the cooking equipment and/or the water using module, so that the waste water generated by the cooking equipment and/or the water using module can be reused, and water resources are saved. And because the control module can control the water purification module to work according to the water consumption type of the cooking equipment or the water consumption type of the water consumption module so that the water quality of the used water output by the water purification module reaches the target water quality, the embodiment can also meet the diversified demands of users on the water.
In the control method of the present invention, since the control method of the present embodiment is based on the target water quality Q Target object And the initial water quality Q 0 Controlling the water purifying module to work so that the actual water quality Q of the used water output by the water purifying module reaches the target water quality Q Target object The target water quality is the water quality of the water type of the cooking equipment or the water module, so the embodiment can meet the diversified requirements of users on water.
Drawings
Fig. 1 is a system schematic diagram of a water purification integrated control system provided in embodiment 1 of the present invention;
fig. 2 is a waterway connection diagram of a water purification integrated control system provided in embodiment 1 of the present invention;
FIG. 3 is a diagram showing another waterway connection of the integrated control system for purifying water according to embodiment 1 of the present invention;
fig. 4 is a schematic structural diagram of a cooking device and a water-using module of a water purification integrated control system according to embodiment 1 of the present invention;
fig. 5 is a schematic diagram of another structure of a cooking device and a water consumption module of a water purification integrated control system according to embodiment 1 of the present invention;
fig. 6 is a control flow chart of a water purification integrated control method provided in embodiment 2 of the present invention.
In the figure: 1. a water purifying module; 2. a cooking device; 3. a water module; 4. a control module; 5. a water quality detection module; 6. a flow detection module; 7. a water pumping module; 11. a water purifying unit; 12. a non-water purifying unit; 21. an evaporator; 22. a first nozzle; 23. a first heating member; 24. a second nozzle; 31. a drinking part; 32. a second heating member; 33. a temperature detector; 111. an ultrasonic water purifying component; 112. a polarized water purification assembly; 113. a filtering water purifying component; 114. a valve body assembly; 121. a fourth valve body; 51. a first water quality detection unit; 52. a second water quality detection unit; 53. a third water quality detection unit; 61. a first flow rate detection unit; 62. a second flow rate detection unit; 163. a third flow rate detection unit; 71. a first pumping unit; 72. a second pumping unit; 73. a third pumping unit; 1141. a first valve body; 1142. a second valve body; 1143. and a third valve body.
Detailed Description
In order that the above-recited objects, features and advantages of the present invention will be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.
In the description of the present invention, it should be understood that the directions or positional relationships indicated in the terms "center", "upper", "lower", "front", "rear", "left", "right", "axial", "radial", etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.
Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The meaning of "a plurality of" is two or more, unless specifically defined otherwise.
In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and include, for example, either permanently connected, removably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.
Example 1
As shown in fig. 1-3, the embodiment provides an integrated water inlet control system, which comprises a water purifying module 1, a cooking device 2, a water using module 3 and a control module;
the water inlet end of the water purification module 1 is connected with a water source, the water outlet end of the water purification module 1 is respectively communicated with the water inlet end of the cooking module 2 and the water inlet end of the water consumption module 3, and the water outlet end of the cooking module 2 and/or the water outlet end of the water consumption module 3 are also connected with the water inlet end of the water purification module 1 through a waste water tank for conveying waste water back to the water purification module 1;
the control module 4 controls the water purification module 1 to work according to the water type of the cooking device 2 or the water type of the water module 3 so that the water quality of the used water output by the water purification module 1 reaches a target water quality, wherein the target water quality is the water quality of the water type.
In this embodiment, since not only the water source is connected to the water inlet end of the water purification module 1, but also the water outlet end of the cooking module 2 and/or the water outlet end of the water consumption module 3 are connected to the water inlet end of the water purification module 1, the water supply of the water purification module 1 may be from the water source or from the cooking device 2 and/or the water consumption module 3, so that the waste water generated by the cooking device 2 and/or the water consumption module 3 can be reused, thereby saving water resources. Also, because the control module 4 can control the water purification module 1 to work according to the water type of the cooking apparatus 2 or the water type of the water use module 3 so that the quality of the used water outputted by the water purification module 1 reaches the target water quality, the present embodiment can also satisfy the diversified demands of users for water.
In the present embodiment, the control module 4 is not only capable of receiving data, but also capable of performing calculation based on the received data to control the single chip microcomputer or the like that operates the water purification module 1 and the water use module 3. The control module 4 may be independent of the cooking apparatus 2, the water purifying module 1 and the water using module 3, or may be installed in the cooking apparatus 2, the water purifying module 1 or the water using module 3 as a part of the cooking apparatus 2, the water purifying module 1 or the water using module 3.
In this embodiment, "the water outlet end of the cooking module 2 and/or the water outlet end of the water using module 3 are also connected to the water inlet end of the water purifying module 1 for conveying the waste water back to the water purifying module 1" can be understood in multiple ways, at least including the following two ways.
First kind: as shown in fig. 2, the water outlet end of the cooking module 2 and the water outlet end of the water using module 3 are connected in parallel, and then are conveyed back to the water purifying module 1 through a water conveying pipe.
Second kind: as shown in fig. 3, the water outlet end of the cooking module 2 is conveyed back to the water purifying module 1 through a water conveying pipe; meanwhile, the water outlet end of the water using module 3 is conveyed back to the water purifying module 1 through the other water conveying pipe.
In order to better collect the waste water discharged from the cooking apparatus 2 and the water use module 3, a waste water tank is installed on a waste water flow path between the water outlet end of the cooking apparatus 2 and the water inlet end of the water purification module 1; and a waste water tank is arranged on a waste water flow path between the water outlet end of the reuse water module 3 and the water inlet end of the water purification module 1.
As shown in fig. 2 and 3, in this embodiment, the integrated control system for purifying water further includes a water quality detection module, where the water quality detection module 5 is disposed on the water flow path and is electrically connected to the control module 4 for detecting the water quality of the water source, the water quality of the wastewater, and the water quality of the used water;
The control module 4 controls the water quality of the water purifying module 1 to work according to the water type of the cooking equipment 2 or the water type of the water using module 3, the water quality of the water source and the water quality of the wastewater so as to enable the water quality of the water using module 1 to reach the target water quality.
The water quality detection module 5 includes a first water quality detection unit 51, a second water quality detection unit 52, and a third water quality detection unit 53. The first water quality detection unit 51 is arranged on a water flow path between the water purification module 1 and a water source and is used for detecting the water quality of the water source, the second water quality detection unit 52 is arranged on a wastewater flow path and is used for detecting the water quality of wastewater flowing back to the water purification module 1, and the third water quality detection unit 53 is arranged at the water outlet end of the water purification module 1 and is used for detecting the water quality of used water.
The first water quality detection unit 51 is electrically connected with the control module 4 and is used for feeding back the water quality of the water source to the control module 4, the second water quality detection unit 52 is electrically connected with the control module 4 and is used for feeding back the water quality of the wastewater to the control module 4, and the third water quality detection unit 53 is electrically connected with the control module 4 and is used for feeding back the water quality of the used water to the control module 4;
the control module 4 controls the water purification module 1 to work according to the water type of the cooking device 2 and/or the water type of the water consumption module 3, and the water quality of the water source and the water quality of the wastewater so that the water quality of the water consumption reaches the target water quality.
As shown in fig. 3, in other embodiments, if the water outlet end of the cooking module 2 is returned to the water purification module 1 through one water pipe, and the water outlet end of the water consumption module 3 is returned to the water purification module 1 through another water pipe, the second water quality detection unit 52 includes a first water quality detector 521 and a second water quality detector 522; the first water quality detector 521 is disposed on the waste water path between the water outlet end of the cooking apparatus 2 and the water inlet end of the water purification module 1 for detecting the quality of the waste water flowing out of the cooking apparatus 2; the second water quality detector 522 is provided on the waste water path between the water outlet end of the cooking apparatus 2 and the water inlet end of the water purification module 1 for detecting the quality of the waste water flowing out of the water use module 3.
In the present embodiment, the first water quality detecting unit 51, the second water quality detecting unit 52, and the third water quality detecting unit 53 are preferably TDS detectors.
In this embodiment, as shown in fig. 2 and 3, the integrated control system for water purification further includes a flow detection module 6, where the flow detection unit 6 is disposed on the water flow path and is electrically connected to the control module 4 for detecting the amount of the used water flowing out from the water outlet end of the water purification module 1, detecting the amount of the used water flowing into the cooking device 2, and detecting the amount of the used water flowing into the water module 3.
Wherein the flow rate detection module 6 includes a first flow rate detection unit 61, a second flow rate detection unit 62, and a third flow rate detection unit 63;
the first flow rate detecting unit 61 is provided at the water outlet end of the water purifying module 1 for detecting the amount of the used water, the second flow rate detecting unit 62 is provided at the water inlet end of the cooking apparatus 2 for detecting the amount of the used water flowing into the cooking apparatus 2, and the third flow rate detecting unit 63 is provided at the water inlet end of the water using module 3 for detecting the amount of the used water flowing into the water using module 3.
In the present embodiment, the first flow rate detecting unit 61, the second flow rate detecting unit 62 and the third flow rate detecting unit 63 are all electrically connected with the control module 4, and the second flow rate detecting unit 62 and the third flow rate detecting unit 63 feed back the water amount to the control module 4 in real time to ensure that the water amount of the usage water flowing into the cooking apparatus 2 satisfies the water amount required by the cooking apparatus 2, and ensure that the water amount of the usage water flowing into the water module 3 satisfies the water amount required by the water module 3.
In the present embodiment, the water purification module 1 includes a water purification unit 11 and a non-water purification unit 12; the purification unit 11 is connected in parallel with the non-water purification unit 12. When the cooking apparatus 2 and the water use module 3 need the use water purified by the water purification module 1, the water source or/and the waste water are purified by the water purification unit 11, and finally are delivered to the cooking apparatus 2 and the water use module 3. When the cooking apparatus 2 and the water using module 3 do not require the water purified by the water purifying module 1, a water source or/and waste water flows to the cooking apparatus 2 and the water using module 3 through the non-water purifying unit 12.
In the present embodiment, the water purifying unit 11 includes an ultrasonic water purifying assembly 111, a polarized water purifying assembly 112, a filtered water purifying assembly 113, and a valve body assembly 114;
the ultrasonic water purifying component 111, the polarized water purifying component 112 and the filtered water purifying component 113 are mutually communicated, and water source and/or wastewater are respectively conveyed to the ultrasonic water purifying component 111, the polarized water purifying component 112 and the filtered water purifying component 113 through the valve body component 114, and used water purified by the water purifying unit 11 is conveyed to the cooking equipment 2 and/or the water using module 3.
Wherein the valve body assembly 114 comprises a first valve body 1141, a second valve body 1142, and a third valve body 1143;
the first valve body 1141 is arranged at the water inlet end of the ultrasonic water purifying component 111, the second valve body 1142 is arranged at the water inlet end of the polarized water purifying component 112, and the third valve body 1143 is arranged at the water inlet end of the filtering water purifying component 113;
the water source and/or wastewater is/are respectively delivered to the ultrasonic water purification assembly 111 through a first valve body 1141, to the polarized water purification assembly 112 through a second valve body 1142, and to the filtered water purification assembly 113 through a third valve body 1143.
In the present embodiment, the non-water purification unit 12 includes a fourth valve body 121, and the water source and/or waste water is supplied to the cooking apparatus 2 and/or the water use module 3 through the fourth valve body 121.
If the control module 4 determines that only the ultrasonic water purifying component 111 is needed to purify water according to the water type of the cooking device 2 and/or the water using module 3, at this time, the first valve body 1411 is controlled to be opened, the second valve body 1142 and the third valve body 1143 are controlled to be closed, the fourth valve body 121 is controlled to be closed, the water source and/or the wastewater only enter the ultrasonic water purifying component 111 through the first valve body 1411, after the water is treated in the ultrasonic water purifying component 111 for a period of time, the water purifying module 1 is discharged, and if the quality of the discharged water reaches the target quality, the water is directly transmitted to the cooking device 2 and the water using module 3; if the water quality of the discharged use water does not reach the target water quality, the discharged use water is returned to the ultrasonic water purification assembly 111 again to be subjected to ultrasonic purification again until the water quality of the discharged use water reaches the target water quality.
If the control module 4 determines that only the polarized water purification assembly 112 is needed to purify water according to the water type of the cooking device 2 and/or the water consumption module 3, the second valve body 1142 is controlled to be opened, the first valve body 1141, the third valve body 1143 and the fourth valve body 121 are controlled to be closed at the same time, water source and/or waste water only enter the polarized water purification assembly 112 through the second valve body 1142, after the water is treated in the polarized water purification assembly 112 for a period of time, the water is discharged out of the water purification module 1, and if the quality of the discharged water reaches the target quality, the water is directly transmitted to the cooking device 2 and the water consumption module 3; if the water quality of the discharged use water does not reach the target water quality, the discharged use water is returned to the polarized water purification assembly 112 again to be polarized purified again until the water quality of the discharged use water reaches the target water quality.
If the control module 4 determines that only the filtering water purifying component 113 is needed to purify water according to the water type of the cooking device 2 and/or the water using module 3, the third valve body 1143 is controlled to be opened, meanwhile, the first valve body 1141, the second valve body 1142 and the fourth valve body 121 are controlled to be closed, water source and/or waste water only enter the filtering water purifying component 113 through the third valve body 1143, after the water is treated in the filtering water purifying component 113 for a period of time, the water is discharged out of the water purifying module 1, and if the quality of the discharged water reaches the target quality, the water is directly transmitted to the cooking device 2 and the water using module 3; if the water quality of the discharged use water does not reach the target water quality, the discharged use water is returned to the filtering and purifying assembly 113 again for filtering and purifying until the water quality of the discharged use water reaches the target water quality.
If the control module 4 determines that the water source and/or the wastewater need not be purified according to the water type of the cooking device 2 and/or the water using module 3, it controls the fourth valve body 121 to be opened, and controls the first valve body 1141, the second valve body 1142 and the third valve body 1143 to be closed, at this time, the water source and/or the wastewater directly flows to the cooking device 2 and the water using module 3 through the fourth valve body 121.
Because the ultrasonic water purifying component 11, the polarized water purifying component 112 and the filtering water purifying component 113 are communicated with each other, if the control module 4 determines that the ultrasonic water purifying component 111 and the polarized water purifying component 112 are required to purify water according to the type of water used by the cooking apparatus 2 and/or the water using module 3, it is preferable that the ultrasonic water purifying component 111 is used to ultrasonically purify water, then the ultrasonically purified water is polarized purified, and finally the ultrasonically purified water is supplied to the cooking apparatus 2 and the water using module 3.
If the control module 4 determines that the ultrasonic water purifying component 111 and the filtration water purifying component 113 are required to purify water according to the water type of the cooking device 2 and/or the water using module 3, the ultrasonic water purifying component 111 is preferably used for ultrasonic water purifying, then the ultrasonic purified water is filtered and purified, and finally the ultrasonic purified water is transmitted to the cooking device 2 and the water using module 3.
If the control module 4 determines that the polarized water purification assembly 112 and the filtered water purification assembly 113 are needed to purify the water according to the water type of the cooking device 2 and/or the water using module 3, it is preferable that the polarized water purification assembly 112 is used to purify the water, then the polarized purified water is filtered and purified, and finally the water is sent to the cooking device 2 and the water using module 3.
If the control module 4 determines that the ultrasonic water purification assembly 111, the polarized water purification assembly 112 and the filtered water purification assembly 113 are required to purify water according to the type of water used by the cooking apparatus 2 and/or the water use module 3, it is preferable to perform ultrasonic purification through the ultrasonic water purification assembly 111, then perform purification through the polarized water purification assembly 112, and finally perform purification through the filtered water purification assembly 113 in sequence.
In this embodiment, the ultrasonic water purifying component 111 is preferably an ultrasonic water purifying device, the polarized water purifying component 112 is preferably a polarized water purifying device, and the filtration water purifying component 113 is preferably an RO filter element.
As shown in fig. 4, in the present embodiment, the cooking apparatus 2 includes an evaporator 21, the water outlet end of the water purifying module 1 is communicated with the evaporator 21 for delivering the used water to the evaporator 21, the evaporator 21 works to convert the used water into high-temperature steam and deliver the high-temperature steam to the inner container of the cooking apparatus 2 to cook food, and the condensed water in the inner container flows to the waste water tank and finally returns to the water purifying module 1.
In this embodiment, the cooking apparatus 2 further comprises a first spray head 22; the first spray head 22 is arranged in the inner container of the cooking equipment 2, the water outlet end of the water purification module 1 is also communicated with the first spray head 22, the first spray head 22 sprays water to the inner container, the inner container is cleaned, waste water generated by cleaning flows to the waste water tank, and finally the waste water returns to the water purification module 1.
In this embodiment, the cooking apparatus 2 further includes a first heating element 23, where the first heating element 23 is disposed in the inner container of the cooking apparatus 2 and is used for heating the inner container, and the first heating element 23 can cook food on one hand and perform a function of high-temperature sterilization on the other hand. Wherein the first heating element 23 is preferably a heating tube.
As shown in fig. 4, in the present embodiment, the water module 3 is a direct drinking water apparatus, the cooking apparatus 2 is connected to the direct drinking water apparatus, and the first heating member 23 is used for preheating the direct drinking water apparatus. Preferably, the direct drinking water set is directly mounted on the cooking apparatus 2, and the first heating member 23 is mounted on the outside of the direct drinking water apparatus for preheating the direct drinking water apparatus.
The direct drinking apparatus includes a drinking part 31 for containing the use water, and a second heating member 32 and a temperature detector 33; the drinking part 31 is connected with the cooking apparatus 2, the second heating member 32 is connected with the drinking part 31 for heating the use water in the drinking part 31, and the temperature detector 33 is also connected with the drinking part 31 for detecting the water temperature of the use water in the drinking part 31.
In another embodiment, as shown in fig. 5, the water use module 3 is an electrolysis device connected to the cooking apparatus 2 for delivering electrolysis water to the inner container of the cooking apparatus 2 for disinfection.
The cooking device 2 further comprises a second spray head 24, the second spray head 24 is arranged in the inner container, and the water outlet end of the electrolysis device is communicated with the second spray head 24 and used for spraying electrolysis water into the inner container to achieve disinfection.
As shown in fig. 2 and 3, in the present embodiment, the integrated control system for purifying water further includes a water pumping module 7, where the water pumping module 7 is disposed on the water flow path and electrically connected to the control module 4 for pumping water source or/and wastewater to the water purifying module 1, and for pumping the used water flowing out from the water purifying module 1 to the cooking device 2 and/or the water using module 3.
Specifically, the pumping module 7 includes a first pumping unit 71, a second pumping unit 72, and a third pumping unit 73;
the first pumping unit 71 is arranged between the water source and the water inlet end of the water purification module 1 and is used for pumping the water source to the water purification module 1; the second pumping unit 72 is arranged on the wastewater waterway and is used for pumping wastewater to the water purification module 1; the third pumping unit 73 is provided at the water outlet end of the water purifying module 1 for pumping the use water to the cooking apparatus 2 and/or the water using module 3.
When the waste water is required to be conveyed into the water purifying module 1 for purifying, the control module 4 controls the second water pumping unit 72 to be started, and after the purifying is finished, controls the third water pumping unit 73 to be started for pumping the used water into the cooking equipment 2 or the water using module 3.
When the water source is required to be conveyed into the water purifying module 1 for purifying, the control module 4 controls the first water pumping unit 71 to be started, and after the purifying is finished, controls the third water pumping unit 73 to be started for pumping the used water into the cooking equipment 2 or the water using module 3.
As shown in fig. 3, in other embodiments, if the water outlet end of the cooking module 2 conveys the waste water of the cooking apparatus 2 back to the water purification module 1 through one water pipe, and the water outlet end of the water consumption module 3 conveys the waste water of the water consumption module 3 back to the water purification module 1 through another water pipe, the second pumping unit 72 includes a first pumping unit 721 and a second pumping unit 722; the first water pump 721 is arranged on the waste water path between the water outlet end of the cooking device 2 and the water inlet end of the water purifying module 1 and is used for pumping the waste water of the cooking device 2 to the water purifying module 1, and the second water pump 722 is arranged on the waste water path between the water outlet end of the water using module 3 and the water inlet end of the water purifying module 1 and is used for pumping the waste water in the water using module 3 to the water purifying module 1, so that the full utilization of water is realized and the waste of water is avoided.
In the present embodiment, the first pumping unit 71, the second pumping unit 72, and the third pumping unit 73 are preferably all water pumps. The first water pump 721 and the second water pump 722 are also preferably water pumps.
In addition, in consideration of the collection of waste water in the cooking apparatus 2 and the collection of waste water in the water module 3, in a specific embodiment, one waste water tank is installed upstream of each of the first water pump 721 and the second water pump 722.
Example 2
As shown in fig. 6, the present embodiment provides a water purification integrated control method, which includes the following steps:
s1, a control module 4 determines target water quality Q according to the water type of the cooking equipment or the water using module 3 Target object
S2, acquiring initial water quality Q of the water inlet end of the water purification module 1 0 According to the target water quality Q Target object And the initial water quality Q 0 Is to control the water purification module 1 to work so that the actual water quality Q of the used water outputted by the water purification module 1 reaches the target water quality Q Target object
Because the control method of the embodiment is based on the target water quality Q Target object And the initial water quality Q 0 Is controlled to operate the water purification module 1 so that the actual water quality Q of the used water output by the water purification module 1 reaches the target water quality Q Target object The target water quality is the water quality of the water type of the cooking device or the water using module 3, so the present embodiment can satisfy the diversified demands of users for water.
In this embodiment, the initial water quality Q of the water inlet end of the water purification module 1 is obtained 0 According to the target water quality Q Target object And the initial water quality Q 0 Is to control the water purification module 1 to work so that the actual water quality Q of the used water outputted by the water purification module 1 reaches the target water quality Q Target object The method specifically comprises the following steps:
acquiring first water quality Q of water source 1 And second water quality Q of wastewater 2 Calculate the first water quality Q of the water source 1 And the target water quality Q Target object Is the first water quality difference DeltaQ 1 And a second water quality Q of wastewater 2 Q is equal to the target water quality Target object Is a second water quality difference DeltaQ 2
Comparing the first water quality difference DeltaQ 1 Delta Q is the difference from the second water quality 2 Taking a smaller water quality difference value as the initial water quality Q of the water inlet end of the water purifying module 1 0 Simultaneously, the water source or the wastewater corresponding to the smaller water quality difference value is conveyed to the water purification module 1;
control the water purifying module 1 to work to make the purified water moduleThe actual water quality Q of the used water output by the block 1 reaches the target water quality Q Target object
In this embodiment, a small water quality difference is used as the initial water quality Q of the water inlet end of the water purification module 1 0 This is to reduce the working pressure of the water purification module 1, increase the service time of the water purification module 1, and improve the water purification efficiency.
In this embodiment, before controlling the wastewater to be supplied to the water purification module 1, it further includes:
Judging whether the wastewater amount is not less than the water amount required by the cooking device 2 or the water using module 3; if yes, delivering the wastewater to the water purification module 1; if not, the water source is conveyed to the water purifying module 1, so that the water consumption of the cooking equipment 2 and the water consumption of the water using module 3 can be ensured.
In this example, the TDS value is used to represent water quality; the water type comprises purified water, mountain water, purified water, tap water and polluted water;
the TDS value of the purified water is 0-9; the TDS value of the mountain spring water is 10-60; the TDS value of the purified water is 61-100; the TDS value of tap water is 101-300; the TDS value of the contaminated water is 301 or more.
In this embodiment, the operation of the water purification module 1 includes:
if the water type is purified water, the water purification module 1 firstly carries out ultrasonic purification on a water source or wastewater for a first time threshold, then carries out filtration and purification for a second time threshold, and finally outputs the used water to the cooking equipment 2 or/and the water module 3;
if the water type is spring water, the water purification module 1 performs polarization purification on the water source or the wastewater for a third time threshold, then filters and purifies the water for a fourth time threshold, and finally outputs the water to the cooking equipment 2 and/or the water use module 3;
If the water is purified water, the water purifying module 1 firstly performs ultrasonic purification on the water source or the wastewater for a fifth time threshold, secondly performs polarization purification on the water source or the wastewater for a sixth time threshold, and again performs filtration purification on the water source or the wastewater for a seventh time threshold, and finally outputs the water to the cooking equipment 2 and/or the water using module 3.
In this embodiment, the operation of the water purification module 1 further includes:
if the water type is tap water and the TDS value Q of the initial water quality of the water inlet end of the water purification module 1 0 If the water consumption is greater than 300, filtering and purifying the water source or the wastewater for an eighth time threshold, and then outputting the used water to the cooking equipment 2 or/and the water consumption module 3;
if the water type is tap water and the TDS value Q of the initial water quality of the water inlet end of the water purification module 1 0 101-300, the water source or the wastewater is directly output to the cooking device 2 or/and the water module 3 without purifying the water source or the wastewater.
In the present embodiment, the time for the water purification module 1 to perform ultrasonic purification, polarization purification and filtration purification, respectively, follows the initial water quality Q at the water inlet end of the water purification module 1 0 Different and varying.
Specifically, if the initial water quality Q of the water inlet end of the water purification module 1 is 0 The longer the water purification module 1 performs ultrasonic purification, polarization purification and filtration purification respectively; conversely, the shorter.
In the embodiment, the ultrasonic purification is to purify water by adopting an ultrasonic water purifying device; the polarization purification is to polarize water by a polarization water purifying device; the filtering and purifying is to filter water by using an RO filter element.
In the present embodiment, the water quality Q is determined according to the initial water quality of the water inlet end of the water purification module 1 0 And the types of water used, the water purification module 1 works as follows:
the water purification integrated control method of the present embodiment will be specifically described below with reference to embodiment 1 by taking the cooking apparatus 2 as an example, and comprises the steps of:
s1, a user selects corresponding cooking according to food to be cookedThe mode, cooking time, cooking water consumption M, control module 4 retrieves the water consumption type needed by cooking according to the corresponding relation between the cooking mode and the water consumption type, and determines the target water quality Q Target object TDS value of (b);
wherein, the corresponding relation between the cooking mode and the water consumption type is as follows: if the cooking mode is steaming, corresponding to mountain spring water; if the cooking mode is steaming and baking, correspondingly purifying water; if the cooking mode is cleaning, corresponding tap water;
s21, obtaining first water quality Q of water source 1 And second water quality Q of wastewater 2 Calculate the first water quality Q of the water source 1 And the target water quality Q Target object Is the first water quality difference DeltaQ 1 And a second water quality Q of wastewater 2 Q is equal to the target water quality Target object Is a second water quality difference DeltaQ 2 Wherein DeltaQ 1 =Q 1 -Q Target object ,△Q 2 =Q 2 -Q Target object
S22, comparing the first water quality difference DeltaQ 1 Delta Q is the difference from the second water quality 2 If the first water quality difference DeltaQ is larger than the second water quality difference DeltaQ 1 Less than the second water quality difference DeltaQ 2 S23, performing; otherwise, S24 is carried out;
s23, the control module 4 controls the first pumping unit 71 (such as a water pump) to start so as to pump water from a water source to the water purifying module 1, and the water purifying module 1 works under the conditions shown in the table 1 so as to output used water; when the actual water quality Q of the used water reaches the target water quality Q Target object When the control module 4 controls the third pumping unit 73 to start, pumping the used water into the cooking equipment 2 for generating high-temperature steam or for cleaning the inner container;
s24, judging the water storage quantity M in the waste water tank 1 If the water consumption M is greater than the cooking water consumption M, the control module 4 controls the second water pumping unit 72 (such as a water pump) to be started, and pumps the wastewater in the wastewater tank to the water purifying module 1, and the water purifying module 1 works under the conditions shown in the table 1 so as to output the used water; when the actual water quality Q of the used water reaches the target water quality Q Target object When the control module 4 controls the third pumping unit 73 to start, the water is pumped into the cooking device 2 for useGenerating high-temperature steam or cleaning the liner; if it is smaller than the predetermined value, S23 is performed.
In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the described parent features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.
The present invention is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present invention are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims (24)

1. The integrated control method for the water purification is characterized by comprising the following steps of:
The control module (4) determines the target water quality Q according to the water type of the cooking equipment (2) or the water module (3) Target object
Acquiring first water quality Q of water source 1 And second water quality Q of wastewater 2 Calculate the first water quality Q of the water source 1 And the target water quality Q Target object Is the first water quality difference DeltaQ 1 And a second water quality Q of wastewater 2 Q is equal to the target water quality Target object Is a second water quality difference DeltaQ 2
Comparing the first water quality difference DeltaQ 1 Delta Q is the difference from the second water quality 2 Takes a smaller water quality difference value as the initial water quality Q of the water inlet end of the water purifying module (1) 0 Simultaneously, the water source or the wastewater corresponding to the smaller water quality difference value is conveyed to the water purifying module (1);
controlling the water purifying module (1) to work so as to enable the used water output by the water purifying module (1)Is up to the target water quality Q Target object
2. The water purification integrated control method according to claim 1, characterized by further comprising, before controlling the wastewater feed to the water purification module (1):
judging whether the wastewater amount is not smaller than the water amount required by the cooking equipment (2) or the water using module (3); if yes, delivering the wastewater to the water purification module (1); if not, the water source is conveyed to the water purifying module (1).
3. The integrated control method for water purification according to any one of claims 1 to 2, wherein the TDS value is used to represent water quality; the water type comprises purified water, mountain spring water, purified water, tap water and polluted water;
the TDS value of the purified water is 0-9; the TDS value of the mountain spring water is 10-60; the TDS value of the purified water is 61-100; the TDS value of the tap water is 101-300; the TDS value of the contaminated water is 301 or more.
4. A water purification integrated control method according to claim 3, characterized in that the operation of the water purification module (1) comprises:
if the water type is purified water, the water purification module (1) firstly carries out ultrasonic purification on a water source or wastewater for a first time threshold, then carries out filtration and purification for a second time threshold, and finally outputs the used water to the cooking equipment (2) or/and the water use module (3);
if the water type is mountain spring water, the water purifying module (1) firstly performs polarization purification on a water source or wastewater for a third time threshold, then filters and purifies for a fourth time threshold, and finally outputs the used water to the cooking equipment (2) or/and the water using module (3);
if the water type is purified water, the water purifying module (1) firstly carries out ultrasonic purification on a water source or wastewater for a fifth time threshold, secondly carries out polarization purification for a sixth time threshold, and secondly carries out filtration purification for a seventh time threshold, and finally outputs the used water to the cooking equipment (2) or/and the water using module (3).
5. The integrated control method for water purification according to claim 4, wherein the operation of the water purification module (1) further comprises:
if the water type is tap water and the TDS value Q of the initial water quality of the water inlet end of the water purification module (1) 0 Above 300, filtering and purifying the water source or the wastewater for an eighth time threshold, and then outputting the used water to the cooking equipment (2) or/and the water using module (3);
if the water type is tap water and the TDS value Q of the initial water quality of the water inlet end of the water purification module (1) 0 101-300, directly outputting the water source or the wastewater to the cooking equipment (2) or/and the water module (3) without purifying the water source or the wastewater.
6. The integrated control method for water purification according to claim 5, wherein the time for ultrasonic purification, polarization purification and filtration purification of the water purification module (1) respectively follows the initial water quality Q of the water inlet end of the water purification module (1) 0 Different and varying.
7. A water purification integrated control system suitable for use in the water purification integrated control method according to any one of claims 1 to 6, characterized by comprising a water purification module (1), a cooking device (2), a water use module (3) and a control module (4);
The water inlet end of the water purification module (1) is connected with a water source, the water outlet end of the water purification module (1) is respectively communicated with the water inlet end of the cooking equipment (2) and the water inlet end of the water consumption module (3), and the water outlet end of the cooking equipment (2) and/or the water outlet end of the water consumption module (3) are also connected with the water inlet end of the water purification module (1) for conveying wastewater back to the water purification module (1);
the control module (4) controls the water purification module (1) to work according to the water type of the cooking equipment (2) or the water type of the water use module (3) so that the water quality of the used water output by the water purification module (1) reaches the target water quality, wherein the target water quality is the water quality of the water use type.
8. The integrated control system for water purification according to claim 7, further comprising a water quality detection module (5), wherein the water quality detection module (5) is disposed on the water flow path and is electrically connected to the control module (4) for detecting the water quality of the water source, the water quality of the wastewater and the water quality of the used water;
the control module (4) controls the water quality of the water purifying module (1) to achieve the target water quality according to the water type of the cooking equipment (2) or the water type of the water using module (3) and the water quality of a water source and the water quality of wastewater.
9. The integrated control system for water purification according to claim 8, wherein the water quality detection module (5) comprises a first water quality detection unit (51), a second water quality detection unit (52) and a third water quality detection unit (53);
the first water quality detection unit (51) is arranged on a water flow passage between the water purification module (1) and a water source and is used for detecting the water quality of the water source, the second water quality detection unit (52) is arranged on a wastewater water path and is used for detecting the water quality of wastewater flowing back to the water purification module (1), and the third water quality detection unit (53) is arranged at a water outlet end of the water purification module (1) and is used for detecting the water quality of used water.
10. The integrated control system for water purification according to claim 7, further comprising a flow detection module (6), wherein the flow detection module (6) is disposed on the water flow path and is electrically connected to the control module (4) for detecting the amount of the used water flowing out from the water outlet end of the water purification module (1), detecting the amount of the used water flowing into the cooking apparatus (2), and detecting the amount of the used water flowing into the water module (3).
11. The water purification integrated control system according to claim 10, wherein the flow rate detection module (6) includes a first flow rate detection unit (61), a second flow rate detection unit (62), and a third flow rate detection unit (63);
The water purifier comprises a water purifying module (1), a first flow detection unit (61), a second flow detection unit (62), a third flow detection unit (63) and a water inlet end, wherein the first flow detection unit (61) is arranged at the water outlet end of the water purifying module (1) and used for detecting the water quantity of the used water, the second flow detection unit (62) is arranged at the water inlet end of the cooking equipment (2) and used for detecting the water quantity of the used water flowing into the cooking equipment (2), and the third flow detection unit (63) is arranged at the water inlet end of the water using module (3) and used for detecting the water quantity of the used water flowing into the water using module (3).
12. The water purification integrated control system according to any one of claims 7-11, wherein the water purification module (1) comprises a water purification unit (11) and a non-water purification unit (12); the water purifying unit (11) is connected in parallel with the non-water purifying unit (12).
13. The water purification integrated control system according to claim 12, wherein the water purification unit (11) comprises an ultrasonic water purification assembly (111), a polarized water purification assembly (112), a filtered water purification assembly (113), and a valve body assembly (114);
the ultrasonic water purification assembly (111), the polarized water purification assembly (112) and the filtering water purification assembly (113) are communicated with each other, a water source and/or wastewater are respectively conveyed to the ultrasonic water purification assembly (111), the polarized water purification assembly (112) and the filtering water purification assembly (113) through the valve body assembly (114), and used water purified by the water purification unit (11) is conveyed to the cooking equipment (2) and/or the water module (3).
14. The integrated control system of claim 13, wherein the valve body assembly (114) comprises a first valve body (1141), a second valve body (1142), and a third valve body (1143);
the first valve body (1141) is arranged at the water inlet end of the ultrasonic water purifying component (111), the second valve body (1142) is arranged at the water inlet end of the polarized water purifying component (112), and the third valve body (1143) is arranged at the water inlet end of the filtering water purifying component (113);
the water source and/or the wastewater are/is respectively conveyed to the ultrasonic water purifying component (111) through a first valve body (1141), conveyed to the polarized water purifying component (112) through a second valve body (1142), and conveyed to the filtering water purifying component (113) through a third valve body (1143).
15. The water purification integrated control system according to claim 12, characterized in that the non-water purification unit (12) comprises a fourth valve body (121), through which fourth valve body (121) water source and/or waste water is fed to the cooking device (2) and/or the water usage module (3).
16. The water purification integrated control system according to any one of claims 7-11, wherein the cooking device (2) comprises an evaporator (21), the water outlet end of the water purification module (1) being in communication with the evaporator (21) for delivering service water to the evaporator (21).
17. The water purification integrated control system according to claim 16, wherein the cooking apparatus (2) further comprises a first spray head (22); the first spray head (22) is arranged in the inner container of the cooking equipment (2), and the water outlet end of the water purification module (1) is communicated with the first spray head (22).
18. The water purification integrated control system according to claim 16, wherein the cooking apparatus (2) further comprises a first heating element (23), the first heating element (23) being arranged in a liner of the cooking apparatus (2) for heating the liner.
19. The integrated control system for water purification according to any one of claims 18, wherein the water module (3) is a direct drinking water apparatus, the cooking apparatus (2) is connected to the direct drinking water apparatus, and the first heating member (23) is used for preheating the direct drinking water apparatus.
20. The water purification integrated control system according to claim 19, wherein the direct drinking device comprises a drinking part (31) for holding the use water, and a second heating member (32) and a temperature detector (33); the water drinking part (31) is connected with the cooking equipment (2), the second heating piece (32) is connected with the water drinking part (31) and used for heating the used water in the water drinking part (31), and the temperature detector (33) is also connected with the water drinking part (31) and used for detecting the water temperature of the used water in the water drinking part (31).
21. The water purification integrated control system according to claim 18, wherein the water module (3) is an electrolyzed water apparatus connected to the cooking apparatus (2) for delivering electrolyzed water to a liner of the cooking apparatus (2) for disinfection.
22. The integrated control system for water purification according to claim 21, wherein the cooking device (2) further comprises a second spray head (24), the second spray head (24) is disposed in the inner container, and the water outlet end of the water electrolysis device is communicated with the second spray head (24) for spraying the electrolyzed water to the inner container for disinfection.
23. The integrated control system for water purification according to claim 7, further comprising a water pumping module (7), wherein the water pumping module (7) is disposed on a water flow path and is electrically connected to the control module (4) for pumping water source or/and wastewater to the water purification module (1) for pumping the used water flowing out from the water purification module (1) to the cooking apparatus (2) and/or the water consumption module (3).
24. The integrated control system for water purification according to claim 23, wherein the water pumping module (7) comprises a first water pumping unit (71), a second water pumping unit (72) and a third water pumping unit (73);
The first water pumping unit (71) is arranged between a water source and the water inlet end of the water purifying module (1) and is used for pumping the water source to the water purifying module (1); the second water pumping unit (72) is arranged on the wastewater waterway and is used for pumping wastewater to the water purifying module (1); the third water pumping unit (73) is arranged at the water outlet end of the water purifying module (1) and is used for pumping the used water to the cooking equipment (2) and/or the water using module (3).
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CN116081779A (en) * 2021-10-31 2023-05-09 深圳银星智能集团股份有限公司 Sewage treatment method, device and cleaning equipment

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CN107152057A (en) * 2017-06-23 2017-09-12 青岛三利中德美水设备有限公司 Water system and its method of supplying water are sold in intelligent direct drinking feedwater
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CN106630231A (en) * 2017-01-03 2017-05-10 湖州师范学院 Backwash self-cleaning multi-effect water purifier
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