CN110558847A - Control structure and control method for water yield and water temperature of intelligent water purifying and drinking machine - Google Patents
Control structure and control method for water yield and water temperature of intelligent water purifying and drinking machine Download PDFInfo
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- CN110558847A CN110558847A CN201910929994.8A CN201910929994A CN110558847A CN 110558847 A CN110558847 A CN 110558847A CN 201910929994 A CN201910929994 A CN 201910929994A CN 110558847 A CN110558847 A CN 110558847A
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 561
- 230000035622 drinking Effects 0.000 title claims abstract description 69
- 238000000034 method Methods 0.000 title claims abstract description 13
- 230000006698 induction Effects 0.000 claims abstract description 292
- 238000010438 heat treatment Methods 0.000 claims abstract description 85
- 238000007599 discharging Methods 0.000 claims description 26
- 230000005611 electricity Effects 0.000 claims 10
- 235000013361 beverage Nutrition 0.000 abstract description 3
- 230000000712 assembly Effects 0.000 abstract 1
- 238000000429 assembly Methods 0.000 abstract 1
- 101100491335 Caenorhabditis elegans mat-2 gene Proteins 0.000 description 25
- 230000001960 triggered effect Effects 0.000 description 6
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/46—Dispensing spouts, pumps, drain valves or like liquid transporting devices
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/54—Water boiling vessels in beverage making machines
- A47J31/56—Water boiling vessels in beverage making machines having water-level controls; having temperature controls
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Abstract
the invention relates to a control structure and a control method for water yield and water temperature of an intelligent water purifying and drinking machine, which comprises the following steps: the cup mat, the first to fourth induction assemblies and the control panel; the first sensing assembly is arranged above or below the cup mat, the second sensing assembly is arranged on the left side or the right side of the cup mat, and the third sensing assembly is arranged in front of or behind the cup mat; the fourth induction assembly is arranged below the water outlet of the water purifying and drinking machine, and the control panel is arranged in the water purifying and drinking machine; the fourth sensing assembly can generate signals and input the signals to the control panel, and the control panel controls the water pump and the water temperature heating device. The water outlet quantity and the water outlet temperature of the water purifying drinking machine can be adjusted by a user according to the beverage brewed by the user, and the use is convenient.
Description
Technical Field
The invention relates to a control structure and a control method for water yield and water temperature of an intelligent water purifying and drinking machine.
Background
at present, a water pump and a water temperature heating device are arranged in a water purifying and drinking machine, and a control panel controls the water pump and the water temperature heating device to work. When the water purifier works, the water yield and the water outlet temperature of the water purifier are constant, the water yield and the water temperature cannot adapt to different brewing requirements, and the water purifier is inconvenient to use and is not humanized.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provides a structure and a method for controlling the water yield and the water temperature of an intelligent water purifier, so that a user can adjust the water yield and the water temperature of the water purifier according to the beverage brewed by the user, and the use is convenient.
In order to achieve the above object, the technical solution of the present invention is implemented as follows, and the present invention is a control structure for controlling water yield and water temperature of an intelligent water purifier, and the control structure is characterized by comprising:
The cup mat comprises a cup mat, a first induction assembly, a second induction assembly and a third induction assembly; the cup mat is a cuboid, the first sensing assembly is mounted on the upper surface or the lower surface of the cup mat, the second sensing assembly is mounted on the left surface or the right surface of the cup mat, and the third sensing assembly is mounted in front of or behind the cup mat;
A fourth sensing assembly and a control panel; the fourth induction assembly is arranged below the water outlet of the water purifying and drinking machine, and the control panel is arranged in the water purifying and drinking machine; when the cup pad is placed below the water outlet of the water purifier, and the distance between the first induction assembly and the fourth induction assembly is less than 8 mm, the fourth induction assembly generates a signal and inputs the signal to the control panel, and the control panel controls the water pump and the water temperature heating device so as to control the water outlet amount and the water outlet temperature of the water purifier; when the cup pad is placed below the water outlet of the water purifier, and the distance between the second induction assembly and the fourth induction assembly is less than 8 mm, the fourth induction assembly generates a signal and inputs the signal to the control panel, and the control panel controls the water pump and the water temperature heating device so as to control the water outlet amount and the water outlet temperature of the water purifier; when the cup pad is placed below the water outlet of the water purifying and drinking machine and the distance between the third induction assembly and the fourth induction assembly is smaller than 8 mm, the fourth induction assembly generates a signal and inputs the signal to the control panel, and the control panel controls the water pump and the water temperature heating device so as to control the water outlet amount and the water outlet temperature of the water purifying and drinking machine.
In this technical solution, the fourth sensing assembly includes a first magnetic sensing element, a second magnetic sensing element and a third magnetic sensing element; the first magnetic induction element, the second magnetic induction element and the third magnetic induction element are sequentially arranged from top to bottom, and the distance between every two adjacent magnetic induction elements is more than or equal to 1 cm; the first induction component is a magnet, the height of the magnet of the first induction component is matched with that of the first magnetic induction element, the first induction component needs to be simultaneously spaced from the first magnetic induction element, the second magnetic induction element and the third magnetic induction element by less than 8 mm, a generated signal can trigger the control panel, and the control panel controls the water pump and the water temperature heating device so as to control the water yield and the water outlet temperature of the water purifying and drinking machine; the second induction component is a magnet, the height of the magnet of the second induction component is matched with that of the second magnetic induction element, the second induction component needs to be simultaneously spaced from the second magnetic induction element and the third magnetic induction element by less than 8 mm, the generated signal can trigger the control panel, and the control panel controls the water pump and the water temperature heating device so as to control the water yield and the water outlet temperature of the water purifying dispenser; the third induction component is a magnet, the height of the magnet of the third induction component is matched with that of the third magnetic induction element, the third induction component needs to be less than 8 millimeters away from the third magnetic induction element, a signal generated by the third magnetic induction element can trigger the control panel, and the control panel controls the water pump and the water temperature heating device to control the water outlet amount and the water outlet temperature of the water purifying and drinking machine.
In the technical scheme, the water heater further comprises a starting switch, a first triode and a second triode, wherein the control board is STM32F051K which is an MCU with 32 pins, 6 pins of the control board are electrically connected with the output end of the first magnetic induction element, 7 pins of the control board are electrically connected with the output end of the second magnetic induction element, 8 pins of the control board are electrically connected with the output end of the third magnetic induction element, 23 pins of the control board are electrically connected with the base electrode of the second triode, 24 pins of the control board are electrically connected with the base electrode of the first triode, 30 pins of the control board are grounded through the starting switch, the collector electrode of the first triode is electrically connected with a power supply, the emitter electrode of the first triode is grounded through a water pump, the collector electrode of the second triode is electrically connected with the live wire of the city alternating current, the emitter electrode of the second triode is electrically connected with one end of a heating resistor R in the water temperature heating device, the, the grounding end of the first magnetic induction element is grounded, the power input end of the first induction element is electrically connected with the power supply, the grounding end of the second magnetic induction element is grounded, the power input end of the second induction element is electrically connected with the power supply, the grounding end of the third magnetic induction element is grounded, and the power input end of the third induction element is electrically connected with the power supply.
in order to achieve the purpose, the technical scheme of the invention is realized in such a way, and the water yield and water temperature control method of the intelligent water purifying dispenser is characterized by comprising the following steps:
when the cup mat is placed below the water outlet of the water purifying dispenser and the distance between the first induction assembly and the fourth induction assembly is smaller than 8 mm, the fourth induction assembly transmits a signal to the control panel, a user starts the water preparing function of the water purifying dispenser, the control panel sends a control signal to the water temperature heating device and the water pump in the water purifying dispenser, the water pump and the water temperature heating device start to work after receiving the control signal, the water purifying dispenser discharges water, the water discharging temperature of the water purifying dispenser is a, and the water discharging amount is b;
when the cup mat is placed below the water outlet of the water purifying dispenser and the distance between the second induction assembly and the fourth induction assembly is smaller than 8 mm, the fourth induction assembly transmits a signal to the control panel, a user starts the water preparing function of the water purifying dispenser, the control panel sends a control signal to the water temperature heating device and the water pump in the water purifying dispenser, the water pump and the water temperature heating device start to work after receiving the control signal, the water purifying dispenser discharges water, the water discharging temperature of the water purifying dispenser is c, and the water discharging amount is d;
when the cup pad is placed below the water outlet of the water purifying dispenser and the distance between the third induction assembly and the fourth induction assembly is smaller than 8 mm, the fourth induction assembly transmits a signal to the control panel to receive the third signal, a user starts the water preparing function of the water purifying dispenser, the control panel sends a control signal to the water temperature heating device and the water pump in the water purifying dispenser, the water pump and the water temperature heating device start to work after receiving the control signal, the water purifying dispenser discharges water, the water discharging temperature of the water purifying dispenser is e, and the water discharging amount is f;
when the cup mat is not placed below the water outlet of the water purifying dispenser, a user starts the water preparing function of the water purifying dispenser, the control panel sends a control signal to the water temperature heating device and the water pump in the water purifying dispenser, the water pump and the water temperature heating device start to work after receiving the control signal, the water purifying dispenser discharges water, the water discharging temperature of the water purifying dispenser is g, and the water discharging amount is h.
in the technical scheme, the water outlet temperature a of the water purifier is 90 +/-3 ℃, and the water outlet amount b is 180 +/-18 ml; the water outlet temperature c of the water purifying dispenser is 70 +/-3 ℃, and the water outlet d is 250 +/-25 ml; the water outlet temperature e of the water purifying dispenser is 45 +/-3 ℃, and the water outlet amount f is 300 +/-30 ml; the water outlet temperature g of the water purifying dispenser is 85 +/-3 ℃, and the water outlet quantity is 330 +/-33 ml.
In this technical solution, the fourth sensing assembly includes a first magnetic sensing element, a second magnetic sensing element and a third magnetic sensing element; the first magnetic induction element, the second magnetic induction element and the third magnetic induction element are sequentially arranged from top to bottom, and the distance between every two adjacent magnetic induction elements is more than or equal to 1 cm; the first induction component is a magnet, the height of the magnet of the first induction component is matched with that of the first magnetic induction element, the first induction component needs to be simultaneously spaced from the first magnetic induction element, the second magnetic induction element and the third magnetic induction element by less than 8 mm, a generated signal can trigger the control panel, and the control panel controls the water pump and the water temperature heating device so as to control the water yield and the water outlet temperature of the water purifying and drinking machine; the second induction component is a magnet, the height of the magnet of the second induction component is matched with that of the second magnetic induction element, the second induction component needs to be simultaneously spaced from the second magnetic induction element and the third magnetic induction element by less than 8 mm, the generated signal can trigger the control panel, and the control panel controls the water pump and the water temperature heating device so as to control the water yield and the water outlet temperature of the water purifying dispenser; the third induction component is a magnet, the height of the magnet of the third induction component is matched with that of the third magnetic induction element, the third induction component needs to be less than 8 millimeters away from the third magnetic induction element, a signal generated by the third magnetic induction element can trigger the control panel, and the control panel controls the water pump and the water temperature heating device to control the water outlet amount and the water outlet temperature of the water purifying and drinking machine.
In the technical scheme, the water heater further comprises a starting switch, a first triode and a second triode, wherein the control board is STM32F051K which is an MCU with 32 pins, 6 pins of the control board are electrically connected with the output end of the first magnetic induction element, 7 pins of the control board are electrically connected with the output end of the second magnetic induction element, 8 pins of the control board are electrically connected with the output end of the third magnetic induction element, 23 pins of the control board are electrically connected with the base electrode of the second triode, 24 pins of the control board are electrically connected with the base electrode of the first triode, 30 pins of the control board are grounded through the starting switch, the collector electrode of the first triode is electrically connected with a power supply, the emitter electrode of the first triode is grounded through a water pump, the collector electrode of the second triode is electrically connected with the live wire of the city alternating current, the emitter electrode of the second triode is electrically connected with one end of a heating resistor R in the water temperature heating device, the, the grounding end of the first magnetic induction element is grounded, the power input end of the first induction element is electrically connected with the power supply, the grounding end of the second magnetic induction element is grounded, the power input end of the second induction element is electrically connected with the power supply, the grounding end of the third magnetic induction element is grounded, and the power input end of the third induction element is electrically connected with the power supply.
compared with the prior art, the invention has the advantages that: the water outlet quantity and the water outlet temperature of the water purifying drinking machine can be adjusted by a user according to the beverage brewed by the user, and the use is convenient.
Drawings
FIG. 1 is a schematic diagram of the structure of the present invention;
FIG. 2 is a schematic view of the structure of the coaster of the present invention;
FIG. 3 is a control schematic block diagram of the present invention;
FIG. 4 is a block diagram schematically illustrating a fourth sensing assembly;
Fig. 5 is a schematic circuit diagram of the control board and the electrical components connected to the control board according to the present invention.
Detailed Description
The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.
In the description of the present invention, the terms "upper" and "lower" and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention but do not require that the present invention must be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
In the description of the present invention, the terms "first" to "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
example one
As shown in fig. 1 to 5, it is a control structure of water yield and water temperature of an intelligent water purifier, comprising:
a water purifying drinking machine 1; the water purifying drinking machine 1 is provided with a water pump 11 and a water temperature heating device 12;
the cup mat 2, the first induction component 3, the second induction component 4 and the third induction component 5; the cup mat 2 is a cuboid, the first sensing assembly 3 is arranged above or below the cup mat 2, the second sensing assembly 4 is arranged on the left or right of the cup mat 2, and the third sensing assembly 5 is arranged in front of or behind the cup mat 2;
A fourth sensing assembly 6 and a control board 7; the fourth induction assembly 6 is arranged below the water outlet of the water purifying and drinking machine 1, and the control panel 7 is arranged in the water purifying and drinking machine 1; when the cup mat 2 is placed below the water outlet of the water purifier 1 and the distance between the first induction component 3 and the fourth induction component 6 is less than 8 mm, the fourth induction component 6 generates a signal and inputs the signal to the control board 7, and the control board 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water outlet amount and the water outlet temperature of the water purifier 1; when the cup mat 2 is placed below the water outlet of the water purifier 1 and the distance between the second induction component 4 and the fourth induction component 6 is less than 8 mm, the fourth induction component 6 generates a signal and inputs the signal to the control board 7, and the control board 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water outlet amount and the water outlet temperature of the water purifier 1; when the cup mat 2 is placed below the water outlet of the water purifier 1 and the distance between the third induction assembly 5 and the fourth induction assembly 6 is less than 8 mm, the fourth induction assembly 6 generates a signal and inputs the signal to the control board 7, and the control board 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water outlet amount and the water outlet temperature of the water purifier 1.
when the water purifying and drinking machine works, when the cup mat 2 is placed below the water outlet of the water purifying and drinking machine 1, and the distance between the first induction component 3 and the fourth induction component 6 is smaller than 8 mm, the fourth induction component 6 can generate a first signal, the control panel 7 receives the first signal, a user starts the water preparing function of the water purifying and drinking machine 1, the control panel 7 sends a control signal to the water temperature heating device 12 and the water pump 13 in the water purifying and drinking machine 1, the water pump 13 and the water temperature heating device 12 start to work after receiving the control signal, the water purifying and drinking machine 1 discharges water, at the moment, the water discharging temperature of the water purifying and drinking machine 1 is 90 +/-3 ℃, and the water discharging amount is 180 +/-18 ml.
When the cup mat 2 is placed below the water outlet of the water purifying dispenser 1 and the distance between the second induction component 4 and the fourth induction component 6 is less than 8 mm, the fourth induction component 6 can generate a second signal, the control panel 7 receives the second signal, a user starts the water making function of the water purifying dispenser 1, the control panel 7 sends a control signal to the water temperature heating device 12 and the water pump 13 in the water purifying dispenser 1, the water pump 13 and the water temperature heating device 12 start to work after receiving the control signal, the water purifying dispenser 1 discharges water, at the moment, the water discharging temperature of the water purifying dispenser 1 is 70 +/-3 ℃, and the water discharging amount is 250 +/-25 ml;
When the cup mat 2 is placed below the water outlet of the water purifying dispenser 1 and the distance between the third induction component 5 and the fourth induction component 6 is less than 8 mm, the fourth induction component 6 generates a third signal, the control panel 7 receives the third signal, a user starts the water making function of the water purifying dispenser 1, the control panel 7 sends a control signal to the water temperature heating device 12 and the water pump 13 in the water purifying dispenser 1, the water pump 13 and the water temperature heating device 12 start to work after receiving the control signal, the water purifying dispenser 1 discharges water, at the moment, the water discharging temperature of the water purifying dispenser 1 is 45 +/-3 ℃, and the water discharging amount is 300 +/-30 ml;
When the cup mat 2 is not placed below the water outlet of the water purifying drinking machine 1, a user starts the water making function of the water purifying drinking machine 1, the control panel 7 sends a control signal to the water temperature heating device 12 and the water pump 13 in the water purifying drinking machine 1, the water pump 13 and the water temperature heating device 12 start to work after receiving the control signal, the water purifying drinking machine 1 outputs water, the water output temperature of the water purifying drinking machine 1 is 85 ℃ plus or minus 3 ℃, and the water output is 330 ml plus or minus 33 ml.
In this embodiment, the fourth sensing assembly 6 includes a first magnetic sensing element 61, a second magnetic sensing element 62 and a third magnetic sensing element 63, the first magnetic sensing element 61, the second magnetic sensing element 62 and the third magnetic sensing element 63 are sequentially arranged on the body of the water purifying and drinking machine 1 from top to bottom, and a distance between two adjacent magnetic sensing elements is greater than or equal to 1 cm; the first induction component 3 is a magnet, the height of the magnet of the first induction component 3 is adapted to the first magnetic induction element 61, when the distance between the first induction component 3 and the first magnetic induction element 61, the distance between the first magnetic induction element 62 and the distance between the first induction component 3 and the third magnetic induction element 63 are smaller than 8 mm, the first magnetic induction element 61, the second magnetic induction element 62 and the third magnetic induction element 63 are triggered to generate signals, the generated signals can trigger the control panel 7, and the control panel 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water yield and the water outlet temperature of the water purifier 1; the second induction component 4 is a magnet, the height of the magnet of the second induction component 4 is adapted to that of the second magnetic induction element 62, when the distance between the second induction component 4 and the second magnetic induction element 62 and the distance between the second induction component 4 and the third magnetic induction element 63 are smaller than 8 mm, the second magnetic induction element 62 and the third magnetic induction element 63 are triggered to generate signals, the generated signals can trigger the control board 7, and at the moment, the control board 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water yield and the water outlet temperature of the water purifier 1; the third induction component 5 is a magnet, the height of the magnet of the third induction component 5 is adapted to the height of the third magnetic induction element 61, when the distance between the third induction component 5 and the third magnetic induction element 63 is less than 8 mm, the third magnetic induction element 63 is triggered to generate a signal, the generated signal can trigger the control panel 7, and at the moment, the control panel 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water yield and the water outlet temperature of the water purifying and drinking machine 1; the control board 7 receives the first signal, the second signal or the third signal and then controls the water pump 11 and the water temperature heating device 12 to work.
In this embodiment, the water heater further comprises a start switch K, a first triode Q1 and a second triode Q2, wherein the control board 7 is of the model STM32F051K which is an MCU with 32 pins, pin 6 of the control board 7 is electrically connected with the output end of the first magnetic induction element 61, pin 7 of the control board 7 is electrically connected with the output end of the second magnetic induction element 62, pin 8 of the control board 7 is electrically connected with the output end of the third magnetic induction element 63, pin 23 of the control board 7 is electrically connected with the base of the second triode Q2, pin 24 of the control board 7 is electrically connected with the base of the first triode Q1, pin 30 of the control board 7 is grounded through the start switch K, the collector of the first triode Q1 is electrically connected with a power supply, the emitter of the first triode Q1 is grounded through the water pump 11, the collector of the second triode Q2 is electrically connected with the live wire of commercial alternating current, the emitter of the second triode Q2 is electrically connected with one end of the heating resistor, the other end of the heating resistor R is connected to a zero line of commercial alternating current, the ground terminal of the first magnetic induction element 61 is grounded, the power input terminal of the first induction element 61 is electrically connected to the power supply, the ground terminal of the second magnetic induction element 62 is grounded, the power input terminal of the second induction element 62 is electrically connected to the power supply, the ground terminal of the third magnetic induction element 63 is grounded, and the power input terminal of the third induction element 63 is electrically connected to the power supply.
Example two
As shown in fig. 1 to 5, it is a method for controlling water yield and water temperature of an intelligent water purifier, and is characterized in that the method comprises the following steps:
When the cup mat 2 is placed below the water outlet of the water purifying dispenser 1 and the distance between the first induction component 3 and the fourth induction component 6 is less than 8 mm, the fourth induction component 6 transmits a signal to the control board 7, a user starts the water preparing function of the water purifying dispenser 1, the control board 7 sends a control signal to the water temperature heating device 12 and the water pump 13 in the water purifying dispenser 1, the water pump 13 and the water temperature heating device 12 start to work after receiving the control signal, the water purifying dispenser 1 discharges water, at the moment, the water discharging temperature of the water purifying dispenser 1 is a, and the water discharging amount is b;
When the cup mat 2 is placed below the water outlet of the water purifying dispenser 1 and the distance between the second induction component 4 and the fourth induction component 6 is less than 8 mm, the fourth induction component 6 transmits a signal to the control board 7, a user starts the water preparing function of the water purifying dispenser 1, the control board 7 sends a control signal to the water temperature heating device 12 and the water pump 13 in the water purifying dispenser 1, the water pump 13 and the water temperature heating device 12 start to work after receiving the control signal, the water purifying dispenser 1 discharges water, the water discharging temperature of the water purifying dispenser 1 is c, and the water discharging amount is d;
When the cup mat 2 is placed below the water outlet of the water purifying dispenser 1 and the distance between the third induction component 5 and the fourth induction component 6 is less than 8 mm, the fourth induction component 6 transmits a signal to the control board 7 to receive a third signal, a user starts the water making function of the water purifying dispenser 1, the control board 7 sends a control signal to the water temperature heating device 12 and the water pump 13 in the water purifying dispenser 1, the water pump 13 and the water temperature heating device 12 start to work after receiving the control signal, the water purifying dispenser 1 discharges water, the water discharging temperature of the water purifying dispenser 1 is e at the moment, and the water discharging amount is f;
when the cup mat 2 is not placed below the water outlet of the water purifying drinking machine 1, a user starts the water making function of the water purifying drinking machine 1, the control panel 7 sends a control signal to the water temperature heating device 12 and the water pump 13 in the water purifying drinking machine 1, the water pump 13 and the water temperature heating device 12 start to work after receiving the control signal, and the water purifying drinking machine 1 outputs water, at the moment, the water output temperature of the water purifying drinking machine 1 is g, and the water output quantity is h.
the structure includes:
a water purifying drinking machine 1; the water purifying drinking machine 1 is provided with a water pump 11 and a water temperature heating device 12;
The cup mat 2, the first induction component 3, the second induction component 4 and the third induction component 5; the cup mat 2 is a cuboid, the first sensing assembly 3 is arranged above or below the cup mat 2, the second sensing assembly 4 is arranged on the left or right of the cup mat 2, and the third sensing assembly 5 is arranged in front of or behind the cup mat 2;
A fourth sensing assembly 6 and a control board 7; the fourth induction assembly 6 is arranged below the water outlet of the water purifying and drinking machine 1, and the control panel 7 is arranged in the water purifying and drinking machine 1; when the cup mat 2 is placed below the water outlet of the water purifier 1 and the distance between the first induction component 3 and the fourth induction component 6 is less than 8 mm, the fourth induction component 6 generates a signal and inputs the signal to the control board 7, and the control board 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water outlet amount and the water outlet temperature of the water purifier 1; when the cup mat 2 is placed below the water outlet of the water purifier 1 and the distance between the second induction component 4 and the fourth induction component 6 is less than 8 mm, the fourth induction component 6 generates a signal and inputs the signal to the control board 7, and the control board 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water outlet amount and the water outlet temperature of the water purifier 1; when the cup mat 2 is placed below the water outlet of the water purifier 1 and the distance between the third induction assembly 5 and the fourth induction assembly 6 is less than 8 mm, the fourth induction assembly 6 generates a signal and inputs the signal to the control board 7, and the control board 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water outlet amount and the water outlet temperature of the water purifier 1. When the water purifying and drinking machine works, when the cup mat 2 is placed below the water outlet of the water purifying and drinking machine 1, and the distance between the first induction component 3 and the fourth induction component 6 is smaller than 8 mm, the fourth induction component 6 can generate a first signal, the control panel 7 receives the first signal, a user starts the water preparing function of the water purifying and drinking machine 1, the control panel 7 sends a control signal to the water temperature heating device 12 and the water pump 13 in the water purifying and drinking machine 1, the water pump 13 and the water temperature heating device 12 start to work after receiving the control signal, the water purifying and drinking machine 1 discharges water, at the moment, the water discharging temperature of the water purifying and drinking machine 1 is 90 +/-3 ℃, and the water discharging amount is 180 +/-18 ml.
in the embodiment, the water outlet temperature a of the water purifier 1 is 87 ℃, or 90 ℃ or 93 ℃, and the water outlet amount b is 162 ml, or 180 ml, or 198 ml; the water outlet temperature c of the water purifying dispenser 1 is 67 ℃, or 70 ℃ or 73 ℃, and the water outlet d is 225 ml, or 250 ml or 275 ml; the water outlet temperature e of the water purifying drinking machine 1 is 42 ℃, or 45 ℃ or 48 ℃, and the water outlet amount f is 270 ml, or 300 ml or 330 ml; the water outlet temperature g of the water purifying dispenser 1 is 82 ℃, 85 ℃ or 88 ℃, and the water outlet h is 297 ml, 330 ml or 363 ml.
in this embodiment, the fourth sensing assembly 6 includes a first magnetic sensing element 61, a second magnetic sensing element 62 and a third magnetic sensing element 63, the first magnetic sensing element 61, the second magnetic sensing element 62 and the third magnetic sensing element 63 are sequentially arranged on the body of the water purifying and drinking machine 1 from top to bottom, and a distance between two adjacent magnetic sensing elements is greater than or equal to 1 cm; the first induction component 3 is a magnet, the height of the magnet of the first induction component 3 is adapted to the first magnetic induction element 61, when the distance between the first induction component 3 and the first magnetic induction element 61, the distance between the first magnetic induction element 62 and the distance between the first induction component 3 and the third magnetic induction element 63 are smaller than 8 mm, the first magnetic induction element 61, the second magnetic induction element 62 and the third magnetic induction element 63 are triggered to generate signals, the generated signals can trigger the control panel 7, and the control panel 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water yield and the water outlet temperature of the water purifier 1; the second induction component 4 is a magnet, the height of the magnet of the second induction component 4 is adapted to that of the second magnetic induction element 62, when the distance between the second induction component 4 and the second magnetic induction element 62 and the distance between the second induction component 4 and the third magnetic induction element 63 are smaller than 8 mm, the second magnetic induction element 62 and the third magnetic induction element 63 are triggered to generate signals, the generated signals can trigger the control board 7, and at the moment, the control board 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water yield and the water outlet temperature of the water purifier 1; the third induction component 5 is a magnet, the height of the magnet of the third induction component 5 is adapted to the height of the third magnetic induction element 61, when the distance between the third induction component 5 and the third magnetic induction element 63 is less than 8 mm, the third magnetic induction element 63 is triggered to generate a signal, the generated signal can trigger the control panel 7, and at the moment, the control panel 7 controls the water pump 11 and the water temperature heating device 12 so as to control the water yield and the water outlet temperature of the water purifying and drinking machine 1; the control board 7 receives the first signal, the second signal or the third signal and then controls the water pump 11 and the water temperature heating device 12 to work.
In this embodiment, the water heater further comprises a start switch K, a first triode Q1 and a second triode Q2, wherein the control board 7 is of the model STM32F051K which is an MCU with 32 pins, pin 6 of the control board 7 is electrically connected with the output end of the first magnetic induction element 61, pin 7 of the control board 7 is electrically connected with the output end of the second magnetic induction element 62, pin 8 of the control board 7 is electrically connected with the output end of the third magnetic induction element 63, pin 23 of the control board 7 is electrically connected with the base of the second triode Q2, pin 24 of the control board 7 is electrically connected with the base of the first triode Q1, pin 30 of the control board 7 is grounded through the start switch K, the collector of the first triode Q1 is electrically connected with a power supply, the emitter of the first triode Q1 is grounded through the water pump 11, the collector of the second triode Q2 is electrically connected with the live wire of commercial alternating current, the emitter of the second triode Q2 is electrically connected with one end of the heating resistor, the other end of the heating resistor R is connected to a zero line of commercial alternating current, the ground terminal of the first magnetic induction element 61 is grounded, the power input terminal of the first induction element 61 is electrically connected to the power supply, the ground terminal of the second magnetic induction element 62 is grounded, the power input terminal of the second induction element 62 is electrically connected to the power supply, the ground terminal of the third magnetic induction element 63 is grounded, and the power input terminal of the third induction element 63 is electrically connected to the power supply.
the embodiments of the present invention are described in detail above with reference to the drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention.
Claims (7)
1. the utility model provides a control structure of clean drink machine water yield of intelligence and temperature which characterized in that includes:
The cup mat (2), the first induction component (3), the second induction component (4) and the third induction component (5); the cup mat (2) is a cuboid, the first sensing assembly (3) is arranged above or below the cup mat (2), the second sensing assembly (4) is arranged on the left or right of the cup mat (2), and the third sensing assembly (5) is arranged in front of or behind the cup mat (2);
a fourth induction component (6) and a control panel (7); the fourth induction component (6) is arranged below the water outlet of the water purifying and drinking machine (1), and the control panel (7) is arranged in the water purifying and drinking machine (1); when the cup mat (2) is placed below a water outlet of the water purifying and drinking machine (1) and the distance between the first induction assembly (3) and the fourth induction assembly (6) is less than 8 mm, the fourth induction assembly (6) generates a signal and inputs the signal to the control board (7), and the control board (7) controls the water pump (11) and the water temperature heating device (12) so as to control the water outlet amount and the water outlet temperature of the water purifying and drinking machine (1); when the cup mat (2) is placed below a water outlet of the water purifying and drinking machine (1) and the distance between the second induction assembly (4) and the fourth induction assembly (6) is less than 8 mm, the fourth induction assembly (6) generates a signal and inputs the signal to the control board (7), and the control board (7) controls the water pump (11) and the water temperature heating device (12) so as to control the water outlet amount and the water outlet temperature of the water purifying and drinking machine (1); when the cup mat (2) is placed below a water outlet of the water purifying and drinking machine (1) and the distance between the third induction component (5) and the fourth induction component (6) is smaller than 8 mm, the fourth induction component (6) generates a signal and inputs the signal to the control board (7), and the control board (7) controls the water pump (11) and the water temperature heating device (12) so as to control the water outlet amount and the water outlet temperature of the water purifying and drinking machine (1).
2. The water yield and temperature control structure of intelligent water purifier according to claim 1, wherein the fourth sensing assembly (6) comprises a first magnetic sensing element (61), a second magnetic sensing element (62) and a third magnetic sensing element (63); the first magnetic induction element (61), the second magnetic induction element (62) and the third magnetic induction element (63) are sequentially arranged from top to bottom, and the distance between every two adjacent magnetic induction elements is more than or equal to 1 cm; the first induction component (3) is a magnet, the height of the magnet of the first induction component (3) is adapted to that of the first magnetic induction element (61), the first induction component (3) needs to be simultaneously less than 8 mm away from the first magnetic induction element (61), the second magnetic induction element (62) and the third magnetic induction element (63), the generated signal can trigger the control panel (7), and the control panel (7) controls the water pump (11) and the water temperature heating device (12) so as to control the water yield and the water outlet temperature of the water purifier (1); the second induction component (4) is a magnet, the height of the magnet of the second induction component (4) is matched with that of the second magnetic induction element (62), the second induction component (4) needs to be simultaneously less than 8 mm away from the second magnetic induction element (62) and the third magnetic induction element (63), the generated signal can trigger the control panel (7), and the control panel (7) controls the water pump (11) and the water temperature heating device (12) so as to control the water outlet quantity and the water outlet temperature of the water purifying and drinking machine (1); the third induction component (5) is a magnet, the height of the magnet of the third induction component (5) is adapted to the third magnetic induction element (63), the distance between the third induction component (5) and the third magnetic induction element (63) is less than 8 mm, a signal generated by the third magnetic induction element (63) can trigger the control panel (7), and at the moment, the control panel (7) controls the water pump (11) and the water temperature heating device (12) so as to control the water outlet amount and the water outlet temperature of the water purifying and drinking machine (1).
3. The water yield and temperature control structure of intelligent water purifier according to claim 2, further comprising a start switch (K), a first transistor (Q1) and a second transistor (Q2), wherein the control board (7) is STM32F051K which is a MCU having 32 pins, 6 pins of the control board (7) are electrically connected with the output end of the first magnetic induction element (61), 7 pins of the control board (7) are electrically connected with the output end of the second magnetic induction element (62), 8 pins of the control board (7) are electrically connected with the output end of the third magnetic induction element (63), 23 pins of the control board (7) are electrically connected with the base of the second transistor (Q2), 24 pins of the control board (7) are electrically connected with the base of the first transistor (Q1), 30 pins of the control board (7) are grounded through the start switch (K), and the collector of the first transistor (Q1) is electrically connected with a power supply, the emitting electrode of first triode (Q1) passes through water pump (11) ground connection, the collecting electrode of second triode (Q2) is connected with the live wire electricity of city alternating current, and the emitting electrode of second triode (Q2) is connected with the one end electricity of heating resistor (R) among water temperature heating device (12), and the other termination of heating resistor (R) is the zero line of city alternating current, the earthing terminal ground connection of first magnetic induction element (61), the power input end and the power electricity of first induction element (61) are connected, the earthing terminal ground connection of second magnetic induction element (62), the power input end and the power electricity of second induction element (62) are connected, the earthing terminal ground connection of third magnetic induction element (63), the power input end and the power electricity of third induction element (63) are connected.
4. the method for controlling the water yield and the water temperature of the intelligent water purifier as claimed in claim 1, wherein the method comprises the following steps:
when the cup mat (2) is placed below a water outlet of the water purifying dispenser (1) and the distance between the first induction component (3) and the fourth induction component (6) is smaller than 8 mm, the fourth induction component (6) can transmit signals to the control panel (7), a user starts a water making function of the water purifying dispenser (1), the control panel (7) sends control signals to the water temperature heating device (12) and the water pump (13) in the water purifying dispenser (1), the water pump (13) and the water temperature heating device (12) start to work after receiving the control signals, the water purifying dispenser (1) discharges water, and at the moment, the water outlet temperature of the water purifying dispenser (1) is a, and the water discharge amount is b;
When the cup mat (2) is placed below a water outlet of the water purifying dispenser (1) and the distance between the second induction component (4) and the fourth induction component (6) is smaller than 8 mm, the fourth induction component (6) can transmit signals to the control panel (7), a user starts a water making function of the water purifying dispenser (1), the control panel (7) sends control signals to the water temperature heating device (12) and the water pump (13) in the water purifying dispenser (1), the water pump (13) and the water temperature heating device (12) start to work after receiving the control signals, the water purifying dispenser (1) discharges water, at the moment, the water outlet temperature of the water purifying dispenser (1) is c, and the water discharge amount is d;
When the cup mat (2) is placed below a water outlet of the water purifying dispenser (1), and the distance between the third induction component (5) and the fourth induction component (6) is smaller than 8 mm, the fourth induction component (6) can transmit a signal to the control board (7) to receive the third signal, a user starts the water preparing function of the water purifying dispenser (1), the control board (7) sends a control signal to the water temperature heating device (12) and the water pump (13) in the water purifying dispenser (1), the water pump (13) and the water temperature heating device (12) start to work after receiving the control signal, the water purifying dispenser (1) discharges water, at the moment, the water discharging temperature of the water purifying dispenser (1) is e, and the water discharging amount is f;
When the cup mat (2) is not placed below the water outlet of the water purifying drinking machine (1), a user starts the water preparing function of the water purifying drinking machine (1), the control panel (7) sends a control signal to the water temperature heating device (12) and the water pump (13) in the water purifying drinking machine (1), the water pump (13) and the water temperature heating device (12) start to work after receiving the control signal, the water purifying drinking machine (1) discharges water, at the moment, the water discharging temperature of the water purifying drinking machine (1) is g, and the water discharging amount is h.
5. The method for controlling the water yield and the water temperature of the intelligent water purifier as claimed in claim 4, wherein the water temperature a of the water outlet of the water purifier (1) is 90 ℃ plus or minus 3 ℃, and the water yield b is 180 ml plus or minus 18 ml; the water outlet temperature c of the water purifying dispenser (1) is 70 +/-3 ℃, and the water outlet d is 250 +/-25 ml; the water outlet temperature e of the water purifying dispenser (1) is 45 +/-3 ℃, and the water outlet amount f is 300 +/-30 ml; the water outlet temperature g of the water purifying dispenser (1) is 85 ℃ plus or minus 3 ℃, and the water outlet h is 330 ml plus or minus 33 ml.
6. The method for controlling water yield and water temperature of intelligent water purifier as claimed in claim 4, wherein the fourth sensing assembly (6) comprises a first magnetic sensing element (61), a second magnetic sensing element (62) and a third magnetic sensing element (63); the first magnetic induction element (61), the second magnetic induction element (62) and the third magnetic induction element (63) are sequentially arranged from top to bottom, and the distance between every two adjacent magnetic induction elements is more than or equal to 1 cm; the first induction component (3) is a magnet, the height of the magnet of the first induction component (3) is adapted to that of the first magnetic induction element (61), the first induction component (3) needs to be simultaneously less than 8 mm away from the first magnetic induction element (61), the second magnetic induction element (62) and the third magnetic induction element (63), the generated signal can trigger the control panel (7), and the control panel (7) controls the water pump (11) and the water temperature heating device (12) so as to control the water yield and the water outlet temperature of the water purifier (1); the second induction component (4) is a magnet, the height of the magnet of the second induction component (4) is matched with that of the second magnetic induction element (62), the second induction component (4) needs to be simultaneously less than 8 mm away from the second magnetic induction element (62) and the third magnetic induction element (63), the generated signal can trigger the control panel (7), and the control panel (7) controls the water pump (11) and the water temperature heating device (12) so as to control the water outlet quantity and the water outlet temperature of the water purifying and drinking machine (1); the third induction component (5) is a magnet, the height of the magnet of the third induction component (5) is adapted to the third magnetic induction element (63), the distance between the third induction component (5) and the third magnetic induction element (63) is less than 8 mm, a signal generated by the third magnetic induction element (63) can trigger the control panel (7), and at the moment, the control panel (7) controls the water pump (11) and the water temperature heating device (12) so as to control the water outlet amount and the water outlet temperature of the water purifying and drinking machine (1).
7. The method for controlling water yield and water temperature of intelligent water purifier according to claim 6, further comprising a start switch (K), a first transistor (Q1) and a second transistor (Q2), wherein the control board (7) is a MCU having 32 pins, the 6 pins of the control board (7) are electrically connected to the output terminal of the first magnetic induction element (61), the 7 pins of the control board (7) are electrically connected to the output terminal of the second magnetic induction element (62), the 8 pins of the control board (7) are electrically connected to the output terminal of the third magnetic induction element (63), the 23 pins of the control board (7) are electrically connected to the base of the second transistor (Q2), the 24 pins of the control board (7) are electrically connected to the base of the first transistor (Q1), the 30 pins of the control board (7) are grounded via the start switch (K), and the collector of the first transistor (Q1) is electrically connected to the power supply, the emitter of first triode (Q1) passes through water pump (11) ground connection, the collecting electrode and the 220V alternating current electricity of second triode (Q2) are connected, and the emitter of second triode (Q2) is connected with the one end electricity of heating resistor (R) in water temperature heating device (12), and the other end ground connection of heating resistor (R), the ground terminal ground connection of first magnetic induction element (61), the power input end and the power electricity of first induction element (61) are connected, the ground terminal ground connection of second magnetic induction element (62), the power input end and the power electricity of second induction element (62) are connected, the ground terminal ground connection of third magnetic induction element (63), the power input end and the power electricity of third induction element (63) are connected.
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