CN110925161A - Water feeder and water quantity self-defining method thereof - Google Patents

Abstract

The invention provides the technical field of water feeders, and particularly relates to a water feeder and a water quantity self-defining method thereof. The water quantity self-defining method comprises the following steps: entering a water quantity definition mode; carrying out primary water outlet operation, obtaining the total water yield, and memorizing the total water yield as a temporary water yield; and after the water yield of the subsequent water outlet operation reaches the temporary water yield, automatically stopping water outlet. Compared with the prior art, the water supply device has the advantages that the water yield of one-key water outlet is flexibly adjusted by designing the water yield self-defining method of the water supply device, the adjusting mode is simple, the user experience is improved, and the water supply device is suitable for various water using conditions; furthermore, the whole design is simple, the cost is low, and the effect is good.

Description

Water feeder and water quantity self-defining method thereof

Technical Field

The invention provides the technical field of water feeders, and particularly relates to a water feeder and a water quantity self-defining method thereof.

Background

The water feeder is a movable portable water pumping device, and generally cooperates with barreled water to pump water.

The water feeder has multiple functions, such as one-key water outlet, light prompt, USB charging, electric quantity realization, water filtering, water heating and the like.

However, for one-key water outlet, the water outlet amount is preset by a manufacturer and is only suitable for the conventional water outlet amount, and when more or less water needs to be filled, the user experience of one-key water outlet is poor.

Disclosure of Invention

The invention aims to solve the technical problem that the water feeder and the water quantity self-defining method thereof are provided to solve the problem of poor user experience of one-key water outlet.

The technical scheme adopted by the invention for solving the technical problems is as follows: the water quantity self-defining method of the water feeder comprises the following steps:

entering a water quantity definition mode;

carrying out primary water outlet operation, obtaining the total water yield, and memorizing the total water yield as a temporary water yield;

and after the water yield of the subsequent water outlet operation reaches the temporary water yield, automatically stopping water outlet.

Preferably, the method for obtaining the total water yield includes: determining the total water yield through the total water outlet time; alternatively, the total water output is determined by the total water output.

Preferably, the water supply device comprises a switch button, and the step of the water quantity self-defining method further comprises:

pressing a switch key in a first pressing mode to enter a water quantity definition mode;

pressing a switch key in a second pressing mode to perform water outlet operation, and acquiring the total water outlet quantity;

and then the switch key is pressed in a third pressing mode to perform subsequent water outlet operation.

Wherein, the preferred scheme is: the first pressing mode is long pressing, the second pressing mode is point pressing, and the third pressing mode is point pressing; and the second pressing mode comprises the steps of pressing the switch key to discharge water, and pressing the switch key to turn off the water again to finish one water discharging operation.

Preferably, the water supply device further comprises at least one type of indicator light, and the step of the water volume self-defining method further comprises:

after entering a water quantity definition mode, one type of indicator lights through a first lighting mode;

when the primary water outlet operation is carried out, or after the total water outlet amount is successfully obtained after the primary water outlet operation is carried out, the first class of indicator lamps are lightened in a second lightening mode;

after the total water yield is memorized as the temporary water yield, the first class of indicator lamps are lightened in a third lightening mode.

Preferably, the water supply device includes a mode selection module, and the step of the water volume self-defining method further includes:

selecting a water quantity definition mode through a mode selection module, and entering the water quantity definition mode;

and selecting a common module through the mode selection module, exiting from the water quantity definition mode, and carrying out corresponding operation on subsequent water outlet operation according to preset setting.

Preferably, the step of the water amount self-defining method further comprises: selecting a common module through a mode selection module, and exiting from a water quantity definition mode; the common module is in a long-flow mode, a triggered water outlet mode or a preset water outlet quantity water outlet mode.

Wherein, the preferred scheme is: the mode selection module is a mode selection knob.

The technical scheme adopted by the invention for solving the technical problems is as follows: the water feeder comprises a water outlet pipe, a water pumping device arranged in the water outlet pipe for water outlet operation, a controller for controlling the water pumping device to work according to the water quantity self-defining method, and a control platform connected with the controller.

Wherein, the preferred scheme is: the controller comprises a MUC, the control platform comprises an encoder, a signal control end of the MUC is connected with the water pumping device, the encoder is a rotary encoder to adjust gears, and the MUC carries out corresponding working modes according to the adjustment gears of the rotary encoder.

Compared with the prior art, the water supply device has the advantages that the water yield of one-key water outlet is flexibly adjusted by designing the water yield self-defining method of the water supply device, the adjusting mode is simple, the user experience is improved, and the water supply device is suitable for various water using conditions; furthermore, the whole design is simple, the cost is low, and the effect is good.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic structural view of a water supply of the present invention;

FIG. 2 is a schematic flow chart of the water amount customization method of the present invention;

FIG. 3 is a schematic structural diagram of a switch button according to the present invention;

FIG. 4 is a schematic flow chart of a water amount self-defining method based on switch keys according to the present invention;

FIG. 5 is a schematic flow chart of a method for customizing the amount of water based on an indicator light according to the present invention;

FIG. 6 is a block diagram illustrating the structure of a mode selection module according to the present invention;

FIG. 7 is a flow chart of the water amount customization method based on the mode selection module according to the present invention;

fig. 8 is a circuit schematic of the controller of the present invention.

Detailed Description

The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the present invention provides a preferred embodiment of a water supply device and a water quantity customizing method thereof.

A water feeder comprises a water outlet pipe 100, a water pump 200 arranged in the water outlet pipe 100 for water outlet operation, a controller 300 for controlling the water pump 200 to work according to a water quantity self-defining method, and a control platform 400 connected with the controller 300. Specifically, outlet pipe 100 includes water inlet and delivery port at least, the water inlet can with insert the hose connection in the barreled water to realize drawing water through water pumper 200, take out the water of water inlet and go out water through the delivery port, controller 300 is the work of control water pumper 200, if open water pumper 200, close water pumper 200 and even adjust unit's volume of drawing water, control platform 400 includes multiple control structure, like button and knob etc. realizes controller 300 and user's human-computer interaction.

A water quantity self-defining method of a water feeder comprises the following steps:

step S11, entering a water quantity definition mode;

step S12, carrying out primary water outlet operation, obtaining the total water outlet quantity, and memorizing the total water outlet quantity as temporary water outlet quantity;

and step S13, automatically stopping water outlet when the water outlet amount of the subsequent water outlet operation reaches the temporary water outlet amount.

Specifically, the controller 300 is controlled to enter the water amount defining mode in a manner, such as being controlled by the control platform 400, or automatically entering for the first time, or automatically entering after each startup; performing primary water outlet operation in a water quantity definition mode through platform control, specifically, starting the water pump 200 and closing the water pump 200 according to user requirements, completing primary water outlet operation, and acquiring the water outlet quantity of the water outlet operation as the total water outlet quantity; the controller 300 stores the total water yield as a temporary water yield, automatically exits from the water yield definition mode, performs one-key water yielding operation during the next water yielding operation, controls the water pumping device 200 to automatically output water, and automatically stops water yielding after the temporary water yield is reached, so that the user definition of the water yield is realized, the water yield of one-key water yielding is flexibly adjusted, the adjusting mode is simple, the user experience is improved, and the water-saving water dispenser is suitable for various water using conditions.

In this embodiment, the manner of obtaining the total water yield includes: determining the total water yield through the total water outlet time; alternatively, the total water output is determined by the total water output. Specifically, on the premise of basically the same unit water yield, the total water yield is the blowing amount of the total water yield time, and the method can be realized only by carrying out program improvement or adding a timing logic circuit, and has simple structure and low cost; the total water yield is determined through the total water yield, an additional water yield detector is needed to detect the total water yield, or the water yield detection function of the water pumping device 200 is adopted to realize the detection, so that the water yield precision is high, and the influence of the water yield at the water inlet is not taken in.

As shown in fig. 3 and 4, the present invention provides a preferred embodiment of a water amount customization method based on the switch button 410.

The water feeder comprises a switch button 410, and the water quantity self-defining method further comprises the following steps:

step S21, pressing the switch button 410 by the first pressing manner, entering a water amount defining mode;

step S22, pressing the switch button 410 by the second pressing mode to perform water outlet operation, and acquiring the total water outlet quantity;

and step S23, pressing the switch button 410 in the third pressing mode to perform the subsequent water outlet operation.

Specifically, the switch button 410 is used as a part of the control platform 400 and is used for turning on or off water outlet, and when entering the water quantity definition mode, the switch button 410 can be pressed in a first pressing mode, so that one-key multi-purpose functions are realized, the appearance is beautified, the number of control buttons is reduced, the hardware cost is reduced, and the stability is improved; preferably, the first pressing manner is a long press, such as a long press for 3 seconds, and the controller 300 is controlled to directly enter the water amount defining mode.

And in the water quantity definition mode, the switch button 410 is pressed in a second pressing mode to perform water outlet operation, namely, the water pump 200 is started to discharge water, the water pump 200 is closed to stop discharging water, a water outlet operation cycle is realized, the user-defined water outlet quantity is realized, the mode is simple, the operation is simple, and the user experience is high; preferably, the second pressing mode is a point pressing mode, and specifically, the second pressing mode includes that the switch key 410 is pressed to discharge water, and then the switch key 410 is pressed to stop water, so that one water discharging operation is completed.

After the operation is finished, the water quantity definition mode is exited, and a normal use module is entered.

And then the switch button 410 is pressed in a third pressing mode to perform subsequent water outlet operation, and water outlet is automatically stopped after the water outlet amount reaches the temporary water outlet amount; preferably, the third pressing mode is a click pressing mode, namely a one-key water outlet function, and the water outlet amount of one-key water outlet is flexibly adjusted.

In the embodiment, multiple operation functions can be realized through one switch button 410, and the structure is simple, the cost is low, and the effect is good; and the user operation is more convenient and concise.

As shown in FIG. 5, the present invention provides a preferred embodiment of a method for customizing a water amount based on an indicator light.

The water feeder further comprises at least one type of indicator light, and the water quantity self-defining method further comprises the following steps:

step S31, after entering the water quantity definition mode, the first indicator light is turned on in a first light-on mode;

step S32, when water outlet operation is carried out for the first time, or after the total water outlet amount is successfully obtained after the water outlet operation is carried out for the first time, the first class of indicator lamps are lightened in a second lightening mode;

and step S33, after the total water yield is memorized as the temporary water yield, the first-class indicator lamp is lightened in a third lightening mode.

The first type of indicator light is one type of indicator light, and can also be regarded as an indicator light with the same area or condition, for example, the indicator light acting on the water feeder key can be regarded as the first type of indicator light, or the indicator light acting on different types of keys can be regarded as the different types of indicator lights according to different key classifications.

Specifically, the indicator lamps acting on the switch button 410 may be regarded as a type of indicator lamp, and the indicator lamps acting on the display mark may be regarded as a type of indicator lamp, and the indicator lamps of the present embodiment are preferably all three types of indicator lamps, a first indicator lamp disposed on the surface or content of the switch button 410, an annular indicator lamp disposed on the periphery of the switch button 410, and a second indicator lamp indicating that the indicator lamp enters a certain gear.

After entering a water quantity definition mode, a first indicator lamp continuously flickers; when one-time water outlet operation is carried out, the first indicator lamp stops flashing and becomes normally bright, if the first indicator lamp stops flashing and becomes normally bright after being pressed for a short time, and water outlet is started; after the total water yield is successfully obtained after the primary water outlet operation is carried out, the first indicator lamp stops flashing and becomes normally on, and the annular indicator lamp is normally on; after the total water yield is memorized as the temporary water yield, only the second indicator light is turned on, and the mark enters the normal use module based on the water yield definition mode.

As shown in fig. 6 and 7, the present invention provides a preferred embodiment of a water volume customization method based on a mode selection module 420.

The water feeder comprises a mode selection module 420, and the water quantity self-defining method further comprises the following steps:

step S41, selecting a water quantity definition mode through the mode selection module 420, and entering the water quantity definition mode;

step S42, selecting the normal module through the mode selection module 420, exiting the water amount definition mode, and performing corresponding operations according to the preset settings in the subsequent water outlet operations.

In this embodiment, the step of the water amount customization method further includes: selecting a common module through the mode selection module 420, and exiting from the water quantity definition mode; the common module is in a long-flow mode, a triggered water outlet mode or a preset water outlet quantity water outlet mode.

In this embodiment, the mode selection module 420 is a mode selection knob, and different units, such as the gear of the water amount definition mode and the gear of the general module, are selected through the mode selection knob.

As shown in fig. 8, the present invention provides a preferred embodiment of the controller 300.

The controller 300 comprises a MUC510, the control platform 400 comprises an encoder 520, a signal control end of the MUC510 is connected with the water pump 200, the encoder 520 is a rotary encoder 520 to adjust gears, and the MUC510 performs corresponding working modes according to the adjusted gears of the rotary encoder 520.

The controller 300 comprises a MUC510 and an encoder 520, and a signal control terminal of the MUC510 is connected with the water pump 200. The A pin and the B pin of the encoder 520 are respectively connected with PB.1 and PB.2 of the MCU and used for identifying the current position of the encoder 520; the switch of the encoder 520 is connected to the PA.5 and GND of the MCU and used for starting and stopping the water pump 200; by rotating the encoder 520, the MCU can recognize that the device is rotating clockwise or counterclockwise according to the pulse states of a and B, and record the number of pulses to determine the current position of the encoder 520, so as to enter a water volume definition mode or other modes according to the preset different positions according to the position of the encoder 520. Generally speaking, a factory setting is a fixed water quantity, when entering the first gear through the encoder 520, the water quantity definition mode can be entered, preferably, the current water feeding time is recorded, so that when water is fed next time, the MCU automatically starts the water feeding according to the recorded value of the water quantity definition mode, of course, if the set value is not satisfied or is not satisfied for the use of the time or for multiple times, the MCU can re-enter the setting state for re-setting, and the MCU only keeps the last setting.

The MCU is further connected to the LED lamp 600 (i.e., similar indicator lamp) to control the on/off of the LED lamp 600, and control the LED lamp 600 to perform different operations according to different conditions. If which gear is selected, the LED lamp 600 corresponding to the gear is turned on.

Further, the gear shifting is realized at the encoder 520 by a rotating panel on the surface of the water applicator.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, but rather as embodying the invention in a wide variety of equivalent variations and modifications within the scope of the appended claims.

Claims (10)

1. A water quantity self-defining method of a water feeder is characterized by comprising the following steps:

entering a water quantity definition mode;

carrying out primary water outlet operation, obtaining the total water yield, and memorizing the total water yield as a temporary water yield;

and after the water yield of the subsequent water outlet operation reaches the temporary water yield, automatically stopping water outlet.

2. The water amount customization method according to claim 1, wherein the acquiring of the total water output comprises: determining the total water yield through the total water outlet time; alternatively, the total water output is determined by the total water output.

3. The water volume customizing method according to claim 1 or 2, wherein the water feeder comprises a switch button, and the water volume customizing method further comprises the steps of:

pressing a switch key in a first pressing mode to enter a water quantity definition mode;

pressing a switch key in a second pressing mode to perform water outlet operation, and acquiring the total water outlet quantity;

and then the switch key is pressed in a third pressing mode to perform subsequent water outlet operation.

4. The water amount customization method according to claim 3, characterized in that: the first pressing mode is long pressing, the second pressing mode is point pressing, and the third pressing mode is point pressing; and the second pressing mode comprises the steps of pressing the switch key to discharge water, and pressing the switch key to turn off the water again to finish one water discharging operation.

5. The water volume customization method according to claim 1, wherein the water supply further comprises at least one type of indicator light, and the steps of the water volume customization method further comprise:

after entering a water quantity definition mode, one type of indicator lights through a first lighting mode;

when the primary water outlet operation is carried out, or after the total water outlet amount is successfully obtained after the primary water outlet operation is carried out, the first class of indicator lamps are lightened in a second lightening mode;

after the total water yield is memorized as the temporary water yield, the first class of indicator lamps are lightened in a third lightening mode.

6. The water volume customization method according to claim 1, wherein the water loader comprises a mode selection module, and the water volume customization method further comprises the steps of:

selecting a water quantity definition mode through a mode selection module, and entering the water quantity definition mode;

and selecting a common module through the mode selection module, exiting from the water quantity definition mode, and carrying out corresponding operation on subsequent water outlet operation according to preset setting.

7. The water volume customization method according to claim 6, further comprising the steps of: selecting a common module through a mode selection module, and exiting from a water quantity definition mode; the common module is in a long-flow mode, a triggered water outlet mode or a preset water outlet quantity water outlet mode.

8. The water amount customization method according to claim 6 or 7, characterized in that: the mode selection module is a mode selection knob.

9. A water feeder, characterized in that: the water feeder comprises a water outlet pipe, a water pumping device arranged in the water outlet pipe for water outlet operation, a controller for controlling the water pumping device to work according to the water quantity self-defining method as claimed in any one of claims 1 to 8, and a control platform connected with the controller.

10. A water applicator as claimed in claim 9, wherein: the controller comprises a MUC, the control platform comprises an encoder, a signal control end of the MUC is connected with the water pumping device, the encoder is a rotary encoder to adjust gears, and the MUC carries out corresponding working modes according to the adjustment gears of the rotary encoder.

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