CN113531912A - Temperature control method, system and equipment of water heater and storage medium - Google Patents

Abstract

The invention discloses a temperature control method, a system, equipment and a storage medium of a water heater, wherein the temperature control method comprises the following steps: acquiring water flow data of a faucet; obtaining the turn-off times of the faucet according to the water flow data; obtaining a temperature adjusting parameter according to the turn-off times; and adjusting the set outlet water temperature of the water heater based on the temperature adjusting parameters. This application need not to increase extra hardware device, need not the cost, realizes adjusting the settlement leaving water temperature of water heater through control faucet's cut-off and discharge data, and the user can accomplish the regulation before tap, need not go to adjust on the water heater, and is convenient simple and reliable.

Description

Temperature control method, system and equipment of water heater and storage medium

Technical Field

The invention relates to the field of water heater control, in particular to a temperature control method, a temperature control system, temperature control equipment and a storage medium of a water heater.

Background

Most of the existing gas water heaters are installed in a kitchen or a balcony, and the water heating comfort temperature is different due to the individual difference of different users. If the water temperature is too cold or too hot, the water needs to come out of the shower room and go to a kitchen or a balcony of equipment to change the set temperature, which is very inconvenient; or mixed water is adopted for bathing (namely, a higher water temperature is set, and then the water temperature is neutralized by adjusting a cold water valve of a faucet), at the moment, once the water pressure of a user at home fluctuates or water is available at other places at home, the fluctuation of the water temperature is obvious, the temperature is suddenly changed, and the comfort of use is seriously influenced; or, the prior art also uses a remote controller for remote control, the waterproof grade of the remote controller is required to be high under the condition, the cost is correspondingly high, and meanwhile, if the shower room is far away from the water heater or the wall penetrating capability of the remote controller is poor, the remote control capability is also influenced. Or, the intelligent temperature control faucet is adopted for directly upgrading the faucet, so that a user can directly control the faucet in a shower room conveniently, and obviously, the requirement on the equipment of the intelligent faucet is higher, and the cost is higher.

Disclosure of Invention

The invention aims to overcome the defects of poor user experience of water temperature adjustment and high cost caused by the input of intelligent temperature control equipment in the use process of a water heater in the prior art, and provides a temperature control method, a temperature control system, temperature control equipment and a storage medium of the water heater.

The invention solves the technical problems through the following technical scheme:

a temperature control method of a water heater, the temperature control method comprising:

acquiring water flow data of a faucet;

obtaining the turn-off times of the faucet according to the water flow data;

obtaining a temperature adjusting parameter according to the turn-off times;

and adjusting the set outlet water temperature of the water heater based on the temperature adjusting parameters.

Preferably, the step of obtaining the turn-off times of the faucet according to the water flow data specifically includes:

judging whether the faucet is turned off or not according to the water flow data, if so, determining that the faucet is turned off once, and setting the initial value of the turn-off times to be 1;

acquiring new water flow data and judging whether the faucet is turned off or not;

if so, judging whether the interval time between the current water faucet turn-off and the previous water faucet turn-off is less than a first preset time, if so, adding 1 to the turn-off frequency in an accumulated mode, and returning to the step of acquiring new water flow data until the interval time is greater than the first preset time;

counting to obtain the turn-off times;

and judging whether the turn-off times are greater than preset times, if so, executing the step of obtaining temperature adjusting parameters according to the turn-off times.

Preferably, the step of determining whether the faucet is turned off according to the water flow data, and if yes, determining that the faucet is turned off once specifically includes:

obtaining a water flow change value according to the water flow data;

and if the water flow change value is larger than a first preset threshold value and/or the water flow data is smaller than a second preset threshold value, determining that the faucet is turned off once.

Preferably, the temperature control method solves the temperature adjustment parameter according to the following formula, including:

T＝(-1)^K*a*K

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and a is a preset constant.

Preferably, the step of obtaining the temperature adjustment parameter according to the turn-off frequency specifically includes:

and obtaining the temperature adjusting parameter according to the turn-off times and the water flow data.

Preferably, the temperature control method solves the temperature adjustment parameter according to the following formula, including:

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and Q_maxThe maximum water flow of the water faucet, Q is the actual water flow of the water faucet, and b is a preset constant.

Preferably, the temperature control method includes:

and receiving a trigger instruction to enter a faucet temperature control mode, and then executing the step of acquiring water flow data of the faucet.

A temperature control system of a water heater, the temperature control system comprising:

the water flow acquisition module is used for acquiring water flow data of the faucet;

the turn-off frequency determining module is used for obtaining the turn-off frequency of the faucet according to the water flow data;

the adjusting parameter determining module is used for obtaining a temperature adjusting parameter according to the turn-off times;

and the adjusting module is used for adjusting the set outlet water temperature of the water heater based on the temperature adjusting parameter.

Preferably, the turn-off number determining module includes a first determining unit, a number determining unit, a second determining unit, a counting unit and a third determining unit;

the first judging unit is used for judging whether the faucet is turned off or not according to the water flow data, if so, the frequency determining unit is called to determine that the faucet is turned off once, and the initial value of the turn-off frequency is set to be 1;

the water flow obtaining module is further configured to obtain new water flow data, and call the first judging unit to judge whether the faucet is turned off, and if so, call the second judging unit;

the second judgment unit is used for judging whether the interval time between the current water faucet turn-off and the previous water faucet turn-off is less than a first preset time or not, if so, the number determining unit is called to add 1 to the turn-off number in an accumulated mode, and the water flow obtaining module is returned to be called to obtain new water flow data until the interval time is greater than the first preset time;

the statistical unit is used for obtaining the turn-off times through statistics;

the third judging unit is used for judging whether the turn-off times are larger than preset times or not, and if so, the adjusting parameter determining module is called.

Preferably, the turn-off number determining module further includes a water flow change value calculating unit;

the water flow change value calculating unit is used for obtaining a water flow change value according to the water flow data;

the frequency determining unit is used for determining that the water faucet is turned off once when the water flow change value is larger than a first preset threshold value and/or the water flow data is smaller than a second preset threshold value.

Preferably, the adjustment parameter determination module solves the temperature adjustment parameter according to the following formula, including:

T＝(-1)^K*a*K

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and a is a preset constant.

Preferably, the adjusting parameter determining module is configured to obtain the temperature adjusting parameter according to the turn-off times and the water flow data.

Preferably, the adjustment parameter determination module solves the temperature adjustment parameter according to the following formula, including:

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and Q_maxThe maximum water flow of the water faucet, Q is the actual water flow of the water faucet, and b is a preset constant.

Preferably, the temperature control system further comprises:

and the instruction receiving module is used for receiving a trigger instruction to enter a faucet temperature control mode and then calling the water flow acquisition module to execute the action of acquiring the water flow data of the faucet.

An electronic device comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor executes the computer program to realize the temperature control method of the water heater.

A computer-readable storage medium, on which a computer program is stored, which program, when being executed by a processor, realizes the above-mentioned temperature control method of a water heater.

The positive progress effects of the invention are as follows: this application need not to increase extra hardware device, need not the cost, realizes adjusting the settlement leaving water temperature of water heater through control faucet's cut-off and discharge data, and the user can accomplish the regulation before tap, need not go to adjust on the water heater, and is convenient simple and reliable.

Drawings

Fig. 1 is a flowchart of a temperature control method of a water heater according to embodiment 1 of the present invention.

Fig. 2 is a flowchart of step 301 in the temperature control method of the water heater according to embodiment 1 of the present invention.

Fig. 3 is a block diagram of a temperature control system of a water heater according to embodiment 2 of the present invention.

Fig. 4 is a schematic block diagram of a turn-off number determination module in the temperature control system of the water heater according to embodiment 2 of the present invention.

Fig. 5 is a schematic structural diagram of an electronic device according to embodiment 3 of the present invention.

Detailed Description

The invention is further illustrated by the following examples, which are not intended to limit the scope of the invention.

Example 1

A temperature control method of a water heater, as shown in fig. 1, the temperature control method comprising:

step 10, receiving a trigger instruction to enter a faucet temperature control mode;

wherein, can be equipped with special "tap accuse temperature" mode button on the operation interface of water heater, light the back, can realize tap accuse temperature mode. The existence of the key mainly reminds the user of the convenient function, and the key can be not used if the user does not need the function.

Step 20, acquiring water flow data of the faucet;

wherein, the acquisition of water flow data based on inside devices such as rivers sensor of current water heater acquire can, need not additionally to increase hardware devices.

Step 30, obtaining the turn-off times of the faucet according to the water flow data;

step 40, obtaining temperature adjusting parameters according to the turn-off times;

and step 50, adjusting the set outlet water temperature of the water heater based on the temperature adjusting parameters.

After the temperature adjusting parameter is obtained, the temperature adjusting parameter is added with the current outlet water temperature to obtain a new set temperature, and the new set temperature is automatically adjusted by a controller of the water heater. In addition, the set temperature of the outlet water which can be finally adjusted is the initial set value when the user uses the water heater next time.

Referring to fig. 1, step 30 specifically includes:

step 301, judging whether the faucet is turned off or not according to the water flow data, and if so, executing step 302;

step 302, determining that the faucet is turned off once, and setting the initial value of the turn-off times to be 1;

step 303, acquiring new water flow data, and judging whether the faucet is turned off, if so, executing step 304, and if not, executing step 306;

step 304, judging whether the interval time between the current water faucet turning-off and the previous water faucet turning-off is less than a first preset time, if so, executing step 305; if not, go to step 306;

step 305, adding 1 to the accumulated turn-off times, and returning to step 303;

and step 306, counting to obtain the turn-off times.

Step 307, judging whether the turn-off frequency is greater than a preset frequency, if so, executing step 40, otherwise, exiting the adjustment control of the current round on the set temperature, and returning to the step 20 again to perform a new round of monitoring;

in this embodiment, to avoid the user from touching the faucet by mistake, the number of times the faucet is turned off and the time interval of turning off the faucet are defined, for example: and if the times of continuously opening and closing the faucet is more than or equal to 2 and the turn-off interval time is less than or equal to 2S, executing the action of adjusting the set outlet water temperature of the water heater, and if the conditions are not met, continuously monitoring, wherein the turn-off times and the turn-off interval time can be set before leaving the factory or a control button is set according to the conditions for a user to set by himself.

In this embodiment, as shown in fig. 2, step 301 specifically includes:

step 3011, obtaining a water flow change value according to the water flow data;

step 3012, determine whether the water flow variation value is greater than a first preset threshold or whether the water flow data is smaller than a second preset threshold.

Wherein, the effective shutoff of tap can be judged by comprehensively considering the water flow change value and the water flow data. Such as: the first preset threshold value is set to be 1L/min, the water flow is reduced from 2.5L/min to 1L/min, the water flow change value is 1.5L/min, and if the water flow change value is larger than the first preset threshold value, the water flow is judged to be once cut-off. In this embodiment, the step 40 of solving the temperature adjustment parameter according to the following formula includes:

T＝(-1)^K*a*K

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and a is a preset constant.

In this embodiment, another implementation manner of step 40 is provided, which specifically includes:

and obtaining a temperature adjusting parameter according to the turn-off times and the water flow data.

Further, in step 40, the temperature adjustment parameter is solved according to the following formula, including:

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and Q_maxThe maximum water flow of the water faucet, Q is the actual water flow of the water faucet, and b is a preset constant.

In this embodiment, need not to increase extra hardware device, need not the cost, realize adjusting the setting for leaving water temperature of water heater through the cut-off and the discharge data of control tap, the user can accomplish the regulation before tap, need not go to adjust on the water heater, and is convenient simple and reliable.

Example 2

A temperature control system of a water heater, as shown in fig. 3, the temperature control system comprising:

the water flow acquisition module 1 is used for acquiring water flow data of the faucet;

wherein, the acquisition of water flow data based on inside devices such as rivers sensor of current water heater acquire can, need not additionally to increase hardware devices.

The turn-off frequency determining module 2 is used for obtaining the turn-off frequency of the faucet according to the water flow data;

the adjusting parameter determining module 3 is used for obtaining a temperature adjusting parameter according to the turn-off times;

and the adjusting module 4 is used for adjusting the set outlet water temperature of the water heater based on the temperature adjusting parameter.

After the temperature adjusting parameter is obtained, the temperature adjusting parameter is added with the current outlet water temperature to obtain a new set temperature, and the new set temperature is automatically adjusted by a controller of the water heater. In addition, the set temperature of the outlet water which can be finally adjusted is the initial set value when the user uses the water heater next time.

In this embodiment, as shown in fig. 4, the turn-off number determining module 2 includes a first determining unit 21, a number determining unit 22, a second determining unit 23, a counting unit 24, and a third determining unit 25;

the first judging unit 21 is configured to judge whether the faucet is turned off according to the water flow data, and if yes, invoke the frequency determining unit 22 to determine that the faucet is turned off once, and set an initial value of the turn-off frequency to 1;

the water flow obtaining module 1 is further configured to obtain new water flow data, and call the first determining unit 21 to determine whether the faucet is turned off, if so, call the second determining unit 23, and if not, call the counting unit 24;

the second judging unit 23 is configured to judge whether an interval time between the current faucet turning-off and the previous faucet turning-off is less than a first preset time, if not, invoke the counting unit 24, if so, invoke the frequency determining unit 22 to add 1 to the turn-off frequency accumulatively, return to invoke the water flow obtaining module 1 to obtain new water flow data until the interval time is greater than the first preset time, and then invoke the counting unit 24;

the counting unit 24 is configured to count the turn-off times;

the third judging unit 25 is configured to judge whether the turn-off frequency is greater than a preset frequency, if so, invoke the adjustment parameter determining module 3, otherwise, quit the adjustment control of the current round on the set temperature, and then invoke the water flow rate obtaining module 1 again to perform a new round of monitoring;

in this embodiment, to avoid the user from touching the faucet by mistake, the number of times the faucet is turned off and the time interval of turning off the faucet are defined, for example: and if the times of continuously opening and closing the faucet is more than or equal to 2 and the turn-off interval time is less than or equal to 2S, executing the action of adjusting the set outlet water temperature of the water heater, and if the conditions are not met, continuously monitoring, wherein the turn-off times and the turn-off interval time can be set before leaving the factory or a control button is set according to the conditions for a user to set by himself.

In this embodiment, referring to fig. 4, the turn-off number determining module 2 further includes a water flow change value calculating unit 26;

the water flow change value calculation unit 26 is configured to obtain a water flow change value according to the water flow data;

the number determining unit 22 is configured to determine that the faucet is turned off once when the water flow variation value is greater than a first preset threshold and/or the water flow data is less than a second preset threshold.

Wherein, the effective shutoff of tap can be judged by comprehensively considering the water flow change value and the water flow data. Such as: the first preset threshold value is set to be 1L/min, the water flow is reduced from 2.5L/min to 1L/min, the water flow change value is 1.5L/min, and if the water flow change value is larger than the first preset threshold value, the water flow is judged to be once cut-off.

In this embodiment, the adjusting parameter determining module 3 solves the temperature adjusting parameter according to the following formula, including:

T＝(-1)^K*a*K

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and a is a preset constant.

In this embodiment, the adjusting parameter determining module 3 is further configured to obtain the temperature adjusting parameter according to the turn-off frequency and the water flow data.

Further, the adjusting parameter determining module 3 solves the temperature adjusting parameter according to the following formula, including:

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and Q_maxThe maximum water flow of the water faucet, Q is the actual water flow of the water faucet, and b is a preset constant.

In this embodiment, referring to fig. 3, the temperature control system further includes:

and the instruction receiving module 5 is used for receiving a trigger instruction to enter a faucet temperature control mode and then calling the water flow obtaining module 1 to execute the action of obtaining the water flow data of the faucet.

Wherein, can be equipped with special "tap accuse temperature" mode button on the operation interface of water heater, light the back, can realize tap accuse temperature mode. The existence of the key mainly reminds the user of the convenient function, and the key can be not used if the user does not need the function.

In this embodiment, need not to increase extra hardware device, need not the cost, realize adjusting the setting for leaving water temperature of water heater through the cut-off and the discharge data of control tap, the user can accomplish the regulation before tap, need not go to adjust on the water heater, and is convenient simple and reliable.

Example 3

An electronic device comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, the processor implementing the method of controlling the temperature of a water heater of embodiment 1 when executing the computer program.

Fig. 5 is a schematic structural diagram of an electronic device provided in this embodiment. Fig. 5 illustrates a block diagram of an exemplary electronic device 90 suitable for use in implementing embodiments of the present invention. The electronic device 90 shown in fig. 5 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiment of the present invention.

As shown in fig. 5, the electronic device 90 may take the form of a general purpose computing device, which may be a server device, for example. The components of the electronic device 90 may include, but are not limited to: at least one processor 91, at least one memory 92, and a bus 93 that connects the various system components (including the memory 92 and the processor 91).

The bus 93 includes a data bus, an address bus, and a control bus.

Memory 92 may include volatile memory, such as Random Access Memory (RAM)921 and/or cache memory 922, and may further include Read Only Memory (ROM) 923.

Memory 92 may also include a program tool 925 having a set (at least one) of program modules 924, such program modules 924 including, but not limited to: an operating system, one or more application programs, other program modules, and program data, each of which, or some combination thereof, may comprise an implementation of a network environment.

The processor 91 executes various functional applications and data processing by running a computer program stored in the memory 92.

The electronic device 90 may also communicate with one or more external devices 94 (e.g., keyboard, pointing device, etc.). Such communication may be through an input/output (I/O) interface 95. Also, the electronic device 90 may communicate with one or more networks (e.g., a Local Area Network (LAN), a Wide Area Network (WAN), and/or a public network, such as the Internet) via a network adapter 96. The network adapter 96 communicates with the other modules of the electronic device 90 via the bus 93. It should be appreciated that although not shown in the figures, other hardware and/or software modules may be used in conjunction with the electronic device 90, including but not limited to: microcode, device drivers, redundant processors, external disk drive arrays, RAID (disk array) systems, tape drives, and data backup storage systems, etc.

It should be noted that although in the above detailed description several units/modules or sub-units/modules of the electronic device are mentioned, such a division is merely exemplary and not mandatory. Indeed, the features and functionality of two or more of the units/modules described above may be embodied in one unit/module, according to embodiments of the application. Conversely, the features and functions of one unit/module described above may be further divided into embodiments by a plurality of units/modules.

Example 4

A computer-readable storage medium on which a computer program is stored, which when executed by a processor, implements the temperature control method of the water heater of embodiment 1.

More specific examples, among others, that the readable storage medium may employ may include, but are not limited to: a portable disk, a hard disk, random access memory, read only memory, erasable programmable read only memory, optical storage device, magnetic storage device, or any suitable combination of the foregoing.

In a possible implementation, the invention can also be implemented in the form of a program product comprising program code for causing a terminal device to carry out a method for controlling the temperature of a water heater as described in embodiment 1, when said program product is run on said terminal device.

Where program code for carrying out the invention is written in any combination of one or more programming languages, the program code may be executed entirely on the user device, partly on the user device, as a stand-alone software package, partly on the user device and partly on a remote device or entirely on the remote device.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.

Claims (10)

1. A temperature control method of a water heater, the temperature control method comprising:

acquiring water flow data of a faucet;

obtaining the turn-off times of the faucet according to the water flow data;

obtaining a temperature adjusting parameter according to the turn-off times;

and adjusting the set outlet water temperature of the water heater based on the temperature adjusting parameters.

2. The method as claimed in claim 1, wherein the step of obtaining the number of times of turning off the faucet according to the water flow data specifically comprises:

judging whether the faucet is turned off or not according to the water flow data, if so, determining that the faucet is turned off once, and setting the initial value of the turn-off times to be 1;

acquiring new water flow data and judging whether the faucet is turned off or not;

if so, judging whether the interval time between the current water faucet turn-off and the previous water faucet turn-off is less than a first preset time, if so, adding 1 to the turn-off frequency in an accumulated mode, and returning to the step of acquiring new water flow data until the interval time is greater than the first preset time;

counting to obtain the turn-off times;

and judging whether the turn-off times are greater than preset times, if so, executing the step of obtaining temperature adjusting parameters according to the turn-off times.

3. The method for controlling temperature of a water heater according to claim 1, wherein the step of determining whether the faucet is turned off according to the water flow data, and if so, determining that the faucet is turned off once specifically comprises:

obtaining a water flow change value according to the water flow data;

and if the water flow change value is larger than a first preset threshold value and/or the water flow data is smaller than a second preset threshold value, determining that the faucet is turned off once.

4. The temperature control method of a water heater as claimed in claim 1, wherein the temperature control method solves the temperature adjustment parameter according to the following formula, comprising:

T＝(-1)^K*a*K

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and a is a preset constant.

5. The method for controlling the temperature of a water heater according to claim 1, wherein the step of obtaining the temperature adjustment parameter according to the turn-off times specifically comprises:

and obtaining the temperature adjusting parameter according to the turn-off times and the water flow data.

6. The temperature control method of a water heater as claimed in claim 5, wherein the temperature control method solves the temperature adjustment parameter according to the following formula, comprising:

wherein T is a temperature adjusting parameter, K is the turn-off frequency (K is more than or equal to 2) of the faucet, and Q_maxThe maximum water flow of the water faucet, Q is the actual water flow of the water faucet, and b is a preset constant.

7. The temperature control method of a water heater as claimed in claim 1, wherein the temperature control method comprises:

and receiving a trigger instruction to enter a faucet temperature control mode, and then executing the step of acquiring water flow data of the faucet.

8. A temperature control system for a water heater, the temperature control system comprising:

the water flow acquisition module is used for acquiring water flow data of the faucet;

the turn-off frequency determining module is used for obtaining the turn-off frequency of the faucet according to the water flow data;

the adjusting parameter determining module is used for obtaining a temperature adjusting parameter according to the turn-off times;

and the adjusting module is used for adjusting the set outlet water temperature of the water heater based on the temperature adjusting parameter.

9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the temperature control method of a water heater according to any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium on which a computer program is stored, wherein the program, when executed by a processor, implements a method of temperature control for a water heater according to any one of claims 1 to 7.

Images