Control method of bathing device, bathing device, and storage medium

By wirelessly connecting the bathing equipment and the water heater, the system controls the water heater's output parameters based on detection data and target water temperature, thus solving the problem of water temperature deviation and improving user convenience and comfort.

CN116105370BActive Publication Date: 2026-06-09GUANGDONG LEHUA HOME FURNISHING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
GUANGDONG LEHUA HOME FURNISHING CO LTD
Filing Date
2023-01-04
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In existing bathing facilities, the independent operation of water heaters and bathing equipment results in a significant deviation between the water temperature and the user's needs. Users need to manually adjust the water temperature, which is inconvenient and affects comfort.

Method used

The bathing equipment connects to the water heater via a wireless communication module to obtain inlet water status detection data, determines the water outlet parameters of the water heater based on the target water temperature, and sends them to the water heater to accurately control the water temperature.

Benefits of technology

It enables precise adjustment of the water temperature inside the bathing equipment, reducing the need for users to manually adjust the water temperature and improving the convenience and comfort of use.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The application discloses a control method of a bathing device, the bathing device and a storage medium. The method comprises the following steps: when the bathing device is in a water inlet mode, detection data of a water inlet state in the bathing device is acquired; a target water outlet parameter of a water heater connected with the bathing device is determined according to the detection data and a target water temperature of the bathing device; the target water outlet parameter is sent to the water heater based on a wireless communication connection, so that the water heater discharges water to the bathing device according to the target water outlet parameter. The application aims to improve the convenience and comfort of users using the bathing device.
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Description

Technical Field

[0001] This invention relates to the field of bathing equipment technology, and in particular to a control method for bathing equipment, bathing equipment, and a storage medium. Background Technology

[0002] Hot water for bathing equipment (such as bathtubs) is usually supplied through pipes connected to an external water heater, which heats the water before delivering it to the bathtub.

[0003] Currently, water heaters and bathing equipment generally operate independently. Users can set the water temperature of the water heater themselves. However, due to factors such as pipe distance and the large heat loss of water in low-temperature environments, the water temperature in the bathtub deviates significantly from the user's desired temperature. Users need to manually adjust the water temperature by touch, which is inconvenient and affects user comfort. Summary of the Invention

[0004] The main objective of this invention is to provide a control method for a bathing device, the bathing device itself, and a storage medium, with the aim of improving the convenience and comfort of users when using the bathing device.

[0005] To achieve the above objectives, the present invention provides a control method for a bathing device, the control method comprising the following steps:

[0006] When the bathing equipment is in water inlet mode, acquire detection data of the water inlet status inside the bathing equipment;

[0007] The target water output parameters of the water heater connected to the bathing equipment are determined based on the detection data and the target water temperature of the bathing equipment.

[0008] The target water output parameters are sent to the water heater via a wireless communication connection so that the water heater outputs water to the bathing equipment according to the target water output parameters.

[0009] Optionally, the bathing equipment is connected to the water heater via a pipeline, and the detection data includes the inlet water parameters of the residual water in the pipeline. The step of determining the target outlet water parameters of the water heater connected to the bathing equipment based on the detection data and the target water temperature of the bathing equipment includes:

[0010] The target outlet parameters are determined based on the inlet water parameters and the target water temperature.

[0011] Optionally, the influent parameters include the influent duration of the residual water and the initial influent temperature of the residual water, and the step of determining the target effluent parameters based on the influent parameters and the target water temperature includes:

[0012] Obtain the preset correspondence between the water inlet duration and the water outlet duration of the water heater;

[0013] The first target water output time of the water heater corresponding to the water inlet time is determined according to the preset correspondence;

[0014] The first target outlet water temperature of the water heater is determined based on the preset correspondence, the initial inlet water temperature, and the target water temperature.

[0015] The target effluent parameters include the first target effluent temperature and the first target effluent duration.

[0016] Optionally, the step of determining the first target outlet water temperature of the water heater based on the preset correspondence, the initial inlet water temperature, and the target water temperature includes:

[0017] Determine a first temperature difference value between the target water temperature and the initial inlet water temperature;

[0018] The first water temperature adjustment value is determined based on the preset correspondence and the first temperature difference value;

[0019] Adjust the target water temperature according to the first water temperature adjustment value to obtain the first target outlet water temperature.

[0020] Optionally, after the step of determining the water heater based on the preset correspondence, the initial inlet water temperature, and the target water temperature, the method further includes:

[0021] When the first target outlet water temperature is less than or equal to the maximum outlet water temperature of the water heater, the step of determining the target outlet water parameters, including the first target outlet water temperature and the first target outlet water duration, is executed.

[0022] When the first target outlet water temperature is greater than the maximum outlet water temperature, the second target outlet water time of the water heater is determined based on the maximum outlet water temperature, the water inlet time, the initial water inlet temperature and the target water temperature, and the target outlet water parameters are determined to include the maximum outlet water temperature and the second target outlet water time.

[0023] Optionally, the water inlet parameters include the inlet duration of the residual water and the initial inlet temperature of the residual water. The step of acquiring detection data of the water inlet status within the bathing equipment when the bathing equipment is in water inlet mode includes:

[0024] When the bathing device starts the water inlet mode, the water inlet temperature of the bathing device is monitored and a timer is started; wherein, the water inlet temperature monitored when the water inlet mode is started is the initial water inlet temperature;

[0025] When the inlet water temperature is detected to have reached the target water temperature, the current timing duration is determined as the inlet water duration.

[0026] Optionally, the detection data also includes the current water temperature, current water level, and continuous water inflow duration of the bathing device. The step of determining the target water output parameters of the water heater connected to the bathing device based on the detection data and the target water temperature of the bathing device includes:

[0027] When the continuous water inflow duration is less than or equal to the target duration, the step of determining the target water outflow parameters based on the water inflow parameters and the target water temperature is executed.

[0028] When the continuous water inflow duration exceeds the target duration, the target water outflow parameter is determined based on the current water temperature, the current water level, and the target water temperature; or, the target water outflow parameter is determined based on the current water temperature, the current water level, the target water temperature, the water inflow parameter, and the continuous water inflow duration.

[0029] Optionally, the step of determining the target effluent parameters based on the current water temperature, the current water level, and the target water temperature includes:

[0030] The difference between the target water level and the current water level of the bathing equipment is determined as the remaining water level, and a first relationship value between the current water level and the remaining water level is determined.

[0031] Determine a second temperature difference between the target water temperature and the current water temperature;

[0032] The second target outlet water temperature of the water heater is determined based on the first relationship value, the second temperature difference value, and the target water temperature, wherein the target outlet water parameter includes the second target outlet water temperature.

[0033] Optionally, the step of determining the second target outlet water temperature of the water heater based on the first relationship value, the second temperature difference value, and the target water temperature includes:

[0034] A second relationship value is determined based on the first relationship value between the continuous water inlet duration and the remaining water inlet duration of the bathing equipment.

[0035] The second water temperature adjustment value is determined based on the second relationship value and the second temperature difference value;

[0036] Adjust the target water temperature according to the second water temperature adjustment value to obtain the second target outlet water temperature.

[0037] Optionally, the inlet water parameters include the inlet duration of the residual water, and the step of determining the target outlet water parameters based on the current water temperature, the current water level, the target water temperature, the inlet water parameters, and the continuous inlet duration includes:

[0038] The difference between the target water level and the current water level of the bathing equipment is determined as the remaining water level, and a second temperature difference between the target water temperature and the current water temperature is determined.

[0039] The target outflow parameters are determined based on the remaining water level, the second temperature difference value, the water inflow duration, the current water level, the continuous water inflow duration, and the target water temperature.

[0040] Optionally, the step of determining the target effluent parameters based on the remaining water level, the second temperature difference value, the water inflow duration, the current water level, the continuous water inflow duration, and the target water temperature includes:

[0041] Determine a first relationship value between the remaining water level and the current water level, and determine a third relationship value between the continuous water inflow duration and the water inflow duration;

[0042] The third water temperature adjustment value is determined based on the first relationship value, the third relationship value, and the second temperature difference value;

[0043] The target water temperature is adjusted according to the third water temperature adjustment value to obtain the third target outlet water temperature, and the target outlet water parameter includes the third target outlet water temperature.

[0044] Optionally, after the step of acquiring detection data on the water inlet status of the bathing equipment when the bathing equipment is in water inlet mode, the method further includes:

[0045] The target duration is determined based on the influent parameters.

[0046] Furthermore, in order to achieve the above objectives, this application also proposes a bathing device, which includes:

[0047] A wireless communication module, which is used to establish a wireless communication connection with the water heater;

[0048] A detection module, which is used to detect the detection data of the water inlet status in the bathing equipment;

[0049] A control device, wherein the wireless communication module and the detection module are both connected to the control device, the control device includes: a memory, a processor, and a control program for the bathing device stored in the memory and executable on the processor, wherein when the control program for the bathing device is executed by the processor, it implements the steps of the control method for the bathing device as described in any of the above.

[0050] In addition, to achieve the above objectives, this application also proposes a storage medium storing a control program for a bathing device, wherein the control program for the bathing device, when executed by a processor, implements the steps of the control method for the bathing device as described in any of the preceding claims.

[0051] This invention proposes a control method for a bathing device. When the bathing device is in water inlet mode, the method determines the target water outlet parameters of the connected water heater based on the detection data of the water inlet status and the target water temperature of the bathing device. These target water outlet parameters are then transmitted to the water heater via wireless communication, allowing the water heater to dispense water to the bathing device according to the target parameters. Based on this, the water temperature of the water heater no longer needs to be set by the user. The detection data and target water temperature accurately reflect the deviation between the current water temperature in the bathing device and the target water temperature. Therefore, the water heater operating according to the target water outlet parameters ensures that the water temperature in the bathing device accurately reaches the target water temperature that meets the user's needs. The water temperature in the bathing device does not require manual adjustment by the user through touch to meet the user's comfort requirements, thus improving the convenience and comfort of using the bathing device. Attached Figure Description

[0052] Figure 1 This is a schematic diagram of the hardware structure involved in the operation of an embodiment of the bathing equipment of the present invention;

[0053] Figure 2 This is a flowchart illustrating an embodiment of the control method for the bathing equipment of the present invention;

[0054] Figure 3 This is a schematic flowchart of another embodiment of the control method for the bathing equipment of the present invention;

[0055] Figure 4 The present invention relates to a control method for a bathing device. Figure 3 Detailed flowchart of steps S10 and S20;

[0056] Figure 5 This is a flowchart illustrating another embodiment of the control method for the bathing equipment of the present invention;

[0057] Figure 6 This is a flowchart illustrating another embodiment of the control method for the bathing equipment of the present invention;

[0058] Figure 7 This is a flowchart illustrating another embodiment of the control method for the bathing equipment of the present invention.

[0059] The realization of the objective, functional features and advantages of the present invention will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0060] It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0061] This invention provides a bathing device 1. In this embodiment, the bathing device 1 is a bathtub. In other embodiments, the bathing device 1 may also be a device with other bathing functions, such as a foot bath tub.

[0062] In this embodiment of the invention, reference is made to Figure 1 The bathing equipment 1 includes a wireless communication module 11, a detection module 12, and a control device 13. Both the wireless communication module 11 and the detection module 12 are connected to the control device 13.

[0063] The wireless communication module 11 is used to establish a wireless communication connection with the water heater 2. In this embodiment, the wireless communication module 11 is a Loro module, suitable for long-distance wireless transmission. In other embodiments, the wireless communication module 11 may also be a WIFI module, Bluetooth module, etc.

[0064] The detection module 12 is used to detect the detection data of the water inlet status in the bathing equipment 1. The detection data may include temperature data and / or water level data, etc.

[0065] In one embodiment, reference is made to Figure 1 The detection module 12 includes a first temperature sensor 121, which is used to detect the inlet water temperature of the bathing equipment 1. Specifically, the bathing equipment 1 is provided with a water inlet, and the water heater 2 is connected to the water inlet of the bathing equipment 1 through a pipe. The first temperature sensor 121 is located at the water inlet.

[0066] In one embodiment, reference is made to Figure 1 The detection module 12 includes a second temperature sensor 122, which is used to detect the water temperature inside the bathing device 1. Specifically, the bathing device 1 has a receiving cavity that communicates with the water inlet, and the second temperature sensor 122 can be located at the bottom of the receiving cavity.

[0067] In one embodiment, reference is made to Figure 1 The detection module 12 includes a water level sensor 123. The water level sensor 123 is used to detect the water level information inside the bathing equipment 1. The water level sensor 123 is located inside the aforementioned accommodating cavity.

[0068] In this embodiment of the invention, reference is made to Figure 1 The control device 13 of the bathing equipment 1 includes a processor 1001 (e.g., CPU), a memory 1002, a timer 1003, and a user interface 1004. The components in the control device 13 are connected via a communication bus. The memory 1002 can be a high-speed RAM or a stable, non-volatile memory, such as a disk drive. Optionally, the memory 1002 can also be a storage device independent of the aforementioned processor 1001.

[0069] The user interface 1004 can be used to obtain user-inputted setting parameters, such as the target water temperature and target water level of the bathing equipment 1.

[0070] Those skilled in the art will understand that Figure 1 The device structure shown does not constitute a limitation on the device and may include more or fewer components than shown, or combine certain components, or have different component arrangements.

[0071] like Figure 1 As shown, the memory 1002, which serves as a storage medium, may include the control program for the bathing device 1. Figure 1 In the device shown, the processor 1001 can be used to call the control program of the bathing device 1 stored in the memory 1002 and execute the relevant steps of the control method of the bathing device 1 in the following embodiments.

[0072] This invention also provides a control method for a bathing device, which is applied to the aforementioned bathing device.

[0073] Reference Figure 2 This application proposes an embodiment of a control method for a bathing device. In this embodiment, the control method for the bathing device includes:

[0074] Step S10: When the bathing equipment is in water inlet mode, acquire detection data of the water inlet status inside the bathing equipment;

[0075] When the user sends a water intake command, the bathing equipment can activate the water intake mode.

[0076] The detection data can be any type of data related to the water inlet status. The detection data is specifically detected by the detection module inside the bathing equipment.

[0077] The test data may include water temperature data (such as the water temperature inside the bathing equipment and / or the inlet water temperature), water level data, and / or duration data.

[0078] Different water inlet stages of the bathing equipment (which can be divided based on water inlet duration, water heater operating status, water temperature, etc.) require different detection data. Based on this, the current water inlet stage of the bathing equipment can be determined, and corresponding detection data can be obtained according to the water inlet stage.

[0079] Step S20: Determine the target water output parameters of the water heater connected to the bathing equipment based on the detection data and the target water temperature of the bathing equipment;

[0080] The target water temperature is the desired temperature that the water in the bathing equipment needs to reach. The target water temperature can be obtained by acquiring user-set parameters or by monitoring user status.

[0081] The target water output parameters are specifically the parameters related to the water output control of the water heater. Target water output parameters include target water temperature and / or target water output duration, etc.

[0082] Different detection data and different target water temperatures can correspond to different target effluent parameters. Specifically, a correspondence between detection data, target water temperature, and target effluent parameters can be established in advance. This correspondence can include mapping relationships, calculation formulas, etc. Based on this correspondence, the target effluent parameters corresponding to the current detection data and target water temperature can be determined. For example, the detection data can be substituted into a preset calculation formula, and the calculated result can be used as the target effluent parameter. Alternatively, a pre-set mapping table can be queried using the detection data, and the result matched in the mapping table can be used as the target effluent parameter.

[0083] Specifically, different water inlet stages can be set with different corresponding relationships. Based on this, the corresponding relationship can be obtained as the target relationship according to the current water inlet stage of the bathing equipment, and the target water outlet parameters corresponding to the current detection data can be determined based on the target relationship.

[0084] Step S30: The target water output parameters are sent to the water heater via wireless communication connection so that the water heater outputs water to the bathing equipment according to the target water output parameters.

[0085] Specifically, when the water inlet mode is activated or when the bathing equipment is turned on, the system controls the bathing equipment to establish a wireless communication connection with the water heater.

[0086] When the water heater receives target outlet water parameters including a target outlet water temperature, it can operate according to the target outlet water temperature to ensure the actual outlet water temperature reaches the target temperature. When the water heater receives target outlet water parameters including a target outlet water duration, it can operate according to the target outlet water duration to ensure the actual outlet water duration reaches the target outlet water duration. Specifically, when the water heater receives target outlet water parameters including both target outlet water temperature and target outlet water duration, it can control the water flow according to both target outlet water temperature and target outlet water duration simultaneously. When the water heater receives target outlet water parameters including target outlet water duration but not target outlet water temperature, it can control the water flow according to a pre-set fixed temperature and target outlet water duration.

[0087] It should be noted that the minimum allowable outlet water temperature for the water heater is the tap water temperature.

[0088] This invention proposes a control method for a bathing device. When the bathing device is in water inlet mode, the method determines the target water outlet parameters of the connected water heater based on the detection data of the water inlet status and the target water temperature of the bathing device. These parameters are then transmitted to the water heater via wireless communication, allowing the water heater to dispense water to the bathing device according to the target parameters. Therefore, the water temperature no longer needs to be manually set by the user. The detection data and target water temperature accurately reflect the deviation between the current water temperature in the bathing device and the target temperature. Thus, the water heater operating according to the target water outlet parameters ensures that the water temperature in the bathing device accurately reaches the user's desired temperature. The water temperature in the bathing device does not require manual adjustment by the user through touch, thus improving the convenience and comfort of using the bathing device. Furthermore, water temperature adjustment within the bathing device does not require a built-in heating module, reducing the need for high-voltage electrical control and improving the safety of the bathing device.

[0089] Furthermore, in this embodiment, after step S30, the process can return to step S10, thereby continuously adjusting the target water output parameters of the water heater based on the detection data in the water inlet mode to ensure that the water temperature in the bathing equipment can be maintained at a comfortable level for the user.

[0090] Furthermore, based on the above embodiments, another embodiment of the control method for the bathing equipment of this application is proposed. In this embodiment, the bathing equipment is connected to the water heater via a pipeline, and the detection data includes the inlet water parameters of the residual water in the pipeline, wherein the residual water is the water in the pipeline when the bathing equipment starts to inlet water. (Refer to...) Figure 3 Step S20 includes:

[0091] Step S21: Determine the target outlet parameters based on the inlet water parameters and the target water temperature.

[0092] Different inlet water parameters and different target water temperatures correspond to different target outlet water parameters. Inlet water parameters can include inlet water temperature, in which case the target outlet water temperature can be determined based on the inlet water temperature and the target water temperature. Inlet water temperature can also include inlet water duration, in which case the target outlet water temperature can be determined based on the inlet water duration and the target water temperature. When inlet water temperature includes both inlet water duration and inlet water temperature, the target outlet water temperature can be determined based on these three parameters.

[0093] The target outlet water parameters can be obtained by looking up the inlet water parameters and the target water temperature in a table. Alternatively, the water temperature adjustment value can be calculated from the inlet water parameters, and the target water temperature can be adjusted according to the water temperature adjustment value to obtain the target outlet water temperature as the target outlet water parameter.

[0094] In this embodiment, since the residual water in the pipes enters the bathing equipment unheated, the water entering the water heater typically flows in only after the residual water has been drained into the bathing equipment. Therefore, combining the inlet parameters of the residual water in the pipes with the target water temperature to determine the target outlet parameters helps ensure that the hot water discharged from the water heater has sufficient heat to compensate for the temperature difference between the residual water and the target water temperature. This allows the water in the bathing equipment to reach the target temperature after heat compensation, effectively improving the user's comfort when using the bathing equipment. Furthermore, the water temperature adjustment process does not require draining the water in the pipes first, effectively reducing water waste and the waiting time required for water temperature adjustment in the bathing equipment.

[0095] Furthermore, in this embodiment, the inlet time of the residual water and the initial inlet temperature of the residual water are specified. The inlet time is specifically the time required for all the residual water in the pipes to enter the bathing equipment. The initial inlet temperature is specifically the initial temperature of the residual water when the inlet mode is activated. Based on this, referring to... Figure 4 Step S21 includes:

[0096] Step S211: Obtain the preset correspondence between the water inlet duration and the water outlet duration of the water heater;

[0097] The preset correspondence here can be set by the user, or it can be a parameter pre-stored in the bathing equipment, or it can be a parameter determined based on the current operating status of the bathing equipment. For example, the preset correspondence here can be determined based on the dehumidification inlet water temperature.

[0098] Preset correspondences can include relational expressions, mapping relationships, and other forms.

[0099] Step S212: Determine the first target water output time of the water heater corresponding to the water inlet time according to the preset correspondence;

[0100] In this embodiment, the preset correspondence is that the water inlet time is equal to the water outlet time, so the water inlet time can be determined as the first target water outlet time.

[0101] In other embodiments, there may be other preset correspondences between the water inlet duration and the water outlet duration, such as a preset time interval between the water inlet duration and the water outlet duration, or the water inlet duration being longer than the water outlet duration.

[0102] Step S213: Determine the first target outlet water temperature of the water heater based on the preset correspondence, the initial inlet water temperature, and the target water temperature;

[0103] Specifically, a target correspondence between the initial inlet water temperature and the target water temperature can be determined based on a preset correspondence. Based on this correspondence, the target water temperature corresponding to the current initial inlet water temperature can be determined. Alternatively, an adjustment coefficient can be determined based on a preset correspondence. An adjustment value for the target water temperature can be determined based on the adjustment coefficient and the initial inlet water temperature. The target water temperature can then be adjusted according to the adjustment value to obtain the first target outlet water temperature.

[0104] Step S214: Determine that the target effluent parameters include the first target effluent temperature and the first target effluent duration.

[0105] In this embodiment, the first target outlet water temperature and the first target outlet water duration are determined by the inlet water duration and the initial inlet water temperature of the residual water. This ensures that the heat supplied by the water heater's outlet water precisely matches the heat required to adjust the residual water from its original state to the target water temperature. This guarantees that when the water heater finishes operating at the first target outlet water temperature and the first target outlet water duration, the water temperature in the shower area will be close to the target water temperature. This process eliminates the need for user adjustment, improving user convenience while effectively providing user comfort. The preset correspondence reflects the temporal relationship between the water heater's outlet water and the residual water inlet water. Determining the first target outlet water duration based on this relationship helps ensure that the water heater's outlet water duration precisely matches the preset requirements. Furthermore, the initial inlet water temperature and the target water temperature accurately reflect the deviation between the initial temperature and the target temperature of the residual water. Combining the preset correspondence, the initial inlet water temperature, and the target water temperature to determine the first target outlet water temperature ensures that the water temperature in the shower area can accurately reach the target water temperature under the coordination of the water heater's duration and temperature, further improving user comfort.

[0106] Furthermore, in this embodiment, a first temperature difference value between the target water temperature and the initial inlet water temperature is determined; a first water temperature adjustment value is determined according to the preset correspondence and the first temperature difference value; the target water temperature is adjusted according to the first water temperature adjustment value to obtain the first target outlet water temperature.

[0107] Specifically, the ratio of the water inlet time to the first target water outlet time can be determined according to a preset correspondence. The product of this ratio and the first temperature difference is then determined as the first water temperature adjustment value. The sum of the first water temperature adjustment value and the target water temperature is taken as the first target water outlet temperature. In other embodiments, a target correspondence between the initial water inlet temperature and the target water temperature can also be determined according to a preset correspondence. Based on this target correspondence, the target water temperature corresponding to the initial water inlet temperature can be determined.

[0108] In this embodiment, based on the premise that the heat absorbed by the residual water to change from the initial inlet water temperature to the target water temperature is equal to the heat released by the water heater to change from the first target outlet water temperature to the target water temperature, and the inlet water flow rate per unit time is a preset flow rate, the correspondence between the first target outlet water temperature T2, the inlet water duration t1, the first target outlet water duration t2, the target water temperature T, and the initial inlet water temperature T1 is established:

[0109]

[0110] Where t1 / t2 is the ratio determined according to the preset correspondence, (T-T1) is the first temperature difference value, and the first water temperature adjustment value is... Based on this correspondence, the first target outlet water temperature can be determined. For example, if the preset correspondence is t1=t2, then T2=(T-T1)+T=2T-T1.

[0111] In this embodiment, the target water temperature is adjusted by combining the first temperature difference value with the preset correspondence to obtain the first target outlet water temperature. This ensures that when the residual water temperature in the pipeline exceeds the target water temperature, the inlet water temperature of the bathing equipment is lowered based on the first target outlet water temperature to achieve a reverse compensation effect. When the residual water temperature in the pipeline is lower than the target water temperature, the inlet water temperature of the bathing equipment is raised based on the first target outlet water temperature to achieve a positive compensation effect. Based on this, it is ensured that the water in the bathing equipment can reach the temperature required for user comfort, further improving user comfort.

[0112] Furthermore, in this embodiment, referring to Figure 4 The inlet water parameters include the inlet water duration and the initial inlet water temperature of the residual water. Step S10 includes:

[0113] Step S11: When the bathing device starts the water inlet mode, monitor the water inlet temperature of the bathing device and start timing; wherein, the water inlet temperature monitored when the water inlet mode is started is the initial water inlet temperature;

[0114] Specifically, when the water heater is started in inlet mode, it can be turned on simultaneously and run at the initial outlet water temperature. The initial outlet water temperature of the water heater can be the target water temperature, its maximum outlet water temperature, or other preset temperature values.

[0115] The water heater monitors the inlet water temperature of the bathing equipment and starts timing while it is running at its initial outlet water temperature.

[0116] Step S12: When the inlet water temperature is detected to have reached the target water temperature, the current timing duration is determined as the inlet water duration.

[0117] In this embodiment, the inlet water temperature when the inlet water mode is activated can accurately reflect the initial temperature of the residual water, and the timing time when the inlet water temperature reaches the target water temperature can accurately reflect the time required for the residual water to reach the target temperature from the initial temperature. It can also effectively characterize the length of the pipeline, thereby accurately characterizing the amount of heat required to compensate for the residual water to reach the target water temperature after entering the bathing equipment. Therefore, obtaining the initial inlet water temperature and inlet water time in this way helps to ensure the accuracy of the subsequently determined target water output parameters, thereby further improving user comfort.

[0118] In other embodiments, the pipe size parameters and the water inlet flow rate of the bathing equipment can also be obtained, and the water inlet duration can be determined based on the size parameters and the water inlet flow rate.

[0119] Furthermore, based on any of the above embodiments, another embodiment of the control method for the bathing equipment of this application is proposed. In this embodiment, reference is made to... Figure 5 After step S213, the following steps are also included:

[0120] Step S215: When the first target outlet water temperature is less than or equal to the maximum outlet water temperature of the water heater, perform the step of determining the target outlet water parameters, including the first target outlet water temperature and the first target outlet water duration.

[0121] Step S216: When the first target water outlet temperature is greater than the maximum water outlet temperature, the second target water outlet time of the water heater is determined based on the maximum water outlet temperature, the water inlet time, the initial water inlet temperature and the target water temperature, and the target water outlet parameters are determined to include the maximum water outlet temperature and the second target water outlet time.

[0122] The maximum outlet water temperature is the maximum allowable outlet water temperature of the water heater.

[0123] Specifically, the target correspondence between the water inlet duration and the second target water outlet duration is determined based on the quantitative relationship between the maximum water outlet temperature, the initial water inlet temperature, and the target water temperature. Based on this target correspondence, the second target water outlet duration corresponding to the water inlet duration can be determined.

[0124] In this embodiment, a first difference between the target water temperature and the initial inlet water temperature is determined, a second difference between the maximum outlet water temperature and the target water temperature is determined, a first ratio between the first difference and the second difference is determined, a second ratio between the second target outlet water duration and the inlet water duration is determined based on the first ratio, and the second target outlet water duration is calculated based on the second ratio and the inlet water duration.

[0125] In this embodiment, based on the premise that the heat absorbed by the residual water to change from the initial inlet water temperature to the target water temperature is equal to the heat released by the water heater to change from the first target outlet water temperature to the target water temperature, and the water inlet flow rate per unit time is a preset flow rate, the following correspondence is established between the target outlet water temperature T2' (i.e., the maximum outlet water temperature), the inlet water time t1, the first target outlet water time t2', the target water temperature T, and the initial inlet water temperature T1:

[0126]

[0127] Where T-T1 is the first difference, T2'-T is the second difference, and (T-T1) / (T2'-T) is the first ratio. Based on this correspondence, the second target water output time can be determined. The first ratio is equal to the second ratio = t2' / t1, which means the second target water output time is the product of the inlet water temperature and the first ratio.

[0128] In this embodiment, by means of the above method, it can be ensured that the water supply time can be adjusted within the maximum allowable adjustment range of the water heater to ensure that the water heater can compensate for heat and bring the overall water temperature in the bathing equipment close to the target water temperature, thereby effectively improving user comfort.

[0129] Furthermore, based on any of the above embodiments, another embodiment of the control method for the bathing equipment of this application is proposed. In this embodiment, the detection data further includes the current water temperature, current water level, and continuous water inflow duration of the bathing equipment. The current water temperature is specifically obtained from the data currently detected by the second temperature sensor. The current water level is specifically obtained from the data currently detected by the water level sensor. The continuous water inflow duration is specifically calculated from the start of the water inflow mode, and the current time is taken as the continuous water inflow duration. (Refer to...) Figure 6 Step S20 includes:

[0130] Step S201: When the continuous water inlet duration is less than or equal to the target duration, perform the step of determining the target water outlet parameters based on the water inlet parameters and the target water temperature;

[0131] The target duration can be a pre-set fixed duration or a duration determined based on the actual operating conditions of the bathing equipment.

[0132] Step S202: When the continuous water inflow duration exceeds the target duration, the target water outflow parameters are determined based on the current water temperature, the current water level, and the target water temperature.

[0133] Specifically, the relationship between the current water temperature, the current water level and the target water temperature can be established in advance, and the target water output parameters corresponding to the current water temperature, the current water level and the target water temperature can be determined based on this relationship.

[0134] In this embodiment, the target effluent parameter includes the target effluent temperature. In other embodiments, the target effluent parameter may also include the target effluent temperature and the target effluent duration.

[0135] Specifically, the first characteristic value (such as ratio or difference) of the relationship between the current water temperature and the target water temperature can be determined, and the second characteristic value (such as ratio or difference) of the relationship between the current water level and the target water level of the water heater can be determined. The target water output parameters can be obtained by looking up the table or calculating based on the first and second characteristic values.

[0136] In addition, the remaining water level can be determined by the difference between the target water level and the current water level. The target water output parameters can be determined based on the current water temperature, the current water level, the remaining water level, and the target water temperature. Specifically, a first relationship characteristic value (such as a ratio or difference) between the current water temperature and the target water temperature can be determined, and a third relationship characteristic value (such as a ratio or difference) between the current water level and the remaining water level can be determined. The target water output parameters can be obtained by looking up a table or calculating based on the first and third relationship characteristic values.

[0137] In this embodiment, during the initial stage of water inflow (when the continuous water inflow duration is less than or equal to the target duration), the water heater is controlled to perform heat compensation based on the inflow parameters of the residual water and the target outflow parameters corresponding to the target water temperature. This helps ensure that the water heater can provide sufficient heat to compensate for the heat deviation between the initial water temperature and the target water temperature of the residual water. When the water temperature in the water heater is close to the target temperature, the water heater's output is further controlled by combining the current water temperature, current water level, and the target water temperature to determine the target outflow parameters. The current water temperature, current water level, and target water temperature accurately reflect the heat dissipation of the water in the bathing equipment after the heat compensation of the residual water in the previous stage under the current environment. Therefore, the determined target outflow parameters can effectively compensate for the heat loss of the water in the bathing equipment in the environment, thereby ensuring that the water in the bathing equipment can accurately reach the target water temperature, thereby further improving user comfort.

[0138] In other embodiments, when the continuous water inflow duration is greater than the target duration, the target water temperature can also be determined as the target water outflow parameter.

[0139] Furthermore, in this embodiment, the step of determining the target water outlet parameter based on the current water temperature, the current water level, and the target water temperature includes: determining the difference between the target water level and the current water level of the bathing device as the remaining water level, and determining a first relationship value between the current water level and the remaining water level; determining a second temperature difference value between the target water temperature and the current water temperature; and determining a second target water outlet temperature of the water heater based on the first relationship value, the second temperature difference value, and the target water temperature, wherein the target water outlet parameter includes the second target water outlet temperature.

[0140] The target water level here can be the water level set by the user or the maximum water level that the bathing equipment is allowed to reach.

[0141] The first relational value can be a ratio or a difference.

[0142] Different first relationship values, different second temperature difference values, and different target water temperatures correspond to different second target outlet water temperatures. Specifically, a water temperature adjustment value can be determined based on the first relationship value and the second temperature difference value, and the target water temperature can be adjusted according to the determined water temperature adjustment value to obtain the second target outlet water temperature. Alternatively, the target water temperature can be adjusted according to the first relationship value to obtain a first reference water temperature, and the target water temperature can be adjusted according to the second temperature difference value to obtain a second reference water temperature, and the second target outlet water temperature can be determined based on the first reference water temperature and the second reference water temperature.

[0143] In one implementation of this embodiment, a second relationship value is determined based on the first relationship value between the continuous water inflow duration and the remaining water inflow duration of the bathing device; a second water temperature adjustment value is determined based on the second relationship value and the second temperature difference value; the target water temperature is adjusted based on the second water temperature adjustment value to obtain the second target outlet water temperature. In this embodiment, both the first and second relationship values ​​are ratios. The second relationship value can be either a ratio or a difference. Specifically, the first relationship value can be used as the second relationship value, the product of the second relationship value and the second temperature difference value can be used as the second water temperature adjustment value, and the sum of the second water temperature adjustment value and the target water temperature can be used as the second target outlet water temperature.

[0144] In this embodiment, based on the premise that the heat absorbed by the bathing equipment to change from the current water temperature to the target water temperature is equal to the heat released by the water heater to change from the second target outlet water temperature to the target water temperature, and the water inflow rate per unit time is a preset flow rate, the correspondence between the second target outlet water temperature T4, the continuous water inflow duration t3, the remaining water inflow duration t2, the target water temperature T, the current water temperature T3, the current water level L1, and the remaining water level L2 is established.

[0145]

[0146] Where T-T3 is the second temperature difference value, L2 / L1 is the reciprocal of the first relationship value, t3 / t4 is the second relationship value, and the second water temperature adjustment value is t3(T-T3) / t4. Based on this correspondence, the second target outlet water temperature can be determined.

[0147] In another implementation of this embodiment, the second water temperature adjustment value can be determined directly based on the first relationship value and the second temperature difference value, and the target water temperature can be adjusted according to the second water temperature adjustment value to obtain the second target outlet water temperature.

[0148] In this embodiment, the first relationship value can accurately reflect the impact of the remaining water from the water heater entering the bathing equipment on the current water temperature inside the bathing equipment. The second temperature difference value can specifically reflect the deviation of the current water temperature in the bathing equipment from the user's comfort state. Combining the first relationship value, the second temperature difference value, and the target water temperature to determine the water outlet temperature of the water heater is beneficial to ensure that the heat compensated by the remaining water in the water heater can reach the target water level while accurately reaching the target water temperature that meets the user's comfort needs, thereby further satisfying the user's comfort needs.

[0149] Furthermore, based on any of the above embodiments, another embodiment of the control method for the bathing equipment of this application is proposed. In this embodiment, the detection data further includes the current water temperature, current water level, and continuous water inflow duration of the bathing equipment. The current water temperature is specifically obtained from the data currently detected by the second temperature sensor. The current water level is specifically obtained from the data currently detected by the water level sensor. The continuous water inflow duration is specifically calculated from the start of the water inflow mode, and the current time is taken as the continuous water inflow duration. (Refer to...) Figure 7 Step S20 includes:

[0150] Step S201: When the continuous water inlet duration is less than or equal to the target duration, perform the step of determining the target water outlet parameters based on the water inlet parameters and the target water temperature;

[0151] Step S203: When the continuous water inlet duration is greater than the target duration, the target water outlet parameter is determined based on the current water temperature, the current water level, the target water temperature, the water inlet parameter, and the continuous water inlet duration.

[0152] Specifically, the relationship between the current water temperature, current water level, target water temperature, inlet parameters, and continuous inlet duration can be established in advance. Based on this relationship, the target outlet parameters corresponding to the current water temperature, current water level, target water temperature, inlet parameters, and continuous inlet duration can be determined.

[0153] In this embodiment, the target effluent parameter includes the target effluent temperature. In other embodiments, the target effluent parameter may also include the target effluent temperature and the target effluent duration.

[0154] Specifically, the first relationship characteristic value (such as ratio or difference) between the current water temperature and the target water temperature can be determined, the second relationship characteristic value (such as ratio or difference) between the current water level and the target water level of the water heater can be determined, and the fourth relationship characteristic value (such as ratio or difference) between the residual water inlet time and the continuous water inlet time can be determined. Based on the first relationship characteristic value, the second relationship characteristic value and the fourth relationship characteristic value, the target water output parameters can be obtained by looking up a table or calculating.

[0155] Additionally, the difference between the target water level and the current water level can be determined as the remaining water level. The target effluent parameters are then determined based on the current water temperature, the current water level, the target water temperature, the remaining water level, the inlet parameters, and the continuous inlet duration. A first relationship characteristic value (e.g., ratio or difference) between the current water temperature and the target water temperature can be determined, as can a fifth relationship characteristic value (e.g., ratio or difference) between the current water level and the remaining water level, and a fourth relationship characteristic value (e.g., ratio or difference) between the residual water inlet duration and the continuous inlet duration. The target effluent parameters are then obtained by looking up tables or calculating based on the first, fifth, and fourth relationship characteristic values.

[0156] In this embodiment, during the initial stage of water inflow (when the continuous water inflow duration is less than or equal to the target duration), the water heater is controlled to perform heat compensation based on the inflow parameters of the residual water and the target outflow parameters corresponding to the target water temperature. This helps ensure that the water heater can provide sufficient heat to compensate for the heat deviation between the initial water temperature and the target water temperature, ensuring that the water temperature in the water heater is close to the target temperature. Then, the water heater's water output is further controlled by combining the current water temperature, the current water level, the target water temperature, the inflow parameters, and the target outflow parameters determined by the continuous water inflow duration. The target water temperature, the inlet water parameters, and the continuous inlet water duration not only accurately reflect the heat dissipation of the water in the bathing equipment after the heat compensation of the residual water in the previous stage under the current environment, but also accurately reflect the heat loss between the water outlet temperature of the water heater and the actual inlet water temperature of the bathing equipment caused by the pipeline distance. Therefore, the determined target outlet water parameters ensure that the heat provided by the water heater when it is transported to the bathing equipment over a long distance through the pipeline can effectively compensate for the heat loss of the water in the bathing equipment in the environment, thereby ensuring that the water in the bathing equipment can accurately reach the target water temperature and further improve user comfort.

[0157] Furthermore, in this embodiment, the water inlet parameters include the water inlet duration of the residual water, and the step of determining the target water outlet parameters based on the current water temperature, the current water level, the target water temperature, the water inlet parameters, and the continuous water inlet duration includes: determining the difference between the target water level and the current water level of the bathing device as the remaining water level; determining a second temperature difference value between the target water temperature and the current water temperature; and determining the target water outlet parameters based on the remaining water level, the second temperature difference value, the water inlet duration, the current water level, the continuous water inlet duration, and the target water temperature.

[0158] The target water level here can be the water level set by the user or the maximum water level that the bathing equipment is allowed to reach.

[0159] The first relational value can be a ratio or a difference.

[0160] Specifically, a quantitative relationship can be established in advance between the remaining water level, the second temperature difference value, the water inlet duration, the current water level, the continuous water inlet duration, the target water temperature, and the target water outlet parameters. Based on this quantitative relationship, the target water outlet parameters can be calculated.

[0161] Alternatively, a third water temperature adjustment value can be determined based on the remaining water level, the second temperature difference value, the water inlet duration, the current water level, and the continuous water inlet duration. The target water temperature can then be adjusted based on the third water temperature adjustment value to obtain the third target outlet water temperature.

[0162] In one implementation of this embodiment, the heat absorbed by the bathing equipment to change from the current water temperature to the target water temperature is equal to the heat released by the water heater after the third target outlet water temperature is transported through the pipeline to the target water temperature, and the pipeline inflow rate is a preset flow rate, as the basis conditions, the correspondence between the third target outlet water temperature T5, continuous water inflow duration t3, remaining water inflow duration t2, residual water inflow duration t1, target water temperature T, current water temperature T3, current water level L1, and remaining water level L2 is established.

[0163]

[0164] Where T-T3 is the second temperature difference value, This is the third water temperature adjustment value. Based on this correspondence, the sum of the determined third water temperature adjustment value and the target water temperature can be used as the third target outlet water temperature.

[0165] In another implementation of this embodiment, a first relationship value between the remaining water level and the current water level is determined, and a third relationship value between the continuous water intake duration and the water intake duration is determined. A third water temperature adjustment value is determined based on the first relationship value, the third relationship value, and the second temperature difference value. The target water temperature is adjusted based on the third water temperature adjustment value to obtain a third target outlet water temperature, wherein the target outlet water parameter includes the third target outlet water temperature. In this embodiment, the first relationship value is a ratio, the third relationship value is a ratio, a target adjustment coefficient is determined based on the first and second relationship values, the second temperature difference value is adjusted based on the target adjustment coefficient to obtain the third water temperature adjustment value, and the sum of the third water temperature adjustment value and the target water temperature is taken as the third target outlet water temperature. For example, the correspondence between the third target outlet water temperature T5, the first relationship value m, the third relationship value n, and the target water temperature T is: T5 = T + (T - T3) / (m * n - 1), where (T - T3) / (m * n - 1) is the third water temperature adjustment value, and the third target outlet water temperature can be determined based on this correspondence.

[0166] In this embodiment, the second temperature difference value can specifically reflect the deviation between the current water temperature of the bathing equipment and the user's comfort state. The water outlet temperature of the water heater is determined by combining the remaining water level, the second temperature difference value, the water inlet time, the current water level, the continuous water inlet time, and the target water temperature. It can comprehensively reflect the heat loss caused by factors such as pipeline distance and the heat dissipation of water in the bathing equipment in the environment during the water inlet process. Based on this, it can ensure that the water in the bathing equipment reaches the target water level while accurately reaching the target water temperature that meets the user's comfort needs, thereby further satisfying the user's comfort needs.

[0167] Among them, the first relationship value can accurately reflect the impact of the remaining water from the water heater entering the bathing equipment on the current water temperature in the bathing equipment; the second temperature difference value can specifically reflect the deviation of the current water temperature in the bathing equipment from the user's comfort state; and the third relationship value can accurately reflect the heat loss of the water that has entered the bathing equipment during the pipeline transportation process. By combining the first relationship value, the second temperature difference value, and the third relationship value to determine the water temperature adjustment value, the target water temperature of the water heater is adjusted to obtain the water outlet temperature of the water heater. This helps to ensure that the heat compensated by the remaining water in the water heater can reach the target water level while accurately reaching the target water temperature that meets the user's comfort needs, thereby further satisfying the user's comfort needs.

[0168] Furthermore, in any of the above embodiments, after step S10, the target duration is determined based on the inlet water parameters. Specifically, the target water output duration of the water heater can be determined based on the inlet water parameters, which include the target water output duration. The total duration of the inlet water time and the target water output duration is used as the target duration. When the target water output parameters include a first target water output duration, the total duration of the inlet water time and the first target water output duration can be used as the target duration; when the target water output parameters include a second target water output duration, the total duration of the inlet water time and the second target water output duration is used as the target duration.

[0169] Based on this, after the water heater has completed heat compensation based on the impact of residual water on the water temperature regulation of the bathing equipment, it can further compensate for the heat loss of water in the environment during the water intake process. This helps to ensure the accuracy of the water heater's heat compensation and ensures that the water in the bathing equipment can be accurately maintained near the target water temperature, thereby effectively improving user comfort.

[0170] Furthermore, in the above embodiment, after step S10, when the continuous water inflow duration is greater than the target duration and the pipeline distance is less than the preset distance, the step of determining the target outlet water parameter based on the current water temperature, the current water level, and the target water temperature is executed; when the continuous water inflow duration is greater than the target duration and the pipeline distance is greater than or equal to the preset distance, the step of determining the target outlet water parameter based on the current water temperature, the current water level, the target water temperature, the inflow parameters, and the continuous water inflow duration is executed. Based on this, it is beneficial to effectively balance ensuring the efficiency of determining the target outlet water parameter with the accuracy of water temperature control.

[0171] Furthermore, this embodiment of the invention also proposes a storage medium storing a control program for a bathing device. When the control program for the bathing device is executed by a processor, it implements the relevant steps of any embodiment of the control method for the bathing device described above.

[0172] It should be noted that, in this document, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or system. Unless otherwise specified, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or system that includes that element.

[0173] The sequence numbers of the above embodiments of the present invention are for descriptive purposes only and do not represent the superiority or inferiority of the embodiments.

[0174] Through the above description of the embodiments, those skilled in the art can clearly understand that the methods of the above embodiments can be implemented by means of software plus necessary general-purpose hardware platforms. Of course, they can also be implemented by hardware, but in many cases the former is a better implementation method. Based on this understanding, the technical solution of the present invention, in essence, or the part that contributes to the prior art, can be embodied in the form of a software product. This computer software product is stored in a storage medium (such as ROM / RAM, magnetic disk, optical disk) as described above, and includes several instructions to cause a terminal device (which may be a mobile phone, computer, server, bathing equipment, or network device, etc.) to execute the methods described in the various embodiments of the present invention.

[0175] The above are merely preferred embodiments of the present invention and do not limit the scope of the patent. Any equivalent structural or procedural transformations made based on the description and drawings of the present invention, or direct or indirect applications in other related technical fields, are similarly included within the scope of patent protection of the present invention.

Claims

1. A control method for a bathing device, characterized in that, The control method for the bathing equipment includes the following steps: When the bathing equipment is in water inlet mode, acquire detection data of the water inlet status inside the bathing equipment; The target water output parameters of the water heater connected to the bathing equipment are determined based on the detection data and the target water temperature of the bathing equipment. The target water output parameters are sent to the water heater via a wireless communication connection, so that the water heater outputs water to the bathing equipment according to the target water output parameters. The bathing equipment is connected to the water heater via a pipeline. The detection data includes the inlet water parameters of the residual water in the pipeline, the current water temperature of the bathing equipment, the current water level, and the duration of continuous water inflow. The step of determining the target outlet water parameters of the water heater connected to the bathing equipment based on the detection data and the target water temperature of the bathing equipment includes: When the continuous water inflow duration is less than or equal to the target duration, the target water outflow parameters are determined based on the water inflow parameters and the target water temperature. When the continuous water inflow duration exceeds the target duration, the target water outflow parameter is determined based on the current water temperature, the current water level, and the target water temperature; or, the target water outflow parameter is determined based on the current water temperature, the current water level, the target water temperature, the water inflow parameter, and the continuous water inflow duration.

2. The control method for the bathing equipment as described in claim 1, characterized in that, The inlet water parameters include the inlet water duration and the initial inlet water temperature of the residual water. The step of determining the target outlet water parameters based on the inlet water parameters and the target water temperature includes: Obtain the preset correspondence between the water inlet duration and the water outlet duration of the water heater; The first target water output time of the water heater corresponding to the water inlet time is determined according to the preset correspondence; The first target outlet water temperature of the water heater is determined based on the preset correspondence, the initial inlet water temperature, and the target water temperature. The target effluent parameters include the first target effluent temperature and the first target effluent duration.

3. The control method for the bathing equipment as described in claim 2, characterized in that, The step of determining the first target outlet water temperature of the water heater based on the preset correspondence, the initial inlet water temperature, and the target water temperature includes: Determine a first temperature difference value between the target water temperature and the initial inlet water temperature; The first water temperature adjustment value is determined based on the preset correspondence and the first temperature difference value; Adjust the target water temperature according to the first water temperature adjustment value to obtain the first target outlet water temperature.

4. The control method for the bathing equipment as described in claim 2, characterized in that, After the step of determining the water heater based on the preset correspondence, the initial inlet water temperature, and the target water temperature, the method further includes: When the first target outlet water temperature is less than or equal to the maximum outlet water temperature of the water heater, the step of determining the target outlet water parameters, including the first target outlet water temperature and the first target outlet water duration, is executed. When the first target outlet water temperature is greater than the maximum outlet water temperature, the second target outlet water time of the water heater is determined based on the maximum outlet water temperature, the water inlet time, the initial water inlet temperature and the target water temperature, and the target outlet water parameters are determined to include the maximum outlet water temperature and the second target outlet water time.

5. The control method for the bathing equipment as described in claim 1, characterized in that, The water inlet parameters include the inlet duration of the residual water and the initial inlet temperature of the residual water. The step of acquiring detection data on the water inlet status within the bathing equipment when the bathing equipment is in water inlet mode includes: When the bathing device starts the water inlet mode, the water inlet temperature of the bathing device is monitored and a timer is started; wherein, the water inlet temperature monitored when the water inlet mode is started is the initial water inlet temperature; When the inlet water temperature is detected to have reached the target water temperature, the current timing duration is determined as the inlet water duration.

6. The control method for the bathing equipment as described in any one of claims 1 to 5, characterized in that, The step of determining the target effluent parameters based on the current water temperature, the current water level, and the target water temperature includes: The difference between the target water level and the current water level of the bathing equipment is determined as the remaining water level, and a first relationship value between the current water level and the remaining water level is determined. Determine a second temperature difference between the target water temperature and the current water temperature; The second target outlet water temperature of the water heater is determined based on the first relationship value, the second temperature difference value, and the target water temperature, wherein the target outlet water parameter includes the second target outlet water temperature.

7. The control method for the bathing equipment as described in claim 6, characterized in that, The step of determining the second target outlet water temperature of the water heater based on the first relationship value, the second temperature difference value, and the target water temperature includes: A second relationship value is determined based on the first relationship value between the continuous water inlet duration and the remaining water inlet duration of the bathing equipment. The second water temperature adjustment value is determined based on the second relationship value and the second temperature difference value; Adjust the target water temperature according to the second water temperature adjustment value to obtain the second target outlet water temperature.

8. The control method for the bathing equipment as described in any one of claims 1 to 5, characterized in that, The inlet water parameters include the inlet water duration of the residual water, and the step of determining the target outlet water parameters based on the current water temperature, the current water level, the target water temperature, the inlet water parameters, and the continuous inlet water duration includes: The difference between the target water level and the current water level of the bathing equipment is determined as the remaining water level, and a second temperature difference between the target water temperature and the current water temperature is determined. The target outflow parameters are determined based on the remaining water level, the second temperature difference value, the water inflow duration, the current water level, the continuous water inflow duration, and the target water temperature.

9. The control method for the bathing equipment as described in claim 8, characterized in that, The step of determining the target effluent parameters based on the remaining water level, the second temperature difference value, the water inflow duration, the current water level, the continuous water inflow duration, and the target water temperature includes: Determine a first relationship value between the remaining water level and the current water level, and determine a third relationship value between the continuous water inflow duration and the water inflow duration; The third water temperature adjustment value is determined based on the first relationship value, the third relationship value, and the second temperature difference value; The target water temperature is adjusted according to the third water temperature adjustment value to obtain the third target outlet water temperature, and the target outlet water parameter includes the third target outlet water temperature.

10. The control method for a bathing device as described in any one of claims 1 to 5, characterized in that, After the step of acquiring detection data on the water inlet status of the bathing equipment when the bathing equipment is in water inlet mode, the method further includes: The target duration is determined based on the influent parameters.

11. A bathing device, characterized in that, The bathing equipment includes: A wireless communication module, which is used to establish a wireless communication connection with the water heater; A detection module, which is used to detect the detection data of the water inlet status in the bathing equipment; A control device, wherein the wireless communication module and the detection module are both connected to the control device, the control device includes: a memory, a processor, and a control program for the bathing device stored in the memory and executable on the processor, wherein when the control program for the bathing device is executed by the processor, it implements the steps of the control method for the bathing device as described in any one of claims 1 to 10.

12. A storage medium, characterized in that, The storage medium stores a control program for a bathing device, which, when executed by a processor, implements the steps of the control method for the bathing device as described in any one of claims 1 to 10.