CN109907955B

CN109907955B - Heating stove or water heater with massage module and control method thereof

Info

Publication number: CN109907955B
Application number: CN201711320271.5A
Authority: CN
Inventors: 陈华
Original assignee: NORITZ (CHINA) INVESTMENT CO Ltd
Current assignee: Noritz Shanghai Dwelling House Equipment Co ltd
Priority date: 2017-12-12
Filing date: 2017-12-12
Publication date: 2022-02-22
Anticipated expiration: 2037-12-12
Also published as: CN109907955A

Abstract

The invention relates to a heating stove with a massage module; the domestic water heating device comprises a domestic water pipe and a control module, wherein the domestic water pipe is arranged in a heating furnace and passes through a heat exchange module of the heating furnace; the method is characterized in that: the household water purifier also comprises a booster pump and a bypass pipe, wherein the bypass pipe is communicated with a domestic water pipe, a water quantity servo and a one-way valve are also connected in series on the bypass pipe, and an opening of the one-way valve faces to the water flow outflow direction; the booster pump is connected in series between the water inlet section of the domestic water pipe and the heat exchange module of the heating stove. This heating stove adopts above-mentioned design and above-mentioned massage control method, and its overall structure is succinct clear and can be applied to on the general heating stove, realizes providing the possibility of additional function for most heating stoves, has improved the compatibility of product. Meanwhile, the control module can simultaneously control the water temperature and the water pressure; and the gradual control method can not cause water pressure impact on the internal waterway, so that the service life of the internal waterway component can not be reduced.

Description

Heating stove or water heater with massage module and control method thereof

Technical Field

The invention relates to the field of household appliances, in particular to a heating stove or a water heater with a massage module and a control method thereof.

Background

At present, the domestic heating dual-purpose heating stove on the market can only supply water at constant temperature and constant pressure in a domestic water outlet mode, and cannot provide a domestic water outlet function of changing temperature and pressure; some water heaters with temperature changing or pressure changing functions in the market can only have one of the functions of temperature changing and pressure changing; moreover, the following problems exist in the products on the market at present: 1. the pressurization will cause the change of the flow rate and the flow of the water channel, and under the state that the flame of the burner is kept stable, the change of the flow rate and the flow will cause the uneven heating of cold water, thereby causing the problem that the outlet water is not constant in temperature. 2. The severe pressure change brought by the booster pump can reduce the service life of water path parts of the water heater, especially weak parts such as plastic products and joints of the parts.

Disclosure of Invention

The invention aims to overcome the defects and provide the heating stove capable of simultaneously adjusting the water temperature and the water pressure so as to realize the massage function.

In order to achieve the above object, the present invention is realized by:

a heating stove or water heater with a massage module comprises a domestic water pipe arranged in a machine body and passing through a heat exchange module and a control module for controlling the machine body; the method is characterized in that: the household water pipe is characterized by further comprising a booster pump and a bypass pipe, wherein two ends of the bypass pipe are respectively communicated with a water inlet section and a water outlet section of the household water pipe, a water quantity servo and a one-way valve are further connected to the bypass pipe in series, and an opening of the one-way valve faces to the water flow outflow direction; the booster pump is connected in series between the water inlet section of the domestic water pipe and the heat exchange module of the heating stove.

The control method of the massage module of the heating stove or the water heater comprises

Step 1, setting massage duration to a control module;

step 2, the control module sends control signals to the combustion system, the booster pump and the water quantity server;

step 3, adjusting the initial temperature to T0 by the combustion system,

step 4, the booster pump completes one of the following actions according to the instruction of the control module;

step 4.1, the booster pump completes a pressure change period within time t, and the method comprises the following steps: the high-pressure interval with the time t' is carried out, and the water pressure is PH at the moment; the low pressure interval with the time t-t', the water pressure is PL, and the total time length of all the periods is t_total；

Step 4.2, the booster pump adjusts the power of the booster pump at any time according to the signal feedback of the water outlet pressure sensor, and the water pressure is maintained at P0;

step 4.3, the booster pump completes a pressure change period within time t, and the method comprises the following steps: the high-pressure interval with the time t' is carried out, and the water pressure is PH at the moment; the low pressure interval with the time t-t', the water pressure is PL, and the total time length of all the periods is t_total；

Step 5, the water quantity server completes the following actions according to the instruction of the control module, and the actions correspond to the step 4;

step 5.1, the amount of cold water mixed into the water outlet by the water volume server is changed periodically, the time length of each period is set as t, the water volume server is closed in the time period t ', the water volume server is opened in the time period t-t', and the total time length t of all the periods_total；

Step 5.2, the water quantity server finishes an action cycle in time t, the water quantity server is switched from off to on in time t 'period and from on to off in time t-t' period, and the total time length of all the cycles is t_total；

Step 5.3, the water quantity server completes one action cycle within the time tDuring the period, the water volume servo is switched from off to on in the t 'time period and from on to off in the t-t' time period, and the total time length of all the periods is t_total ；

Step 6, the control module sends control signals to the combustion system, the booster pump and the water quantity server to recover the default work, wherein the booster pump and the water quantity server stop acting, and the combustion system enables the water temperature to return to the temperature before T0;

in the above steps, the values of T, T', PH, PL and T0 are all set by manufacturers, and T_totalIs selected by the user from 5, 10, 15, 20, 25, 30, the time unit being minutes;

and 7, repeating the steps 1 to 6 to realize the purpose of repeated massage.

The control method of the massage module of the heating stove or the water heater realizes the input of the personalized massage program by inputting the massage total duration, the extreme value of the water pressure change range and the extreme value of the water temperature change range into the control module.

The heating stove or the water heater adopts the design and the massage control method, the whole structure is simple and clear, and the massage control method can be applied to common heating stoves or water heaters, so that the possibility of providing additional functions for most heating stoves or water heaters is realized, and the compatibility of products is improved. Meanwhile, the control module can simultaneously control the water temperature and the water pressure; and the gradual control method can not cause water pressure impact on the internal waterway, so that the service life of the internal waterway component can not be reduced.

Drawings

Fig. 1 is a schematic view of a piping structure of a heating furnace or a hot stage.

Fig. 2 is a schematic view of an operation panel of the massage module.

Fig. 3 is a first schematic view of the massage module according to the first embodiment.

Fig. 4 is a second schematic view of the massage module according to the first embodiment.

Fig. 5 is a third schematic view of the massage module according to the embodiment.

Fig. 6 is a first schematic view of the massage module according to the second embodiment.

Fig. 7 is a second schematic view of the massage module according to the second embodiment.

Fig. 8 is a third schematic view of the massage module according to the second embodiment.

Fig. 9 is a first schematic view of the massage module according to the first embodiment.

Fig. 10 is a second schematic view of the massage module according to the third embodiment.

Fig. 11 is a third schematic view of the massage module according to the third embodiment.

Detailed Description

As shown in fig. 1, the heating stove or water heater with massage module comprises a domestic water pipe 2 arranged in the heating stove and passing through a heating stove heat exchange module 1 and a control module for controlling the heating stove; the household water pipe is characterized by further comprising a booster pump 3 and a bypass pipe 4, wherein two ends of the bypass pipe 4 are respectively communicated with a water inlet section and a water outlet section of the household water pipe 2, a water quantity servo 5 and a one-way valve 6 are further connected to the bypass pipe 4 in series, and an opening of the one-way valve faces to the water flow outflow direction; the booster pump 3 is connected in series between the water inlet section of the domestic water pipe 2 and the heat exchange module 1 of the heating stove.

As shown in fig. 2, the control method of the massage module of the heating stove or the water heater comprises

Step 1, setting massage duration to a control module;

step 3, adjusting the initial temperature to T0 by the combustion system,

step 4.3, the booster pump completes a pressure change period within time t, and the method comprises the following steps: the high-pressure interval with the time t' is carried out, and the water pressure is PH at the moment; time of flightA low-pressure region with time t-t', water pressure PL, and total period time t_total；

Step 5, the water quantity server completes the following actions (corresponding to the step 4) according to the instruction of the control module;

Step 5.3, the water quantity server also completes an action period in time t, the water quantity server is switched from off to on in time t 'period and from on to off in time t-t' period, and the total time length of all the periods is t_total ；

and 7, repeating the steps 1 to 6 to realize the purpose of repeated massage.

The control method and the action principle of the massage module are described by the following further operation steps:

the first embodiment,

As shown in fig. 3 to 5, the water pressure is controlled to change at a constant water temperature: the water pressure can be continuously changed by controlling the booster pump, so that the continuous impact feeling to the human body within a certain time is realized; the constant temperature is kept through a bypass pipe integrated with a water quantity server;

the specific implementation mode is as follows:

selecting a constant temperature variable pressure massage mode through a setting key on a display screen, and setting a massage duration t_totalDefault 15 minutes>>>The electric controller receives the display screen signal, calls the built-in parameters and sends control signals to the combustion system, the booster pump and the bypass pipe water quantity server>>>The combustion system adjusts the initial temperature to T0>>>The booster pump completes a pressure change period (including a high-pressure interval with time t 'and water pressure PH; a low-pressure interval with time (t-t') and water pressure PL) within time t, and the total duration of all the periods is t_total >>>The amount of cold water mixed into the water outlet of the bypass pipe also changes periodically, the time length of each period is t (the water volume servo is closed in the t 'period, (the water volume servo is opened in the t-t') period), and the total time length t of all periods_total>>>The coordination relation between the booster pump and the water quantity server is adjusted by the built-in parameters of the electric controller, and the constant temperature of the outlet water is kept>>>When the total time t is completed_totalThen, the constant-temperature variable-pressure mode is automatically exited, the booster pump stops running, the bypass pipe stops mixing water, and the combustion system enables the water temperature to return to the temperature before T0>>>The constant-temperature water outlet mode of the regenerated live water is recovered;

supplementary notes

The method comprises the following steps: the values of T, T', PH, PL and T0 are all set by manufacturers, and T_totalIs selected by the user from 5, 10, 15, 20, 25, 30 in units of: the method comprises the following steps of (1) taking minutes;

secondly, the booster pump controls the water pressure change, the bypass pipe water quantity server controls the constant temperature, but the coordination and matching relation between the booster pump and the water quantity server needs to be obtained through tests, and after the relation is obtained, the relation is set into the electric controller through embedded programming, and automatic control is achieved.

Setting the initial temperature T0 can effectively avoid the failure of constant temperature adjustment caused by seasonal inlet water temperature change;

setting the PH and PL in the high-low pressure region, the situation that the somatosensory water pressure is different due to different water inlet pressure can be effectively avoided, and therefore the massage effect is guaranteed;

example II,

As shown in fig. 6 to 8, the water temperature change is controlled under constant water pressure: when the booster pump is not operated, the water temperature change is controlled by controlling the bypass pipe water quantity server, so that the stimulation to the human body is realized;

the specific implementation mode is as follows:

selecting a constant-pressure variable-temperature hydrotherapy mode and setting the hydrotherapy time length t by a setting key on a display screen_totalDefault 15 minutes>>>The electric controller receives the display screen signal, calls the built-in parameters and sends control signals to the combustion system, the booster pump and the bypass pipe water quantity server>>>The combustion system adjusts the initial temperature to T0>>>The booster pump adjusts the power of the booster pump at any time according to the signal feedback of the water outlet pressure sensor, and maintains the water pressure at P0>>>The bypass water volume servo completes one action cycle in time t (the water volume servo is switched from off to on in time t 'period and from on to off in time (t-t') period), and the total duration of all the cycles is t_total>>>Theoretically, the outlet water temperature can also be generated with t as a period, and the total time length t_totalPeriodic water temperature change (from the existing temperature to a specific low temperature TL, and back to the existing temperature)>>>When the total time t is completed_totalThen, the constant-pressure temperature changing mode is automatically exited, the bypass pipe stops water mixing, and the combustion system enables the water temperature to return to the temperature before T0>>>The constant-temperature water outlet mode of the regenerated live water is recovered;

supplementary notes

The method comprises the following steps: t, T', TL and T0 are all set by manufacturers; t is t_totalIs selected by the user from 5, 10, 15, 20, 25, 30 in units of: the method comprises the following steps of (1) taking minutes;

the variation range of the outlet water temperature is determined by the size of the water quantity of the bypass pipe, namely the opening and closing amplitude of the action of the water quantity server, namely the control signal sent to the water quantity server by the electric controller; the value of the signal parameter needs to be obtained by specific experiments; the automatic control program is realized by an embedded electric controller;

setting the initial temperature T0 can effectively avoid the situation that the hydrotherapy temperature difference is not obvious due to seasonal inlet water temperature change, thereby ensuring the hydrotherapy effect;

the constant water pressure P0 is set, so that the condition that the body surface feels different in water temperature due to the change of the water inlet pressure can be effectively avoided, and the hydrotherapy effect is ensured;

example III,

As shown in fig. 9 to 11, the water pressure and the water temperature change simultaneously: the water pressure can be continuously changed by controlling the booster pump, so that the continuous impact feeling to the human body within a certain time is realized; the water temperature is continuously changed through a bypass pipe with a water quantity servo device, so that the temperature stimulation to the human body is realized;

the specific implementation mode is as follows:

selecting a 'variable temperature and pressure massage' mode through a set key on a display screen, and inputting the hydrotherapy massage duration t_totalDefault 15 minutes>>>The electric controller receives the display screen signal, calls the built-in parameters and sends control signals to the combustion system, the booster pump and the bypass pipe water quantity server>>>The combustion system adjusts the initial temperature to T0>>>The booster pump completes a pressure change period (including a high-pressure interval with time t 'and water pressure PH; a low-pressure interval with time (t-t') and water pressure PL) within time t, and the total duration of all the periods is t_total >>>The bypass water volume servo also completes one action cycle in time t (the water volume servo is switched from off to on in time t 'period and from on to off in time (t-t') period), and the total duration of all the cycles is t_total>>>The coordination relationship between the booster pump and the water quantity server is adjusted by the built-in parameters of the electric controller, and the outlet water temperature is kept to be periodically changed (from the original temperature T0 to the low temperature TL, then to the low temperature TLL, then to the TL, and finally to the T0)>>>When the total time t is completed_totalThen, the variable-pressure variable-temperature mode is automatically exited, the booster pump stops running, the bypass pipe stops mixing water, and the combustion system enables the water temperature to return to the temperature before T0>>>The constant-temperature water outlet mode of the regenerated live water is recovered;

supplementary notes

The method comprises the following steps: the values of T, T', T0, TL, TLL, PH and PL are all set by manufacturers; t is t_totalIs selected by the user from 5, 10, 15, 20, 25, 30 in units of: the method comprises the following steps of (1) taking minutes;

secondly, the water pressure of the booster pump is controlled to periodically change, the water temperature of the bypass pipe water quantity server is controlled to periodically change, but the coordination relationship between the booster pump and the water quantity server needs to be obtained through experiments, and after the relationship is obtained, the relationship is set into the electric controller through embedded programming, so that automatic control is realized.

example four,

The user self-defines the control mode of water pressure and water temperature, and realizes the hydrotherapy/massage function formulated by the individual.

The specific implementation mode is as follows:

selecting 'self-defined hydrotherapy massage' mode through setting keys on display screen>>>Entering a user-defined hydrotherapy massage interface: selecting/clicking a 'water temperature' pull-down column, selecting an initial water temperature T0 from a pull-down list, and defaulting the initial water temperature to be the water temperature in a 'domestic water constant-temperature and constant-pressure mode'; selecting and clicking a pull-down bar of 'water temperature change range', wherein 5 selectable items of 'constant temperature, -4 ℃, 7 ℃, 10 ℃ and normal temperature' are provided, the default selectable item is 'constant temperature', and a user can select one of the selectable items; ③ selecting and clicking the pull-down bar of the 'water pressure change range', wherein 8 options of 'constant pressure, +0.05MPa, +0.10MPa, +0.15MPa, +0.20MPa, +0.25MPa, +0.30MPa, +0.35 MPa' exist, the default option is 'constant pressure', and the user can select one of the options; fourthly, the user inputs the duration t of the hydrotherapy massage_totalDefault 15 minutes>>>The electric controller receives the display screen signal, calls the built-in parameters, and boosts the pressure of the combustion systemPump and bypass line water volume servo send control signals>>>The combustion system adjusts the initial temperature to a value T0 set by the user>>>The booster pump completes a pressure change period (including a high-pressure interval with time t 'and water pressure PH; a low-pressure interval with time (t-t') and water pressure PL) within time t, and the total duration of all the periods is t_total >>>The bypass water volume servo also completes one action cycle in time t (the water volume servo is switched from off to on in time t 'period and from on to off in time (t-t') period), and the total duration of all the cycles is t_total>>>The coordination relationship between the booster pump and the water quantity server is adjusted by the built-in parameters of the electric controller, and the outlet water temperature is kept to be periodically changed (from the set temperature T0 to the low temperature TL, then to the low temperature TLL, then to the TL, and finally to the T0)>>>When the total time t is completed_totalThen, the variable-pressure variable-temperature mode is automatically exited, the booster pump stops running, the bypass pipe stops mixing water, and the combustion system enables the water temperature to return to the temperature before the temperature T0 set by the user>>>The constant-temperature water outlet mode of the regenerated live water is recovered;

supplementary notes

secondly, the temperature in the water temperature drop-down list is determined by the temperature which can be reached by the heating stove in the living water mode;

the detailed explanation about the pull-down column of the water temperature change range in the DIY customized hydrotherapy massage mode is as follows:

a. when 4 options of constant temperature, -4 ℃, 7 ℃ and 10 ℃ are selected, the temperature change range is as follows: between TX and 60 ℃. If the current temperature T0 may exceed the "TX-60 ℃ range after a change of-4 ℃ or-7 ℃ or-10 ℃, then the option is closed (or not displayed or not selectable) on the drop-down bar; (Tx means the lowest temperature that can be reached by the minimum load when the heating stove is burning steadily at the current inlet water temperature, and the heating stove cannot reach the temperature below TX in any case TX > inlet water temperature.)

b. When the 'normal temperature' option is selected, the water temperature is determined by the ambient water temperature, the heating furnace does not burn (or stops burning), but the life waterway booster pump runs, and the bypass pipe water volume server is closed, so that the function of changing the water pressure at the normal temperature can be achieved;

fourthly, detailed description of a pull-down column of the water pressure change range in the DIY customized hydrotherapy massage mode:

the design specification of the living water pressure of the heating stove is as follows: 0.08-0.8 MPa, and considering the tolerance of the human body to the water pressure, the massage water pressure range is set as follows: 0.08-0.45 MPa; if the water pressure of a certain option exceeds the range of 0.08-0.45 MPa after being pressurized by the booster pump, the option is closed (or not displayed or not selected) on the display screen;

data sorting request see table below, ". o" indicates that the option is on, and "x" indicates that the option is off:

remarking: according to GB 50015-20033.3.5A, the water supply pressure of a residential building service pipe is not more than 0.35 MPa;

this heating stove adopts above-mentioned design and above-mentioned massage control method, and its overall structure is succinct clear and can be applied to on the general heating stove, realizes providing the possibility of additional function for most heating stoves, has improved the compatibility of product. Meanwhile, the control module can simultaneously control the water temperature and the water pressure; and the gradual control method can not cause water pressure impact on the internal waterway, so that the service life of the internal waterway component can not be reduced.

Claims

1. A control method of a massage module of a heating stove or a water heater comprises a domestic water pipe arranged in a machine body and passing through a heat exchange module and a control module for controlling the machine body; the household water pipe is characterized by further comprising a booster pump and a bypass pipe, wherein two ends of the bypass pipe are respectively communicated with a water inlet section and a water outlet section of the household water pipe, a water quantity servo and a one-way valve are further connected to the bypass pipe in series, and an opening of the one-way valve faces to the water flow outflow direction; the booster pump is connected in series between the water inlet section of the domestic water pipe and the heat exchange module of the heating stove; the method is characterized in that: the control method of the massage module of the heating stove or the water heater comprises the following steps

Step 1, setting massage duration to a control module;

step 3, adjusting the initial temperature to T0 by the combustion system,

Step 5, the water quantity server completes one of the following actions according to the instruction of the control module, and the action corresponds to the step 4;

Step 5.3, the water quantity server is in the time tAlso completing an action cycle, wherein the water volume servo is switched from off to on in a time period t ', and is switched from on to off in a time period t-t', and the total time length of all the cycles is t_total ；

Wherein, step 4.1 corresponds to step 5.1, step 4.2 corresponds to step 5.2, and step 4.3 corresponds to step 5.3;

and 7, repeating the steps 1 to 6 to realize the purpose of repeated massage.

2. The control method of the massage module of the heating stove or the water heater according to claim 1, characterized in that: the input of the personalized massage program is realized by inputting the massage total duration, the extreme value of the water pressure change range and the extreme value of the water temperature change range into the control module.