阅读说明：本技术 一种蒸汽浴室内温度控制方法 (Temperature control method in steam bathroom ) 是由 杜成渝 于 2020-12-03 设计创作，主要内容包括：本发明涉及一种蒸汽浴室内温度控制方法,当浴室内的室内温度到达第一预设温度值至第二预设温度值之间时,控制第一预设根数的蒸汽机电热管停止工作；当浴室内的室内温度到达第二预设温度值至第三预设温度值之间时,控制第二预设根数的蒸汽机电热管停止工作；当浴室内的室内温度到达第三预设温度值以上时,控制第三预设根数的蒸汽机电热管停止工作；上述蒸汽浴室内温度控制方法,从蒸汽机工作的初期,就开始根据浴室内温度的变化通过对蒸汽机中加热管工作数量的调控,有效地缓和了蒸汽房内温度变化的迟滞性所带来的困扰。使得蒸汽房内的温度在一个特定的温度值上小范围上下波动,极大地改善了用户的蒸汽浴体验。(The invention relates to a temperature control method in a steam bathroom, when the indoor temperature in the bathroom reaches a first preset temperature value to a second preset temperature value, controlling electric heating tubes of a first preset number of steam engines to stop working; when the indoor temperature in the bathroom reaches a value between a second preset temperature value and a third preset temperature value, controlling the second preset number of steam engine electric heating tubes to stop working; when the indoor temperature in the bathroom reaches a third preset temperature value or higher, controlling the third preset number of steam engine electric heating tubes to stop working; according to the method for controlling the temperature in the steam bath room, from the initial working stage of the steam engine, the working quantity of the heating pipes in the steam engine is regulated and controlled according to the temperature change in the steam engine, so that the trouble caused by the hysteresis of the temperature change in the steam bath room is effectively alleviated. The temperature in the steam room fluctuates in a small range on a specific temperature value, and the steam bath experience of a user is greatly improved.)

1. A method for controlling temperature in a sauna, characterized in that the method comprises the following steps:

the method comprises the following steps: acquiring a first preset temperature value, a second preset temperature value and a third preset temperature value of which the numerical values are from low to high; acquiring a first preset number, a second preset number and a third preset number related to the electric heating tubes; acquiring the indoor temperature in the bathroom in real time;

step two: controlling the steam engine electric heating pipes with the first preset number, the second preset number and the third preset number to work simultaneously;

step three: when the indoor temperature in the bathroom reaches a value between a first preset temperature value and a second preset temperature value, controlling the first preset number of steam engine electric heating tubes to stop working;

step four: the indoor temperature can continue to rise due to the hysteresis of temperature change, and when the indoor temperature in the bathroom reaches a value between a second preset temperature value and a third preset temperature value, the second preset number of steam engine electric heating tubes are controlled to stop working;

step five: the indoor temperature can continue to rise due to the hysteresis of temperature change, and when the indoor temperature in the bathroom reaches a third preset temperature value or more, the third preset number of steam engine electric heating tubes are controlled to stop working;

step six: because of the hysteresis of temperature change, the indoor temperature can continue to rise, and after the indoor temperature rises to a certain temperature, the indoor temperature can fall due to heat dissipation; when the indoor temperature in the bathroom is reduced to a value between a third preset temperature value and a second preset temperature value, controlling the third preset number of steam engine electric heating tubes to work;

step seven: if the indoor temperature in the bathroom is reduced to be between a second preset temperature value and a first preset temperature value, controlling the steam engine electric heating tubes of a second preset number and the steam engine electric heating tubes of a third preset number to work simultaneously;

when the indoor temperature rises, returning to the fourth step;

when the indoor temperature is reduced to be lower than a first preset temperature value, controlling the first preset number of steam engine electric heating tubes, the second preset number of steam engine electric heating tubes and the third preset number of steam engine electric heating tubes to work simultaneously, and returning to the third step;

otherwise, when the indoor temperature in the bathroom rises to be higher than the third preset temperature value, returning to the step six.

2. The method of claim 1, wherein the sum of the first predetermined number, the second predetermined number, and the third predetermined number is the total number of electrothermal tubes of the steam engine.

3. The method of claim 1, wherein the first predetermined temperature value, the second predetermined temperature value, and the third predetermined temperature value are incremented in an arithmetic series.

4. The method of claim 1, wherein the first predetermined temperature value is 47 degrees celsius, the second predetermined temperature value is 48 degrees celsius, and the third predetermined temperature value is 49 degrees celsius.

5. The method of claim 1, wherein the first predetermined temperature value is 46 degrees celsius, the second predetermined temperature value is 48 degrees celsius, and the third predetermined temperature value is 50 degrees celsius.

6. The method of claim 1, wherein the first predetermined temperature value is 45 degrees celsius, the second predetermined temperature value is 48 degrees celsius, and the third predetermined temperature value is 51 degrees celsius.

7. The method of claim 1, wherein the first predetermined number, the second predetermined number, and the third predetermined number are all one.

8. The method of claim 1, wherein the first predetermined number, the second predetermined number, and the third predetermined number are all two.

9. The method of claim 1, wherein the first predetermined number, the second predetermined number, and the third predetermined number are all three.

10. The method of claim 1, wherein the first predetermined number, the second predetermined number, and the third predetermined number are different from each other two by two.

Technical Field

The invention relates to the field of steam bath, in particular to a method for controlling the temperature in a steam bath chamber.

Background

Steam bath is the most popular nursing method in the beginning of the last 21 century of the 20 th century, and has different forms and names all over the world, and the common characteristic of the steam bath is that water is used as a heating object to form steam at high temperature so as to clean and nurse the skin. Due to the difference of geographical positions and human environments, various steam bath methods are formed, for example, the traditional Chinese herbal medicine fumigation disease treatment method exists in ancient China, the soil steaming of all minority nationalities, the Yao steaming of Yao nationality, the Tibetan steaming of Tibetan nationalities and the sauna steam bath exists in modern mass bathing. Steam bathing refers to heating steam in a house with a special structure, and people take a bath in the diffused steam. A classical steam bath is characterized in that a fireplace or a floor stove is heated by a plurality of special stones in a bathroom, then the stove fire is extinguished, water is splashed onto the stones to generate steam, and the bath can be carried out when the temperature and the humidity reach certain standards. Modern steam baths are made by steam engines producing high temperature steam.

However, when the steam engine is used to produce high-temperature steam, the temperature has a very large hysteresis in the change of the steam room, that is, the conduction time of the high-temperature steam generated by the steam engine is too long, and when the indoor temperature detected by the temperature sensor reaches a preset temperature value, the electric heating tube of the steam engine is closed, and then the high-temperature steam is injected, so that the temperature in the steam room is far greater than the preset temperature value, and on the contrary, the problem also exists when the indoor temperature is reduced. Therefore, the range of temperature fluctuation in the steam room is huge, and the temperature of the steam bath cannot be effectively controlled due to the hysteresis problem of temperature change in the steam room, so that the experience of the steam bath is greatly reduced.

Disclosure of Invention

In view of the above, it is necessary to provide a method for controlling the temperature in a sauna room, which solves the problem that the temperature of the sauna room cannot be effectively controlled due to the hysteresis of the temperature change in the sauna room.

A method of controlling temperature in a sauna, the method comprising the steps of:

the method comprises the following steps: acquiring a first preset temperature value, a second preset temperature value and a third preset temperature value of which the numerical values are from low to high; acquiring a first preset number, a second preset number and a third preset number related to the electric heating tubes; acquiring the indoor temperature in the bathroom in real time;

step two: controlling the steam engine electric heating pipes with the first preset number, the second preset number and the third preset number to work simultaneously;

step three: when the indoor temperature in the bathroom reaches a value between a first preset temperature value and a second preset temperature value, controlling the first preset number of steam engine electric heating tubes to stop working;

step four: the indoor temperature can continue to rise due to the hysteresis of temperature change, and when the indoor temperature in the bathroom reaches a value between a second preset temperature value and a third preset temperature value, the second preset number of steam engine electric heating tubes are controlled to stop working;

step five: the indoor temperature can continue to rise due to the hysteresis of temperature change, and when the indoor temperature in the bathroom reaches a third preset temperature value or more, the third preset number of steam engine electric heating tubes are controlled to stop working;

step six: because of the hysteresis of temperature change, the indoor temperature can continue to rise, and after the indoor temperature rises to a certain temperature, the indoor temperature can fall due to heat dissipation; when the indoor temperature in the bathroom is reduced to a value between a third preset temperature value and a second preset temperature value, controlling the third preset number of steam engine electric heating tubes to work;

step seven: if the indoor temperature in the bathroom is reduced to be between a second preset temperature value and a first preset temperature value, controlling the steam engine electric heating tubes of a second preset number and the steam engine electric heating tubes of a third preset number to work simultaneously;

when the indoor temperature rises, returning to the fourth step;

when the indoor temperature is reduced to be lower than a first preset temperature value, controlling the first preset number of steam engine electric heating tubes, the second preset number of steam engine electric heating tubes and the third preset number of steam engine electric heating tubes to work simultaneously, and returning to the third step;

otherwise, when the indoor temperature in the bathroom rises to be higher than the third preset temperature value, returning to the step six.

In one embodiment, the sum of the first predetermined number, the second predetermined number and the third predetermined number is the total number of the electrothermal tubes of the steam engine.

In one embodiment, the first preset temperature value, the second preset temperature value and the third preset temperature value are increased in an arithmetic progression.

In one embodiment, the first preset temperature value is 47 degrees celsius, the second preset temperature value is 48 degrees celsius, and the third preset temperature value is 49 degrees celsius.

In one embodiment, the first predetermined temperature value is 46 degrees celsius, the second predetermined temperature value is 48 degrees celsius, and the third predetermined temperature value is 50 degrees celsius.

In one embodiment, the first preset temperature value is 45 degrees celsius, the second preset temperature value is 48 degrees celsius, and the third preset temperature value is 51 degrees celsius.

In one embodiment, the first predetermined number, the second predetermined number and the third predetermined number are all one.

In one embodiment, the first predetermined number, the second predetermined number and the third predetermined number are all two.

In one embodiment, the first predetermined number, the second predetermined number and the third predetermined number are all three.

In one embodiment, the first predetermined number, the second predetermined number and the third predetermined number are different from each other

1. According to the method for controlling the temperature in the steam bath room, from the initial working stage of the steam engine, the working quantity of the heating pipes in the steam engine is regulated and controlled according to the temperature change in the steam engine, so that the trouble caused by the hysteresis of the temperature change in the steam bath room is effectively alleviated. The temperature in the steam room fluctuates in a small range on a specific temperature value, and the steam bath experience of a user is greatly improved.

2. The steam is not interrupted in the whole bathing process.

Drawings

FIG. 1 is a schematic flow chart of a method for controlling the temperature in a steam bath according to one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the present invention provides a method for controlling temperature in a sauna room, comprising the following steps:

a method of controlling temperature in a sauna, the method comprising the steps of:

the method comprises the following steps: and acquiring a first preset temperature value, a second preset temperature value and a third preset temperature value of which the numerical values are from low to high. The first, second and third preset numbers of the electrothermal tubes are obtained. The indoor temperature in the bathroom is acquired in real time.

It should be noted that the sum of the first predetermined number, the second predetermined number and the third predetermined number is the total number of the electric heating tubes involved in heating in the steam engine. In this embodiment, the sum of the first predetermined number, the second predetermined number and the third predetermined number is the total number of the electric heating tubes of the steam engine. Further, the first predetermined number, the second predetermined number, and the third predetermined number are all one. In another embodiment, the first predetermined number, the second predetermined number and the third predetermined number are all two. In other embodiments, the first predetermined number, the second predetermined number, and the third predetermined number are all three. In another embodiment, the first predetermined number, the second predetermined number and the third predetermined number are different from each other.

In the process of heating the bathroom by the steamer, the temperature is changed from high to low and then tends to be stable and fluctuates at a certain specific temperature value. In this embodiment, the first preset temperature value, the second preset temperature value, and the third preset temperature value are incremented in an arithmetic progression. Further, the first preset temperature value is 47 degrees celsius, the second preset temperature value is 48 degrees celsius, and the third preset temperature value is 49 degrees celsius. In another embodiment, the first predetermined temperature value is 46 degrees celsius, the second predetermined temperature value is 48 degrees celsius, and the third predetermined temperature value is 50 degrees celsius. In yet another embodiment, the first predetermined temperature value is 45 degrees celsius, the second predetermined temperature value is 48 degrees celsius, and the third predetermined temperature value is 51 degrees celsius.

Step two: the steam engine electric heating pipes of the first preset number, the second preset number and the third preset number are controlled to work simultaneously.

That is, at the beginning of the heating of the bathroom by the steamer, all the electric heating tubes participating in heating in the steamer are controlled to work together to heat the bathroom.

Step three: when the indoor temperature in the bathroom reaches a first preset temperature value to a second preset temperature value, controlling the first preset number of steam engine electric heating tubes to stop working.

That is, when the indoor temperature in the bathroom reaches the first preset temperature value to the second preset temperature value, the first preset number of steam engine electric heating tubes are controlled to stop working, so that the power of the steam engine is reduced, and the heat generated by the steam engine is reduced.

Step four: and when the indoor temperature in the bathroom reaches a value between a second preset temperature value and a third preset temperature value, controlling the second preset number of steam engine electric heating tubes to stop working.

That is, when the indoor temperature in the bathroom reaches the second preset temperature value to the third preset temperature value, the second preset number of steam engine electric heating tubes are continuously controlled to stop working, and only the third preset number of steam engine electric heating tubes are reserved for heating, so that the power of the steam engine is further reduced, and the heat generated by the steam engine is further reduced.

Step five: the indoor temperature can continue to rise due to the lag of temperature change, and when the indoor temperature in the bathroom reaches a third preset temperature value, the third preset number of steam engine electric heating tubes are controlled to stop working.

That is, due to the hysteresis of the temperature change, when only the third preset number of electric heating tubes of the steam engine are kept for heating, the temperature in the bathroom can still continue to rise, and when the indoor temperature in the bathroom reaches above the third preset temperature value, the third preset number of electric heating tubes of the steam engine are controlled to stop working, so that the whole steam engine is not in a working state, and no heating tube works.

Step six: because of the lag of temperature change, the indoor temperature can continue to rise, and after the indoor temperature rises to a certain temperature, the temperature in the bathroom can drop because of heat dissipation; when the indoor temperature in the bathroom is reduced to a value between a third preset temperature value and a second preset temperature value, the electric heating tubes of the steam engine with a third preset number are controlled to work.

That is, when no heating pipe works in the whole steam engine, the indoor temperature will continue to rise due to the hysteresis of temperature change, and after the indoor temperature rises to a certain temperature, the indoor temperature will fall due to heat dissipation; when the indoor temperature in the bathroom is reduced to a value between a third preset temperature value and a second preset temperature value, the electric heating tubes of the steam engine with a third preset number are controlled to work so as to supplement heat to the bathroom.

Step seven: if the indoor temperature in the bathroom is reduced to be between the second preset temperature value and the first preset temperature value, the second preset number of steam engine electric heating tubes and the third preset number of steam engine electric heating tubes are controlled to work simultaneously. That is, when only the third preset number of electric heating tubes of the steamer are operated to generate insufficient heat to supplement the heat dissipated in the bathroom, and the indoor temperature in the bathroom is reduced to a value between the second preset temperature value and the first preset temperature value, the second preset number of electric heating tubes of the steamer and the third preset number of electric heating tubes of the steamer are controlled to operate simultaneously to supplement more heat in the bathroom.

When the indoor temperature rises, returning to the fourth step; that is, when only the third predetermined number of the electric heating tubes of the steamer are operated to generate heat, the heat dissipated in the bathroom can be supplemented, and when the indoor temperature rises, the step four is returned.

When the indoor temperature is reduced to be lower than a first preset temperature value, controlling the first preset number of steam engine electric heating tubes, the second preset number of steam engine electric heating tubes and the third preset number of steam engine electric heating tubes to work simultaneously, and returning to the third step; that is, when only the third preset number of electric heating tubes of the steamer and the second preset number of electric heating tubes of the steamer work simultaneously, the heat generated by the simultaneous work is not enough to supplement the heat dissipated in the bathroom, and the indoor temperature in the bathroom is reduced to be lower than the first preset temperature value, the first preset number of electric heating tubes of the steamer, the second preset number of electric heating tubes of the steamer and the third preset number of electric heating tubes of the steamer are controlled to work simultaneously, so that more heat is supplemented to the bathroom. And returning to the third step;

otherwise, when the indoor temperature in the bathroom rises to be higher than the third preset temperature value, returning to the step six. That is, when only the third preset number of electric heating tubes of the steamer and the second preset number of electric heating tubes of the steamer work simultaneously to generate heat which can supplement the heat dissipated in the bathroom, and the indoor temperature rises above the third preset temperature value, the step six is returned.

According to the method for controlling the temperature in the steam bath room, from the initial working stage of the steam engine, the working quantity of the heating pipes in the steam engine is regulated and controlled according to the temperature change in the steam engine, so that the trouble caused by the hysteresis of the temperature change in the steam bath room is effectively alleviated. The temperature in the steam room fluctuates in a small range on a specific temperature value, and the steam bath experience of a user is greatly improved.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.