CN111711548A

CN111711548A - Energy-saving control method and energy-saving interaction system for heating stove

Info

Publication number: CN111711548A
Application number: CN202010475580.5A
Authority: CN
Inventors: 卢宇凡; 彭森焱
Original assignee: Guangdong Wanhe Thermal Energy Technology Co Ltd
Current assignee: Guangdong Wanhe Thermal Energy Technology Co Ltd
Priority date: 2020-05-29
Filing date: 2020-05-29
Publication date: 2020-09-25

Abstract

The invention discloses an energy-saving control method and an energy-saving interaction system for a heating stove, wherein the method comprises the following steps: screening a target positioning position to obtain a target distance value and away-from-home time, wherein the target distance value is not less than a second distance threshold value, and the away-from-home time is not less than a time threshold value, and the heating stove is flamed out; after the heating stove is flamed out, the target distance value is smaller and smaller until the target distance value is smaller than a second distance threshold value, the heating stove is ignited, and the initial value of the outlet water temperature of the heating stove is set to be the minimum value; when the target distance value is less than the second distance threshold value and the leaving time is less than the time threshold value, the outlet water temperature setting of the heating stove and the change of the target distance value are changed in an inverse proportional relation until the outlet water temperature setting of the heating stove reaches the preset target temperature. The system comprises: heating stove and mobile terminal machine, mobile terminal machine pass through the internet and are connected with the heating stove communication. The invention adjusts the working state of the heating stove according to the moving condition of the user, and the heating stove is more intelligent as a whole. The invention is mainly used for heating equipment.

Description

Energy-saving control method and energy-saving interaction system for heating stove

Technical Field

The invention relates to the technical field of heating equipment, in particular to an energy-saving control method and an energy-saving interaction system for a heating furnace.

Background

The temperature regulation of present heating stove (hanging stove) all is that the manual work goes to the machine and carries out the temperature regulation there, or is connected to the machine through cell-phone APP and adjusts the leaving water temperature of machine. These adjustments require manual temperature adjustment, which is cumbersome and not very intelligent. Meanwhile, if the heating furnace is better utilized in daily life, the heating furnace is more energy-saving, the air consumption is reduced, and the outlet water temperature of the machine needs to be adjusted frequently. To sum up, present heating stove intelligent degree is not high, can't bring better use for the user and experience.

Disclosure of Invention

The invention aims to provide an energy-saving control method and an energy-saving interactive system for a heating stove, so as to solve one or more technical problems in the prior art and provide at least one beneficial choice or creation condition.

The technical scheme adopted for solving the technical problems is as follows: in one aspect, a heating stove energy-saving control method comprises the following steps:

selecting a legal object closest to the defined area as a target object in real time;

calculating to obtain a distance value between the target object and the demarcated area, wherein the distance value is called a target distance value;

recording the time when the last legal object leaves the defined area, wherein the time is called initial time;

obtaining the leaving time, wherein the leaving time is the difference value between the real-time and the initial time;

when the target distance value is larger than or equal to the second distance threshold value and the leaving time is larger than or equal to the time threshold value, the heating stove is flamed out;

after the heating stove is flamed out, when the target distance value is smaller and smaller until the target distance value is smaller than a second distance threshold value, the heating stove is ignited, and the initial value of the outlet water temperature of the heating stove is set to be the minimum value;

when the target distance value is smaller than the second distance threshold value and the leaving time is smaller than the time threshold value, the outlet water temperature setting of the heating stove and the change of the target distance value are changed in an inverse proportional relation until the outlet water temperature setting of the heating stove reaches the preset target temperature;

the target temperature, the second distance threshold and the time threshold are all preset.

Further, the method for selecting the legal object closest to the defined area in real time as the target object comprises the following steps: and obtaining the positioning positions transmitted by all legal objects in real time, calculating the distance value between the legal object and the defined area according to the positioning positions, wherein the distance value is called a distinguishing distance value, screening out the legal object corresponding to the value with the minimum distinguishing distance value, and taking the legal object as a target object.

Further, the method for calculating the distance value between the target object and the defined area comprises the following steps: and taking the positioning position of the target object as a target positioning position, and calculating the distance value between the legal object and the defined area from the target positioning position.

Further, the demarcated area is an area which is defined by a circle formed by the user freely setting the position of the circle center by taking the first distance threshold as the radius; the method for recording the time when the last legal object leaves the defined area comprises the following steps: recording the time until the target distance value is larger and larger until the time is just larger than a first distance threshold value, wherein the first distance threshold value is preset, and the first distance threshold value is smaller than a second distance threshold value.

Furthermore, the outlet water temperature setting of the heating stove and the change of the target distance value are changed in a linear inverse proportion relation.

Further, the locating the position includes: a GPS location or a Beidou system location.

Further, the legal object includes: any one of a handset, a PDA device, or a tablet computer registered in advance.

In another aspect, a heating stove energy saving interaction system includes: the mobile terminal is in communication connection with the heating stove;

the mobile terminal is provided with a positioning module and a first communication module;

the heating stove is provided with a control module and a second communication module;

the first communication module is connected with the second communication module through the Internet;

the positioning module is used for acquiring positioning positions of all mobile terminals in real time, calculating to obtain a distance value between the mobile terminal and the heating stove according to the positioning positions, wherein the distance value is called a distinguishing distance value, screening out a positioning position corresponding to a value with the minimum distinguishing distance value as a target positioning position, and transmitting the target positioning position to the control module through the first communication module;

the control module is used for executing the following steps: calculating a distance value between the mobile terminal and the heating stove from the target positioning position, wherein the distance value is called a target distance value;

recording initial time, wherein the initial time is the time from the moment when the target distance value is larger and larger until the target distance value is just larger than a first distance threshold value;

the target temperature, the first distance threshold, the second distance threshold and the time threshold are all stored in a storage unit of the control module in advance, and the first distance threshold is smaller than the second distance threshold.

Further, the mobile terminal includes: any one of a cell phone, PDA device or tablet computer.

Further, the first communication module and the second communication module are both WI F I modules.

The invention has the beneficial effects that: according to the energy-saving control method and the energy-saving interactive system for the heating stove, the working state of the heating stove can be adjusted according to the moving condition of the user through comprehensive judgment of the target distance value of the target positioning position and the leaving time, so that the whole heating stove is more intelligent, and the user experience is high.

Drawings

The invention is further described with reference to the accompanying drawings and examples;

fig. 1 is a flow chart of a heating stove energy-saving control method.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are described, the meaning is one or more, the meaning of a plurality is two or more, more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1, a heating stove energy-saving control method includes:

The method for selecting the legal object closest to the defined area in real time as the target object comprises the following steps: and obtaining the positioning positions transmitted by all legal objects in real time, calculating the distance value between the legal object and the defined area according to the positioning positions, wherein the distance value is called a distinguishing distance value, screening out the legal object corresponding to the value with the minimum distinguishing distance value, and taking the legal object as a target object.

The method for calculating the distance value between the target object and the defined area comprises the following steps: and taking the positioning position of the target object as a target positioning position, and calculating the distance value between the legal object and the defined area from the target positioning position.

The demarcated area is freely demarcated by a person, but the demarcated area should be the area on which the heating stove acts. The shape of the demarcated areas is not limiting. However, the time when the last legal object leaves the defined area is obtained for better convenience. Therefore, a certain limitation is made on the demarcated area, which is the area encircled by the circle formed by the user freely setting the circle center position by taking the first distance threshold as the radius. Therefore, the method for recording the time when the last legal object leaves the defined area comprises the following steps: recording the time until the target distance value is larger and larger until the time is just larger than a first distance threshold value, wherein the first distance threshold value is preset, and the first distance threshold value is smaller than a second distance threshold value. In this way, the comparison between the target distance value and the first distance threshold value can be conveniently used to obtain the time when the last legal object leaves the defined area.

The energy saving control method is described in detail below: the general family can be contacted with the heating stove through the Internet through the mobile phone, and the mobile phone is registered as a legal object. Of course, the legal object may also be a PDA device or a tablet computer. Any electronic device with positioning and networking functions can be a legal object if the electronic device is registered in advance. The energy-saving control method of the heating stove is described in detail by two legal objects (mobile phones).

The definition of the present embodiment for the demarcated area is: the position of the heating stove is used as the center of a circle, the first distance threshold value is used as the radius to form a circle defined area, and the area is called as a home for convenience of description.

Based on this, when a legitimate subject is left at home. The legal object sends out the locating position, and the heating stove obtains this locating position, calculates according to the locating position and obtains distance value (the distance between locating position and the heating stove), and for the convenience of description, distance value is called and distinguishes distance value. After the heating stove obtains the distinguishing distance value, whether the legal object is the target object which needs to be tracked needs to be judged. If both the first legal object and the second legal object remain at home, however, the distinguishing distance value of the first legal object is significantly less than the distinguishing distance value of the second legal object. Thus, the first legal object is selected as the target object. The selection criterion of the target object is based on the fact that the distinguishing distance value is small. The location position sent by the first legal object is called a target location position. And calculating a target distance value (the distance between the target positioning position and the heating stove) from the target positioning position, wherein the heating stove keeps the existing state and does not do any operation because the target distance value is smaller than a first distance threshold value when a first legal object is left at home.

The heating stove can receive the positioning positions transmitted by all legal objects in real time. Therefore, if the first legal object is left at home all the time, even if the second legal object is moving, since the discrimination distance value of the first legal object is always smaller than that of the second legal object, the heating stove maintains the current state. When the first legitimate object leaves home first, the second legitimate object remains at home. At this time, the discrimination distance value of the second legal object is smaller than that of the first legal object, so that the second legal object is the target object. Therefore, the localization position of the second legal object serves as the target localization position. At this time, the target distance value of the second legal object is smaller than the first distance threshold value, so the heating stove still keeps the existing state and does not do any operation. When the second legal object leaves home and the first legal object is far away from home, the heating stove receives the positioning positions of the first legal object and the second legal object. Obviously, the discrimination distance value of the second legal object is smaller than that of the first legal object, so the second legal object is still taken as the target object. At this time, a target distance value of the second legal object is obtained. Since the second legitimate object was the last one to leave home, the initial time that the second legitimate object left home needs to be recorded. The method specifically comprises the following steps: by judging the target distance value of the second legal object, when the target distance value is larger and larger until the moment is just larger than the first distance threshold value, recording the time, wherein the time is the initial time. At this point, the time at which the second legitimate object leaves home is considered. And recording the current time in real time to obtain real-time, and calculating the difference between the real-time and the initial time to obtain the leaving-home time.

When the second legal object leaves, when: the target distance value is larger than or equal to a second distance threshold value, and the away-from-home time is larger than or equal to a time threshold value. At this time, the heating stove is turned off. Since the user is far enough away and long enough away from home, the heating stove is turned off to save power.

The second legitimate object is away from home, however, the first legitimate object begins to go home. And when the distinguishing distance value of the first legal object is smaller than that of the second legal object, switching the target object and taking the first legal object as the target object. And when the target distance value of the first legal object is smaller and smaller until the target distance value is just smaller than the second distance threshold value, the heating furnace is ignited, and the initial value of the outlet water temperature of the heating furnace is set to be the minimum value. Since the target distance value of the first legal object is smaller and smaller, it indicates that the first legal object is approaching home gradually, and in order to make the first legal object get home and obtain good temperature, when the target distance value of the first legal object is smaller than the second distance threshold, the heating furnace is ignited, and the initial value of the outlet water temperature of the heating furnace is set to be the minimum value. So that the heating furnace starts heating operation.

At this time, when the target distance value < the second distance threshold, and the away-from-home time < the time threshold. It should be noted that the leaving time is a comprehensive time, and does not refer to the leaving time of the specific legal object, and it can be known at this point in this embodiment that the leaving time at this time is a difference between the time of the current node and the initial time, and the initial time is the time when the second legal object leaves home. The outlet water temperature setting of the heating stove and the change of the target distance value are changed in an inverse proportional relation until the outlet water temperature setting of the heating stove reaches the preset target temperature. Wherein, the play water temperature of heating stove sets for and is the change of inverse proportional relation change specifically to be: when the target distance value is smaller and smaller, the outlet water temperature of the heating stove is set to be higher and higher, namely, when the first legal object is closer to the home, the outlet water temperature of the heating stove is gradually increased until the preset target temperature (the upper limit value of the outlet water temperature) is reached; when the first legal object is gradually far away from home, the outlet water temperature of the heating stove is gradually reduced until the preset target temperature (the lower limit value of the outlet water temperature) is reached. By the method, when the first legal object is close to the home, the heating stove is adjusted to be higher in outlet water temperature, so that the user can enjoy the expected temperature when returning home; when the first legal subject is away from home, the heating stove lowers the temperature of the outlet water, thus saving energy.

In some cases, when the target distance value < the second distance threshold, but the away-from-home time ≧ the time threshold, this case is assumed that the heating stove is in an inoperative state for a long time, and therefore, when the heating stove is ignited again, it is necessary to set the initial value of the leaving water temperature to the minimum value. The purpose of doing so is to provide the buffering operating time of heating stove, protection heating stove to its sudden high-power operation causes the harm to the heating stove.

In some preferred embodiments, the outlet water temperature setting of the heating stove varies in a linear inversely proportional relationship to the change in the target distance value. That is, the change of the outlet water temperature setting of the heating stove is linear change, specifically, the outlet water temperature of the heating stove is set through the adjustment form of equal temperature difference. This protects the heating stove from sudden large changes in its power.

For the type of the location of the legal object, in some preferred embodiments, it is a GPS location or a beidou system location.

On the other hand, this embodiment mode still provides a heating stove energy-conserving interactive system, includes: the mobile terminal is in communication connection with the heating stove;

The heating stove energy-saving interactive system is used for realizing certain implementation modes of the heating stove energy-saving control method, the working process of the heating stove energy-saving control method is similar to that of the heating stove energy-saving control method in the embodiment, and the description is not repeated here.

In some preferred embodiments, the mobile terminal comprises: any one of a cell phone, PDA device or tablet computer.

In some preferred embodiments, the first communication module and the second communication module are both WI-FI modules.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the invention as set forth in the claims appended hereto.

Claims

1. An energy-saving control method for a heating stove is characterized by comprising the following steps:

2. A heating stove energy-saving control method according to claim 1, characterized in that: the method for selecting the legal object closest to the defined area in real time as the target object comprises the following steps: and obtaining the positioning positions transmitted by all legal objects in real time, calculating the distance value between the legal object and the defined area according to the positioning positions, wherein the distance value is called a distinguishing distance value, screening out the legal object corresponding to the value with the minimum distinguishing distance value, and taking the legal object as a target object.

3. A heating stove energy-saving control method according to claim 1, characterized in that: the method for calculating the distance value between the target object and the defined area comprises the following steps: and taking the positioning position of the target object as a target positioning position, and calculating the distance value between the legal object and the defined area from the target positioning position.

4. A heating stove energy-saving control method according to claim 1, characterized in that: the demarcated area is an area which is defined by a circle formed by the user freely setting the position of the circle center by taking the first distance threshold as the radius; the method for recording the time when the last legal object leaves the defined area comprises the following steps: recording the time until the target distance value is larger and larger until the time is just larger than a first distance threshold value, wherein the first distance threshold value is preset, and the first distance threshold value is smaller than a second distance threshold value.

5. A heating stove energy-saving control method according to claim 1, characterized in that: the outlet water temperature setting of the heating furnace and the change of the target distance value are changed in a linear inverse proportion relation.

6. A heating stove energy saving control method according to any one of claims 2 or 3, characterized in that: the positioning location includes: a GPS location or a Beidou system location.

7. A heating stove energy-saving control method according to claim 1, characterized in that: the legal object comprises: any one of a handset, a PDA device, or a tablet computer registered in advance.

8. An energy-conserving interactive system of heating stove, its characterized in that: the method comprises the following steps: the mobile terminal is in communication connection with the heating stove;

9. A heating stove energy saving interaction system according to claim 8, characterized in that: the mobile terminal includes: any one of a cell phone, PDA device or tablet computer.

10. A heating stove energy saving interaction system according to claim 8, characterized in that: the first communication module and the second communication module are both WIFI modules.