CN113050721A - Intelligent floor heating multipoint temperature control system and method - Google Patents

Abstract

One or more embodiments of the present specification provide an intelligent floor heating multipoint temperature control system and method, a room is divided into a plurality of temperature control areas, heating portions for heating different temperature control areas are respectively arranged, a temperature acquisition portion is arranged for respectively acquiring temperatures of the temperature control areas, a human body detection portion is arranged for detecting a position of a user, temperature adjustment can be performed on the temperature control area where the user is located according to a detection result, and the temperature of the temperature control area where the user is located meets a set requirement, so that heating requirements of the user can be met, and effects of saving energy and reducing use cost can be achieved.

Description

Intelligent floor heating multipoint temperature control system and method

Technical Field

One or more embodiments of the specification relate to the technical field of intelligent floor heating, in particular to a system and a method for controlling multipoint temperature of intelligent floor heating.

Background

The floor heating is short for floor radiation heating, the whole floor is used as a radiator, the whole floor is uniformly heated through a heating medium in a floor radiation layer, heat is supplied to the indoor through the floor in a radiation and convection heat transfer mode, the purpose of comfortable heating is achieved, the existing floor heating mainly adopts a mode of global laying and sub-room laying, but in actual use, the utilization rate of a user to a house is actually low within a period of time, most of areas in the house can be caused, the user can not reach the floor heating, and under the condition, the floor heating in most of the areas wastes energy, and the use cost is also improved.

Disclosure of Invention

In view of this, one or more embodiments of the present disclosure are directed to providing an intelligent floor heating multipoint temperature control system and method, so as to solve the problems of energy waste and high use cost.

Based on above-mentioned purpose, one or more embodiments of this specification provide a multipoint temperature control system warms up intelligently, include a plurality of heating portions that heat different indoor temperature control areas respectively, still include:

the temperature acquisition part is used for acquiring the temperature of each temperature control area to obtain a temperature acquisition result;

the human body detection part is used for detecting the position of the user to obtain the real-time position of the user;

and the temperature control module is used for adjusting the temperature of the temperature control area where the user is located according to the real-time position of the user detected by the human body detection part and the temperature acquisition result obtained by the temperature acquisition part, so that the temperature of the temperature control area where the user is located meets the set requirement.

Preferably, the heating part comprises a heat insulation layer, an electric heating pipeline, a heat insulation layer and an electric heating piece from bottom to top in sequence.

Preferably, the human body detection part comprises an infrared imaging human body capturing camera, and the infrared imaging human body capturing camera is also used for detecting the body temperature of the user;

the temperature control module is further used for adjusting the temperature in the temperature control area where the user is located according to the user body temperature detected by the infrared imaging human body capturing camera and a preset user body temperature threshold value.

Preferably, the human body detection part is further configured to calculate an action track of the user in each time period according to the appearance position of the user in each temperature control area;

the temperature control module is further used for adjusting the temperature of the temperature control area which the user passes through on the action track of the time period when entering the corresponding time period according to the action track of the user in each time period, so that the temperature of the temperature control area which the user passes through on the action track meets the set requirement.

Preferably, the system further comprises:

the master control panel is arranged indoors and used for manually adjusting the heating parts in the temperature control areas;

and the remote control module is connected with the master control panel in a wireless connection mode and is used for manually adjusting the temperature of each temperature control area through the master control panel.

The utility model provides a multipoint temperature control method warms up intelligently, is based on a plurality of heating portions that heat different temperature control regions indoor respectively, and the method includes:

collecting temperature information in each temperature control area;

detecting a real-time location of a user;

and according to the real-time position of the user and the temperature information in each temperature control area, carrying out temperature regulation on the temperature control area where the user is located, so that the temperature of the temperature control area where the user is located meets the set requirement.

Preferably, the method further comprises:

obtaining the action track of the user in each time period according to the detected real-time position of the user;

and when entering a corresponding time period, carrying out temperature regulation on the temperature control area passed by the user on the action track of the time period, so that the temperature of the temperature control area passed by the action track meets the set requirement.

Preferably, deriving the action trajectory of the user at each time period comprises:

recording a plurality of action routes of a user in the same time period in a plurality of time periods;

and fitting the recorded multiple action routes into action tracks of the user in each time period.

Preferably, the method further comprises:

when entering a corresponding time period, taking a temperature control area passed by a user on an action track of the time period as a main control area, taking a temperature control area adjacent to the main control area as an auxiliary control area, and respectively adjusting the temperature of the main control area and the temperature of the auxiliary control area to enable the temperature of the main control area and the temperature of the auxiliary control area to meet respective set requirements.

As can be seen from the above, according to the intelligent floor heating multipoint temperature control system and method provided in one or more embodiments of the present specification, a room is divided into a plurality of temperature control areas, heating portions for heating different temperature control areas are respectively provided, temperature acquisition portions are provided for respectively acquiring temperatures of the temperature control areas, a human body detection portion is provided for detecting a position of a user, temperature adjustment can be performed on the temperature control area where the user is located according to a detection result, so that the temperature of the temperature control area where the user is located meets a set requirement, thereby not only meeting a heating requirement of the user, but also playing a role in saving energy and reducing use cost.

Drawings

In order to more clearly illustrate one or more embodiments or prior art solutions of the present specification, the drawings that are needed in the description of the embodiments or prior art will be briefly described below, and it is obvious that the drawings in the following description are only one or more embodiments of the present specification, and that other drawings may be obtained by those skilled in the art without inventive effort from these drawings.

Fig. 1 is a block diagram of an intelligent floor heating multipoint temperature control system according to one or more embodiments of the present disclosure;

fig. 2 is a system block diagram of an intelligent floor heating multipoint temperature control system according to one or more embodiments of the present specification in different control modes;

fig. 3 is a schematic flow chart of an intelligent floor heating multipoint temperature control method according to one or more embodiments of the present specification;

fig. 4 is a schematic flow chart of an intelligent floor heating multipoint temperature control method according to another embodiment of the present specification;

FIG. 5 is a schematic view of a temperature controlled zone according to one or more embodiments of the present disclosure;

FIG. 6 is a schematic view of another heating section configuration according to one or more embodiments of the present disclosure;

FIG. 7 is an exploded view of a heating portion according to one or more embodiments of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, the present disclosure is further described in detail below with reference to specific embodiments.

It is to be noted that unless otherwise defined, technical or scientific terms used in one or more embodiments of the present specification should have the ordinary meaning as understood by those of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in one or more embodiments of the specification is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

One or more embodiments of the present specification provide an intelligent floor heating multipoint temperature control system, which includes a plurality of heating portions that respectively heat different indoor temperature control areas 1, and further includes a temperature acquisition portion 3, a human body detection portion 2 and a temperature control module, wherein the temperature acquisition portion 3 is configured to acquire temperature of each temperature control area 1 to obtain a temperature acquisition result, and the human body detection portion 2 is configured to detect a position of a user to obtain a real-time position of the user;

the temperature control module is used for adjusting the temperature of the temperature control area 1 where the user is located according to the real-time position of the user detected by the human body detection part 2 and the temperature acquisition result obtained by the temperature acquisition part 3, so that the temperature of the temperature control area 1 where the user is located meets the set requirement.

For example, the temperature control area 1 may be set by dividing the room into a plurality of areas with the same or different areas, for example, the area of each temperature control area 1 is 1 square meter, and the setting requirement may be preset in the system, for example, set to 25 ℃, or may be adjusted according to the actual requirement of the user.

This specification provides a multipoint temperature control system warms up intelligently, through dividing indoor into a plurality of control by temperature change regions 1, set up respectively and carry out the heating portion that heats to different control by temperature change regions 1, and set up temperature acquisition portion 3 and carry out temperature acquisition to each control by temperature change region 1 respectively, set up human detection portion 2 and detect user's position, can be according to the testing result, carry out temperature regulation to control by temperature change region 1 that the user is located, the temperature that makes control by temperature change region 1 of user's place department satisfies the settlement requirement, thereby can enough satisfy user's heating demand, can play the effect that the energy saving reduces use cost again.

As an implementation mode, the heating part sequentially comprises a heat insulation layer 11, an electric heating pipeline 12, a heat insulation layer 13 and an electric heating piece 14 from bottom to top, wherein the electric heating pipeline 12 can be arranged as a coil between the heat insulation layer 11 and the heat insulation layer 13, the electric heating pipeline 12 in an adjacent temperature control area 1 is connected and is controlled by a valve, the system can carry out multi-stage temperature adjustment by the arrangement of the electric heating piece 14 and the electric heating pipeline 12, the difference between the current temperature and the set temperature is large, if the difference exceeds 10 ℃, the electric heating pipeline 12 and the electric heating piece 14 are both started to carry out rapid temperature adjustment, and when the difference between the current temperature and the set temperature is small, only the electric heating pipeline 12 can be started to save energy, the system can also be provided with a ventilator to ventilate indoor air and keep good air quality, an air quality sensor can be arranged indoors to control the work of the ventilator, and the temperature acquisition part 3 can adopt a temperature sensor, is arranged between the heat insulation layer 11 and the heat insulation layer 13, and can also be arranged above the heat insulation layer 13.

As another embodiment, the heating portion may be provided as a corner radiator 101 installed at a corner, and in this embodiment, the temperature collecting portion 3 is provided above the corner radiator 101 corresponding to the temperature controlled area 1.

As an embodiment, the human body detection part 2 includes an infrared imaging human body capturing camera, the camera is further configured to detect a body temperature of the user, and the temperature control module is further configured to adjust the temperature in the temperature control area 1 where the user is located according to the body temperature detected by the infrared imaging human body capturing camera and according to a preset user body temperature threshold, for example, the preset user body temperature threshold may be set to be higher when the user body temperature is between 36 ℃ and 36.5 ℃, and may be set to be moderate when the user body temperature reaches above 36.5 ℃.

As an embodiment, the human body detection part 2 is further configured to calculate an action track of the user in each time slot according to the appearance position of the user in each temperature control area 1, the temperature control module is further configured to, according to the action track in each time slot, adjust the temperature of the temperature control area 1 passed by the user on the action track of the time slot when entering the corresponding time slot, so that the temperature of the temperature control area 1 passed by the action track meets the setting requirement, for example, the time slot refers to a certain time slot in a time cycle, such as 7 am to 9 am, the action track of the user is mainly between a horizontal type and a restaurant, and each time the time slot is reached, the temperature control module automatically adjusts the temperature of the temperature control area 1 passed by the action track, and closes the heating parts in other temperature control areas 1 to save energy, furthermore, action tracks can be obtained by distinguishing working days and rest days, so that the system can meet the requirements of users better.

As an implementation mode, this system still includes total control panel 6 and remote control module, wherein total control panel 6 mountable is on indoor wall, respectively carry out manual regulation to the heating portion in each temperature control area 1, remote control module can set up to the APP form, be connected with total control panel 6 through wireless connection mode, the coverage of whole regional wiFi, need not equipment from taking the infrared ray function, even be separated by thousand miles, also can conveniently control this system in the APP top, for example, can also show the temperature in individual temperature control area 1 on total control panel 6, convenience of customers knows feedback data, total control panel 6's control priority is higher than remote control module.

As an implementation mode, the system further comprises a humidifying part 4, a humidity collecting part 5 and a humidity control module, wherein the humidifying part 4 comprises an integrated water pipe and a plurality of atomizing nozzles connected to the integrated water pipe, a water purifier can be further arranged in the integrated water pipe, each atomizing nozzle is also arranged in different humidity control areas, and the humidity collecting part 5 is arranged in each humidity control area. The humidifying part 4 can adopt ultrasonic humidification, uses ultrasonic high-frequency oscillation of 200 ten thousand times per second, changes water into ultramicron and negative oxygen ion of 1 micron to 5 microns to realize even humidification, fresh air, factor of safety is high, and degerming humidification ability is strong, promotes healthy, gets rid of the dryness-heat of winter heating installation, builds comfortable living environment.

The present specification further provides an intelligent floor heating multipoint temperature control method, based on a plurality of heating portions respectively heating different indoor temperature control areas 1, the method further includes:

collecting temperature information in each temperature control area 1;

detecting a real-time location of a user;

according to the real-time position of the user and the temperature information in each temperature control area 1, the temperature of the temperature control area 1 where the user is located is adjusted, so that the temperature of the temperature control area 1 where the user is located meets the set requirement.

As an embodiment, the method further comprises:

obtaining the action track of the user in each time period according to the detected real-time position of the user;

when entering the corresponding time period, the temperature of the temperature control area 1 passed by the user on the action track of the time period is adjusted, so that the temperature of the temperature control area 1 passed by the action track meets the set requirement.

As one embodiment, deriving the action trajectory of the user at each time period includes:

recording a plurality of action routes of a user in the same time period in a plurality of time periods;

and fitting the recorded multiple action routes into action tracks of the user in each time period.

For example, in the time period from 8 pm to 10 pm, the action route of the user is recorded, and after continuously recording for 5 days, the 5 action routes are fitted to remove the error and individual route in the action route, so as to obtain an action track capable of reflecting the action habit of the user in the time period.

As an embodiment, the method further comprises:

when entering a corresponding time period, taking the temperature control area 1 passed by the user on the action track of the time period as a main control area, taking the temperature control area 1 adjacent to the main control area as an auxiliary control area, and respectively adjusting the temperature of the main control area and the auxiliary control area to enable the temperature of the main control area and the temperature of the auxiliary control area to meet respective set requirements, for example, the temperature of the main control area is set to be 25 ℃ and the temperature of the auxiliary control area is set to be 23 ℃, so that the energy is saved, the use experience of the user is improved, and the user does not feel excessive temperature difference when passing through the auxiliary control area or partially entering the auxiliary control area.

As an embodiment, the method further includes adjusting the humidity of the humidity control area that the user passes through on the action track of the time slot when entering the corresponding time slot based on the plurality of humidification parts 4 respectively humidifying different humidity control areas in the room, so that the humidity of the humidity control area that the user passes through on the action track meets the set requirement.

The method also comprises the following steps:

the method comprises the steps of obtaining age group information of a user, adjusting the temperature of a temperature control area 1 according to preset parameters corresponding to the age group according to the obtained age group information, and adjusting the humidity of a humidity control area, so that the temperature of the temperature control area 1 passing through a user action track in a certain time period meets the requirements of the preset parameters.

For example, the age bracket of the user can be determined by the biometric information of the user, for example, the facial image information of the user is obtained by the camera, the voice information of the user is obtained by the voice collecting device, so as to determine the age bracket of the user, the related information of the user, such as height, body type, voiceprint, step size and the like, can be pre-entered, and the related information is obtained by the corresponding detecting sensor and then compared with the pre-entered related information, so as to obtain the age bracket information of the user.

As the people in different age groups have different physical conditions and different degrees of perception on temperature and humidity, the optimum temperature and humidity conditions are different for people in different age groups, for example, for children under 5 years old, the optimum temperature is 24-26 ℃, the humidity is about 55%, and for adults, the optimum temperature is 22-24 ℃, and the humidity is about 60%.

Furthermore, under different seasonal climate conditions, the human body has different requirements for indoor temperature and humidity, so the method further comprises the steps of obtaining current seasonal information, adjusting the temperature of the temperature control area 1 according to preset parameters corresponding to the seasonal information, and adjusting the humidity of the humidity control area, so that the temperature of the temperature control area 1 meets the preset parameter requirements, and the humidity of the humidity control area meets the preset parameter requirements.

The age group information and the season information can be used as check conditions in an overlapping mode in actual use, and are comprehensively considered when parameter requirements are set in advance, for example, for people of the same age group, temperature and humidity parameters in different seasons are different.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the spirit of the present disclosure, features from the above embodiments or from different embodiments may also be combined, steps may be implemented in any order, and there are many other variations of different aspects of one or more embodiments of the present description as described above, which are not provided in detail for the sake of brevity.

In addition, well-known power/ground connections to Integrated Circuit (IC) chips and other components may or may not be shown in the provided figures, for simplicity of illustration and discussion, and so as not to obscure one or more embodiments of the disclosure. Furthermore, devices may be shown in block diagram form in order to avoid obscuring the understanding of one or more embodiments of the present description, and this also takes into account the fact that specifics with respect to implementation of such block diagram devices are highly dependent upon the platform within which the one or more embodiments of the present description are to be implemented (i.e., specifics should be well within purview of one skilled in the art). Where specific details (e.g., circuits) are set forth in order to describe example embodiments of the disclosure, it should be apparent to one skilled in the art that one or more embodiments of the disclosure can be practiced without, or with variation of, these specific details. Accordingly, the description is to be regarded as illustrative instead of restrictive.

It is intended that the one or more embodiments of the present specification embrace all such alternatives, modifications and variations as fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements, and the like that may be made without departing from the spirit and principles of one or more embodiments of the present disclosure are intended to be included within the scope of the present disclosure.

Claims (10)

1. The utility model provides a multipoint temperature control system warms up intelligently, its characterized in that includes a plurality of heating portions that heat different indoor temperature control areas respectively, still includes:

the temperature acquisition part is used for acquiring the temperature of each temperature control area to obtain a temperature acquisition result;

the human body detection part is used for detecting the position of the user to obtain the real-time position of the user;

and the temperature control module is used for adjusting the temperature of the temperature control area where the user is located according to the real-time position of the user detected by the human body detection part and the temperature acquisition result obtained by the temperature acquisition part, so that the temperature of the temperature control area where the user is located meets the set requirement.

2. The intelligent floor heating multipoint temperature control system according to claim 1, wherein the heating portion sequentially comprises a heat insulation layer, an electric heating pipeline, a heat insulation layer and an electric heating sheet from bottom to top.

3. The intelligent floor heating multipoint temperature control system of claim 1, wherein the human body detection portion comprises an infrared imaging human body capturing camera, and the infrared imaging human body capturing camera is further used for detecting the body temperature of the user;

the temperature control module is further used for adjusting the temperature in the temperature control area where the user is located according to the user body temperature detected by the infrared imaging human body capturing camera and a preset user body temperature threshold value.

4. The intelligent floor heating multipoint temperature control system according to claim 1, wherein the human body detection part is further configured to calculate an action track of the user in each time period according to the occurrence position of the user in each temperature control area;

and the temperature control module is also used for adjusting the temperature of the temperature control area which the user passes through on the action track of the time period when entering the corresponding time period according to the action track of the user in each time period, so that the temperature of the temperature control area which the user passes through on the action track meets the set requirement.

5. The intelligent floor heating multipoint temperature control system of claim 1, further comprising:

the master control panel is arranged indoors and used for manually adjusting the heating parts in the temperature control areas;

and the remote control module is connected with the master control panel in a wireless connection mode and is used for manually adjusting the temperature of each temperature control area through the master control panel.

6. The intelligent floor heating multipoint temperature control method is characterized in that the method is based on a plurality of heating parts for respectively heating different indoor temperature control areas, and comprises the following steps:

collecting temperature information in each temperature control area;

detecting a real-time location of a user;

and according to the real-time position of the user and the temperature information in each temperature control area, carrying out temperature regulation on the temperature control area where the user is located, so that the temperature of the temperature control area where the user is located meets the set requirement.

7. The intelligent floor heating multipoint temperature control method according to claim 6, further comprising:

obtaining the action track of the user in each time period according to the detected real-time position of the user;

and when entering a corresponding time period, carrying out temperature regulation on the temperature control area passed by the user on the action track of the time period, so that the temperature of the temperature control area passed by the action track meets the set requirement.

8. The intelligent floor heating multipoint temperature control method according to claim 7, wherein the obtaining of the action track of the user in each time period comprises:

recording a plurality of action routes of a user in the same time period in a plurality of time periods;

and fitting the recorded multiple action routes into action tracks of the user in each time period.

9. The intelligent floor heating multipoint temperature control method according to claim 7, further comprising:

when entering a corresponding time period, taking a temperature control area passed by a user on an action track of the time period as a main control area, taking a temperature control area adjacent to the main control area as an auxiliary control area, and respectively adjusting the temperature of the main control area and the temperature of the auxiliary control area to enable the temperature of the main control area and the temperature of the auxiliary control area to meet respective set requirements.

10. The intelligent floor heating multipoint temperature control method according to claim 7, further comprising:

acquiring age group information of a user, and adjusting the temperature of a temperature control area according to preset parameters corresponding to the age group according to the acquired age group information, so that the temperature of the temperature control area passing through the action track of the user in the corresponding time period meets the requirements of the preset parameters;

acquiring current seasonal information, and adjusting the temperature of the temperature control area according to preset parameters corresponding to seasons according to the acquired seasonal information, so that the temperature of the temperature control area passing through the action track of the user in the corresponding time period meets the requirements of the preset parameters.

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