CN213656887U - Indoor temperature intelligent control system of heater - Google Patents

Abstract

The utility model discloses an indoor temperature intelligence control system of heater, this system includes: the intelligent controller is used for controlling the start or stop of the multi-path heating through preset time and temperature, and comprises a power supply AC/DC, a voltage stabilizing circuit, a microprocessor, an RTC clock, a relay driver, a control relay, an AD acquisition unit, a temperature sensor and a touch display screen; the heaters are configured by multi-channel equipment, each heater is configured with a corresponding temperature sensor, the heaters and the temperature sensors are in communication connection with the intelligent controller, and the intelligent controller controls the heaters to start or stop together according to data returned by the temperature sensors and working time programmed in advance. The utility model has the advantages that: adopt neotype intelligent control ware, under the condition that need not reform transform the electric wire netting, can guarantee the resident normal domestic power consumption when, can also guarantee the heater heating, solve the technical problem that current heater heating must carry out the electric wire netting and reform transform.

Description

Indoor temperature intelligent control system of heater

Technical Field

The utility model relates to an intelligence control system technical field particularly, relates to an indoor temperature intelligence control system of heater.

Background

Energy has become an indispensable basic element of human society, along with the increasing shortage of energy and the deterioration of environment, the acquisition of economic, convenient and environment-friendly energy becomes an urgent problem related to human survival and sustainable development, and the solution for seeking to improve the utilization efficiency of energy becomes a common responsibility of the whole society, such as small-sized social families, large-sized enterprises, governments and the like.

Along with the implementation of clean heating planning and blue sky guard war, the user of various types such as coal changes electricity or non-central heating, there is a great part to select the heater to keep warm, resident's electric load except normal life load is not enough to support to use a plurality of powerful heaters, can exceed the power upper limit requirement, if still want to adopt the mode of heater heating, then must carry out the electric wire netting and reform transform, do not reform transform the electric wire netting yet in present coal changes electricity, can guarantee resident's normal life power consumption needs again, the product that can also guarantee the heating simultaneously, there is not effectual scheme in the prior art to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned technical problem among the correlation technique, the utility model provides an indoor temperature intelligence control system of heater can solve current heater heating and must carry out the technological problem that the electric wire netting was reformed transform, and this application need not reform transform the electric wire netting, can guarantee resident's normal domestic power consumption again, can also guarantee the heating simultaneously.

In order to achieve the technical purpose, the technical scheme of the utility model is realized as follows: an intelligent control system for the indoor temperature of a heater, the system comprising:

the intelligent controller is used for controlling the start or stop of multi-path heating through preset time and temperature, and comprises a power supply AC/DC, a voltage stabilizing circuit, a microprocessor, an RTC clock, a relay driver, a control relay, an AD acquisition device, a temperature sensor and a touch display screen, wherein the power supply AC/DC is electrically connected with the voltage stabilizing circuit and the control relay respectively, and the microprocessor is in communication connection with the voltage stabilizing circuit, the AD acquisition device, the temperature sensor, the RTC clock and the relay driver;

the heaters are configured as multi-path equipment, each heater is configured with a corresponding temperature sensor, the heaters and the temperature sensors are in communication connection with the intelligent controller, and the intelligent controller controls the heaters to start or stop together according to data returned by the temperature sensors and working time programmed in advance.

Further, the power supply AC/DC is supplied by 220V municipal power supply and is used for enabling the voltage of the intelligent controller to stably operate.

Furthermore, the voltage stabilizing circuit is in communication connection with the AD acquisition and the microprocessor and is used for the AD acquisition and the microprocessor to obtain accurate time and temperature data information.

Further, the AD gather with temperature sensor reaches microprocessor communication connection, the AD gather be used for through temperature sensor gathers the temperature information of heater, transmit the temperature information of gathering for microprocessor.

Further, the microprocessor is in communication connection with the AD acquisition device, the RTC clock, the voltage stabilizing circuit, the relay drive and the touch display screen and is combined with a program control circuit, the microprocessor is used for receiving the temperature information of the heater acquired by the AD acquisition device through the temperature sensor, the microprocessor generates new data information by using a special logic algorithm, the microprocessor is used for receiving and storing year-month-day-hour-minute-second displayed by the RTC clock, the microprocessor and the relay drive are combined with the program control circuit and are used for controlling the heater to be powered on or powered off, the microprocessor is in communication connection with the touch display screen, and the microprocessor is used for storing, monitoring and controlling time data and temperature data set through the touch display screen.

Furthermore, the control relay is supplied with 220V municipal voltage by the power supply AC/DC, the control relay is in multi-path arrangement, and the control relay controls the on-off of the heater through the attraction driven by the relay.

Further, the touch display screen comprises functions of temperature adjustment, time adjustment, increase, decrease and on/off, and the temperature display range of the touch display screen is 0-30 ℃.

Furthermore, the intelligent controller is operated by adopting a touch screen, the intelligent controller is connected with the heaters, the intelligent controller has the function of automatic power-off protection over the set maximum power, the power setting threshold range is 2 kw-12 kw, the intelligent controller is used for controlling the indoor temperature and the heater temperature, the intelligent controller runs according to a pre-programmed time program, heating is stopped if the indoor temperature is higher than the set temperature, heating is restarted if the indoor temperature is lower than the set temperature by 1 ℃, and the intelligent controller is provided with a priority starting function until the temperature reaches the preset temperature or exceeds the working time of the program programming.

The utility model has the advantages that: in view of the defects in the prior art, the application provides a novel intelligent controller which adopts touch screen operation, controls the start and stop of a multi-path heater by preset time and temperature of the intelligent controller, is provided with an RTC clock for displaying year, month, day, time, minute and second, and can adjust and change year, month, day, time, minute and second in real time, controls a multi-path relay, controls the power on and off of the heater by the actuation of the relay, is provided with a temperature sensor for each heater, is connected with the intelligent controller and enters a microprocessor after AD data acquisition, controls the start and stop of the heater according to the data of the temperature sensor by the intelligent controller through special logic and algorithm, does not need to carry out power grid transformation, and can ensure the normal life power consumption of residents, and the heating can be ensured simultaneously, and the technical problem that the power grid needs to be modified in the heating of the existing heater is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic block diagram of an intelligent controller of an intelligent indoor temperature control system of a heater according to an embodiment of the present invention;

fig. 2 is a block flow diagram of a specific implementation method of an intelligent indoor temperature control system of a heater according to an embodiment of the present invention;

fig. 3 is a schematic view of an interface of a touch display screen of an intelligent controller of an intelligent indoor temperature control system of a heater according to an embodiment of the present invention;

fig. 4 is a schematic circuit board diagram of an intelligent controller of an intelligent indoor temperature control system of a heater according to an embodiment of the present invention;

fig. 5 is a block diagram of the working time of a plurality of heaters of the intelligent controller of the intelligent indoor temperature control system of the heater according to the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

As shown in fig. 1-5, according to the utility model discloses an indoor temperature intelligence control system of heater, this system includes:

the intelligent controller is used for controlling the start or stop of multi-path heating through preset time and temperature, the intelligent controller is operated by a touch screen, the intelligent controller is connected with the heaters, has the function of automatic power-off protection exceeding the set maximum power, has the power set threshold value ranging from 2kw to 12kw, is used for controlling the indoor temperature and the heater temperature, operates according to a preset time program, stops heating when the indoor temperature is higher than the set temperature, restarts heating when the indoor temperature is lower than the set temperature by 1 ℃ until the temperature reaches the preset temperature or exceeds the working time programmed by the program, and is provided with a priority start function, and comprises a power supply AC/DC, a voltage stabilizing circuit, a microprocessor, a power supply, a voltage-stabilizing circuit, a microprocessor and a power supply, The system comprises an RTC clock, a relay driver, a control relay, an AD acquisition device, a temperature sensor and a touch display screen, wherein the power supply AC/DC is respectively and electrically connected with the voltage stabilizing circuit and the control relay, and the microprocessor is in communication connection with the voltage stabilizing circuit, the AD acquisition device, the temperature sensor, the RTC clock and the relay driver;

the heaters are configured as multi-path equipment, each heater is configured with a corresponding temperature sensor, the heaters and the temperature sensors are in communication connection with the intelligent controller, the intelligent controller controls the heaters to start or stop according to data returned by the temperature sensors, and the power supply AC/DC of the heaters adopts 220V municipal power supply.

The utility model discloses a specific embodiment, intelligent control ware includes power AC/DC, voltage stabilizing circuit, microprocessor, RTC clock, relay drive, control relay, AD collection, temperature sensor, touch display screen, further is used for:

the power supply AC/DC adopts 220V municipal power supply, and is respectively and electrically connected with the voltage stabilizing circuit and the control relay and used for enabling the voltage of the intelligent controller to stably run;

the voltage stabilizing circuit is in communication connection with the AD acquisition and the microprocessor and is used for the AD acquisition and the microprocessor to obtain accurate time and temperature data information;

the AD acquisition is in communication connection with the temperature sensor and the microprocessor, and is used for acquiring temperature information of the heater through the temperature sensor and transmitting the acquired temperature information to the microprocessor;

the microprocessor is in communication connection with the AD acquisition device, the RTC clock, the voltage stabilizing circuit, the relay drive device and the touch display screen and is combined with a program control circuit, the microprocessor is used for receiving the AD acquisition device and acquiring the temperature information of the heater through the temperature sensor, the microprocessor generates new data information by using a special logic algorithm, the microprocessor is used for receiving and storing year-month-day-hour-minute-second displayed by the RTC clock, the microprocessor and the relay drive combined program control circuit are used for controlling the heater to be powered on or powered off, the microprocessor is in communication connection with the touch display screen, and the microprocessor is used for storing, monitoring and controlling time data and temperature data set through the touch display screen;

the control relay is supplied with 220V municipal voltage by the power supply AC/DC, the control relay is arranged in a multi-path mode, and the control relay controls the on-off of the heater through the attraction driven by the relay;

the touch display screen comprises temperature adjustment, time adjustment, increase, decrease and on/off, and the temperature display range of the touch display screen is 0-30 ℃.

For the convenience of understanding the above technical solutions of the present invention, the above technical solutions of the present invention are explained in detail through specific use modes below.

When specifically using, according to the utility model discloses an indoor temperature intelligence control system of heater, as shown in fig. 2, the concrete operating method of intelligent control ware includes following steps:

the method comprises the following steps that firstly, a starting interface is displayed on a touch display screen after starting, screen handshake information is displayed on the touch display screen, and an intelligent controller judges whether a screen has reply information or not;

if the display screen does not have the reply information, continuing to send information of shaking hands with the screen, and if the reply information is normal, detecting the temperature sensor and the circuit by the intelligent controller;

step three, the intelligent controller detects the temperature sensor and the voltage stabilizing circuit, judges whether the temperature sensor and the voltage stabilizing circuit are normal or not, if the temperature sensor and the voltage stabilizing circuit are not normal, the intelligent controller sends prompt fault information to the display screen, if the temperature sensor and the voltage stabilizing circuit are normal, the intelligent controller enters a working interface, sends working state data to the display screen, and then reads set data and collects temperature data;

step four, the intelligent controller reads the setting data and collects the temperature data, further judges and executes the data, if the data are abnormal, a plurality of attempts are made, the result is displayed normally after the attempts, the parameter data are sent to a screen to display the result, if the data are always in the abnormal state, the prompt fault information is sent, the fault signal is sent to the intelligent controller, the temperature sensor and the circuit, whether the data are normal or not is judged again through the intelligent controller, the temperature sensor and the circuit, if the data enter a working page normally, the working state data are sent to the screen, the setting data and the collected temperature data are read next, and if the data are not normal, the prompt fault information is sent to the display screen;

step five, the intelligent controller sends the read parameter information to a screen for display, whether the screen is touched or not is judged, if the screen is touched, the touch screen information is processed, a touch screen result is sent, a signal is sent to the read data and the temperature data is acquired, and if the screen is not touched, the signal is sent to the read data and the temperature data is acquired;

step six, if the time of the page setting no-touch operation is more than 60 seconds, returning to the working page, and if the time of the page setting no-touch operation is less than 60 seconds, staying at the setting page;

for example, the following steps are carried out: the intelligent control ware control all heaters can realize preferential start, and the room is a plurality of, and under the condition that does not exceed maximum operating power or load, room one is operated in programming operating time, and indoor temperature also can cut off the power supply when reaching the settlement temperature, and room two does not fall to settlement temperature 1 ℃ in programming operating time indoor temperature and also can preferentially start, further includes:

the specific working time of the device is illustrated as follows: if a form of combining direct heating and phase change is adopted, and the operation is performed according to a set time (as shown in fig. 5), specifically, when the setting is performed, the first heater is firstly started for forty minutes and then stopped for twenty minutes, then the first heater is started for forty minutes, and then the operation is stopped for twenty minutes, and then the cycle of twenty minutes is stopped, the first heater is started for six points, that is, the first heater is stopped for twenty minutes to seven points after the operation reaches six points forty, then the second heater is started for six points twenty minutes, the second heater is stopped for twenty minutes after the operation is forty minutes, then the third heater is started for six points forty minutes, and then the third heater is stopped for twenty minutes after the operation is forty minutes, and then the fourth heater is stopped for twenty minutes, the overlapping time of the first heater and the second heater is only twenty minutes, the power is 3000W in the overlapping time of twenty minutes, the first heater and the third heater are not overlapped, the overlapping time of the second heater and the third heater is only twenty minutes, the power is 3000W in the overlapping time of twenty minutes, therefore, the heater can stagger the starting time and the stopping time without modifying the power grid, the utility model can ensure the normal domestic electricity consumption of residents and also can ensure the heating of the heater, solves the technical problem that the existing heater needs to be modified by a power grid, in addition, the intelligent controller of the utility model comprises time regulation and temperature regulation, and in the running time of a certain heater, the intelligent controller immediately stops the heater if the temperature of the room where the heater is located reaches the set temperature.

In summary, with the above technical solution of the present invention, the intelligent controller of the present invention adopts touch screen operation, the intelligent controller can configure three heaters, and has the function of automatic power-off protection exceeding the set maximum power, the power set threshold range is 2kw to 12kw, the intelligent controller controls all the heaters, and can realize preferential start, wherein the heaters control the start and stop of the multi-path heater through the preset time and temperature of the intelligent controller, the RTC clock is configured on the intelligent controller for displaying the time, minute and second of the year, month, day, minute and second, and can be adjusted and changed in real time, the intelligent controller controls the multi-path relay, the actuation of the relay controls the power-on and power-off of the heater, each heater is configured with a multi-path temperature sensor of the multi-path heater and connected with the intelligent controller, and the heater enters a microprocessor through AD data acquisition, and the intelligent controller controls the start and stop of the heater according to data returned by the temperature sensor through special logic and algorithm.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An intelligent control system for the indoor temperature of a heater, the system comprising:

the intelligent controller unit is used for controlling the start or stop of multi-path heating through preset time and temperature, and comprises a power supply AC/DC module, a voltage stabilizing circuit module, a microprocessor module, an RTC clock module, a relay driving module, a control relay module, an AD acquisition module, a temperature sensor module and a touch display screen module, wherein the power supply AC/DC module is electrically connected with the voltage stabilizing circuit module and the control relay module respectively, and the microprocessor module is in communication connection with the voltage stabilizing circuit module, the AD acquisition module, the temperature sensor module, the RTC clock module and the relay driving module;

the heater unit is configured by multi-channel equipment, each heater unit is configured with the corresponding temperature sensor module, the heater unit and the temperature sensor modules are in communication connection with the intelligent controller unit, and the intelligent controller unit controls the heater unit to start or stop according to data returned by the temperature sensor modules.

2. The intelligent control system for the indoor temperature of the heater according to claim 1, wherein the power supply AC/DC module is supplied with 220V municipal power and is used for enabling the voltage of the intelligent controller unit to be stably operated.

3. The intelligent indoor temperature control system of a heater as claimed in claim 1, wherein the voltage regulator circuit module is in communication connection with the AD acquisition module and the microprocessor module for obtaining accurate time and temperature data information.

4. The intelligent indoor temperature control system of a heater as claimed in claim 1, wherein the AD acquisition module is in communication connection with the temperature sensor module and the microprocessor module, and is configured to acquire temperature information of the heater unit through the temperature sensor module and transmit the acquired temperature information to the microprocessor module.

5. The intelligent indoor temperature control system of a heater according to claim 1, wherein the microprocessor module is communicatively connected to the AD acquisition module, the RTC clock module, the voltage regulator circuit module, the relay driver module and the touch display screen module, and is configured to combine a program control circuit, the microprocessor module is configured to receive the temperature information of the heater unit acquired by the AD acquisition module through the temperature sensor module, generate new data information by using a logic algorithm, receive and store year-month-day-hour-minute-second displayed by the RTC clock module, the microprocessor module and the relay module drive the combined program control circuit, and is configured to control the heater unit to be powered on or powered off, and the microprocessor module is communicatively connected to the touch display screen module, the microprocessor module is used for storing, monitoring and controlling the time data and the temperature data set by the touch display screen module.

6. The intelligent indoor temperature control system of a heater as claimed in claim 1, wherein the control relay module is supplied with 220V municipal voltage by the power supply AC/DC module, the control relay module is provided in a multi-path arrangement, and the control relay module controls the heater unit to be powered on or off by the actuation of the relay driving module.

7. The intelligent indoor temperature control system of the heater according to claim 1, wherein the touch display screen module comprises a temperature adjustment function, a time adjustment function, an increase function, a decrease function and an on/off function, and the temperature display range of the touch display screen module is 0-30 ℃.

8. The intelligent control system for the indoor temperature of the heater, according to claim 1, is characterized in that the intelligent controller unit is operated by a touch screen, the intelligent controller unit is connected with a plurality of heater units, the intelligent controller unit has an automatic power-off protection function exceeding a set maximum power, the power is set to be within a threshold range of 2 kw-12 kw, the intelligent controller unit is used for controlling the indoor temperature and the heater temperature, the intelligent controller unit operates according to a pre-programmed time program, the heating is stopped when the indoor temperature is higher than the set temperature, the heating is restarted when the indoor temperature is lower than the set temperature by 1 ℃, and the intelligent controller unit is provided with a priority starting function until the temperature reaches a preset temperature or exceeds the working time programmed by the program.

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