CN112944442A - Warmer control system with Bluetooth - Google Patents

Abstract

The invention discloses a warmer control system with Bluetooth, which comprises a warmer, an indoor temperature sensor, a PTC, an intelligent terminal, a wireless module, an MCU and a door and window opening and closing sensor, wherein the door and window opening and closing sensor is arranged at a door and window and used for detecting the opening and closing state of the door and window, and the door and window opening and closing sensor is electrically connected with the MCU.

Description

Warmer control system with Bluetooth

Technical Field

The invention belongs to the technical field of integrated suspended ceilings, and particularly relates to a warmer control system with Bluetooth.

Background

The integrated ceiling heater belongs to an integrated ceiling heating module, and the temperature in a bathroom is increased and improved through heating, particularly in winter.

Along with the prevalence of intelligent house, control switch in the family concentrates on together, if set up the PTC room heater in the bathroom of southern family usually, it collects and bloies, takes a breath, heating and exhaust in an organic whole, open when needs use can.

Chinese patent application No. 2018203082524 discloses an intelligent furred ceiling room heater control system, includes: the ceiling heater is used for heating and monitoring the temperature; the intelligent terminal is wirelessly connected with the ceiling heater and used for receiving a temperature monitoring signal of the ceiling heater; the furred ceiling room heater includes: the temperature sensor is used for monitoring the ambient temperature in real time; the heating assembly is used for heating air; the MCU is simultaneously connected with the heating assembly and the temperature sensor and is used for controlling the heating assembly to work and processing data acquired by the temperature sensor; the wireless module is used for sending out the data processed by the MCU; through interacting with intelligent terminal for need not walk to the bathroom and just can open in advance, when the temperature reaches the temperature of the suitable bathing of reservation in the bathroom, can send back intelligent terminal with temperature signal through wireless mode again and indicate, the user can be prepared for bathing, has improved user experience, and is more humanized more convenient.

Although above-mentioned patent technique can realize long-rangely controlling the room heater through intelligent terminal, the room heater is single with intelligent terminal interactive content, and room heater intelligent degree is low.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a preheating heating mode which can be used for selecting whether to directly start heating according to the indoor environment and the outdoor temperature, and can be used for entering the preheating heating mode when the outdoor temperature is far higher than the indoor temperature, so that the heating speed is increased.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a room heater control system with bluetooth, includes room heater, indoor temperature sensor, PTC, intelligent terminal, wireless module and MCU, still includes door and window and opens and close the sensor, and it is adorned in door and window department for detect door and window and open and close the state, door and window opens and close the sensor and is connected with the MCU electricity.

Further the room heater is connected to the outdoor through the pipeline, be provided with the blast gate in the pipeline, MCU is connected to the blast gate electricity, the outside that corresponds the blast gate in the pipeline is provided with outdoor temperature sensor.

Further still be provided with humidity transducer on the room heater, humidity transducer electricity is connected MCU.

Further the wireless module is one of Bluetooth, wifi or 4/5G.

The method further comprises the following control method:

s1: acquiring data and states, namely detecting outdoor temperature through an outdoor temperature sensor, detecting indoor temperature through an indoor temperature sensor, detecting indoor humidity through a humidity sensor, and detecting whether doors and windows in the current environment are in a closed state or not through a door and window opening and closing sensor;

s2: setting a target temperature, and controlling the MCU to set the target temperature and the conventional humidity through the intelligent terminal;

s3: detecting the door and window state, entering a heating mode if the door and the window are in a closed state, and starting the PTC to heat the indoor space; if the door and window is in the opening state, the MCU feeds back to the intelligent terminal to remind a user that the door and window are in the opening state, the door and window enter a heating mode after being closed by the user, and the PTC is started to heat the indoor space;

s4: reminding when the indoor temperature reaches the set target temperature, and feeding back the indoor temperature to the intelligent terminal through the MCU to remind a user of finishing heating;

s4: the heat preservation state is that after the set target temperature is reached, the heater is controlled to keep constant temperature through the MCU;

s5: in the dehumidification state, when a user shuts down, if the indoor humidity is not greater than the conventional humidity, the user directly shuts down; and if the indoor humidity is greater than the conventional humidity, starting the dehumidification mode, and shutting down the machine after the indoor humidity reaches the conventional humidity.

Further in step S3, the heating mode includes an inner circulation heating mode and a preheating heating mode;

when the outdoor temperature is higher than the indoor temperature value by 3, entering a preheating heating mode;

and when the outdoor temperature is not more than 3 than the indoor temperature value, entering an internal circulation heating mode.

Further, when the heating mode enters the internal circulation heating mode, an air valve in the pipeline is closed; when the air enters the preheating heating mode, the air valve in the pipeline is opened, so that outdoor air enters the heater through the pipeline, is heated by the PTC and then is sent into a room.

When the dehumidification mode is further started, the air valve in the pipeline is opened, so that indoor air is exhausted to the outside through the pipeline.

Compared with the prior art, the invention has the beneficial effects that: the door and window opening and closing sensors are arranged, so that the opening and closing states of doors and windows can be detected, when the heater is started for heating through the intelligent terminal remotely, if the doors and windows are not closed, a user can be reminded to prevent the situation that heating is basically invalid due to the fact that heat is totally dissipated in the heating process, and meanwhile, after heating is started, direct internal circulation heating can be selected according to the difference between the outdoor temperature and the indoor temperature, or warmer outdoor temperature is introduced for accelerated heating, so that the heating efficiency can be greatly improved, and energy is saved; after the heating is finished, whether the dehumidification is carried out can be automatically selected according to the humidity state, and the whole body is very intelligent.

Drawings

FIG. 1 is a control diagram of the warmer control system with Bluetooth of the present invention.

Detailed Description

An embodiment of the warmer control system with bluetooth of the present invention is further explained with reference to fig. 1.

In the description of the present invention, it should be noted that, for the terms of orientation, such as "central", "lateral (X)", "longitudinal (Y)", "vertical (Z)", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., indicate that the orientation and positional relationship are based on the orientation or positional relationship shown in the drawings, and are only for the convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and should not be construed as limiting the specific scope of the present invention.

Furthermore, if the terms "first" and "second" are used for descriptive purposes only, they are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. Thus, a definition of "a first" or "a second" feature may explicitly or implicitly include one or more of the features, and in the description of the invention, "a number" or "a number" means two or more unless explicitly specified otherwise.

The utility model provides a room heater control system with bluetooth, includes room heater, indoor temperature sensor, PTC, intelligent terminal, wireless module and MCU, still includes door and window and opens and close the sensor, and it is adorned in door and window department for detect door and window and open and close the state, door and window opens and close the sensor and is connected with the MCU electricity.

The door and window opening and closing sensor can be a microswitch which is arranged between the door and the door frame, and the microswitch enters two different states when the door is closed and opened and then is fed back to the MCU to realize the detection purpose.

This embodiment is preferred the room heater is connected to outdoors through the pipeline, be provided with the blast gate in the pipeline, MCU is connected to the blast gate electricity, the outside that corresponds the blast gate in the pipeline is provided with outdoor temperature sensor.

By arranging the air valve, outdoor air can be selectively introduced into the room or indoor air can be discharged to the outside when the air valve is opened, and the indoor air can be heated by the PTC circulation when the air valve is closed.

This embodiment is preferred still be provided with humidity transducer on the room heater, MCU is connected to humidity transducer electricity, can real-time detection indoor humidity through humidity transducer.

The wireless module of this embodiment is preferably one of bluetooth, wifi or 4/5G.

The method specifically comprises the following control method:

s1: acquiring data and states, namely detecting outdoor temperature through an outdoor temperature sensor, detecting indoor temperature through an indoor temperature sensor, detecting indoor humidity through a humidity sensor, and detecting whether doors and windows in the current environment are in a closed state or not through a door and window opening and closing sensor;

s2: setting a target temperature, and controlling the MCU to set the target temperature and the conventional humidity through the intelligent terminal;

s3: detecting the door and window state, entering a heating mode if the door and the window are in a closed state, and starting the PTC to heat the indoor space; if the door and window is in the opening state, the MCU feeds back to the intelligent terminal to remind a user that the door and window are in the opening state, the door and window enter a heating mode after being closed by the user, and the PTC is started to heat the indoor space;

s4: reminding when the indoor temperature reaches the set target temperature, and feeding back the indoor temperature to the intelligent terminal through the MCU to remind a user of finishing heating;

s4: the heat preservation state is that after the set target temperature is reached, the heater is controlled to keep constant temperature through the MCU;

s5: in the dehumidification state, when a user shuts down, if the indoor humidity is not greater than the conventional humidity, the user directly shuts down; and if the indoor humidity is greater than the conventional humidity, starting the dehumidification mode, and shutting down the machine after the indoor humidity reaches the conventional humidity.

Preferably, in step S3, the heating mode includes an inner circulation heating mode and a preheating heating mode;

when the outdoor temperature is higher than the indoor temperature value by 3, entering a preheating heating mode;

and when the outdoor temperature is not more than 3 than the indoor temperature value, entering an internal circulation heating mode.

Preferably, when the heating mode enters the internal circulation heating mode, the air valve in the pipeline is closed; when the air enters the preheating heating mode, the air valve in the pipeline is opened, so that outdoor air enters the heater through the pipeline, is heated by the PTC and then is sent into a room.

Preferably, when the dehumidification mode is turned on, the damper in the duct is opened to discharge the indoor air to the outside through the duct.

For example: the heater is arranged in a bathroom, a user sends a starting instruction to the heater through an intelligent terminal (which can be a mobile phone or an independent remote controller) in a living room, the target temperature is set to be 42 ℃, and the conventional humidity is 50%;

if the door and window is in an opening state, the door and window sensor sends a signal to the MCU, the MCU feeds back the signal to the intelligent terminal to provide that the door and window of a user is in the opening state, the user needs to close the door and window, and then the door and window enters a heating mode;

and if the door and window is in the closed state, directly entering a heating mode.

After the heating mode is started, comparing the difference value between the outdoor temperature and the indoor temperature by the MCU, if the indoor temperature is 23 ℃ and the outdoor temperature is higher than 26 ℃, entering a preheating heating mode, specifically opening an air valve in a pipeline, starting the air wheel and the PTC to suck outdoor air into a heater through the pipeline, heating the air by the PTC and then sending the air into the room, continuously detecting the difference value between the indoor temperature and the outdoor temperature in the heating process, and if the outdoor temperature is higher than the indoor temperature and is lower than 3 ℃, closing the air valve in the pipeline and switching to an internal circulation heating mode; if the outdoor temperature is equal to or lower than 26 ℃, the indoor air enters an internal circulation heating mode, specifically, an air valve in the pipeline is closed, and the air wheel and the PTC are started to suck the indoor air, heat the indoor air through the PTC and then discharge the indoor air, so that the internal circulation heating is realized.

When the indoor temperature reaches 42 ℃, the MCU feeds back the temperature to the intelligent terminal to remind a user that the heating is finished, and the MCU controls the PTC and the wind wheel to continuously heat so as to keep the indoor temperature.

The user is after finishing using, when shutting down the room heater, MCU relatively indoor humidity and conventional humidity, if indoor humidity is higher than 50% this moment, then when entering and opening dehumidification mode, open the blast gate in the pipeline, make indoor air pass through the pipeline and discharge to outdoors, when not being higher than 50% until indoor humidity, stop and shut down, otherwise direct shutdown.

In the embodiment, if the door and window are opened in the heating mode and the indoor temperature does not reach 42 ℃ (the target temperature), the MCU starts timing, and is not closed when the timing time reaches t1, the intelligent terminal reminds the user, and if the timing time reaches t2, the intelligent terminal enters the shutdown state, where t1 is preferably 15-30s, t2 is greater than t1, and t2 is preferably 40-50 s.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (8)

1. The utility model provides a room heater control system with bluetooth, includes room heater, indoor temperature sensor, PTC, intelligent terminal, wireless module and MCU, its characterized in that: the door and window opening and closing sensor is arranged at the door and window and used for detecting the opening and closing state of the door and window, and the door and window opening and closing sensor is electrically connected with the MCU.

2. The warmer control system with Bluetooth as claimed in claim 1, wherein: the warmer is connected to the outside through a pipeline, an air valve is arranged in the pipeline and electrically connected with the MCU, and an outdoor temperature sensor is arranged on the outer side of the pipeline corresponding to the air valve.

3. The warmer control system with Bluetooth as claimed in claim 2, wherein: and a humidity sensor is also arranged on the warmer and electrically connected with the MCU.

4. The control system of the warmer with Bluetooth as set forth in claim 3, wherein: the wireless module is one of Bluetooth, wifi or 4/5G.

5. The control system of the warmer with Bluetooth as set forth in claim 4, further comprising the following control method:

s1: acquiring data and states, namely detecting outdoor temperature through an outdoor temperature sensor, detecting indoor temperature through an indoor temperature sensor, detecting indoor humidity through a humidity sensor, and detecting whether doors and windows in the current environment are in a closed state or not through a door and window opening and closing sensor;

s2: setting a target temperature, and controlling the MCU to set the target temperature and the conventional humidity through the intelligent terminal;

s3: detecting the door and window state, entering a heating mode if the door and the window are in a closed state, and starting the PTC to heat the indoor space; if the door and window is in the opening state, the MCU feeds back to the intelligent terminal to remind a user that the door and window are in the opening state, the door and window enter a heating mode after being closed by the user, and the PTC is started to heat the indoor space;

s4: reminding when the indoor temperature reaches the set target temperature, and feeding back the indoor temperature to the intelligent terminal through the MCU to remind a user of finishing heating;

s4: the heat preservation state is that after the set target temperature is reached, the heater is controlled to keep constant temperature through the MCU;

s5: in the dehumidification state, when a user shuts down, if the indoor humidity is not greater than the conventional humidity, the user directly shuts down; and if the indoor humidity is greater than the conventional humidity, starting the dehumidification mode, and shutting down the machine after the indoor humidity reaches the conventional humidity.

6. The control system of the warmer with Bluetooth as set forth in claim 5, wherein: in step S3, the heating mode includes an inner circulation heating mode and a preheating heating mode;

when the outdoor temperature is higher than the indoor temperature value by 3, entering a preheating heating mode; and when the outdoor temperature is not more than 3 than the indoor temperature value, entering an internal circulation heating mode.

7. The control system of the warmer with Bluetooth as set forth in claim 6, wherein: when entering the internal circulation heating mode, closing an air valve in the pipeline; when the air enters the preheating heating mode, the air valve in the pipeline is opened, so that outdoor air enters the heater through the pipeline, is heated by the PTC and then is sent into a room.

8. The control system of the warmer with Bluetooth as set forth in claim 7, wherein: when the dehumidification mode is started, the air valve in the pipeline is opened, so that indoor air is exhausted to the outside through the pipeline.

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