CN214841166U - Intelligent heating installation at home based on infrared induction - Google Patents

Abstract

The utility model discloses a home intelligent heating based on infrared sensing. The home intelligent heating adopts infrared sensing technology. The infrared sensor detects whether there is someone indoors for a period of time through an infrared sensing module, and feeds it back to a processor control system. After a period of time, there is still no control. The heater will automatically reduce the heating supply to the minimum state. The sound sensor collects the indoor sound signal and transmits it to the processor control system. The controller controls the switch off and on. The temperature sensor senses the indoor temperature change and feeds it back to the processor control In the system, the controller controls the rotation of the fan, the temperature display shows the current temperature, and the humidity sensor senses the change of the indoor humidity and feeds it back to the processor control system. The controller controls the operation of the fan and the humidification module, and the humidity display shows the current humidity. This smart heater can automatically detect whether there is someone in the room for a period of time, can control the switch through sound, and can automatically adjust the indoor temperature and humidity.

Description

Intelligent heating installation at home based on infrared induction

Technical Field

The utility model relates to an infrared induction technology field especially relates to an intelligence heating installation at home based on infrared induction.

Background

In northern areas, the main mode of heating in winter is completed by the way of radiating by radiators, and actually, radiators are not arranged in each room, so that the room without the radiators can be very cold. Because the radiator can only be installed in a certain side of the indoor space, even if the radiator is installed in some rooms, the space temperature close to the radiator in the room is high, and the space temperature far away from the radiator is relatively low, so that the indoor temperature distribution is quite unbalanced. If the room is left unattended for a long time while heating, energy and money are wasted. And the weather in winter in north is very dry, so that the skin of people is in a water-deficient state, the aging of people is easy to accelerate, and the skin-care mask is extremely unfriendly to people with a poor respiratory system. The conventional humidification mode is that the humidifier is used for humidifying air after people feel that the air is dry, and the humidity rise is a long waiting process, which undoubtedly reduces the use experience of users for the conventional humidifier. Many people also choose to use the air conditioner in winter, however, if the air conditioner is used for a long time, on one hand, the door and the window need to be tightly closed, so that indoor air cannot circulate, the indoor air environment becomes very poor after a long time, the health is affected, and for families, particularly families with children, diseases are easy to generate; on the other hand, turning on the air conditioner for a long time causes the air to be very dry, and if water is not replenished in time, it is very uncomfortable.

Therefore, the intelligent household heating based on infrared induction is designed, the intelligent heating adopts an infrared sensing technology, once the indoor state is always detected for a period of time, the controller can automatically reduce the heating supply to the minimum state, for a room without heating plates, the intelligent heating can be pushed to the room for heating, the intelligent heating can detect the indoor temperature and the indoor humidity in real time, thereby adjusting the indoor temperature and the indoor humidity, solving the problems that the traditional heating causes uneven heating in the room and the humidifier humidifies the air and delays, and in addition, the intelligent heating can monitor the indoor temperature and the indoor humidity in real time, is also a chargeable heating, a charging port charges the intelligent heating through a charging module, the heating is rarely used in other seasons in the north winter, the function realized by the intelligent heating is automatically carried out, and in order to ensure that the intelligent heating is only used in the winter, a switch is thus provided and is controlled by corresponding commands.

Disclosure of Invention

The utility model aims at providing a based on infrared induction's intelligent heating installation at home on current basis.

In order to realize the purpose of appeasing, the utility model adopts the following technical scheme:

the utility model provides a pair of intelligent heating installation at home based on infrared induction, including radiator main part, casing, treater control system, sound sensor, infrared induction module, temperature sensor, humidity transducer, temperature monitor, humidity monitor, fan, supporting leg, universal wheel, switch, humidification module, the module of charging, the mouth that charges, radiator.

The radiator comprises a radiator body, a radiator base, a processor control system, a sound sensor, an infrared induction module, a temperature and humidity sensor, a temperature display, a humidity display, a fan, a humidification module, a radiator is installed on the shell, supporting legs, universal wheels are installed on the shell base, a switch, a charging port, a charging module is installed on the radiator body, the infrared sensor is connected with the infrared induction module, the infrared induction module is connected with the processor control system, the sound sensor is connected with the processor control system, the processor control system is connected with the switch, the temperature sensor and the humidity sensor are connected with the processor control system, the processor control system is connected with the temperature display, the humidity display, the fan and the humidification module.

Preferably, the fan is installed on the casing, and the radiator main part is installed on the casing base, and the casing base is good heat conduction material, gives the radiator with heat transfer through good heat conduction material, drives the fan for the air current flows, can make the faster that the heat spreads, and indoor being heated is more evenly balanced.

Preferably, the housing is a poor conductor of heat, avoiding overheating to ensure proper operation of the devices attached to the housing.

Preferably, the infrared sensor is installed on the shell, whether someone exists in a period of time in a room is detected through the infrared sensing module, and the detected result is fed back to the processor control system, and the controller can reduce the heating supply to the minimum state when the person is not.

Preferably, the sound sensor is used for collecting indoor sound signals and transmitting the sound signals to the processor control system, the controller compares the received sound signals with a preset sound control command, and if the sound signals are matched with the preset sound control command, the controller executes the corresponding sound control command to further control the on-off of the switch.

Preferably, the supporting legs and the universal wheels are arranged on the base of the shell, and the universal wheels can realize the free movement of the heater in a room, so that the heater can be used in one room and can be placed at a proper position, and the space is saved.

Preferably, the temperature display and the humidity display are connected with the processor control system and used for monitoring indoor temperature and humidity in real time.

Preferably, the mouth and the module of charging install in the radiator main part, and the mouth that charges for intelligent heating installation through the module of charging.

Preferably, the temperature sensor is used for sensing indoor temperature information, converting the acquired analog quantity into digital quantity and feeding back the digital quantity to the processor control system, and when the acquired temperature is lower than the preset temperature, the controller drives the fan to operate, blows heat transferred to the radiator into the room in a hot air mode, accelerates heat convection, and enables the indoor temperature to gradually tend to be balanced; the humidity sensor is used for collecting indoor humidity, converting collected humidity analog quantity into digital quantity and feeding back the digital quantity to the processor control system, when the collected humidity is smaller than preset humidity, the processor control system drives the fan to rotate and drives the humidification module to spray water mist, the water mist is heated by the radiator to rise and vaporize, and the vaporized water mist gradually spreads over the whole room along with hot air blown out by the fan, so that the intelligent humidification effect is achieved.

Compared with the modern technology, the beneficial effects of the utility model are that: the intelligent heating monitoring room is always in an unattended state for a period of time, so that the intelligent heating can be automatically reduced and supplied to a minimum state, and the energy consumption is reduced. To the room that does not have the radiator, can push away this room to the intelligence heating installation and keep warm, this intelligence heating installation also can real-time detection indoor humiture, thereby adjust indoor humiture, it makes the indoor uneven of being heated to have solved traditional heating installation, the problem that humidifier humidification air is delayed, in addition can also be with the switch of corresponding instruction control heating installation, this operation of traditional manual control switch has just so been avoided, and can real-time detection indoor humiture, user's home experience and good result of use have been improved.

Drawings

Fig. 1 is a structural side view of the intelligent heating main body of the present invention.

Fig. 2 is a structural front view of the intelligent heating main body of the present invention.

Fig. 3 is a schematic diagram of the module relation according to the present invention.

Fig. 4 is a schematic view of the temperature adjusting structure of the present invention.

Fig. 5 is a schematic view of the humidity control structure of the present invention.

Description of the reference numerals

1. The device comprises a humidity display 2, a temperature display 3, a humidity sensor 4, a temperature sensor 5, a sound sensor 6, an infrared sensor 7, a heating radiator main body 8, a shell base 9, a shell 10, supporting legs 11, universal wheels 12, a humidifying module 13, a fan 14, a radiator 15, a charging port 16, a switch 17, a charging module 18, an infrared sensing module 19 and a processor control system.

Detailed Description

The technical solution in the embodiments of the present invention will be clear and fully described below with reference to the accompanying drawings of the present invention, and it is obvious that the described examples are only a part of the implementation examples of the present invention, but not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the scope of the present invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5, the present invention provides a technical solution:

a household intelligent heating based on infrared induction comprises a heating radiator main body 7 arranged on a shell base 8, a processor control system 19, a sound sensor 5, an infrared sensor 6, an infrared induction module 18, a temperature sensor 4, a humidity sensor 3, a temperature display 2, a fan 13, a humidification module 12 and a radiator 14 arranged on a shell 9, supporting legs 10 and universal wheels 11 arranged on the shell base 8, a switch 16, a charging module 17 and a charging port 15 arranged on the heating radiator main body 7, the infrared sensor 6 detects whether a person is in a room for a period of time through the infrared induction module 18 and feeds back the person to the processor control system 19, the processor control system 19 can enable the intelligent heating to be automatically reduced and supplied to the minimum state, the sound sensor 5 collects indoor sound signals and transmits the indoor sound signals to the processor control system 19, and the processor control system 19 controls the switch 16 to be opened and closed, the indoor temperature change is sensed through the temperature sensor 4 and fed back to the processor control system 19, the processor control system 19 controls the fan 13 to rotate, the temperature display 2 displays the current temperature, the indoor humidity change is sensed through the humidity sensor 3 and fed back to the processor control system 19, the processor control system 19 controls the fan 13 and the humidification module 12 to operate, and the humidity display 1 displays the current humidity. The charging port 15 charges the intelligent heating through the charging module 17, and the universal wheel 11 can enable the intelligent heating to move freely through the supporting legs 10.

The fan install on the casing, the radiator main part is installed on the casing base, the casing base is good thermal conductivity material, gives the radiator with heat transfer through good thermal conductivity material, the drive fan for the air flows, can make the faster that the heat spreads, indoor being heated more evenly balanced.

The casing be hot bad conductor, avoid overheated normal work in order to guarantee the device of connecting on the casing.

The infrared sensor is installed on the shell, whether people exist in a certain period of time in a room or not is detected through the infrared sensing module, and the detected result is fed back to the processor control system, and the controller can reduce the heating supply to the minimum state when the people do not exist.

The sound sensor is used for collecting indoor sound signals and transmitting the sound signals to the processor control system, the controller compares the received sound signals with a preset sound control command, and if the sound signals are matched with the preset sound control command, the controller executes the corresponding sound control command to further control the on-off of the switch.

The supporting legs and the universal wheels are arranged on the shell, and the universal wheels can realize the free movement of the heater in a room through the supporting legs, so that the heater can be used in one room and can be placed at a proper position, and the space is saved.

And the temperature display and the humidity display are connected with the processor control system and are used for monitoring the indoor temperature and humidity in real time.

The mouth that charges and the module of charging install in the radiator main part, the mouth that charges for intelligent heating installation through the module of charging.

The temperature sensor is used for sensing indoor temperature information, converting the acquired analog quantity into digital quantity and feeding back the digital quantity to the processor control system, and when the acquired temperature is lower than the preset temperature, the controller drives the fan to operate, blows heat transferred to the radiator into the room in a hot air mode, accelerates heat convection, and enables the indoor temperature to gradually tend to be balanced; the humidity sensor is used for collecting indoor humidity, converting collected humidity analog quantity into digital quantity and feeding back the digital quantity to the processor control system, when the collected humidity is smaller than preset humidity, the processor control system drives the fan to rotate and drives the humidification module to spray water mist, the water mist is heated by the radiator to rise and vaporize, and the vaporized water mist gradually spreads over the whole room along with hot air blown out by the fan, so that the intelligent humidification effect is achieved.

The utility model discloses an intelligence heating installation can be through the sound control switch, can detect indoor a period whether someone, can realize freely removing, can real time monitoring indoor humiture, can also real-time detection indoor humiture and adjust, also provides comfortable indoor environment for the user when bringing convenience for the user.

To sum up, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is familiar with the technical field of the present invention in the technical scope disclosed by the present invention, according to the technical solution of the present invention and the utility model thereof, the concept of the present invention is equivalent to replace or change, and all should be covered within the protection scope of the present invention.

Claims (10)

1. a kind of home intelligent heating based on infrared induction, it is characterized in that: comprise radiator main body, housing, processor control system, sound sensor, infrared sensor, infrared induction module, temperature sensor, humidity sensor, temperature display, humidity display , fan, switch, support leg, universal wheel, humidification module, charging module, charging port, radiator, the processor control system and sound sensor, infrared sensor module, temperature sensor, humidity sensor, temperature display, humidity The display, switch, fan, and humidification module are connected; the temperature sensor, humidity sensor, sound sensor, infrared sensor, infrared sensing module, temperature display, humidity display, fan, humidification module, and radiator are installed on the housing; the support legs , the universal wheel is installed on the base of the shell; the switch, the charging module, and the charging port are installed on the main body of the radiator; the sound sensor is used to collect indoor sound information, and feed it back to the processor control system, and the controller controls the switch On and off; the infrared sensor can detect whether there is someone in the room for a period of time, and feedback the result to the processor control system, when there is no one, the controller will automatically reduce the heating supply to the minimum state, greatly reducing energy consumption; the temperature The sensor can sense the change of indoor temperature and feed it back to the processor control system, and the controller controls the rotation of the fan; the temperature display is used to monitor the indoor temperature in real time, and the humidity sensor can sense the change of the indoor humidity and feed it back to the control system. The processor controls the system, and the controller controls the operation of the fan and the humidification module; the humidity display is used to monitor the indoor humidity in real time; the charging port is used to charge the intelligent heater through the charging module; the universal wheel can make the The intelligent heating moves freely, and the user experience is better. 2. A kind of home intelligent heating based on infrared induction according to claim 1, it is characterized in that described sound sensor is installed on casing, is used for collecting indoor sound signal, and transmits it to described processing The controller control system, the controller compares the received sound signal with the preset voice control command, and if it matches, executes the corresponding voice control command, and then controls the opening and closing of the switch. 3. a kind of home intelligent heating based on infrared induction according to claim 1, it is characterized in that described infrared sensor is installed on the casing, detects whether there is someone in the room for a period of time through the infrared induction module, and feeds back to the processor to control System, the controller can reduce the heating supply to the minimum state when no one is there. 4. A home intelligent heating based on infrared induction according to claim 1, characterized in that the fan is installed on the housing, the radiator body is installed on the housing base, and the housing base is benign Thermally conductive material, the heat generated by the radiator body is transferred to the radiator through the benign thermally conductive material to drive the fan and speed up the air flow, which can make the heat spread faster and the indoor heating is more uniform and balanced. 5. a kind of home intelligent heating based on infrared induction according to claim 1, it is characterized in that described temperature sensor is used for sensing indoor temperature information, and the analog quantity collected is converted into digital quantity, feedback to processing When the collected temperature is lower than the preset temperature, the controller drives the fan to run, blows the heat transferred to the radiator into the room in the form of hot air, accelerates the heat convection, and makes the indoor temperature gradually tend to balance. 6. a kind of home intelligent heating based on infrared induction according to claim 1, it is characterized in that described humidity sensor is used for collecting indoor humidity, the humidity analog quantity collected is converted into digital quantity, and feedback to processor Control system, when the collected humidity is less than the preset humidity, the processor controls the system to drive the fan to rotate, and at the same time drives the humidification module to spray water mist. The blown hot air gradually spreads all over the room, thus playing the role of intelligent humidification. 7. A home intelligent heating based on infrared induction according to claim 1, characterized in that the temperature display is connected to a processor control system for real-time monitoring of indoor temperature. 8 . The infrared induction-based smart home heating according to claim 1 , wherein the humidity display is connected to a processor control system for real-time monitoring of indoor humidity. 9 . 9. A home intelligent heating based on infrared induction according to claim 1, characterized in that the support leg and the universal wheel are installed on the housing base, and the universal wheel can realize heating through the support leg The freedom of movement in the interior makes it possible to not only use it in one room, but also to place it in the right place, saving space. 10 . The infrared induction-based smart home heater according to claim 1 , wherein the charging port and the charging module are installed on the radiator body, and the charging port can charge the smart heater through the charging module. 11 .

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