CN106123232B - A kind of indoor environment Automatic adjustment method - Google Patents

Abstract

The invention discloses a kind of indoor environment Automatic adjustment method is provided, step 1, the trigger action of collection Indoor Temperature angle value and outdoor temp angle value is detected；Step 2, Indoor Temperature angle value and outdoor temp angle value are gathered；Step 3, preset temperature value of the Indoor Temperature angle value of collection with interior is compared；Step 4, indoor humidity value is gathered, and by the indoor humidity value collected compared with default humidity value.Step 5, when detecting the trigger action for stopping collection Indoor Temperature angle value and outdoor temp angle value, collection Indoor Temperature angle value and outdoor temp angle value are stopped, into holding state.The present invention considers the temperature approach of the indoor temperature suitable to human body, humidity value and indoor and outdoor, carries out intelligent automatic control and remote control to indoor temperature and humidity, makes the work and life of the more suitable people of the environment in room.

Description

A method for automatic adjustment of indoor environment

technical field

The invention relates to the technical field of temperature and humidity control, in particular to an indoor environment automatic adjustment method.

Background technique

People pay more and more attention to the comfort of living and working indoors, so various household appliances such as air conditioners and electric fans appear to adjust the indoor temperature to meet people's various needs, and as people's requirements become higher and higher, These thermostats are also getting smarter.

Chinese patent application number 201310424522.X provides an indoor temperature adjustment device, including a circulation pipeline composed of buried heat exchange tubes buried deep in the ground and capillary network heat exchangers distributed on the indoor ceiling. The two ends of the inlet and outlet water are respectively connected to the circulation pipeline through the water separator and the water collector. The circulating water in the circulation pipeline is driven by a water pump, and the heat is released in the buried heat exchange tube to the ground, and the heat is exchanged in the capillary network. The device absorbs the heat in the room. The device installs buried heat exchange tubes deep underground and capillary network heat exchangers distributed on the indoor ceiling. The circulating water releases heat in the buried heat exchange tubes to the ground to lower the temperature, and the low-temperature cold water runs to the capillary tubes. When the net heat exchanger is in the room, it exchanges heat with the indoor air by radiation to reduce the indoor temperature, but this device can only realize temperature control, and the speed and range of temperature control are limited due to the temperature control method of heat exchange.

Chinese Patent Application No. 201510990445.3 discloses a temperature control method, which uses an indoor temperature detection circuit and an outdoor temperature detection circuit to collect indoor temperature and outdoor temperature; then compares the indoor temperature with the outdoor temperature, and if the outdoor temperature is lower than the outdoor temperature, then adopt The window control device opens the window, otherwise the air conditioner is activated to enter the cooling mode. This method performs intelligent temperature control according to the indoor and outdoor temperature difference, but its temperature control method uses a combination of opening windows and starting air conditioners, which requires frequent on and off operations of windows and air conditioners, resulting in waste of electric energy and reduction of device life.

Contents of the invention

In view of this, the object of the present invention is to address the deficiencies of the prior art and provide an indoor environment automatic adjustment method for realizing automatic control and remote control of indoor temperature and humidity.

To achieve the above object, the present invention adopts the following technical solutions:

A method for automatically adjusting indoor environment, comprising the steps of:

Step 1, the trigger action of collecting indoor temperature value and outdoor temperature value is detected;

Step 2, collect indoor temperature value and outdoor temperature value;

Step 3. Compare the collected indoor temperature value with the indoor preset temperature value. If the difference between the indoor temperature value and the preset temperature value is within the preset range, turn on the air conditioner and collect the indoor temperature value every 1-3 minutes. , when the indoor temperature value is equal to the preset temperature value, the air conditioner is turned off; if the difference between the indoor temperature value and the preset temperature value exceeds the preset range, the air conditioner is turned on, and the indoor and outdoor temperature values are collected once every 1-3 minutes. When the indoor temperature value is equal to the outdoor temperature value minus the indoor and outdoor preset temperature difference value, the air conditioner is turned off;

Step 4, collect the indoor humidity value, and compare the collected indoor humidity value with the preset humidity value; if the indoor humidity value is equal to the preset humidity value, continue to collect; if the indoor humidity value is greater than the preset humidity value, Turn on the dehumidifier; if the collected humidity value is less than the preset humidity value, then turn on the constant temperature water bath, and the constant temperature water bath sends the mist into the room through a plurality of small holes set on the pipeline;

Step 5, when a trigger action to stop collecting indoor temperature values and outdoor temperature values is detected, stop collecting indoor temperature values and outdoor temperature values, and enter a dormant state.

Preferably, the air supply step is also included, including:

Turn on the fan every 1-2 hours, the fan is set in the air duct, the fan draws outdoor fresh air into the air duct, the exhaust duct is connected to the air supply duct, and the exhaust duct and the air supply duct are arranged in sequence A filter device and a muffler, a temperature sensor is set on the air supply pipe, and the other end of the air supply pipe is respectively connected to a refrigeration device and a heating device, and the outdoor fresh air is sent into the room after being cooled by the refrigeration device or heated by the heating device; The exhaust duct is arranged outdoors, and the air supply duct is arranged indoors.

Preferably, the temperature sensor collects the temperature value in the air supply duct, if the collected temperature value is greater than the preset temperature value, the refrigeration device is turned on, and the outdoor fresh air enters the room through the refrigeration device; if the collected temperature value is lower than the preset temperature value If the temperature value is set, the heating device is turned on, and the outdoor fresh air enters the room through the heating device; if the collected temperature value is equal to the preset temperature value, the cooling device and the heating device are turned off, and the outdoor fresh air enters the room through the cooling device and/or heating device.

Preferably, a humidity sensor is arranged in the pipeline at the outlet of the air supply pipeline, and the outlet of the air supply pipeline is connected to a constant temperature water bath.

Preferably, the humidity sensor collects the humidity value of the outdoor fresh air in the air supply duct, and if the collected humidity value is lower than the preset humidity value, the constant temperature water bath is turned on.

Preferably, the filter device includes a frame, and the first filter layer, the second filter layer, the third filter layer and the adsorption layer are sequentially arranged in the frame.

Preferably, the first filter layer is a honeycomb aluminum foil mesh, and the honeycomb aluminum foil mesh is coated with nano-silver particles.

Preferably, the second filter layer is a polypropylene HEPA filter layer.

Preferably, the third filter layer is a honeycomb photocatalyst filter.

Preferably, the adsorption layer is an activated carbon fiber net.

The beneficial effects of the present invention are:

The invention adopts a constant temperature water bath to adjust the indoor humidity. The temperature control device of the constant temperature water bath adopts a high-stability operational amplifier, a double-integral high-precision A/D conversion technology, and a far-infrared heating technology. Short, has the advantages of small temperature fluctuation and good uniformity. In addition, in order to improve the indoor air quality, the present invention conducts indoor ventilation at regular intervals, and draws the outdoor fresh air into the pipeline through the exhaust fan. Filtration is performed first, and the filter device adopts a multi-layer filter mesh structure, which performs multi-layer filtration, disinfection, and adsorption of outdoor fresh air to ensure that the fresh air sent into the room is clean air. In addition, because the outdoor fresh air is drawn in by the exhaust fan, in order to eliminate noise pollution, noise reduction treatment is carried out before the outdoor fresh air is introduced into the air supply duct. The present invention comprehensively considers the indoor temperature and humidity suitable for the human body and the indoor and outdoor temperature difference, so that the indoor environment is more suitable for people's work and life.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Description of drawings

Fig. 1 is a flowchart of the present invention.

Fig. 2 is a schematic structural view of the air supply device of the present invention.

Fig. 3 is a schematic cross-sectional structure diagram of the filtering device of the present invention.

detailed description

The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

As shown in Figure 1, an indoor environment automatic adjustment method includes the following steps:

In step S101, a trigger action of collecting indoor temperature values and outdoor temperature values is detected.

Step S102, collecting indoor temperature values and outdoor temperature values.

Step S103, comparing the collected indoor temperature value with the preset indoor temperature value;

If the difference between the indoor temperature value and the preset temperature value is within the preset range, the air conditioner will be turned on, and the indoor temperature value will be collected every 1-3 minutes. When the indoor temperature value is equal to the preset temperature value, the air conditioner will be turned off; if the indoor temperature value If the difference with the preset temperature value exceeds the preset range, the air conditioner will be turned on, and the indoor and outdoor temperature values will be collected every 1-3 minutes. When the indoor temperature value is equal to the outdoor temperature value minus the preset indoor and outdoor temperature difference value, the air conditioner will be turned off. .

Step S104, collect the indoor humidity value, and compare the collected indoor humidity value with the preset humidity value; if the indoor humidity value is equal to the preset humidity value, continue to collect; if the indoor humidity value is greater than the preset humidity value, Turn on the dehumidifier; if the collected humidity value is less than the preset humidity value, then turn on the constant temperature water bath, and the constant temperature water bath sends mist into the room through a plurality of small holes opened on the pipeline.

Step S105, when the trigger action of stopping the collection of the indoor temperature value and the outdoor temperature value is detected, stop collecting the indoor temperature value and the outdoor temperature value, and enter into a dormant state.

In this embodiment, the triggering action for collecting indoor temperature values and outdoor temperature values may be the operation of shaking the mobile phone to establish a connection between the mobile phone and the indoor environment automatic adjustment system. The connection may be to download an APP on the mobile phone, because the control The method is mostly used in family rooms or offices. In order to protect privacy and security, when logging in, people other than the administrator need to fill in the verification code sent by the administrator's mobile phone for identity verification. After logging in, shake the phone The operation triggers the system to start the action, and collects the indoor temperature value and the outdoor temperature value. After logging in, when the mobile phone detects the operation of shaking the mobile phone for the second time, the system will prompt whether to enter the standby state. If you click Yes, the action of stopping the collection of indoor and outdoor temperature values will be triggered, and the system will enter the sleep mode. . If you click No, the system continues to work. The method can realize remote control and multi-person control, and can give different control priorities according to different identities.

Collect indoor and outdoor temperature values, and compare the indoor temperature value with the preset temperature value, where the preset temperature value is different in different seasons, for example, the preset temperature value is 24°C in spring and autumn, The temperature is 25-28°C, and 20°C in winter. The preset temperature value can also be adjusted according to the needs of different users. When the difference between the indoor temperature value and the preset temperature value is within the preset range, the air conditioner will be turned on directly. The preset range here can be set to 5-6°C. There is not much difference between the optimal temperature settings. At this time, you can directly turn on the air conditioner to adjust the temperature without considering the temperature difference between indoor and outdoor. When the difference between the indoor temperature value and the preset temperature value exceeds the preset range, for example, the indoor temperature value is 28°C, the preset temperature value is 24°C, and the temperature difference is 9°C, if the temperature is directly adjusted to the preset temperature value , it may cause a large temperature difference between indoor and outdoor. In such an environment with a large temperature difference, the human body will feel uncomfortable or even catch a cold when going from indoor to outdoor. According to observation and research, the human body can adapt well when the indoor and outdoor temperature difference is 6-10°C. According to the collected outdoor temperature value, for example, the outdoor temperature value at this time is 32°C, and the preset indoor and outdoor temperature difference is 6°C. , Adjust the indoor temperature to 32°C-6°C=26°C, which can not only make the indoor temperature more suitable, but also take into account the temperature difference between indoor and outdoor, and maintain human health. Since the indoor temperature value changes dynamically, it is collected every 1-3 minutes to ensure timely adjustment of the indoor temperature.

Since indoor temperature and humidity are important parameters that affect human body sensation and health, the indoor humidity value is adjusted at the same time in this embodiment. Because most of the current residences and office buildings are buildings and high-rise residences, most of the living rooms are relatively dry. In order to take into account the larger indoor places, the present invention does not adopt the conventionally used humidifier, but adopts a constant temperature water bath. Multiple small holes send the mist into the room, and the room can be humidified by setting pipes, instead of placing humidifiers in each room and controlling each humidifier. In order to look good and increase the humidification effect, the pipeline can adopt a variety of shapes, such as: S-shaped, vertical or wall-mounted heating structure, or other shapes.

As shown in Figure 2, in one embodiment, the present invention further includes a blowing step S104, including:

Turn on the fan 2 every 1-2 hours, the fan 2 is set in the exhaust duct 1, the fan 2 draws the outdoor fresh air into the exhaust duct 1, the exhaust duct 1 is connected to the air supply duct 5, and the exhaust duct 1 and the air supply duct 5 are in sequence Set filter device 3 and muffler 4, set temperature sensor 7 on air supply pipe 5, the other end of air supply pipe 5 is respectively connected to refrigeration device 8 and heating device 11, the outdoor fresh air is sent into after being cooled by refrigeration device 8 or heated by heating device 11 Indoor; the exhaust duct 1 is set outdoors, and the air supply duct 5 is set indoors.

The temperature sensor 7 collects the temperature value in the air supply duct. If the collected temperature value is greater than the preset temperature value, the refrigeration device 8 is opened, the solenoid valve 6 is opened, the solenoid valve 9 is closed, and the outdoor fresh air enters the room through the refrigeration device 8; If the collected temperature value is less than the preset temperature value, the heating device 11 is turned on, the solenoid valve 6 is closed, the solenoid valve 9 is opened, and the outdoor fresh air enters the room through the heating device 11; if the collected temperature value is equal to the preset temperature value, then The refrigerating device and the heating device are closed, and the outdoor fresh air enters the room through the refrigerating device 8 and/or the heating device 11 through the opening and closing of the solenoid valve 6 and the solenoid valve 9 . A humidity sensor 10 is arranged in the pipeline at the outlet of the air supply pipeline 5 , and the outlet of the air supply pipeline 5 is connected with a constant temperature water bath 12 and a dehumidifier 13 . The humidity sensor 10 collects the humidity value of the outdoor fresh air in the air supply duct 5, and if the collected humidity value is less than the preset humidity value, the constant temperature water bath 12 is turned on.

In this embodiment, in order to improve the indoor air quality, the indoor ventilation is carried out at regular intervals, the outdoor fresh air is sucked into the pipeline through the exhaust fan, and the outdoor fresh air is filtered, and the temperature and humidity are detected, and the outdoor fresh air is filtered to become Clean the air, and detect the temperature and humidity of the outdoor fresh air in the air supply duct. When the temperature and humidity values are not the preset values, the temperature in the air supply duct will be adjusted by the heating device and the cooling device, and the temperature will be adjusted at the outlet of the air supply duct. Set up a constant temperature water bath and a dehumidifier to adjust the humidity of the outdoor fresh air entering the room to ensure that the clean air entering the room meets the preset value.

As shown in FIG. 3 , the filtering device 3 includes a frame, which is a cube or a cuboid structure, and the frame is provided with three partitions 17 , so that the inside of the frame is separated to form four relatively independent spaces. The top of the frame is provided with an upper cover 15, and the bottom is provided with a lower cover 16. One end of the upper cover 15 and the lower cover 16 is hinged to the side wall of the frame, and the other end is snapped or fastened to the side wall on the other side of the frame. Connecting parts 14 are provided at both ends of the frame, and the connecting parts 14 are open structures. The connecting parts 14 are provided with external threads, and are threadedly connected with the ventilation duct.

A first filter layer 18 , a second filter layer 19 , a third filter layer 20 and an adsorption layer 21 are sequentially arranged in the frame. In this embodiment, the first filter layer 18 is a honeycomb aluminum foil mesh, and the honeycomb aluminum foil mesh is coated with nano-silver particles. The second filter layer 19 is a polypropylene HEPA filter layer. The third filter layer 20 is a honeycomb photocatalyst filter screen. The adsorption layer 21 is an activated carbon fiber net.

In one embodiment, the bactericidal coating is coated on the first filter layer and/or the second filter layer, and the bactericidal coating is prepared using the following components: 20 parts of polyvinyl alcohol, 15 parts of thermosetting amino resin antibacterial agent, nano copper silver particles 10 parts, 5 parts of fluorspar, 10 parts of HFXZ-881 antibacterial agent and 15 parts of polyurethane fiber. The above materials are pulverized into micron-sized particles and mixed together.

In order to ensure the quality of the outdoor fresh air leading to the room, the outdoor fresh air is first filtered in the air supply duct. The filter device adopts a multi-layer filter structure, and the outdoor fresh air is subjected to multi-layer filtration, disinfection, adsorption, etc., to ensure that it is sent indoors. The new wind is clean air. In addition, because the outdoor fresh air is drawn in by the exhaust fan, in order to eliminate noise pollution, noise reduction treatment is carried out before the outdoor fresh air is introduced into the air supply duct. In order to clean and replace the filter screen conveniently, the device adopts a partition 17 to separate each filter layer, and simultaneously the upper cover plate 15 and the lower cover plate 16 can be opened, and the filter screen can be directly taken out for cleaning or replacement.

It should be noted that the above examples are only used to illustrate the technical solution of the present invention without limitation, other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solution of the present invention, as long as they do not depart from the spirit and scope of the technical solution of the present invention , should be included in the scope of the claims of the present invention.

Claims (8)

1. A kind of 1. indoor environment Automatic adjustment method, it is characterised in that：Comprise the following steps：

   Step 1, the trigger action of collection Indoor Temperature angle value and outdoor temp angle value is detected；

   Step 2, Indoor Temperature angle value and outdoor temp angle value are gathered；

   Step 3, preset temperature value of the Indoor Temperature angle value of collection with interior is compared, if Indoor Temperature angle value and preset temperature value Difference within a preset range, then open air-conditioning, interval 1-3min gathers an Indoor Temperature angle value, when Indoor Temperature angle value be equal to it is pre- If during temperature value, close air-conditioning；If the difference of Indoor Temperature angle value and preset temperature value exceeds preset range, air-conditioning is opened, The temperature value of an indoor and outdoors is gathered every 1-3min, when Indoor Temperature angle value subtracts the default temperature of indoor and outdoor equal to outdoor temp angle value During difference, air-conditioning is closed；

   Step 4, indoor humidity value is gathered, and by the indoor humidity value collected compared with default humidity value；It is if indoor wet When angle value is equal to default humidity value, then continue to gather；If indoor humidity value is more than default humidity value, dehumidifier is opened；If adopt The humidity value of collection is less than default humidity value, then opens water bath with thermostatic control, and the water bath with thermostatic control passes through multiple apertures for being opened up on pipeline Fog is sent into indoor；

   Step 5, when detecting the trigger action for stopping collection Indoor Temperature angle value and outdoor temp angle value, collection indoor temperature is stopped Value and outdoor temp angle value, into resting state；

   Also include air-supply step, including：

   Blower fan is opened every 1-2h, the blower fan is arranged in air draft pipe, and outdoor fresh air is pumped into air draft pipe by the blower fan Interior, the air draft pipe connects air supply duct, and filter and noise reduction are set gradually between the air draft pipe and air supply duct Device, temperature sensor being set on the air supply duct, the air supply duct other end connects refrigerating plant and heater respectively, The outdoor fresh air is sent into indoor after refrigerating plant cools or heater heats up；The air draft pipe is disposed in the outdoor, institute Air supply duct is stated to be disposed in the interior；

   The filter includes framework, set gradually in the framework the first filter layer, the second filter layer, the 3rd filter layer and Adsorption layer；

   The framework is square or rectangular parallelepiped structure, sets three dividing plates in the framework, makes to separate to be formed in the framework Four relatively independent spaces；The top of the framework sets upper cover plate, and the bottom of the framework sets lower cover, the upper lid Plate and described lower cover one end and the side wall of the framework link, and the other end of the upper cover plate and the lower cover engages or buckled Close in the side wall of the framework opposite side, the framework both ends are respectively provided with connecting portion, and the connecting portion is hatch frame, described Connecting portion is provided with external screw thread and is threadedly coupled with the air draft pipe；

   Fungicidal paint is coated on the first filter layer, fungicidal paint is prepared using following component：20 parts of polyvinyl alcohol, thermosetting ammonia 15 parts of base resin antiseptic, 10 parts of nanometer copper-silver particle, 5 parts of fluorite, 10 parts of HFXZ-881 antiseptics and polyurethane fiber 15 Part.
2. A kind of 2. indoor environment Automatic adjustment method according to claim 1, it is characterised in that：The temperature sensor is adopted Collect the temperature value in air supply duct, if the temperature value collected is more than preset temperature value, open refrigerating plant, outdoor fresh air Got in through refrigerating plant；If the temperature value collected is less than preset temperature value, heater is opened, outdoor fresh air is through adding Thermal is got in；If the temperature value collected is equal to preset temperature value, refrigerating plant and heater are closed, outdoor new Wind is got in through refrigerating plant and/or heater.
3. A kind of 3. indoor environment Automatic adjustment method according to claim 1, it is characterised in that：The air supply duct outlet Humidity sensor, the outlet connection water bath with thermostatic control of the air supply duct are set in the pipeline at place.
4. A kind of 4. indoor environment Automatic adjustment method according to claim 1, it is characterised in that：The humidity sensor is adopted Collect the humidity value of outdoor fresh air in air supply duct, if the humidity value of collection is less than default humidity value, open water bath with thermostatic control.
5. A kind of 5. indoor environment Automatic adjustment method according to claim 1, it is characterised in that：First filter layer is Cellular aluminum foil web, coated with nano Argent grain in the cellular aluminum foil web.
6. A kind of 6. indoor environment Automatic adjustment method according to claim 1, it is characterised in that：Second filter layer is Polypropylene HEPA filter layers.
7. A kind of 7. indoor environment Automatic adjustment method according to claim 1, it is characterised in that：3rd filter layer is Honeycomb photocatalyst filtering net.
8. A kind of 8. indoor environment Automatic adjustment method according to claim 1, it is characterised in that：First adsorption layer is NACF net.