CN108534291A - A kind of wind turbine and method of automatic adjustment - Google Patents

Abstract

The present invention discloses a kind of wind turbine and method of automatic adjustment, including shell, fan assembly, master controller and air detecting sensors, fan assembly, air detecting sensors are electrically connected with master controller respectively, fan assembly is arranged between the air outlet and air intake vent of the shell, air detecting sensors are arranged in air intake vent, master controller is arranged inside the shell, and master controller controls the operating of the fan assembly according to the detection data that the air detecting sensors transmit.Compared with prior art, the present invention discloses a kind of wind turbine of automatic adjustment, by the way that master controller and air detecting sensors are arranged, the parameter about air quality that can be detected by air detecting sensors, automatically adjust wind speed, it is more intelligent to carry out air quality adjusting automatically according to current environment.

Description

A self-adjusting fan and method

technical field

The present invention relates to the technical field of capacitors, in particular to a fan with automatic adjustment and a method.

Background technique

The fan is a device that relies on the input mechanical energy to increase the gas pressure and discharge the gas. It is a driven fluid machine. Fans are widely used in ventilation, dust removal and cooling of factories, mines, tunnels, cooling towers, vehicles, ships and buildings, ventilation and induction of boilers and industrial furnaces; cooling and ventilation in air conditioning equipment and household appliances ; Grain drying and selection, wind tunnel wind source and inflation and propulsion of hovercraft, etc.

Fans in the prior art are usually manually controlled, requiring manual control of their wind power, and have a single function, which can only draw air and cool, without other functions.

Contents of the invention

The purpose of the utility model is to provide a self-regulating blower fan and method capable of automatic control and various functions.

In order to achieve the above object, the present invention discloses a self-adjusting fan, including: a casing, a fan assembly, a main controller and an air detection sensor, the fan assembly and the air detection sensor are respectively electrically connected to the main controller, and the fan assembly It is arranged between the air outlet and the air inlet of the casing, the air detection sensor is arranged at the air inlet, the main controller is arranged in the casing, and the main controller controls the operation of the fan assembly.

Further, it also includes a heat exchanger installed between the fan assembly and the air outlet or air inlet, and the heat exchanger is electrically connected to the main controller.

Further, the fan assembly includes a first fan and a second fan, the air outlet includes a first air outlet and a second air outlet, the air inlet includes a first air inlet and a second air inlet, and the first The fan is installed between the first air outlet and the first air inlet, the second fan is installed between the second air inlet and the second air outlet, the first air outlet and the second air inlet are arranged side by side, and the The second air outlet is arranged side by side with the first air inlet.

Further, the heat exchangers are respectively installed between the first fan and the first air outlet, and the second heat exchanger is installed between the second fan and the second air inlet, so as to recycle The energy of the incoming hot or cold air is transferred to the air entering the second air inlet, and then discharged through the second air outlet.

Further, the second blower is provided with a PTC (Positive Temperature Coefficient) heater, and the PTC heater is electrically connected to the main controller.

Further, an air evolution device is installed between the second air inlet and the second fan, the air purification device includes a first purification sheet and a second purification sheet, and the heat exchanger is clamped on the first Between the purification sheet and the second purification sheet.

The shell includes an upper shell and a lower shell, and the upper shell and the lower shell form an accommodating cavity by fastening, and the fan assembly, the main controller and the air detection sensor are respectively accommodated in the accommodating cavity.

Further, a temperature sensor is also arranged in the housing, and the temperature sensor is electrically connected to the main controller.

Further, the shell is made of EPP foam material.

Further, the housing is provided with a plurality of mounting brackets to fix the fan.

An automatic adjustment method for a fan, including the automatic adjustment fan described in any one of the above, and the automatic adjustment method includes:

Detect the air quality parameters entering the first air inlet through the air detection sensor;

Comparing the air quality parameter with a preset parameter to obtain a comparison result;

Control the operating speed of the first fan according to the comparison result;

Further, the method for controlling the operating speed of the first fan according to the comparison result includes:

When the air quality parameter value is greater than the preset parameter value, increase the operating speed of the first fan;

When the air quality parameter value is less than or equal to the preset parameter value, the operating speed of the first fan is maintained.

Further, it also includes:

Detecting the temperature value of the air entering the second fan through a temperature sensor;

judging whether the relationship between the temperature value and the preset temperature value satisfies a first preset condition;

When the first preset condition is met, the PTC heater is turned on.

Further, the first preset condition includes: the temperature value of the air entering the second fan is lower than the preset temperature value.

Further, the air quality parameters include one or more of the detected amount of particulate matter, the detected value of temperature and humidity, the value of odor parameters, the detected value of benzene series and the detected value of CO2.

The beneficial effects of the present invention are:

1) Compared with the prior art, the present invention discloses a self-adjusting fan. By setting the main controller and the air detection sensor, the parameters about the air quality detected by the air detection sensor can be used to automatically adjust the wind speed to adjust the wind speed according to the current environment. Automatic air quality adjustment, more intelligent;

2) Equipped with a heat exchanger and a PTC heater, which can collect the heat or cold air of the air discharged into the room, and at the same time heat and initially cool the air discharged into the room, with various functions;

3) An air purification device is installed at the air inlet, which can perform air evolution on the air sucked into the room, making the air fresher and more beneficial to human health;

4) The shell of the fan is made of EPP foam material, which is lighter than sheet metal, and the production process is simpler and the production efficiency is higher.

Description of drawings

Fig. 1 is the perspective view of the automatic regulating fan of the present invention;

Fig. 2 is an explosion diagram of the automatic regulating fan of the present invention;

Fig. 3 is a diagram of the internal structure of the automatic regulating fan of the present invention.

Description of main component symbols

1. Shell 2. Fan assembly

3. Main controller 4. Air detection sensor

5. Heat exchanger 6. PTC heater

7. Temperature sensor 11. Air inlet

12. Air outlet 13. Mounting bracket

21. The first fan. 22. The second fan.

Detailed ways

In order to make the above objects, features and advantages of the present application more obvious and comprehensible, the present application will be further described in detail below in conjunction with the accompanying drawings and specific implementation methods.

Those skilled in the art will understand that unless otherwise stated, the singular forms "a", "an", "said" and "the" used herein may also include plural forms. It should be further understood that the word "comprising" used in the description of the present invention refers to the presence of said features, integers, steps, operations, elements and/or components, but does not exclude the presence or addition of one or more other features, Integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Additionally, "connected" or "coupled" as used herein may include wireless connection or wireless coupling. The term "and/or" used herein includes all or any combination of one or more associated listed items.

Please refer to Fig. 1-Fig. 3, in order to achieve the above purpose, the present invention discloses a self-adjusting fan, including a casing 1, a fan assembly 2, a main controller 3 and an air detection sensor 4, the fan assembly 2, the air detection sensor 4 are respectively electrically connected to the main controller 3, and the two opposite sides of the housing 1 are respectively provided with an air inlet 11 and an air outlet 12, and the fan assembly 2 is arranged between the air outlet 12 and the air inlet 11 of the housing 1, The air detection sensor 4 is arranged at the air inlet 11, the main controller 3 is accommodated in the housing 1, and the main controller 3 controls the fan assembly 2 according to the detection data transmitted by the air detection sensor 4. run. Further, the casing 1 includes an upper casing 14 and a lower casing 15, and the upper casing 14 and the lower casing 15 jointly enclose an accommodating cavity by buckling, and the fan assembly 2, the main controller 3 and the air detection sensor 4 are respectively accommodated in the inside the chamber. Further, a buckling method of the upper shell 14 and the lower shell 15 is that the upper shell 14 is provided with a bump, and the lower shell 15 is provided with a groove adapted to the bump, and the bump fits in contact with the groove. To fix the upper shell 14 and the lower shell 15. The fastening mode of the upper shell 14 and the lower shell 15 in the present invention can also be other ways, such as the hook mode, the lower shell 14 is provided with outward and downward hooks, and the upper shell 15 is provided with an inward hook. 1. A hook buckled upwards, the two hooks are fastened together to fix the upper shell 14 and the lower shell 15 .

Compared with the prior art, the present invention discloses a self-adjusting fan, which can automatically adjust the wind speed through the air quality parameters detected by the air detection sensor 4, so as to automatically adjust the air quality according to the current environment, which is more intelligent. The air detection sensor can be any kind, for example, it can be a particle detection sensor for detecting particulate matter, it can be a temperature and humidity sensor for detecting temperature and humidity, it can be an odor sensor for detecting odor parameter values, or it can be a It is used to detect chemical substance detection sensors similar to the detection value of benzene series, or CO2 detection sensors used to detect CO2 content, etc. Moreover, the present invention is not limited to using one air detection sensor, and multiple sensors can be used in combination, so that multiple sets of data can be obtained. Each air detection sensor 4 sends the detected data to the main controller 3, and the corresponding parameter threshold is stored in the main controller 3. When the main controller 3 receives the data transmitted by the air detection sensor 4, it will compare the received data with the Stored parameter thresholds are compared and corresponding adjustments are made. For example, in one embodiment, the adjustment method is that when the data detected by the detection sensor 4 is greater than the parameter threshold, it means that the currently detected index exceeds the expected data, and it is necessary to increase the exhaust volume in the room, or increase the freshness. In this way, the main controller 3 controls the fan assembly 2 to accelerate to increase the discharge volume or air intake volume, so as to ensure that the relevant parameters in the room reach the standard parameter thresholds. When the data detected by the detection sensor 4 is less than the parameter threshold, the current working state of the fan assembly 2 can be kept unchanged, or the operation of the fan assembly 2 can be reduced to save energy. The above is only a mode of adjusting the weight of the present invention, and the present invention can also be any other control mode.

Further, in this embodiment, a heat exchanger 5 is also included, the heat exchanger 5 is installed between the fan assembly 2 and the air outlet 12 or the air inlet 11, and the heat exchanger 5 is electrically connected to the main controller 3 connect. The heat exchanger 5 is a device that collects and saves the heat in the passing air or the energy in the cold air, which is conducive to heating or cooling when the air enters, so as to save energy for heating and cooling .

Further, the fan assembly 2 includes a first fan 21 and a second fan 22, the air outlet 12 includes a first air outlet 121 and a second air outlet 122, and the air inlet 11 includes a first air inlet 111 and a second air outlet 111. Two air inlets 112, the first fan 21 is installed between the first air outlet 121 and the first air inlet 111, and the second fan 22 is installed between the second air inlet 112 and the second air outlet 122, so The first air outlet 121 is arranged side by side with the second air inlet 112 , and the second air outlet 122 is arranged side by side with the first air inlet 111 . In this way, for the same side, there is an air inlet and an air outlet, and the air inlet and outlet on the same side are respectively controlled by different fans to inflow and suck out the air, which is beneficial to the circulation of gas.

Further, the heat exchanger 5 is respectively installed between the first fan 21 and the first air outlet 121, and the second heat exchanger 5 is installed between the second fan 22 and the second air inlet 112, so as to The energy of the hot or cold wind entering through the first air inlet 121 is recovered, and the energy is delivered to the air entering through the second air inlet 112 and discharged through the second air outlet 22 . In this embodiment, the first fan 21 and the second fan 22 can operate independently or simultaneously. When operating independently, the energy collected by the heat exchanger 5 will be stored in the heat exchanger 5, When running at the same time, the energy collected by one of the heat exchangers 5 corresponding to the exhaust fan will be transferred to the heat exchanger 5 corresponding to the air supply fan in time, and the air to be sent will be heated or cooled.

Further, the second fan 22 is provided with a PTC heater 6 , and the PTC heater 6 is electrically connected to the main controller 3 . Usually, in this embodiment, the second fan 22 is used for air supply, so when the air sent into the room needs to be heated, the PTC heater 6 can be used to heat the passing air, so that the air sent into the room can be heated. The temperature of the air in the room rises.

Further, a temperature sensor 7 is also arranged inside the casing 1, and the temperature sensor 7 monitors the temperature entering the casing 1 in real time. Further, in this embodiment, the temperature sensor 7 is arranged near the second fan 22, and is mainly used to monitor the temperature of the air at the position of the second fan, and is used in combination with the PTC heater 6 above. One of the use scenarios is that when the second fan 22 is running, the temperature sensor 7 monitors the temperature of the air entering the second fan 22 in real time. Since the temperature sensor 7 is electrically connected to the main controller 3 and performs data interaction, the main controller 3 There is a critical value stored inside, when the temperature detected by the temperature sensor 7 is lower than the critical value, a signal is sent to the main controller 3, and the main controller 3 controls the PTC heater 6 to heat, so that the air sent into the room is hot air.

Further, an air evolution device 8 is installed between the second air inlet 12 and the second fan 22. The air purification device 8 includes a first purification sheet 81 and a second purification sheet 82. The heat exchanger 5 clamped between the first purification sheet 81 and the second purification sheet 82 . The first purification sheet 81 and the second purification sheet 82 can be any purification material such as photocatalyst, activated carbon, synthetic fiber, HEAP high-efficiency material, negative ion generator, or a combination of multiple materials. Reasonable selection of the environmental status of the site. Further, the first cleaning sheet 81 and the second cleaning sheet 82 in the air cleaning device 8 can be detachably installed in the casing 1, and the detachable mechanism is to install the first cleaning sheet 81 on the base by installing a chute and the second purification sheet 82 are fixed on the casing 1 by sliding, or fixed on the base of the casing 1 by screws. When cleaning or replacing the purification sheet, the screws can be removed.

Further, the shell 1 is made of EPP foam material. EPP is the abbreviation of expanded polypropylene (Expanded polypropylene), which is the abbreviation of a new type of foam plastic. It is a highly crystalline polymer/gas composite material with excellent performance. Compression-resistant cushioning insulation. EPP is also an environmentally friendly material, which can be recycled and reused, and can be naturally degraded without causing white pollution. In this application, using this material as the shell is lighter than using sheet metal, and the production process is simpler and the production efficiency is higher.

In the present invention, the casing 1 is provided with a plurality of mounting brackets 13 to fix the fan.

The present invention also discloses an automatic adjustment method for a fan, including the automatic adjustment fan described in any one of the above items, and the automatic adjustment method includes:

S100. Detect the air quality parameters entering the first air inlet through the air detection sensor;

The automatic adjustment method is a control method based on the above-mentioned automatic adjustment fan structure, which is based on the explanation that the first fan 21 is used to discharge indoor air, and the second fan 22 is used to draw outdoor air into the room. Therefore, an air detection sensor 4 is arranged at the first air inlet 11 of the first fan 21 close to the room to detect the indoor air quality. One or more of the detection value of the system and the detection value of CO2.

S200. Comparing the air quality parameter with a preset parameter to obtain a comparison result;

The reference value corresponding to the air quality data detected by the air detection sensor 4 is stored in the main controller 3. The air detection sensor 4 detects the current air quality parameters in real time, and the main controller 3 compares the detection data with the reference value in real time.

S300. Control the operating speed of the first fan according to the comparison result.

Further, the method for controlling the operating speed of the first fan 21 according to the comparison result includes:

When the air quality parameter value is greater than the preset parameter value, increase the operating speed of the first fan;

When the air quality parameter value is less than or equal to the preset parameter value, the operating speed of the first fan is maintained.

The preset parameter value can be imported into the main controller 3 in the factory setting, or the preset parameter value can be imported in the subsequent use process through the communication interface on the main controller 3 . The importing method can also be wireless importing. When the main controller is provided with a wireless communication module, the wireless communication module can be remotely connected to the client for data transmission.

Further, the automatic adjustment method of the fan also includes:

Detecting the temperature value of the air entering the second fan through a temperature sensor;

judging whether the relationship between the temperature value and the preset temperature value satisfies a first preset condition;

When the first preset condition is met, the PTC heater is turned on.

Further, the first preset condition includes: the temperature value of the air entering the second fan is lower than the preset temperature value.

The above-mentioned first preset condition is also the same as the preset parameter value. It is imported into the main controller 3 through factory settings, or imported through a communication interface, using a data line, or remotely imported through a wireless communication module. The temperature sensor 7 is set to monitor the temperature of the air entering the second blower fan 22. When the temperature is significantly lower than the indoor temperature, if too much cold air is sucked in, it is easy to reduce the indoor temperature, so that the air entering the room needs to be heated. Maintain the temperature in the room, which usually happens in the cold winter. The temperature sensor 7 and the PTC heater 6 are set, the design is more humanized, and the functions of the blower fan are more diversified.

The above disclosures are only a few specific embodiments of the present invention, but the present invention is not limited thereto, and any changes conceivable by those skilled in the art shall fall within the scope of protection of the present invention.

Claims (10)

1. A self-adjusting blower fan, characterized in that it comprises a casing, a blower fan assembly, a main controller and an air detection sensor, the blower blower assembly and the air detection sensor are respectively electrically connected to the main controller, and the blower blower assembly is arranged on the Between the air outlet and the air inlet of the casing, the air detection sensor is arranged at the air inlet, the main controller is arranged in the casing, and the main controller controls the fan according to the detection data transmitted by the air detection sensor operation of components. 2. The self-adjusting fan according to claim 1, further comprising a heat exchanger, the heat exchanger is installed between the fan assembly and the air outlet or the air inlet, and the heat exchanger is connected with the main control electrical connection. 3. The self-adjusting fan according to claim 1, wherein the fan assembly includes a first fan and a second fan, the air outlet includes a first air outlet and a second air outlet, and the air inlet It includes a first air inlet and a second air inlet, the first fan is installed between the first air outlet and the first air inlet, and the second fan is installed between the second air inlet and the second air outlet, so The first air outlet is arranged side by side with the second air inlet, and the second air outlet is arranged side by side with the first air inlet. 4. The self-adjusting fan according to claim 3, wherein the heat exchangers are respectively installed between the first fan and the first air outlet, and the second heat exchanger is installed between the second fan Between the second air inlet, the energy of the hot or cold wind entering through the first air inlet is recovered, and the energy is delivered to the air entering the second air inlet, and discharged through the second air outlet. 5. The self-adjusting fan according to claim 3, characterized in that, the second fan is provided with a PTC heater, and the PTC heater is electrically connected to the main controller. 6. The self-adjusting fan according to claim 4, characterized in that an air evolution device is installed between the second air inlet and the second fan, and the air purification device includes a first cleaning sheet and a second cleaning sheet. A purification sheet, the heat exchanger is clamped between the first purification sheet and the second purification sheet. 7. The self-adjusting fan according to claim 1, wherein the housing includes an upper shell and a lower shell, and the upper shell and the lower shell form an accommodating cavity by fastening, and the fan assembly and the main controller and the air detection sensor are respectively accommodated in the accommodating cavity. 8. An automatic adjustment method for a fan, characterized in that it includes the automatic adjustment fan according to any one of claims 1-9 above, and the automatic adjustment method includes: Detect the air quality parameters entering the first air inlet through the air detection sensor; Comparing the air quality parameter with a preset parameter to obtain a comparison result; According to the comparison result, the operating speed of the first fan is controlled. 9. The automatic adjustment method of the fan according to claim 8, characterized in that, the method of controlling the operating speed of the first fan according to the comparison result comprises: When the air quality parameter value is greater than the preset parameter value, increase the operating speed of the first fan; When the air quality parameter value is less than or equal to the preset parameter value, the operating speed of the first fan is maintained. 10. The automatic adjustment method of the fan according to claim 8, further comprising: Detecting the temperature value of the air entering the second fan through a temperature sensor; judging whether the relationship between the temperature value and the preset temperature value satisfies a first preset condition; When the first preset condition is met, the PTC heater is turned on.