KR200427025Y1 - Apparatus for automatic control of ventilation fan - Google Patents

Abstract

The present disclosure relates to an automatic vent control device, which is connected between a ventilator power cord and a power outlet, measures status information including smell, smoke, moisture, dust, temperature, and gas leakage of a predetermined indoor space, and measures measurement data. The controller is configured to compare the preset reference data, and the controller to perform a fan drive when the measured data exceeds the reference data, and a fan to perform driving under the control of the controller. In addition, at least one wireless sensor connected directly to the power outlet, and measures the state information including the smell, smoke, moisture, dust, temperature, gas leakage of a predetermined indoor space, and converts the measured data into a wireless transmission; The controller is connected between the fan power cord and the power outlet, and compares the measurement data transmitted from the wireless sensor with preset reference data, and when the measurement data exceeds the reference data, the controller performs a fan drive, and operates according to the control of the controller. It consists of a fan to perform the.

Therefore, the present invention does not require users to manually operate the exhaust fan, which is very convenient to use, and provides an effect of maintaining a comfortable indoor environment.

Ventilator, Automatic Control, Sensor

Description

Apparatus for automatic control of ventilation fan

1 is a view schematically showing the configuration of an embodiment of an automatic ventilation control apparatus according to the present invention,

2 is a block diagram showing in detail the configuration of the controller of FIG.

3 is a view schematically showing the configuration of another embodiment of the automatic ventilation control apparatus according to the present invention,

4 is a block diagram showing in detail the configuration of the wireless sensor of FIG.

5 is a block diagram illustrating in detail the configuration of the controller of FIG. 3.

Explanation of symbols on the main parts of the drawings

10, 200: controller 20, 300: ventilator

12, 110: sensor 14, 220: control unit

16, 230: memory 18, 240: fan drive unit

100: wireless sensor 120: wireless signal transmitter

210: wireless signal receiver

The present invention relates to an automatic ventilation control device.

More specifically, the present invention relates to an automatic vent control device for automatically controlling the operation of the fan by measuring smell, smoke, moisture, dust, temperature, gas leakage, etc. with a sensor.

In general, in a place where a lot of smell, smoke, moisture, dust, etc. such as restaurants, offices, homes, factories, industrial sites are generated, a ventilator is installed to exhaust indoor air to the outside and circulate indoor air.

In other words, it is to maintain the indoor air at a constant level by driving the fan.

However, the conventional fan driving method as described above is inconvenient for users to immediately check whether the indoor environment is changed because users have to manually operate them, and often misses the fan driving time. There was a problem that occurred.

The object of the present invention is to measure the smell, smoke, moisture, dust, temperature, gas leakage, etc. with a sensor to solve the above-mentioned problems, and if it is necessary to drive the ventilator as a result of the determination of the controller based on the measurement data automatically It is to provide an automatic vent control device to control by.

Another object of the present invention is to install the at least one wireless sensor in a large area, the operation of the ventilator in the controller receives data such as smell, smoke, moisture, dust, temperature, gas leakage from the wireless sensor. It is to provide an automatic vent control device to control this automatically if necessary.

Automatic vent control device according to the present invention for achieving this purpose, is connected between the fan power cord and the power outlet, and measures the state information including the smell, smoke, moisture, dust, temperature, gas leakage of a predetermined indoor space And comparing the measurement data with the preset reference data, and when the measurement data exceeds the reference data, a controller for driving the fan, and a fan for driving under the control of the controller.

In this case, the controller may include a sensor for measuring state information including smell, smoke, moisture, dust, temperature, gas leakage of a predetermined indoor space, a memory storing reference data for driving the fan, and a sensor. A control unit which compares input measurement data with reference data stored in the memory, and generates a control signal for driving the fan when the measurement result exceeds the reference data, and drives the fan according to the control signal input from the control unit. It is preferable to include a fan drive unit to be configured.

The controller may be configured to drive the fan when the data measuring the state information including the smell, smoke, moisture, dust, temperature, and gas leakage of a predetermined indoor space is less than the preset reference data while the fan is running. It is preferable to generate a control signal to stop the operation.

In addition, the automatic ventilation control apparatus according to the present invention, directly connected to the power outlet, measures the state information including the smell, smoke, moisture, dust, temperature, gas leakage of a predetermined indoor space, and wirelessly the measured data One or more wireless sensors to convert and transmit, and is connected between the fan power cord and the power outlet, and compares the measured data transmitted from the wireless sensor with the preset reference data, and if the measured data exceeds the reference data, the fan is driven. And a fan for driving under control of the controller.

At this time, the above-described wireless sensor, the sensor for measuring the state information including the smell, smoke, moisture, dust, temperature, gas leakage of a predetermined indoor space, and converts the data measured by the sensor to the wireless and transmits to the controller It is preferable to include a radio signal transmitter.

The controller may include a wireless signal receiver for receiving measurement data transmitted from a wireless sensor, a memory storing reference data for driving the fan, and measurement data and a memory of the wireless sensor input from the wireless signal receiver. And a control unit for generating a control signal for driving the fan when the measurement result exceeds the reference data, and a fan driving unit for driving the fan according to the control signal input from the control unit. It is desirable to.

In addition, when the measurement data received from the wireless sensor is less than a predetermined reference data while the fan is being driven, it is preferable that the controller generates a control signal for stopping driving of the fan.

Hereinafter, with reference to the accompanying drawings will be described in detail the automatic ventilation control device of the present invention.

1 is a view schematically showing the configuration of an embodiment of an automatic ventilation control apparatus according to the present invention, Figure 2 is a block diagram showing the configuration of the controller 10 of FIG.

As shown in the drawing, the automatic ventilation control apparatus according to the embodiment of the present invention includes a controller 10 and a fan 20.

The controller 10 is connected between the fan power cord and the power outlet, and includes the smell, smoke, moisture, dust, temperature, gas leakage of a predetermined indoor space (ie, restaurant, office, home, factory, industrial site, etc.). The state information is measured, the measured data is compared with the preset reference data, and when the measured data exceeds the reference data, a driving control signal is generated to drive the fan 20. The controller 10 is operated by a battery or an external commercial power source.

The fan 20 is driven under the control of the controller 10 to perform indoor ventilation.

At this time, the controller 10, the sensor 12 for measuring the state information including the smell, smoke, moisture, dust, temperature, gas leakage of a predetermined indoor space, and the reference data for driving the ventilator 20 Compares the measured data inputted from the sensor 12 with the reference data stored in the memory 14 and the measured data inputted from the sensor 12 and drives the fan 20 when the measured data exceed the reference data. And a control unit 16 for generating a control signal for outputting the control signal to the fan driving unit 18 and a fan driving unit 18 for driving the fan 20 based on the control signal input from the control unit 16.

On the other hand, the above-described controller 10, the state data including the smell, smoke, moisture, dust, temperature, gas leakage of the predetermined indoor space in the state in which the ventilator 20 is driven, the reference data set in advance If less, the fan 20 is turned off by generating a control signal to stop driving the fan 20.

3 is a view schematically showing the configuration of another embodiment of the automatic ventilation control apparatus according to the present invention, Figures 4 and 5 are block diagrams showing in detail the configuration of the wireless sensor 100 and the controller 200 of FIG. to be.

As shown in the drawing, the automatic ventilation control apparatus according to another embodiment of the present invention includes one or more wireless sensors 100, a controller 200, and a fan 300.

One or more wireless sensors 100 are directly connected to a power outlet provided in the room, and measure state information including smell, smoke, moisture, dust, temperature, gas leakage of a predetermined indoor space, and wirelessly measure the measured data. It converts and transmits it to the controller 200.

The controller 200 is connected between the fan power cord and the power outlet, and compares the measurement data transmitted from the wireless sensor 100 with preset reference data, and generates a drive control signal when the measured data exceeds the reference data. To drive the fan 300.

The fan 300 is driven under the control of the controller 200 to perform indoor ventilation.

In this case, the at least one wireless sensor 100 and the controller 200 are operated by a battery or an external commercial power source.

In addition, the above-described wireless sensor 100, the sensor 110 for measuring the state information including the smell, smoke, moisture, dust, temperature, gas leakage in a predetermined indoor space, and the data measured by the sensor 110 It is composed of a radio signal transmitter 120 and the like to be converted to a radio and then transmitted to the controller 200.

In addition, the controller 200 includes a wireless signal receiver 210 that receives measurement data transmitted from the wireless sensor 100, a memory 220 that stores reference data for driving the fan 300, and To compare the measurement data of the wireless sensor 100 input from the wireless signal receiver 210 with the reference data stored in the memory 220, and if the comparison result exceeds the reference data, driving the fan 300. A control unit 230 for generating a control signal for the control unit, and a fan driver 240 for driving the fan 300 in accordance with the control signal input from the control unit 230 and the like.

On the other hand, the controller 200 described above, when the measurement data received from the wireless sensor 100 is less than the preset reference data in the state in which the fan 300 is driving, the control signal for stopping driving the fan 300 To turn off the fan 300.

Referring to the operation of the automatic ventilation control device according to the present invention configured as described in more detail as follows.

First, an automatic ventilation control apparatus according to an embodiment of the present invention consisting of a controller 10 and a fan 20 will be described. This embodiment is used in restaurants, offices, homes, etc., which have a relatively small indoor space.

When the user connects the controller 10 between the power cord of the fan 20 and a power outlet provided in the room, power is supplied by a battery or an external commercial power source in the controller 10 to start automatic ventilation control.

In the sensor 12 embedded in the controller 10, state information including an odor, smoke, moisture, dust, temperature, and gas leakage of an indoor space is periodically measured, and the measured data is transmitted to the controller 16.

The controller 16 compares the measurement data input from the sensor 12 with the data previously stored in the memory 14, and when the data measured by the sensor 12 exceeds the reference data, the fan 20 is driven. Generate a control signal for.

The fan driving unit 18 operates the fan 20 according to the driving control signal of the fan 20 input from the controller 16.

As such, even after the fan 20 is driven, the sensor 12 of the controller 10 continuously measures the indoor environment. When the data measured by the sensor 12 is less than the preset reference data, the controller 16 The control unit generates a control signal to stop driving the fan 20, and the fan driving unit 18 stops driving the fan 20 according to the control signal.

Next, unlike the above-described embodiment consisting of a controller 10 and a ventilator 20 in which a sensor is embedded, one or more wireless sensors 100, a controller 200, and a ventilator 300 may be used. An automatic ventilation control apparatus according to another embodiment will be described. The automatic ventilation control device according to this embodiment is used in a place (for example, a large restaurant, a factory, etc.) having a larger indoor space than the above-described embodiment.

When the user directly connects one or more wireless sensors 100 to power outlets in various places in the room, and connects the controller 200 between the power cord of the fan 300 and a power outlet provided in the room, a battery or an external commercial power source. Power is supplied to the one or more wireless sensor 100 and the controller 200 by the automatic ventilation control is started. Typically, the wireless sensor 100 is preferably installed one for each indoor space partitioned into a predetermined portion.

In the sensor 110 embedded in the wireless sensor 100, the state information including the smell, smoke, moisture, dust, temperature, gas leakage of the indoor space is periodically measured, and the measured data is transmitted to the wireless signal transmitter 120. It is transmitted to the controller 200 through.

The wireless signal receiver 210 of the controller 200 receives measurement data transmitted from the wireless sensor 100 and transmits the measured data to the controller 230, and the controller 230 receives measured data and memory received from the wireless sensor 100. When the data measured by the wireless sensor 100 exceeds the reference data, the control signal for driving the fan 300 is generated.

The fan driver 240 drives the fan 300 according to the driving control signal of the fan 300 input from the controller 230.

Even after the fan 300 is driven as described above, each wireless sensor 100 continuously measures the indoor environment and transmits measurement data to the controller 200. The data measured by the wireless sensor 100 is preset reference data. If less, the control unit 230 of the controller 200 generates a control signal to stop driving the fan 300, the fan driver 240 stops the driving of the fan 300 in accordance with the control signal.

According to the automatic ventilation control device of the present invention as described above, the controller is connected between the power cord and the power outlet of the fan, the controller based on the data such as smell, smoke, moisture, dust, temperature, gas leakage measured by the sensor In order to automatically control the operation of the fan in the user does not need to manually operate the fan as in the prior art is very convenient to use, thereby maintaining an always comfortable indoor environment.

In addition, in a relatively large room such as a large restaurant or an industrial site, one or more wireless sensors may be installed, and the controller may automatically control the operation of the fan based on data input from each wireless sensor. There is an effect that can be used conveniently.

Herein, while the present invention has been described with reference to the preferred embodiments, those skilled in the art will be able to vary the present invention without departing from the spirit and scope of the present invention as described in the following Utility Model Registration Claims. It will be understood that modifications and changes can be made.

Claims (7)

It is connected between the fan power cord and the power outlet, and measures status information including smell, smoke, moisture, dust, temperature and gas leakage in a predetermined indoor space, compares the measured data with preset reference data, and measures the measured data. A controller for performing a fan drive when the reference data exceeds the reference data; And And a fan for driving under control of the controller. The method of claim 1, wherein the controller, A sensor for measuring status information including smell, smoke, moisture, dust, temperature, and gas leakage of a predetermined indoor space; A memory storing reference data for driving the fan; A control unit for comparing the measurement data input from the sensor with the reference data stored in the memory, and generating a control signal for driving the fan when the measurement result exceeds the reference data; And And a fan driving unit for driving the fan according to the control signal input from the controller. The method of claim 1, wherein the controller, If the data measuring the state information including the smell, smoke, moisture, dust, temperature, gas leakage in a predetermined indoor space while the fan is running is less than the preset reference data, the control signal for stopping the drive of the fan Automatic ventilation control device characterized in that the generation. One or more wireless sensors connected directly to a power outlet and measuring state information including smell, smoke, moisture, dust, temperature, gas leakage of a predetermined indoor space, and converting the measured data into a wireless transmission; A controller connected between a fan power cord and a power outlet and comparing measured data transmitted from the wireless sensor with preset reference data, and performing a fan drive when the measured data exceeds the reference data; And And a fan for driving under control of the controller. The method of claim 4, wherein the wireless sensor, A sensor for measuring status information including smell, smoke, moisture, dust, temperature, and gas leakage of a predetermined indoor space; And And a wireless signal transmitter for converting the data measured by the sensor into wireless and transmitting the wireless signal to the controller. The method of claim 4, wherein the controller, A wireless signal receiver for receiving measurement data transmitted from the wireless sensor; A memory storing reference data for driving the fan; A controller for comparing the measured data of the wireless sensor input from the wireless signal receiver with reference data stored in the memory and generating a control signal for driving the fan when the measured data exceeds the reference data; And And a fan driving unit for driving the fan according to the control signal input from the controller. The method of claim 4, wherein the controller, And when the measurement data received from the wireless sensor is less than a predetermined reference data while the fan is being driven, generating a control signal to stop driving the fan.

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