KR102499823B1 - Air volume automatic control device of a dust collector - Google Patents

Abstract

The present invention relates to an automatic air volume control device of a dust collector, wherein the air volume of a plurality of hoods acting on a dust collector is adjusted differently for each section according to the workplace environment to enable efficient dust collection. To this end, the automatic air volume control device according to the present invention comprises: a plurality of dampers installed respectively on the plurality of hoods acting on the dust collector to regulate the volume of the air flowing into each hood by a damper control signal provided by an inverter control device; a plurality of damper sensors installed respectively on one side of each damper to detect the opening and closing amount of each damper and transmit the same to the inverter control device; and an inverter control device receiving and storing the opening and closing amount of each damper for each section, which is preset according to the workplace environment, individually adjusting each damper according to the detection signals transmitted by the plurality of the damper sensors to adjust the opening and closing amount of each damper for each section to the pre-stored setting value, collecting the set opening and closing amount of each damper for each section to calculate the real-time operating air volume acting on the dust collector, and adjusting the air volume of a dust collector discharge fan according to the calculated real-time operating air volume. Accordingly, the dust collector is operated in an economical way without energy waste, thereby contributing to energy savings and unnecessary noise reduction.

Description

Air volume automatic control device of a dust collector}

The present invention relates to a device for automatically controlling the air volume of a plurality of hoods connected to a dust collector, and more particularly, by enabling an inverter control device to individually set the opening and closing rates of dampers of a plurality of hoods acting on a dust collector, so that each hood acting on the dust collector It is possible to contribute to energy saving and unnecessary noise reduction through economical dust collector operation without energy waste by enabling the air volume of the hood to be adjusted differently for each section according to the workplace environment. Also, a differential pressure sensor is installed in the main pipe connected to the dust collector Through this, it is possible to change the Revolution Per Minute of the discharge fan in the dust collector by detecting whether the differential pressure rises in the main pipe due to clogging of the filter in the dust collector's chamber, etc. The present invention relates to an automatic airflow control device for a dust collector that enables efficient dust collection while properly maintaining a back pressure in a dust collection chamber by properly adjusting the number of revolutions.

In addition, the present invention installs a temperature sensor for measuring the temperature around the dust collector or a current sensor for measuring the current of the inverter used for controlling each hood and damper, and the data of these various sensors is ioT (Internet of Things; hereinafter, 'ioT It relates to an automatic control device for air volume of a dust collector that enables the smartization of the dust collector by allowing remote collection through remote collection and reflection in the automatic operation of the dust collector.

In general, work sites or food processing factories where dust is generated due to crushing, processing, or roasting of raw materials often contain a large amount of fine dust in the air and leak to the outside. In this case, collection of crushed raw materials Dust collectors are used to increase efficiency and increase production and to filter the air.

In the conventional dust collector, as shown in FIG. 1, a plurality of hoods 20a-20n are connected to the dust collector 10 through pipes, and each damper 30a-30n is installed in each hood 20a-20n, and the dust collector When the discharge fan (15b) of (10) is operated and each hood (20a-20n) is operated, the air in the workplace is sucked into the dust collection room (11) through the dust inlet (11a) of the dust collector, and into the dust collection room (11). The dust particles in the inhaled air are filtered by the filter 11c of the dust collection chamber 11 and then sent to the dust container 13 at the bottom of the dust collection chamber 11 by gravity, and the air after being filtered in the dust collection chamber 11 is supplied to the dedusting chamber 14 through the air discharge port 11b, and after being dedusted by the dedusting device 14a in the dedusting chamber 14, the discharge fan 15b provided in the discharge chamber 15 above the dust collector It is configured to be discharged into the atmosphere through the discharge port (15a) formed on the top of the dust collector by the operation of.

Thereafter, the dust collected in the dust container 13 is removed through periodic cleaning or sent to a designated place through a separate transfer device.

However, in this conventional technology, a plurality of hoods are installed to act on one dust collector, and the rotational speed of the discharge fan in the dust collector and the opening and closing rate of the dampers installed in each hood are uniformly set, so that the dust collector through the plurality of hoods Since the amount of air sucked into the dust collection room is uniform, even if the differential pressure rises in the pipe due to clogging of the filter in the dust collection room, etc. There was no choice but to be, and therefore, energy waste was large and unnecessary noise was caused when operating the dust collector.

KR 20-2010-0003110 U 2010.03.18. open KR 10-1896516 B1 2018.09.03. registration

Therefore, the present invention is to solve the above problems, and the technical problem to be solved by the present invention is to individually set the opening and closing rates of the dampers of a plurality of hoods acting on the dust collector in an inverter control device, so that each hood acting on the dust collector It is possible to contribute to energy saving and unnecessary noise reduction through economical dust collector operation without energy waste by enabling the air volume to be adjusted differently for each section according to the workplace environment. Also, a differential pressure sensor is installed in the main pipe connected to the dust collector, By detecting whether the differential pressure rises in the main pipe due to filter clogging in the dust collector's dust collector, etc., it is possible to change the number of revolutions per minute (RPM) of the discharge fan in the dust collector. It is intended to provide an automatic airflow control device for a dust collector that enables efficient dust collection while properly maintaining.

In addition, another technical problem to be solved by the present invention is to install a temperature sensor for measuring the temperature around the dust collector or a current sensor for measuring the current of the inverter used to control each hood and damper, and convert the data of these various sensors to ioT It is intended to provide an automatic control device for the air volume of a dust collector that enables smartization of the dust collector by remotely collecting and reflecting it in the automatic operation of the dust collector through remote collection.

One embodiment of the present invention for achieving the above object is a device including a dust collection room formed with a dust inlet, a filter, and an air outlet, and an escape room equipped with an escape device, and a discharge fan for discharging the exhausted air to the discharge port. In the dust collector composed of a discharge chamber, a plurality of dampers installed in each of a plurality of hoods acting on the dust collector and controlling the amount of air flowing into each hood by opening and closing the air control plate by a damper control signal provided from an inverter control device; A plurality of damper sensors installed on one side of the air control plate of each damper to detect the amount of opening and closing of each damper and to transmit the corresponding detection signal to the inverter control device; And the opening and closing amount of each damper for each section preset according to the environment of the workplace is received and stored, and the air control plate of each damper is individually adjusted according to the detection signals transmitted from the plurality of damper sensors to determine the opening and closing amount of each damper for each section It adjusts to the pre-stored set value, calculates the real-time acting air volume acting on the dust collector by collecting the opening and closing amount of each damper for each set section, and adjusts the air volume of the dust collector discharge fan according to the calculated real-time acting air volume. Including an inverter control device , It is an automatic control device for the air volume of the dust collector.

The automatic airflow control device according to an embodiment of the present invention further includes a differential pressure sensor installed in a main pipe connected to the dust collector to detect whether or not a differential pressure rise in the main pipe and transmits a corresponding detection signal to an inverter control device, and an inverter. The control device is configured to adjust the speed of the dust collector discharge fan according to the output of the differential pressure sensor, so that an air volume automatic control device according to another embodiment of the present invention may be implemented.

The automatic airflow control device according to each embodiment of the present invention is connected to a temperature sensor installed around the dust collector to measure the ambient temperature and transmitting it to the inverter control device, and to circuit lines connected to each damper from the inverter control device. and a plurality of current sensors each measuring the inverter current used in the inverter control device for controlling each damper and transmitting the current to the inverter control device, respectively, and may be implemented in another embodiment.

According to the present invention, since the damper opening and closing rates of the plurality of hoods acting on the dust collector can be individually set in the inverter control device, the air volume of each hood acting on the dust collector can be differently adjusted for each section according to the workplace environment, so that there is no energy waste. Through economical operation of the dust collector, it is possible to contribute to energy saving and provide the advantage of reducing unnecessary noise generation.

In addition, according to the present invention, it is possible to change the number of revolutions per minute (RPM) of the discharge fan in the dust collector by detecting whether the differential pressure in the main pipe due to clogging of the filter in the dust collector of the dust collector is increased through a differential pressure sensor installed in the main pipe connected to the dust collector. It is possible to provide the advantage of enabling an efficient dust collection action while properly maintaining the back pressure of the dust collection chamber by properly rotating the motor according to the magnitude of the load acting on the dust collection chamber.

In addition, according to the present invention, the data of various sensors, such as a temperature sensor for measuring the temperature around the dust collector or a current sensor for measuring the current of the inverter used for controlling each hood and damper, are remotely collected through ioT to automatically operate the dust collector Since it can be reflected in, it is possible to provide the advantage of enabling the smartization of the dust collector.

1 is a schematic diagram of an air volume control device of a conventional dust collector.
2 is a schematic diagram of an automatic airflow control device for a dust collector according to a preferred embodiment of the present invention.
Figure 3 is a detailed view of the inverter control device of Figure 2;
4 is a flow chart of an operation by an inverter control device performed in an automatic air volume control device of a dust collector according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION Hereinafter, the configuration and operation of an automatic airflow control device for a dust collector according to a preferred embodiment of the present invention and its effect will be described in detail with reference to the accompanying drawings.

The terms or words used in this specification and claims are not limited to the usual or dictionary meanings, and the inventor can properly define the concept of the term in order to explain his or her invention in the best way. Based on this, it should be interpreted as a meaning and concept consistent with the technical spirit of the present invention. Therefore, since the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, it is understood that there may be various equivalents and modifications that can replace them at the time of this application. shall.

2 is a schematic diagram of an automatic air flow control device for a dust collector according to a preferred embodiment of the present invention, FIG. 3 is a detailed view of the inverter control device of FIG. 2, and FIG. As an operation flowchart by the inverter control device, the automatic air flow control device of the dust collector according to an embodiment of the present invention, as illustrated in FIGS. 2 and 3, a plurality of dampers 30a-30n, a plurality of damper sensors ( 40a-40n), and the inverter control device 100, and the automatic air volume control device of the dust collector of the present invention further includes a differential pressure sensor 50, and the inverter control device 100 is a differential pressure sensor It is configured to adjust the speed of the dust collector discharge fan according to the output and may be implemented in other embodiments.

In addition, the automatic airflow control device according to each embodiment of the present invention may be implemented in another embodiment by further including a temperature sensor 60 and a plurality of current sensors 70a to 70n.

The automatic air volume control device of the dust collector of the present invention includes a dust collection room 11 having a dust inlet 11a, a filter 11c for filtering dust, and an air outlet 11b, and a filter 11c in the dust collection room 11. It includes an escapement chamber 14 equipped with an escapement device 14a for removing dust adhering to the filter 11c by ejecting air backward into the inside and dropping it into the dust container 13, and the exhausted air is discharged through an outlet 15a. ) It can be implemented by being applied to the dust collector 10 composed of the discharge chamber 15 equipped with a discharge fan 15b for discharging.

A plurality of dampers (30a-30n) are respectively installed in a plurality of hoods (20a-20n) acting on the dust collector (10), and an air control plate that is opened and closed according to the damper control signal of the inverter control device (100) is provided to form an air control panel. Controls the amount of air flowing into each hood 20a-20n according to the opening and closing rate of the hood.

A plurality of damper sensors (40a-40n) are installed on one side of the air control plate of each damper (30a-30n) to detect the amount of opening and closing of the air control plate of each damper and generate a corresponding detection signal, respectively, so that the inverter control device 100 The speed/air volume control is transferred to the inverter unit 110. When the plurality of damper sensors 40a to 40n are included, the speed/air volume control inverter unit 110 of the inverter control device 100 checks each detection signal of the plurality of damper sensors 40a to 40n to determine each damper (30a-30n), check the open state (eg open/close state or amount of opening and closing) and quantity, collect the open state and quantity of each damper to calculate the real-time acting air volume acting on the dust collector, and calculate the real-time action of the dust collector It is possible to control the volume of the dust collector discharge fan with a value calculated by subtracting the air volume from the total air volume of the dust collector, and also each damper (30a-30n) with a damper opening and closing rate set individually according to the environment of the workplace or by the manager It is possible to adjust the opening and closing rate of the

The differential pressure sensor 50 is installed in the main pipe connected to the dust collector 10, detects whether the differential pressure in the main pipe increases due to clogging of the filter in the dust collecting room of the dust collector, and transmits a corresponding detection signal to the inverter control device 100.

In the case of including such a differential pressure sensor 50, the speed/air volume control inverter unit 110 of the inverter control device 100 checks the measurement value of the differential pressure sensor 50, and accordingly, the set value according to the environment of the workplace or the manager By outputting a PID (Proportional Integral Derivative) control signal that changes the number of revolutions per minute (RPM) of the discharge fan 15b in the dust collector 10 through differential pressure control by a set value, the magnitude of the load acting on the dust collection chamber 11 Efficient dust collection is possible while properly maintaining the back pressure of the dust collection chamber by appropriate motor rotation according to the above.

The temperature sensor 60 is installed around the dust collector 10 to measure the ambient temperature and electrically connects the measured temperature value to the speed/air volume control inverter unit 110 of the inverter control device 100 to control the inverter. The speed/air volume control inverter unit 110 of the device 100 is configured to collect temperature information around the dust collector by using the measurement value of the temperature sensor 60 .

The plurality of current sensors 70a-70n are connected to circuit lines connected to each damper 30a-30n from the speed/air volume control inverter unit 110 of the inverter control device 100, respectively, and each damper 30a-30n For control, each inverter current used in the speed/air volume control inverter unit 110 of the inverter control device 100 is measured, and each measured value is measured by the speed/air volume control inverter unit 110 of the inverter control device 100. The open state of each damper (30a-30n) using the measured values of each current sensor (70a-70n) in the inverter unit (110) to control the speed/air volume of the inverter control device (100) For example, opening/closing state or opening/closing amount) and its quantity information can be collected.

When the temperature sensor 60 and the plurality of current sensors 70a-70n are further included, the inverter control device 100 transmits measurement data of the sensors 60 and 70a-70n and the differential pressure sensor 50 through ioT. It collects remotely through remote control and transmits the collected measurement data to the main control panel in the dust collector so that it can be reflected in the automatic operation of the dust collector.

The inverter control device 100 receives and stores the amount of opening and closing of each damper for each section preset according to the environment of the workplace, and operates the air control panel of each damper according to the detection signals transmitted from the plurality of damper sensors 40a-40n. Each damper is individually adjusted so that the opening and closing amount of each damper for each section is a pre-stored set value, and the real-time acting air volume acting on the dust collector is calculated by collecting the opening and closing amount of each damper for each section set above, and according to the calculated real-time working air volume Adjust the air volume of the dust collector discharge fan. At this time, the inverter control device 100 is configured to adjust the air volume of the dust collector discharge fan with a value calculated by subtracting the real-time acting air volume of the dust collector calculated by collecting the opening and closing amounts of each damper for each preset section from the total air volume of the dust collector. there is. For example, among 10 dampers acting on one dust collector, the first damper is 10% open (blocking 90% compared to normal), the second damper is 15% open (blocking 85% compared to normal), and the 3rd to 10th dampers Assuming that the amount of opening and closing of each damper for each section is preset to be 100% open and the total air volume of the dust collector is 100, the inverter control device 100 collects the amount of opening and closing of each damper for each preset section to determine the real-time operating air volume of the dust collector It can be calculated as {[(10+15+100*8)/100]=82.5%}, which is reduced by 17.5% compared to the total air volume of the dust collector (100%), so the total air volume of the dust collector is equal to the corresponding air volume. By adjusting the air volume of the discharge fan of the dust collector so that the air volume is reduced, efficient dust collection is possible while properly maintaining the back pressure of the dust collection chamber by proper motor rotation according to the magnitude of the load acting on the dust collection chamber.

For this operation, the inverter control device 100 may include a speed/air volume control inverter unit 110, a mode selection unit 120, a differential pressure control unit 130, and a volume control unit 140.

The speed/air volume control inverter unit 110 has an internal memory to receive and store the amount of opening and closing of each damper for each section individually set according to the environment of the workplace or by a manager, and While checking the detection signal transmitted from each sensor, the damper control signal corresponding to the opening and closing amount of each damper for each section is output to each damper to adjust the air control plate of each damper to set the pre-stored opening and closing amount of each damper for each section. The dust collector discharge fan is controlled by PID (proportional integral derivative) or control the volume The speed/air volume control inverter unit 110 is electrically connected to the mode selection unit 120, the differential pressure control unit 130, and the volume control unit 140 to send and receive signals, respectively, and is provided in the main control panel of the dust collector. The on/off state of the switch and the setting state of the control mode selection switch 120a of the mode selection unit 120 are checked, and as illustrated in FIG. 4, the control mode selection switch 120a of the mode selection unit 120 Check the setting state (S301-S304), and depending on the setting state, for example, differential pressure gauge air volume control mode (Y branch of S302), fixed speed control mode (Y branch of S303), or damper control mode (Y branch of S304) Controls the dust collector discharge fan in any one of the operation modes.

In the differential pressure gauge air volume control mode (Y branch of S302), it is checked whether the control start switch of the dust collector main control panel is turned on (S3021), and when the control start switch is turned on (Y branch of S3021), the differential pressure sensor 50 is checked (S3022). The speed of the dust collector discharge fan is PID (Proportional Integral Derivative) controlled (S305) through the differential pressure control (S3023) of the differential pressure control unit 130 according to the preset value. At this time, the differential pressure control unit 130 receives the measured value of the differential pressure sensor 50 and transmits an analog value for controlling the speed of the dust collector discharge fan to the speed/air volume control inverter unit 110 so that the measured value approaches a preset value.

In the fixed speed control mode (Y branch of S303), it is checked whether the control start switch of the dust collector main control panel is turned on (S3031), and when the control start switch is turned on (Y branch of S3031), the volume signal input value set by the volume controller 140 The speed of the dust collector discharge fan is controlled through the inverter fixed speed control (S3032) according to (S305).

In the damper control mode (Y branch of S304), check whether the control start switch of the dust collector main control panel is turned on (S3041), and when the control start switch is turned on (Y branch of S3041), a plurality of dampers installed in each damper (30a-30n) The sensor 40a-40n is checked to check the open state and quantity of each damper 30a-30n (S3042), and the control speed according to the confirmed damper open state and quantity is calculated (S3043). The speed of the dust collector discharge fan is controlled (S305) through the inverter control (S3044).

That is, in the differential pressure gauge air volume control mode by the control mode selection switch 120a of the mode selection unit 120, the speed/air volume control inverter unit 110 operates the dust collector discharge fan according to the output of the differential pressure controller 130 (PID). differential) control, and in the fixed speed control mode by the control mode selection switch 120a of the mode selection unit 120, the speed of the dust collector discharge fan is controlled through the inverter fixed speed control according to the volume signal input value set in the volume control unit 140 Control or check each damper sensor (40a-40n) to check the open state and quantity of each damper (30a-30n), and collect each damper open state and quantity to calculate the real-time acting air volume acting on the dust collector The volume of the discharge fan of the dust collector is controlled by a value calculated by subtracting the calculated air volume of the dust collector in real time from the total air volume of the dust collector.

The mode selection unit 120 includes a control mode selection switch 120a, and controls the operation mode of the speed/air volume control inverter unit 110 according to the switch selection state. The differential pressure gauge controls the speed of the dust collector discharge fan according to the output of the differential pressure sensor. It is configured to be set to any one of the air volume control mode and the fixed speed control mode for controlling the speed of the dust collector discharge fan at a fixed speed.

The differential pressure control unit 130 is variably selected by the control mode selection switch 120a of the mode selection unit 120 and receives the measurement value of the differential pressure sensor 50 to adjust the speed of the dust collector discharge fan accordingly to PID (proportional integrate derivative; Proportional integral derivative) outputs an analog signal for control to the speed/air volume control inverter unit 110.

The volume control unit 140 is variably selected by the control mode selection switch 120a of the mode selection unit 120 and transmits a volume signal for controlling the speed of the dust collector discharge fan at a fixed speed that can be varied as needed for speed/air volume control. output to the inverter unit 110.

The operation of the automatic air volume control device of the dust collector according to the present invention configured as described above and the effect thereof are as follows.

The plurality of dampers 30a-30n installed in the automatic air volume control device of the dust collector of the present invention are configured to adjust the opening and closing rate of the air control plate by an external control signal, and the inverter control device 100 controls the environment of the workplace A control signal for adjusting the opening and closing rate (or opening and closing amount) of each damper (30a-30n) is provided to each damper with a set value according to the set value or a set value by the manager, so that the opening and closing rate of each damper (30a-30n) is adjusted for each section. They are electrically connected so that they can be adjusted differently.

Then, when the exhaust fan 15b of the dust collector 10 is operated and each hood 20a-20n acting on the dust collector 10 is operated, the amount of air flowing into each hood 20a-20n is determined by the inverter controller 100. According to the opening and closing rate of each damper (30a-30n) for each section adjusted to the set value according to the environment of the workplace or the set value by the manager, different air volumes are sucked into the dust collection room 11 through the dust inlet 11a of the dust collector The dust particles in the air sucked into the dust collection room 11 are filtered by the filter 11c of the dust collection room 11 and sent to the dust container 13 at the bottom of the dust collection room 11 by gravity, The air filtered in the dust collecting chamber 11 is supplied to the dust extraction chamber 14 through the air outlet 11 b, and after being de-dusted by the dust extraction device 14 a in the dust extraction chamber 14, the air discharge chamber 15 at the top of the dust collector Due to the operation of the discharge fan 15b provided in the dust collector, it can be discharged into the atmosphere through the discharge port 15a formed on the upper part.

At this time, a plurality of damper sensors 40a-40n are installed on one side of the air control plate of each damper 30a-30n to detect the opening/closing state or amount of opening and closing of the air control plate of each damper 30a-30n and generate a corresponding detection signal. Each is generated and transmitted to the speed/air volume control inverter unit 110 of the inverter control device 100, and a differential pressure sensor 50 is installed in a pipe connected to the dust collector 10 to prevent filter clogging in the dust collector It detects whether or not the differential pressure rises in the pipe due to the increase in the differential pressure in the pipe, and transmits the corresponding detection signal to the speed/air volume control inverter unit 110 of the inverter control device 100.

Therefore, the speed/air volume control inverter unit 110 of the inverter control device 100 checks the on/off state of the control start switch of the main control panel of the dust collector and the setting state of the control mode selection switch 120a of the mode selection unit 120. (S301) to determine the setting mode (S302-S304), and depending on the setting state, for example, differential pressure gauge air volume control mode (Y branch of S302), fixed speed control mode (Y branch of S303), or damper control mode (S304 It is possible to control the speed of the dust collector discharge fan in any one of the operation modes of Y branch).

That is, in the case of the differential pressure gauge air volume control mode (Y branch in S302), the speed/air volume control inverter unit 110 checks whether the control start switch of the dust collector main control panel is turned on (S3021), and when the control start switch is turned on (Y in S3021) Branch) The differential pressure sensor 50 is checked (S3022), and the speed of the dust collector discharge fan is determined through the differential pressure control (S3023) of the differential pressure control unit 130 according to the set value according to the environment of the workplace or the set value by the manager (PID) ) can be controlled (S305).

In the case of the fixed speed control mode (Y branch of S303), the speed/air volume control inverter unit 110 checks whether the control start switch of the dust collector main control panel is turned on (S3031), and when the control start switch is turned on (Y branch of S3031) Through the inverter fixed speed control (S3032) by the volume signal input value of the volume controller 140, the speed of the dust collector discharge fan can be volume controlled (S305) at a fixed speed.

On the other hand, in the case of the damper control mode (Y branch of S304), the speed/air volume control inverter unit 110 checks whether the control start switch of the dust collector main control panel is turned on (S3041), and when the control start switch is turned on (Y branch of S3041 ) Check the plurality of damper sensors (40a-40n) installed in each damper (30a-30n) to check the open state and quantity of each damper (30a-30n) (S3042), and control according to the confirmed damper open state and quantity By calculating the speed (S3043) and controlling the inverter (S3044) according to the calculated speed setting, the speed of the dust collector discharge fan can be volume controlled (S305).

Thus, in the speed/air volume control inverter unit 110 of the inverter control device 100, an efficient dust collection operation can be performed while appropriately maintaining the back pressure of the dust collection chamber by proper motor rotation according to the magnitude of the load acting on the dust collection chamber 11. do.

On the other hand, a temperature sensor 60 is installed around the dust collector 10 to measure the ambient temperature, transfers the measured value to the speed/air volume control inverter unit 110 of the inverter control device 100, and the inverter control device ( 100), a plurality of current sensors 70a-70n are connected to a circuit line connected to each damper 30a-30n from the speed/air volume control inverter unit 110 to control each damper 30a-30n. Since each inverter current used in the speed/air volume control inverter unit 110 of the control device 100 is measured and each measured value can be transmitted to the speed/air volume control inverter unit 110 of the inverter control device 100, In the speed/air volume control inverter unit 110 of the inverter control device 100, temperature information around the dust collector and each damper 30a-70n are measured using the measured values of the temperature sensor 60 and the current sensors 70a-70n. 30n) of the open state (for example, open/closed state or amount of opening/closing) and quantity information thereof can be collected.

Using the temperature sensor 60 and the plurality of current sensors 70a-70n, the inverter controller 100 transmits the measured data of the sensors 60, 70a-70n and the differential pressure sensor 50 remotely through ioT. Collecting and transmitting the collected measurement data to the main control panel in the dust collector, it can be reflected in the automatic operation of the dust collector.

According to the present invention, since the opening and closing rates of the dampers of the plurality of hoods acting on the dust collector can be individually set in the inverter control device, the air volume of each hood acting on the dust collector can be adjusted differently for each section according to the workplace environment, thereby wasting energy Through economical dust collector operation without dust collector, it provides advantages that can contribute to energy saving and unnecessary noise reduction.

In addition, according to the present invention, it is possible to change the number of revolutions per minute (RPM) of the discharge fan in the dust collector by detecting whether the differential pressure in the main pipe due to clogging of the filter in the dust collector of the dust collector is increased through a differential pressure sensor installed in the main pipe connected to the dust collector. Proper rotation of the motor according to the magnitude of the load acting on the dust collection chamber provides the advantage of enabling efficient dust collection while properly maintaining the back pressure of the dust collection chamber.

In addition, according to the present invention, various sensor data such as a temperature sensor for measuring the temperature around the dust collector or a current sensor for measuring the inverter current used for controlling each hood and damper are remotely collected through ioT to automatically operate the dust collector Since it can be reflected in, it provides the advantage of enabling the smartization of the dust collector.

As described above, although the present invention has been described with limited embodiments and drawings, the present invention is not limited to the above embodiments, and is not limited to using a single or separate supply pipe, which is the field to which the present invention belongs. Those skilled in the art can make various modifications and variations from these descriptions. Therefore, the spirit of the present invention should be grasped only by the scope of the claims described below, and all equivalent or equivalent modifications thereof will be said to belong to the scope of the spirit of the present invention.

10: dust collector 11: dust collection room
11a: dust inlet 11b: air outlet
11c: filter 13: dust container
14: escapement 14a: escapement device
15: discharge chamber 15a: discharge port
15b: discharge fan 20a-20n: hood
30a-30n: damper 40a-40n: damper sensor
50: differential pressure sensor 60: temperature sensor
70a-70n: current sensor 100: inverter controller
110: speed/air volume control inverter unit 120: mode selection unit
120a: control mode selection switch 130: differential pressure controller
140: volume control

Claims (7)

It includes a dust collection chamber 11 in which a dust inlet 11a, a filter 11c, and an air outlet 11b are formed, and an extraction chamber 14 equipped with an extraction device 14a, and exhausted air is discharged through an outlet 15a. In the dust collector 10 composed of a discharge chamber 15 equipped with a discharge fan 15b for discharging to,
It is installed in each of the plurality of hoods 20a-20n acting on the dust collector 10, and the air control plate is opened and closed by the damper control signal provided from the inverter control device 100 to flow into each hood 20a-20n A plurality of dampers (30a-30n) for regulating the air volume;
A plurality of damper sensors (40a-40n) installed on one side of the air control plate of each of the dampers (30a-30n) to sense the amount of opening and closing of each damper and transmit the corresponding detection signal to the inverter control device (100); and,
It receives and stores the amount of opening and closing of each damper for each section preset according to the environment of the workplace, and adjusts the air control plate of each damper individually according to the detection signals transmitted from the plurality of damper sensors (40a-40n). The amount of opening and closing of each damper is adjusted to a pre-stored set value, and the amount of opening and closing of each damper for each set section is collected to calculate the real-time working air volume acting on the dust collector, and adjust the air volume of the dust collector discharge fan according to the calculated real-time working air volume Including; an inverter control device 100 to do;
A differential pressure sensor 50 installed in the main pipe connected to the dust collector 10 to detect whether or not the differential pressure rises in the main pipe and transmits a corresponding detection signal to the inverter control device 100; further comprising,
The inverter control device 100 adjusts the speed of the dust collector discharge fan according to the output of the differential pressure sensor 50,
A temperature sensor 60 installed around the dust collector 10 to measure the ambient temperature and transmit it to the inverter control device 100; and
It is connected to the circuit line connected to each damper (30a-30n) from the inverter control device (100) to measure the inverter current used in the inverter control device (100) for controlling each damper (30a-30n) and control the inverter. It further includes; a plurality of current sensors 70a-70n passing to the device 100;
The inverter control device 100,
The measurement data of the differential pressure sensor 50 and each sensor 60, 70a-70n is remotely collected through ioT, and the collected measurement data is transmitted to the main control panel in the dust collector to be reflected in the automatic operation of the dust collector. ,
The inverter control device 100,
Equipped with an internal memory, it receives and stores the amount of opening and closing of each damper for each section individually set according to the environment of the workplace or by the manager, and is connected to a plurality of damper sensors (40a-40n) to detect the detection signals transmitted from each sensor. While checking, a damper control signal corresponding to the opening and closing amount of each damper for each section is output to each damper, and the air control plate of each damper is adjusted to adjust the opening and closing amount of each damper for each section to a pre-stored set value, and the mode selector 120 Speed / air volume control inverter unit for PID (Proportional Integral Derivative) control or volume control of the dust collector discharge fan using the output of the differential pressure control unit 130 or the volume control unit 140 according to the setting state of the control mode selection switch 120a of 110);
Including the control mode selection switch 120a, the operation mode of the speed/air volume control inverter unit 110 according to the switch selection state is set to the differential pressure gauge air volume control mode that controls the speed of the dust collector discharge fan according to the output of the differential pressure sensor or to a fixed speed. A mode selection unit 120 for setting the speed of the dust collector discharge fan to one of fixed speed control modes;
It is variably selected by the control mode selection switch 120a of the mode selection unit 120, receives the measured value of the differential pressure sensor 50, and outputs an analog signal to control the speed of the dust collector discharge fan accordingly to the speed/air volume control inverter. a differential pressure control unit 130 outputting to unit 110; and,
The volume signal for controlling the speed of the dust collector discharge fan at a fixed speed that is variably selected by the control mode selection switch 120a of the mode selection unit 120 and can be varied as needed is converted into a speed/air volume control inverter unit 110 Volume control unit 140 output to; automatic air volume control device of the dust collector characterized in that it is configured to include.
The method of claim 1, wherein the inverter control device 100,
The air volume of the dust collector discharge fan is adjusted to a value calculated by subtracting the real-time operating air volume of the dust collector calculated by collecting the opening and closing amounts of each damper for each preset section from the total air volume of the dust collector. Automatic control device for the air volume of the dust collector. delete delete delete According to claim 2,
The speed/air volume control inverter unit 110,
The air volume of the dust collector, characterized in that the PID (Proportional Integral Derivative) control of the dust collector discharge fan according to the output of the differential pressure controller 130 in the differential pressure gauge air volume control mode by the control mode selection switch 120a of the mode selector 120 automatic controls.
According to claim 2,
The speed/air volume control inverter unit 110,
In the fixed speed control mode by the control mode selection switch 120a of the mode selection unit 120, each damper sensor 40a-40n is checked to check the open state and quantity of each damper 30a-30n, and each damper The real-time acting air volume acting on the dust collector is calculated by collecting the open state and the quantity, and the volume of the dust collector discharge fan is controlled with the value calculated by subtracting the calculated real-time acting air volume of the dust collector from the total air volume of the dust collector. Automatic air volume control device.

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