KR102268329B1 - Dust control device of filter for dust collector with remote control - Google Patents

Abstract

The present invention relates to a dust separation device of a dust collector filter capable of remote control, which can separate dust through remote control or on-site control by spraying compressed air on the filter that collects, filters, and discharges dust containing pollutants generated in industrial sites with a vacuum. The position control servomotor (51) of a servo driver car (50) is operated by receiving the position information from a forward stop sensor (S1), an original position sensor (S2) and a reverse stop sensor (S3).

Description

Dust control device of filter for dust collector with remote control

The present invention is for a dust collector capable of remote control that allows the dust containing contaminants generated in the industrial field to be collected in a vacuum, filtered and discharged by spraying compressed air to remove the dust through remote control or on-site control. It relates to the dust removal device of the filter, and more specifically, by sensing the pressure at the rear end of the bag filter of the dust collector, measuring the pressure in real time and inputting the pressure to the PLC unit, the input value is compared with the pressure of the dust collector input on the touch panel and the variable set value The data is transmitted to the PLC unit, and the PLC unit commands the servo driver car to perform a blow operation corresponding to the pressure sensed value after the bag filter to the position control servo motor, and the blower fan according to the pressure checked in real time. It is about making it work in the forward and backward directions.

In general, the dust collector sucks various dusts such as dust and foreign substances from various industrial sites such as steel process, incineration process, cement process, combustion process, paper process and coke process through the suction port and filters it through the filter installed inside the dust collector to remove the dust. It is to provide a comfortable working space by discharging the removed clean air through the exhaust port.

The counter-airflow type dust collector introduces dust-containing gas into the unit dust collection chamber by a suction fan, adsorbs the dust on the filter cloth, stops the inflow of the dust-containing gas after a certain period of time, and blows the outside air in the opposite direction of the dust-containing gas flow. to desorb the dust adsorbed on the surface of the filter cloth and perform filtration again.

When operating the dust collector, when the dust collector is initially installed and after the bag filter is replaced, the resistance to flow when the dust-containing gas passes through the dust collector is low, so the air volume increases, and conversely, deterioration of the dust collector, deterioration of performance, and clogging of the bag filter occur. When this occurs, the airflow decreases due to an increase in resistance to flow.

In order to save energy according to the operation of the dust collector, that is, to improve the efficiency of power used, there is a need for a device capable of moving forward and backward while automatically changing the wind pressure to maintain an appropriate air volume and wind pressure.

As prior art related to the conventional control device for a dust collector, Patent Publication No. 10-2003-0044147 (remote automatic control system for filter dust collector), Patent Publication No. 10-1367470 (dust desorption device for dust collector) and registered patents Publication No. 10-1307600 (dust removal device for dust collector) and the like have been proposed.

The first published patent includes a hardware configuration for collecting control-related information including measurement of filter medium pressure loss, measurement of pressure change in the pressure tank, and compressed air injection conditions, and hardware for output for the purpose of controlling operating devices. Using the hardware configuration and collected information, it variably controls the injection of pressure air for backwashing to keep the pressure loss of the filter medium constant, and analyzes the shape of the change in pressure in the compressed air tank to determine whether the discharge line is leaking. It is a structure including software that can control the operation of devices attached to the dust collector according to arbitrarily set conditions.

The second patent is a cage having a cone part having a conical shape to guide the air injected from the air jet member to the inside diameter of the horizontal filtration filter to the outside inside the horizontal filtration filter, and a tapered part extending from the cone part and gradually widening to a larger diameter. On the other hand, a fixing plate for connecting and supporting one side of the horizontal filter is installed on the fixing bracket where the air jet member is installed, and a plurality of fixing feet for supporting the outer diameter of the cage guided by the inner diameter of the horizontal filter are installed on the fixing plate. In the inner diameter of the open rear side of the cage, the outer circumference of the support plate with a nut integrally attached to the center is guided to support the horizontal filtration filter in the horizontal direction, and the support plate is fastened to correspond to the sealing cap installed behind the horizontal filtration filter. It is a fixed structure that is fastened as a sphere.

In the third registered patent, the dust removal device is an air supply pipe that is installed horizontally through the upper part of the inside of the hopper, an air nozzle for blowing dust as air pressure by branching to the air supply pipe and installed close to the inclined surface of the inside of the hopper, the air supply pipe A pulse valve that is connected to one side and injects compressed air into the air nozzle, a compressed air storage tank that is connected to the pulse valve to supply air, and a compressed air storage tank that is installed to set or adjust the air pressure in the compressed air storage tank It is a structure that includes a regulator.

The first published patent is composed of hardware for collecting information, hardware for output, and software for controlling operation to remotely control the variable injection of pressure air for backwashing, determination of leakage in the discharge line, and operation of the device. The dust collector is remotely controlled It is an automatic control system of general dust collector that manages the pressure loss of the filter medium, analyzes the pressure state of compressed air, and controls the operation status of each device installed in the dust collector with an automatic control method limited to automatic management by the method. Energy saving by management and efficient power use are required.

In the second patent, a cage composed of a cone part and a tapered part is installed inside the horizontal filtration filter, and an air jet member is installed on one side of the filter to spray high pressure compressed air to detach the dust adhering to the filter surface. It is a structure that is combined with enemy components and is detached by a simple blow operation, so it is difficult to control automatically depending on the real-time condition, and there is a problem of detaching dust with a fixed type.

The third patent is a method of removing dust and foreign substances by installing an air supply pipe with an air nozzle installed horizontally on the inside of the hopper of the dust collector, and spraying compressed air through the air nozzle of the air supply pipe with a regulator, a compressed air storage tank and a pulse valve. It is a structure that simply injects compressed air to the air nozzle through the air supply pipe through the pulse valve. The structure is simple, and it is impossible to respond to various situations of the dust collector. There were problems such as not being able to determine whether or not and remote control of the operation was possible.

Therefore, the present invention was created for the purpose of solving the above-mentioned problems of the prior art. A pressure sensor is installed at the rear end of the inner bag filter of the dust collector to measure real-time pressure with a pressure gauge and input the measured value to the PLC unit, the input pressure is When the data that compares the pressure and variable setting values of the dust collector input on the touch panel by sending it to the touch panel is transmitted to the PLC unit, the PLC unit commands the servo driver car to perform a blow operation corresponding to the pressure sensing value at the rear end of the bag filter. In this way, the blower fan operates continuously and forwards and backwards variably according to the pressure sensed in real time, so it efficiently manages the power used by the dust collector to save energy. It is possible to provide a dust removal device for a dust collector filter that can be remotely controlled, which reduces the maintenance cost of the dust collector by enabling remote control while modifying and supplementing the touch panel data and PLC program.

The present invention is characterized in that the operation of the position control servo motor of the servo driver car can be operated by receiving the position information by the forward stop sensor, the original position sensor and the reverse stop sensor.

delete

Therefore, in the present invention, a pressure sensor is installed at the rear end of the inner bag filter of the dust collector to purify the air by collecting dust containing contaminants in a vacuum, and sensing and checking the internal pressure in real time through the pressure gauge to the diesel PLC unit. The PLC unit communicates with the touch panel on which the set value is entered, and the PLC unit commands the servo driver car to perform a blow operation corresponding to the pressure sensed value at the rear end of the bag filter, and the blower fan is operated according to the pressure sensed in real time. By variable continuous operation and forward/backward operation, the energy consumption efficiency is reduced by reducing the power used by the dust collector, the maintenance cost of the dust collector is minimized, and the air volume of the dust collector is always kept constant to collect and desorb the dust. It has effects such as extending the service life and enabling efficient management of the dust collector by enabling remote control from a distance.

1 is a structural conceptual diagram of a dust desorption device showing the overall structure of the present invention;

Hereinafter, the configuration and operation of the subject matter of the present invention will be described in detail in connection with the accompanying drawings.

1 is a structural conceptual diagram of a dust desorption device showing the overall structure of the present invention. A pressure sensor is installed at the rear end of a bag filter, measured with a digital pressure gauge, and the pressure value input from the PLC unit is compared with the data inputted on the touch panel. When transmitted to the PLC unit, the PLC unit commands the position control servo motor to perform a blow operation corresponding to the pressure sensing value at the back of the bag filter in the servo driver car, and operates the fan in the forward and backward directions according to the pressure checked in real time. and remote control through Internet telecommunication from a long distance is shown.

In the dust removal device of a filter for a dust collector, sensing the pressure of the dust collector that sucks the dust-containing gas by the suction fan and discharges the air purified by the filter, and controls the wind pressure adjustment and forward and backward operation with the servo driver car of the dust collector,

When the pressure sensor 10 is installed at the rear end of the inner bag filter of the dust collector, the pressure sensed by the pressure sensor 10 is input to the digital pressure gauge 20 in real time, and the measured pressure value is transmitted to the PLC unit 30 The input value is transmitted to the PLC unit 30 by comparing the pressure of the dust collector inputted to the touch panel 40 and the variable set value, so that the PLC unit 30 is applied to the servo driver car 50 and the back-end pressure of the bag filter. Command the position control servo motor 51 to operate the blowing operation corresponding to the sensed value to operate the blowing fan in the forward and backward directions according to the pressure checked in real time, and remotely control the computer 60 and the touch panel through Internet remote communication. (40) was connected to enable remote control.

The operation of the position-controlled servomotor 51 of the servo driver car 50 enables operation by receiving the position information by the forward stop sensor S1, the original position sensor S2 and the reverse stop sensor S3.

According to the present invention, a pressure sensor is installed at the rear end of the inner bag filter of the dust collector to efficiently manage the power used by the dust collector to reduce energy and maintenance costs, and the real-time pressure is measured with a pressure gauge and the measured value is transferred to the PLC unit. When inputted, the input pressure is transmitted to the touch panel, compared with the data entered on the touch panel, and the comparison value is transmitted to the PLC unit. The PLC unit performs a blow operation corresponding to the pressure sensing value after the bag filter to the servo driver car. To provide a dust removal device for a dust collector filter that can be remotely controlled by commanding the position control servo motor to operate the fan in the forward and backward directions according to the pressure checked in real time, and remote control through Internet remote communication from a distance it is for

As shown in Figure 1, the present invention is a dust removal device for a dust collector filter that can be remotely controlled is a pressure sensor 10, a digital pressure gauge 20, a PLC unit 30, a touch panel 40, and a servo driver car. It consists of (50).

In the present invention, the pressure sensor 10 is installed at the rear end of the bag filter installed inside the dust collector to sense the pressure and transmit it to the digital pressure gauge 20 .

The digital pressure gauge 20 measures the pressure transmitted to the pressure sensor 10 and transmits the pressure measurement value to the PLC unit 30 .

The pressure sensor 10 and the digital pressure gauge 20 sense and measure the pressure at the rear end of the bag filter of the dust collector in real time and transmit it to the PLC unit 30 .

The PLC unit 30 communicates with the touch panel 40 to monitor the pressure value transmitted from the digital pressure gauge 20 in a centralized manner, and compares the set value and data of the touch panel 40 with the PLC unit 30 . transmitted to the unit 30 .

In the touch panel 40, the initial differential pressure, the final differential pressure, and variable set values of the dust collector are set, and the PLC unit 30 can automatically convert the pressure of the bag filter and the frequency of the servo driver car 50. It is operated as a proportional control PLC program.

The PLC unit 30 commands the servo driver car 50 to perform a blowing operation corresponding to the pressure at the rear end of the bag filter to the position control servo motor 51 to move the blowing fan forward and backward according to the pressure checked in real time. was operated and the blowing fan could be variably operated according to the pressure sensed by the pressure sensor 10 in real time.

The operation of the position-controlled servomotor 51 of the servo driver car 50 enables operation by receiving the position information by the forward stop sensor S1, the original position sensor S2 and the reverse stop sensor S3.

In addition, the servo driver car 50 transmits the operation and stop signals of the position control servo motor 51 and errors to the PLC unit 30 .

The remote control computer 60 is connected to the touch panel 40 through Internet remote communication in a remote separate space (office, etc.), while monitoring the touch panel 40 and the touch panel through Internet remote communication with the remote control computer 60. The data in (40) and the PLC program were modified and supplemented to enable remote control.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone skilled in the art without departing from the gist of the present invention as claimed in the claims. and such modifications are intended to be within the scope of the claims.

10: pressure sensor
20: digital pressure gauge
30: PLC unit
40: touch panel
50: servo driver car
51: position control servo motor
60: remote control computer

Claims (2)

delete The pressure sensor 10 is installed at the rear end of the inner bag filter of the dust collector, the pressure sensed by the pressure sensor 10 is inputted to the digital pressure gauge 20 in real time, and the measured pressure value is transmitted to the PLC unit 30. The data comparing the pressure of the dust collector input to the touch panel 40 and the variable set value is transmitted to the PLC unit 30, and the PC unit 30 senses the pressure behind the bag filter in the servo driver car 50. Command the position control servo motor 51 to operate the blowing operation corresponding to the value, and operate the blowing fan in the forward and backward directions according to the pressure checked in real time. 40) is connected to enable remote control, sensing the pressure of the dust collector that sucks the dust-containing gas by the suction fan and discharges the air purified by the filter, and controls the wind pressure and forward/backward operation with the servo driver car of the dust collector. In the dust desorption device of the filter,
The operation of the position control servo motor 51 of the servo driver car 50 is provided by the forward stop sensor (S1), the original position sensor (S2) and the reverse stop sensor (S3) to receive and operate the position information. Dust removal device for filter for dust collector that can be controlled remotely.

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