KR20220124003A - Filter changing apparatus forecast method of dust collector - Google Patents

Abstract

The present invention relates to a method for predicting a filter replacing period of a dust collector which collects operating information of a dust collector to automatically write the same on an operation recording program without an operator's checking and writing work, measures differential pressure changes to adjust a filter replacing period, senses an abnormally operating filter by comparing instant differential pressure changes after dedusting of each filter and adjusts a filter replacing order and the times of replacement. In the present invention, disclosed is a method for predicting a filter replacing period of a dust collector which is installed in a back filter, a scrubber, and an adsorbing tower to predict through review of environment facility monitoring parameters. The method determines a filter replacing period by checking whether there is differential pressure before and after materials having particles of dust and gas pass through pores of a filter in a system and has a pressure sensor and a differential pressure sensor installed on front and rear ends of the filter to check the differential pressure and makes filter replacement checked at a proper time.

Description

Filter changing apparatus forecast method of dust collector

The present invention relates to a method for predicting the filter replacement cycle of a filter dust collector, and more specifically, it is possible to collect and automatically write in the operation record program information on the operation of the filter dust collector without the need for an operator to directly check and write a work log, and to monitor the differential pressure change. A method for predicting the filter replacement cycle of a filter dust collector that not only measures and controls the filter replacement cycle but also detects an abnormal bag filter by comparing the instantaneous differential pressure change after exhaustion of each bag filter and adjusts the order and frequency of filter replacement will be.

In general, a filter dust collector is a general name for a device for removing solid or liquid particles present in the air.

Filter dust collectors have been used to remove soot or dust from exhaust gases from boilers, roasting furnaces, heating furnaces, and waste incinerators as a measure against pollution. It is used in the workplace, and in the manufacturing industry, it is installed and used to improve the quality of products by purifying the air in the IC process, pharmaceutical process, etc.

These filter and dust collectors are divided into mechanical, electrical, dry or wet types depending on the operation method, and the mechanical type with a simple structure (eg, gravity settling chamber, collision type dust collector, centrifugal force) up to the size of the particle to be removed is about 10 μm. cyclone, etc.) method may be used.

There are various types of filters used in the dust collector. There are pre-filter, HEPA filter, nano filter, and filter cloth for bag filter in filter dust collector, demister and chevron filter to remove moisture in washing dust collector, activated carbon and electric filter in activated carbon dust collector. The principle of such a filter is direct filtration, inertial filtration, diffusion filtration, etc., and a differential pressure is generated before and after the particles with particle diameters of dust and gas pass through the pores of the filter. The filter replacement cycle is determined by the secondary pressure.

Local governments and environmental management centers belonging to local governments have established and issued related guidelines to record information on the operation of the filter and dust collector for each workplace that operates the filter and dust collector. The reality is that there are still many places where the operating time, power consumption, efficiency, etc.) are written and recorded by hand.

Domestic Registered Patent Publication B1 No. 10-1169231 (July 23, 2012) Domestic Patent Publication No. 10-2015-0076521 (2015.07.07)

Accordingly, an object of the present invention to solve the problems of the prior art as described above is that the operation information of the filter dust collector can be collected and automatically recorded in the operation record program without the need for the operator to directly check and write the work log, and the differential pressure change In addition to controlling the filter replacement cycle by measuring is to provide

Another object of the present invention is to generate a differential pressure before and after the dust and gas of the filter dust collector pass through the pores of the filter. This is to provide a filter replacement cycle prediction method for a filter dust collector that can determine the replacement cycle of the filter based on this differential pressure.

Another object of the present invention is to install a pressure sensor or a difference sensor at the front/rear end of the filter when the filter of the filter dust collector is installed to check the differential pressure at all times so that the filter can be replaced at an appropriate time.

In order to achieve the above object, the present invention is installed in a bag filter, a scrubber, and an adsorption tower, and is a method for predicting the filter replacement cycle for filtration residues through a review of atmospheric environmental facility monitoring factors. It is made to determine the filter replacement cycle by checking whether the differential pressure has occurred before/after the filter while passing through the system. Discloses a method for predicting the filter replacement period of a filter dust collector.

In addition, as a method of predicting the filter replacement cycle of the filter dust collector through the review of the bag filter air environment facility monitoring factor, check the accumulated capacity, check whether the blower is running, check the blower operating time, check whether the pulse valve is in operation, check the filter cloth (filter) differential pressure It may be characterized in that step-by-step monitoring is performed, but after checking whether the prevention facility is in operation, the filter replacement cycle is checked.

In addition, as a method of predicting filter replacement cycle through the review of the scrubber atmospheric environment facility monitoring factor, check the accumulated capacity, check whether the blower is running, check the blower operating time, check the demister/polling differential pressure, check the amount of water supply and return, check the PH It may be characterized in that the monitoring of each step is performed, but after checking whether the prevention facility is in operation, the washing water condition is checked.

In addition, as a method of predicting the filter replacement cycle by reviewing the monitoring factors of the adsorption tower atmospheric environment facility, check the accumulated capacity, check whether the blower is operating, check the blower operating time, check the activated carbon differential pressure and temperature, and prevent the pre-treatment filtration differential pressure After checking whether the facility is in operation, it may be characterized in that the activated carbon replacement cycle is checked.

According to the present invention, the operation information of the filter dust collector can be collected and automatically recorded in the operation record program without the need for an operator to directly check and write a work log, and to adjust the filter replacement cycle by measuring the differential pressure change, as well as for each bag filter. It is possible to provide a filter replacement cycle prediction method for a filter dust collector that compares the instantaneous differential pressure change after exhaustion, detects an abnormal bag filter, and adjusts the filter replacement order and frequency.

In addition, in the present invention, a differential pressure is generated before and after the dust and gas particles of the filter dust collector pass through the pores of the filter. It is possible to provide a filter replacement cycle prediction method for the filter dust collector that can determine the replacement cycle of the filter with this differential pressure.

In addition, when the filter of the filter dust collector is installed, the present invention has an effect of installing a pressure sensor or a difference sensor at the front/rear end of the filter to check the differential pressure at all times so that the filter can be replaced at an appropriate time.

1 to 6 are embodiments showing an example of a method for predicting a filter replacement cycle for a filter dust collector according to the present invention,
1 is an overall exemplary view applied to environmental facilities according to the filter replacement cycle prediction method of the filter dust collector according to the present invention;
2 is an exemplary view showing a method for predicting a filter replacement cycle for a filter dust collector through a review of a monitoring factor applied to a bag filter air environment facility according to the present invention;
3 is an exemplary view showing a method for predicting the filter replacement cycle of the filter dust collector through the review of the monitoring factor applied to the scrubber atmospheric environment facility according to the present invention;
4 is an exemplary view showing a method for predicting the filter replacement cycle of the filter dust collector through the review of the monitoring factor applied to the adsorption tower atmospheric environment facility according to the present invention;
5 is an example of a morning monitoring screen showing a method for predicting a filter replacement cycle for a filter dust collector through a review of monitoring factors applied to the scrubber atmospheric environment facility according to the present invention;
6 is an exemplary view of a monitoring screen showing a method for predicting a filter replacement cycle for a filter dust collector through a review of monitoring factors applied to an adsorption tower atmospheric environment facility according to the present invention.

Since the present invention can make various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments. , it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

The present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments allow the disclosure of the present invention to be complete and to completely convey the scope of the invention to those of ordinary skill in the art. It is provided to inform you.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, it should be noted that in adding reference numerals to the components of each drawing, the same components are given the same reference numerals as much as possible even though they are indicated in different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 to 6 is an embodiment showing an example of a method for predicting the filter replacement period of the filter dust collector according to the present invention.

1 to 6, the filter replacement cycle prediction method according to the present invention is installed in the bag filter (S100), the scrubber (S200), and the adsorption tower (S300), and the filter dust collector filter through the review of the atmospheric environment facility monitoring factor As a replacement cycle prediction method, it is made to determine the filter replacement cycle by checking with the system whether a differential pressure occurs before/after as dust and gas particles pass through the pores of the filter, and a pressure sensor and By installing a differential pressure sensor, it can be configured to check the filter replacement at an appropriate time to check the differential pressure.

In addition, as a method of predicting the filter replacement cycle through the review of the air environment facility monitoring factor of the bag filter (S100), check the accumulated power amount (S110), check whether the blower is running (S120), check the blower operation time (S130), pulse Check whether the valve is in operation (S140), check the filter cloth (filter) differential pressure (S150). Monitoring is performed at each stage, but after checking whether the prevention facility is in operation (S10), it can be configured to check the filter replacement cycle.

In addition, as a method of predicting the filter replacement cycle of the filter dust collector by reviewing the air environment facility monitoring factors of the scrubber (S200), check the accumulated capacity (S210), check whether the blower is running (S220), check the blower operating time (S230), demister / Polling differential pressure (S240), water supply and return water amount check (S250), PH check (S260) Each stage is monitored, but after checking whether the prevention facility is in operation (S10), it can be configured to check the washing water status.

In addition, as a method for predicting the filter replacement cycle of the filter dust collector by examining the monitoring factors of the air environment facility in the adsorption tower (S300), check the accumulated power amount (S310), check whether the blower is running (S320), check the blower operation time (S330), the activated carbon differential pressure And temperature check (S340), pre-filtration differential pressure (S350) is made, after checking whether the prevention facility is in operation (S10), it can be configured to check the activated carbon replacement cycle.

Preferably, the initial pressure, operating pressure, and limit pressure according to the appropriate flow rate (flow rate) are presented for each filter of the filter dust collector, and when the limit pressure is reached, it can be calculated as the replacement time of the filter. In addition, if the filter is operated at an appropriate flow rate after installation and it is operated lower than the initial pressure, it can be considered as a cause of a defect in the filter or a risk due to damage to the equipment. It is possible to check whether the equipment is operating properly at this operating pressure. Therefore, when a filter is installed, a pressure sensor or a differential pressure sensor is installed at the front and rear of the filter to check the differential pressure at all times so that the filter can be replaced at an appropriate time.

As described above, according to the present invention, the operation information of the filter and dust collector can be collected and automatically recorded in the operation record program without the need for the operator to directly check and write the work log, and not only to measure the differential pressure change, but also to adjust the filter replacement cycle, It is possible to provide a filter replacement cycle prediction method for a filter dust collector that detects an abnormal bag filter by comparing the instantaneous differential pressure change after exhaustion of each bag filter and adjusts the order and frequency of filter replacement.

Although the present invention has been illustrated and described by way of preferred embodiments as described above, it is not limited to the above-described embodiments, and those of ordinary skill in the art to which the present invention pertains within the scope not departing from the spirit of the present invention Of course, various modifications and variations are possible within the technical spirit of the present invention and the equivalent scope of the claims to be described below.

S10: Air environment facility monitoring factor review system
S100: Bag filter (filtration)
S200 : Scrubber
S300 : adsorption tower

Claims (4)

As a method for predicting filter replacement cycle for filter dust collectors installed in bag filters, scrubbers, and adsorption towers, by examining monitoring factors for atmospheric environment facilities,
It is made to determine the filter replacement cycle by checking the system whether a differential pressure occurs before/after as the particle size of dust and gas passes through the pores of the filter,
A pressure sensor and a differential pressure sensor are installed at the front/rear end of the filter to check the differential pressure
A method of predicting filter replacement cycle for filter dust collectors.
The method of claim 1,
As a method of predicting the filter replacement cycle of the filter dust collector through the review of the air environment facility monitoring factor of the bag filter (S100),
Checking the accumulated power, checking whether the blower is operating, checking the blower operating time, checking whether the pulse valve is in operation, checking the differential pressure of the filter cloth (filter)
After checking whether the prevention facility is in operation, the filter replacement cycle is checked.
A method of predicting filter replacement cycle for filter dust collectors.
The method of claim 1,
As a method of predicting the filter replacement cycle of the filter dust collector through the review of the scrubber atmospheric environment facility monitoring factor,
Check the accumulated capacity, check whether the blower is operating, check the blower operating time, check the demister/polling differential pressure, check the water supply and return amount, check the PH
After checking whether the prevention facility is in operation, it is characterized in that it is made to check the status of the washing water
A method of predicting filter replacement cycle for filter dust collectors.
According to claim 1,
As a method of predicting the filter replacement cycle of the filter dust collector by examining the monitoring factors of the adsorption tower atmospheric environment facility,
Check the accumulated capacity, check whether the blower is running, check the blower operating time, check the differential pressure and temperature of the activated carbon, and pre-filter differential pressure
After checking whether the prevention facility is in operation, the activated carbon replacement cycle is checked
A method of predicting filter replacement cycle for filter dust collectors.

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