KR102584261B1 - Air conditioning equipment for alarming replace time of filter by selectively sensing of filter replace time - Google Patents

Abstract

The present invention is a system for sensing and alarming the replacement period of an air conditioner filter, comprising: a filter unit disposed on a pipe through which air is forced in and out, and filtering the air; And a pressure calculation unit disposed on the front side and the rear side of the filter unit, respectively, to sense the outside air pressure and the inside pressure of the filter unit, respectively, to sense the pressure difference. Begin.

Description

Air conditioner filter replacement alarm system through selective sensing of filter replacement time {Air conditioning equipment for alarming replace time of filter by selectively sensing of filter replace time}

The present invention is a system related to a filter replacement alarm system for an air conditioner filter. More specifically, in addition to sensing dust of the filter itself, the differential pressure between the outdoor and indoor air of the filter and compensation of parameters such as temperature, density, and humidity of the outdoor air are provided. This is a technology field related to an air conditioner filter replacement time alarm system that accurately senses and alarms the filter replacement time.

As the number of people staying indoors increases due to the impact of the new coronavirus and interest in maintaining health increases, interest in indoor air quality (IAQ: Indoor Air Quality) is increasing. 'Indoor air quality' is a term used in the air conditioning and environment-related industry and is a method of evaluating the quality of the air surrounding people in terms of temperature, humidity, carbon dioxide, cleanliness, airflow, etc. from the perspective of health and comfort.

In addition, 'air' is the substance that people inhale the most during the day (air: 18 kg/person, water: 1.2 kg/person, food: 1.3 kg/person) and contains many factors that affect health. And to this day, studies such as those conducted by Harvard University have suggested a correlation between worsening air quality and disease and mortality. The Italian Ministry of Health, the German Johannes Gutenberg University research team, Indian epidemiology researchers, and the Kyoto University research team are suggesting that there is an equal correlation between air pollution, the severity of COVID-19, and the fatality rate. Under these environmental changes, the role of air conditioning-related devices is changing from providing the function of relieving unpleasant heat sensations by heating and cooling to providing safe, safe, and good air quality. (Part of the press release from Refrigeration Air Conditioning Evening on September 3, 2021)

Air conditioners also perform the function of filtering out various harmful substances and foreign substances in the air by filtering the air through a composition called a filter. These filters are consumables and have a limited lifespan, and the maintenance aspect of the performance of the air conditioner by replacing the filter is important. It is a very important element in

There are several prior patent documents related to air conditioner filters.

“Automatic vacuum cleaning device for air filters for air conditioners and its control method (Registration No. 10-0787778, Patent Document 1)” exists.

The invention according to Patent Document 1 relates to an automatic vacuum cleaning device for air filters for air conditioners and a control method thereof. For this purpose, the invention according to Patent Document 1 consists of a pair of vertical side frames and an upper frame and a lower frame horizontally at the upper and lower ends thereof, so that the overall shape is square, and the suction part driven by the control unit moves up, down, left and right to air In a cleaning device for an air filter for an air conditioner that removes foreign substances on the filter, an upper guide rod is provided between the upper guide rod support at the lower end of the upper frame and the upper slide supporter at the upper end of the upper block located at the upper end of the vertical frame, and the lower frame A lower guide rod is provided between the upper lower guide rod support and the lower slide support of the lower block located at the bottom of the vertical frame, and a side guide is provided between the side guide rod support of the lower frame and the inner side slide support of the lower block. A rod is provided, and a suction operation means that moves left and right along the upper and lower guide rods is provided. This suction operation means is erected vertically between the upper block and the lower block and is divided into two ends so that a space is formed between them. A pair of vertical frames are provided, a screw that stands vertically between the upper block and the lower block and rotates by driving a screw drive motor, and a vertical guide rod that has one end erected vertically between the upper block and the lower block. The other end is connected to a screw and is provided with a lifting and lowering operation port that moves up and down. The suction part 40 is connected to a pipe to the lifting and lowering operation port, and the front of this pipe is a housing with a suction nozzle installed inside. It is provided, and the rear is characterized by a suction pipe being connected and installed.

“Filter blockage detection device for air conditioning equipment (Publication No. 10-1996-0029721, Patent Document 2)”

In the case of the invention according to Patent Document 2, it relates to a filter blockage detection device of an air conditioning device. Considering that the RPM of the blower fan varies depending on the degree of blockage of the filter, the RPM of the blower fan is detected and compared with the RPM in a normal state. We created a filter blockage detection device for air conditioning equipment that can detect filter blockage and accurately detect filter blockage suited to the installation environment of the air conditioning equipment.

“Filter management device for air conditioners (registration number 10-2124456, patent document 3)” exists.

In the case of the invention according to Patent Document 3, it relates to a filter management device for an air conditioner, which includes a main body formed of a penetrating frame, a filter part inserted into the main body, and a sensor that detects indoor fine dust information at a preset time period. It includes a control unit that outputs a replacement signal for the filter unit when the fine dust information exceeds a preset standard concentration.

Registration number 10-0787778 Publication number 10-1996-0029721 Registration number 10-2124456

The air conditioner filter replacement alarm system through selective sensing of filter replacement time according to the present invention was designed to solve the conventional problems described above, and presents the following problems to be solved.

First, the condition of the filter must be maintained above a certain level so that the performance of the air conditioner can be continuously maintained.

Second, to maintain filter performance, the status of the filter can be monitored.

The problems to be solved by the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

The air conditioner filter replacement alarm system through selective sensing of filter replacement time according to the present invention has the following means for solving the above problems.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, it is a system for sensing and alarming the replacement time of the air conditioner filter, and is disposed on a pipe through which air is forced in and out, and the air a filter unit for filtering; And a pressure calculation unit disposed on the front side and the rear side of the filter unit, respectively, to sense the outside air pressure and the inside pressure of the filter unit to sense the pressure difference. there is.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, the pressure calculation unit is an inlet disposed in front of the filter unit and selectively senses the pressure of external air flowing into the filter unit. pressure sensing unit; an outlet pressure sensing unit disposed at the rear of the filter unit and selectively sensing the pressure of the air discharged from the filter unit; and a differential sensing unit that calculates differential pressure information by comparing external pressure information sensed by the inlet pressure sensing unit and internal pressure information sensed by the outlet pressure sensing unit.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, it is disposed on the front side and rear side of the filter unit, respectively, and measures the outside temperature and inside temperature of the filter unit. It may be characterized by further including a temperature calculation unit that senses the temperature difference by sensing each.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, the temperature calculation unit is disposed in front of the filter unit and is an inlet that selectively senses the temperature of the outside air flowing into the filter unit. Temperature sensing unit; an outlet temperature sensing unit disposed at the rear of the filter unit and selectively sensing the temperature of the air discharged from the filter unit; and a temperature difference sensing unit that calculates temperature difference information by comparing the outside temperature information sensed by the inlet temperature sensing unit with the indoor temperature information sensed by the outlet temperature sensing unit.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, based on the differential pressure information sensed by the differential sensing unit, the filter is activated according to the percentage by which the differential pressure information reaches a preset differential pressure threshold. It may further include a filter replacement prediction unit that proportionally calculates the replacement time of the unit.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, the filter replacement prediction unit receives the temperature difference information calculated by the temperature difference sensing unit, compensates for the differential pressure information, and It may be characterized by comprising a compensation calculation unit that recalculates the differential pressure information by compensating the pressure of the vessel in proportion to the temperature difference.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, the filter replacement prediction unit divides the front face of the filter unit through a virtual boundary line, thereby dividing the virtual It may further include a region allocation unit that divides the front surface of the filter unit into a plurality of variable regions through a boundary line.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, the area allocation unit divides the pipe into a plurality of segments to correspond to the front and back of the filter unit divided into the plurality of variable areas. By forming split pipes, the plurality of variable regions may be characterized in that individual outdoor air is introduced through the plurality of divided split pipes.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, the pressure calculation unit is provided with a plurality of inlet pressure sensing units and a plurality of outlet pressure sensing units, each on the divided pipe of the cover. Arranged, the pressure calculation unit calculates an individual pressure difference for each of the plurality of variable regions, and the temperature calculation unit includes a plurality of inlet temperature sensing units and a plurality of outlet temperature sensing units, respectively, on the plurality of divided pipes. It may be arranged that the temperature calculation unit calculates an individual temperature difference for each of the plurality of variable regions, and the compensation calculation unit recalculates the differential pressure information for each of the plurality of variable regions.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, the virtual boundary line can be designed to selectively expand or contract, and the variable area is designed to selectively expand or contract the virtual boundary line. Accordingly, individual variable regions of the variable region may also be designed to be expanded or contracted.

The air conditioner filter replacement alarm system through selective sensing of filter replacement time according to the present invention configured as described above provides the following effects.

First, the current condition of the filter is continuously monitored based on the pressure difference between the air entering the filter, that is, outside air, and the air that passed through the filter, that is, inside.

Second, the pressure difference between the internal and external air of the filter is different due to the influence of temperature and humidity, and the actual internal and external air differential pressure is sensed through compensation accordingly.

Third, the condition of each filter position is monitored according to the compensated differential pressure to ensure optimal filter condition management.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

Figure 1 is a conceptual diagram of sensing the condition of the filter according to the pressure difference between outside air and inside air in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention.
Figure 2 is a conceptual diagram for sensing the pressure difference between outside air and inside air in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention.
Figure 3 is a conceptual diagram for sensing the temperature difference between outside air and inside air in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention.
Figure 4 is a block diagram showing the main configuration of an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention.
Figure 5 is a block diagram showing a pressure calculation unit and its sub-configurations in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention.
Figure 6 is a block diagram showing a temperature calculation unit and its sub-configurations in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention.
Figure 7 is a block diagram showing a filter replacement prediction unit and its sub-configurations in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention.
Figure 8 shows that in the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to an embodiment of the present invention, the individual addresses of the split pipes are selectively placed on the individual addresses of the filter unit in which the variable area is formed. It is a concept diagram.

The air conditioner filter replacement alarm system through selective sensing of filter replacement time according to the present invention can make various changes and have several embodiments. Specific embodiments will be illustrated in the drawings and explained in detail in the detailed description. . However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all changes, equivalents, and substitutes included in the technical spirit and scope of the present invention.

Figure 1 is a conceptual diagram of sensing the condition of the filter according to the pressure difference between outside air and inside air in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention. Figure 2 is a conceptual diagram for sensing the pressure difference between outside air and inside air in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention. Figure 3 is a conceptual diagram for sensing the temperature difference between outside air and inside air in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention. Figure 4 is a block diagram showing the main configuration of an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention. Figure 5 is a block diagram showing a pressure calculation unit and its sub-configurations in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention. Figure 6 is a block diagram showing a temperature calculation unit and its sub-configurations in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention. Figure 7 is a block diagram showing a filter replacement prediction unit and its sub-configurations in an air conditioner filter replacement alarm system through selective sensing of filter replacement time according to an embodiment of the present invention. Figure 8 shows that in the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to an embodiment of the present invention, the individual addresses of the split pipes are selectively placed on the individual addresses of the filter unit in which the variable area is formed. It is a concept diagram.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, as shown in FIG. 1, focusing on the filter that is an essential component of the air conditioner (not shown), the filter's It is about a system for monitoring conditions and informing when to replace the filter accordingly.

Air conditioners mainly have a constant air volume method that adjusts the indoor temperature by adjusting the temperature of the air, and a variable air volume method that controls the indoor temperature by changing the air volume. In the present invention, excluding various conditions throughout the air conditioner, the focus is on the filter. We will develop technical ideas focusing only on the parts that do.

The air conditioner itself is a product that has already been commercialized, and further description of the air conditioner itself will be omitted in this specification.

The air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention is a system for sensing and alarming the replacement time of the air conditioner filter, and basically includes a filter unit 10 and a pressure calculation unit 100. I do it.

As shown in FIG. 1, the filter unit 10 here includes a pre filter, medium filter, and It stipulates air filters for air conditioning, such as HEPA filters, and the filter unit 10 is a component for filtering and purifying air, and there are no restrictions on its type or performance.

As described above, the filter unit 10 in the present invention is disposed on the pipe 1 through which air is forcibly introduced and discharged, and is configured to filter the air.

The conduit (1) may be an air-flowing tube that allows air to flow and enter the filter unit (10), and the air that has passed through the filter unit (10) passes through the conduit (1) again to the destination. It causes air to flow to the location.

Here, the front side of the filter unit 10 refers to one side of the filter unit 10 where air that has not passed through the filter unit 10 exists, and the rear side of the filter unit 10 refers to the filter unit (10) through the pipe 1. This refers to the other side of the filter unit 10, where the air that has passed through 10 is located.

In addition, outside air is defined as air in front of the filter unit 10 that has not passed through the filter unit 10, and inside air is defined as air behind the filter unit 10.

As shown in FIG. 1, the pressure calculation unit 100 is disposed on the front side and the rear side of the filter unit 10, respectively, to calculate the external air pressure and internal pressure of the filter unit 10, respectively. It is a configuration that senses the pressure difference.

It is sufficient to use a commercially available gas pressure measurement device for the pressure calculation unit 100. However, since the pressure calculation unit 100 must transmit the calculated pressure measurement information to another terminal, server, or HMI, etc., the measured pressure information must be It is desirable that it can be computerized and transmitted by data transmission.

In the case of the pressure calculation unit 100, as shown in FIG. 5, an inlet pressure sensing unit 111, an outlet pressure sensing unit 112, and a differential sensing unit 120. It can be included.

The inlet pressure sensing unit 111 is disposed on the front side of the filter unit 10 and selectively senses the pressure of external air flowing into the filter unit 10.

In addition, the outlet pressure sensing unit 112 is disposed at the rear of the filter unit 10 and selectively senses the pressure of the air discharged from the filter unit 10.

As shown in FIG. 1, the inlet pressure sensing unit 111 only needs to be present on the front side of the filter unit 10, and the specific placement location is not a very important factor, but it is conceptually divided in the variable area to be described later. In the filter unit 10, it is important to individually sense pressure at each location through a plurality of inlet pressure sensing units 111. The same applies to the outlet pressure sensing unit 112, and this part will be described later.

In the case of the differential sensing unit 120, the external pressure information sensed by the inlet pressure sensing unit 111 and the internal pressure information sensed by the outlet pressure sensing unit 112 are compared to determine differential pressure information, that is, the external pressure and the internal pressure. It is the composition that produces the difference.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, as shown in FIGS. 3 and 4, a temperature calculation unit 200 may be further included.

In the case of the temperature calculation unit 200, like the pressure calculation unit 100, as shown in FIG. 3, the temperature calculation unit 200 is disposed on the front side and the rear side of the filter unit 10, respectively. (10) is a configuration that senses the temperature difference by sensing the outside temperature and indoor temperature, respectively.

As shown in FIG. 3, the temperature calculation unit 200 also does not have a special connection position or arrangement position. As will be described later, the temperature calculation unit 200 is only located at the front or rear depending on whether it is an inlet area or an outlet area. It becomes important. However, when the filter unit 10 conceptually divided into variable regions is introduced, it is important that the individual positions of the plurality of temperature calculation units 200 are arranged in individual variable regions, which will be described later.

As shown in FIG. 6 , the temperature calculation unit 200 may include an inlet temperature sensing unit 211, an outlet temperature sensing unit 212, and a temperature difference sensing unit 220.

The inlet temperature sensing unit 211 is disposed in front of the filter unit 10 and selectively senses the temperature of external air flowing into the filter unit 10.

On the other hand, the outlet temperature sensing unit 212 is disposed at the rear of the filter unit 10 and selectively senses the temperature of the air discharged from the filter unit 10.

As described above, in the case of the inlet temperature sensing unit 211 and the outlet temperature sensing unit 212, they only need to be present on the front and rear sides of the filter unit 10, and the specific placement location is not a very important factor, but will be described later. In the variable region, it is important to individually sense the temperature at each location through a plurality of inlet temperature sensing units 211 and a plurality of outlet temperature sensing units 212 in the conceptually divided filter unit 10.

In the case of the temperature difference sensing unit 220, the outdoor temperature information sensed by the inlet temperature sensing unit 211 is compared with the indoor temperature information sensed by the outlet temperature sensing unit 212, and the temperature difference information, that is, the outdoor temperature and the indoor temperature, is calculated. It is the composition that produces the difference.

In the case of the air conditioner filter replacement alarm system through selective sensing of filter replacement time according to the present invention, a filter replacement prediction unit 300 may be further included.

In the case of the filter replacement prediction unit 300, based on the differential pressure information sensed by the differential sensing unit 120, the replacement time of the filter unit 10 is proportionally determined according to the percentage by which the differential pressure information reaches a preset differential pressure threshold. It is a composition calculated as .

For example, if 30mmAg is set as the preset differential pressure threshold, if the external pressure is 100mmAg and the internal pressure is sensed as 90mmAg, a differential pressure of 10mmAg exists, reaching 30% of the preset differential pressure threshold, reaching 100 You can receive an alarm that the replacement time has reached 30%.

In the case of the air conditioner filter replacement alarm system through selective sensing of the filter replacement time according to the present invention, the filter replacement prediction unit 300 may further include a compensation calculation unit 320.

In the case of the compensation calculation unit 320, it receives the temperature difference information calculated by the temperature difference sensing unit 220, compensates for the differential pressure information, compensates the pressure of the inside compared to the pressure of the outside air in proportion to the temperature difference, and re-displays the differential pressure information. is a composition.

In the case of the air conditioner filter replacement alarm system through selective sensing of filter replacement time according to the present invention, the filter replacement prediction unit 300 may further include an area allocation unit 310.

As shown in FIGS. 2 and 3, the area allocation unit 310 divides the front face of the filter unit through a virtual boundary line (L), thereby dividing the filter unit through the virtual boundary line (L). This configuration divides the front surface of (10) into a plurality of variable regions (R).

The virtual boundary line (L) is a boundary line that conceptually divides the front and/or rear of the filter unit 10, and individual areas for sensing pressure and temperature can be conceptually divided through these lines.

When a plurality of variable regions are divided through a virtual boundary line (L), pressure and temperature are sensed for each variable region, as described above.

In this case, as shown in FIGS. 2 and 3, the pressure calculation unit 100 and the temperature calculation unit 200 are composed of a plurality, each of the plurality of pressure calculation units 100 and the plurality of temperature calculation units 200. Each is disposed in each variable region, as shown in FIGS. 2 and 3.

In this case, as shown in FIG. 7, the system of the present invention divides the pipe 1 into a plurality of pipes so as to correspond to the front and back of the filter unit 10, which the area allocation unit 310 divides into a plurality of variable areas. By forming the divided split pipes 20, the plurality of variable regions are allowed to receive individual outside air through the plurality of divided split pipes 20.

In this case, as shown in FIG. 8, the pressure calculation unit 100 is provided with a plurality of inlet pressure sensing units 111 and a plurality of outlet pressure sensing units 112, and each of the plurality of split pipes 20 Arranged above, the pressure calculation unit 100 calculates individual pressure differences for each of the plurality of variable regions.

In this case, as shown in FIG. 8, the temperature calculation unit 200 is provided with a plurality of inlet temperature sensing units 211 and a plurality of outlet temperature sensing units 212, respectively, on a plurality of split pipes 20. is arranged, the temperature calculation unit 200 calculates an individual temperature difference for each of the plurality of variable regions, and the compensation calculation unit 320 recalculates the differential pressure information for each of the plurality of variable regions (R).

In addition, as described above, the virtual boundary line (L) can be designed to be selectively expanded or contracted, and the variable region (R) can be designed to selectively expand or contract. The individual variable region (R) of is also designed to be expanded or contracted.

The filter replacement prediction unit 300 may further include a lifespan calculation unit 330.

As described above, in the case of the filter replacement prediction unit 300, based on the differential pressure information sensed by the differential sensing unit 120, the differential pressure information of the filter unit 10 is adjusted according to the percentage by which the differential pressure information reaches a preset differential pressure threshold. It is a configuration that proportionally calculates the replacement time. By calculating the degree to which this proportionally calculated trend changes over time, it is possible to predict the point in time when the preset differential pressure threshold will be reached. Life calculation unit ( 330) predicts this point in time and transmits the calculated and predicted lifespan to an external terminal, server, administrator terminal, or HMI to inform them.

The filter replacement prediction unit 300 may further include an area control unit 340.

As described above, differential pressure information is sensed for each of a plurality of variable areas (R). More specifically, compensated differential pressure information is recognized differently for each variable area. In this case, division of the portion with a large degree of differential pressure To individually control the fan (not shown) or blower (not shown) on the divided pipe so that the inlet air in the pipe 20 is small and the inlet air in the split pipe 20 in the part where the degree of differential pressure is small is increased. It is a composition that does.

As shown in FIG. 8, split pipes 20 are disposed in each variable region (R) of the filter unit 10, and individual addresses are conceptually assigned to the variable regions as shown, and these individual addresses Each of the split pipes 20 that are individually matched is also formed with an individual address, and each of the split pipes 20 is divided and arranged in the variable area (R) of the filter unit 10 that matches according to its individual address.

The scope of rights of the present invention is determined by the matters stated in the patent claims, and the parentheses used in the patent claims are not used for selective limitation, but are used for clear elements, and the descriptions within the parentheses are also interpreted as essential elements. It has to be.

1: Pipeline
10: Filter unit
100: pressure output unit
111: Inlet pressure sensing unit
112: Outlet pressure sensing unit
120: Differential sensing unit
200: Temperature calculation unit
211: Inlet temperature sensing unit
212: Outlet temperature sensing unit
220: Temperature difference sensing unit
300: Filter replacement prediction unit
310: Area allocation unit
320: Compensation calculation unit
330: Lifespan calculation unit
340: Area control unit

Claims (10)

In the system for sensing and alarming the replacement time of the air conditioner filter,
a filter unit disposed on a pipe through which air is forcibly introduced and discharged to filter the air; and
It includes a pressure calculation unit disposed on the front side and the rear side of the filter unit, respectively, to sense the outside air pressure and the inside pressure of the filter unit to sense the pressure difference,
The pressure calculation unit is,
an inlet pressure sensing unit disposed in front of the filter unit and selectively sensing the pressure of external air flowing into the filter unit;
an outlet pressure sensing unit disposed at the rear of the filter unit and selectively sensing the pressure of the air discharged from the filter unit; and
A differential sensing unit that calculates differential pressure information by comparing outdoor pressure information sensed by the inlet pressure sensing unit and internal pressure information sensed by the outlet pressure sensing unit,
The system is,
Based on the differential pressure information sensed by the differential sensing unit, a filter replacement prediction unit that proportionally calculates a replacement time of the filter unit according to the percentage by which the differential pressure information reaches a preset differential pressure threshold,
The filter replacement prediction unit,
A front face of the filter unit is divided through a virtual boundary line, and an area allocation unit divides the front face of the filter unit into a plurality of variable areas through the virtual boundary line,
The system is,
The area allocation unit forms a plurality of divided pipes to correspond to the front and back sides of the filter unit divided into the plurality of variable areas, and the plurality of variable areas are divided into the plurality of divided pipes. An air conditioner filter replacement alarm system through selective sensing of filter replacement time, characterized in that individual outdoor air is introduced through the air conditioner filter replacement alarm system.
delete The system of claim 1, wherein:
The filter further comprises a temperature calculation unit disposed on the front side and the rear side of the filter unit, respectively, to sense the temperature difference by sensing the outside air temperature and the inside temperature of the filter unit, respectively. Air conditioner filter replacement alarm system through selective sensing of replacement time.
The method of claim 3, wherein the temperature calculation unit,
an inlet temperature sensing unit disposed in front of the filter unit and selectively sensing the temperature of external air flowing into the filter unit;
an outlet temperature sensing unit disposed at the rear of the filter unit and selectively sensing the temperature of the air discharged from the filter unit; and
An air conditioner filter through selective sensing of filter replacement time, characterized in that it includes a temperature difference sensing unit that calculates temperature difference information by comparing the outside temperature information sensed by the inlet temperature sensing unit with the indoor temperature information sensed by the outlet temperature sensing unit. Replacement alarm system.
delete The method of claim 4, wherein the filter replacement prediction unit,
Comprising a compensation calculation unit that receives the temperature difference information calculated by the temperature difference sensing unit, compensates for the differential pressure information, compensates the pressure of the internal air relative to the pressure of the outside air in proportion to the temperature difference, and recalculates the differential pressure information. An air conditioner filter replacement alarm system through selective sensing of filter replacement time.
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