KR102241834B1 - Apparatus and Method for controlling supply air volume - Google Patents

Abstract

The present invention estimates the amount of air leakage for each household when the ventilation system is operated in the commissioning mode, and the air supply that can optimally set the set air supply air volume supplied from the air supply fan to meet the required air supply air volume to ensure smooth exhaust performance through the range hood An object thereof is to provide an air volume control device and a supply air volume control method.
The air supply air volume control apparatus of the present invention for implementing this includes: an air supply fan for supplying outdoor air into the room to satisfy a required air supply air volume corresponding to the exhaust air volume through a range hood; An air supply fan motor rotation speed detector configured to detect a change in rotation speed of the air supply fan motor according to the operation of the air supply fan in a test operation mode; And a control unit for estimating the amount of indoor air leakage by receiving the change in the number of rotations of the air supply fan motor, and adjusting the air supply air volume of the air supply fan so that the set air supply air volume obtained by adding or subtracting the air leakage amount from the required air supply air volume is supplied to the room It is composed of.

Description

Air supply air volume control device and air supply air volume control method {Apparatus and Method for controlling supply air volume}

The present invention relates to a supply air volume control device and a supply air volume control method, and more particularly, a setting supplied from a supply fan to meet the required air supply air volume by estimating the amount of air leakage for each household in a test operation mode after installation of a ventilation system. It relates to an air supply air volume control device and a supply air volume control method capable of optimally setting the air supply air volume.

In a closed indoor space, when a certain period of time elapses, the degree of pollution of the air increases, so an odor occurs indoors or foreign matter such as dust floats. Therefore, indoor air is ventilated every predetermined time in order to remove such odors or dust from the room, and a ventilation system for exhausting contaminated indoor air to the outside and supplying fresh outdoor air to the room is used.

On the other hand, in a kitchen where food is cooked, a range hood is installed to suck contaminated air including contaminants such as dust generated during food cooking and discharge it to the outside. However, when exhaust is performed by operating only the range hood, negative pressure is formed in the room, and exhaust through the range hood is not smoothly performed. Accordingly, when the range hood is operated, the exhaust performance through the range hood can be improved by supplementing with the outdoor air supplied through the supply fan of the ventilation system as much as the exhaust air volume of the indoor air exhausted through the range hood.

In this case, a necessary air supply air volume corresponding to the exhaust air volume exhausted through the range hood must be supplied to the indoor space to ensure smooth exhaust through the range hood, thereby preventing indoor pollution and maintaining the interior in a comfortable state.

However, the amount of leakage in the indoor space where the ventilation system is installed varies depending on the environment of each household. Here, the amount of leakage refers to the amount of air flowing from the outdoor to the indoor or the amount of air flowing from the indoor to the outdoor through a window gap or the like. Since the amount of air leakage differs for each generation according to the environmental conditions of the place where the ventilation system is installed, if the air supply air volume through the air supply fan is set equally for each household without considering the amount of air leakage, smooth exhaust through the range hood. There is a problem in that it is impossible to meet the required air supply air volume for securing performance.

Korean Patent Registration No. 10-0577204

The present invention was conceived to solve the above problems, in order to meet the required air supply air volume for securing smooth exhaust performance through the range hood by estimating the amount of air leakage for each household when the ventilation system is operated in the commissioning mode. An object thereof is to provide a supply air volume control device and a supply air volume control method capable of optimally setting the supplied set air supply air volume.

The air supply air volume control apparatus of the present invention for realizing the above-described object includes: an air supply fan for supplying outdoor air into the interior to satisfy a required air supply air volume corresponding to the exhaust air volume through a range hood; An air supply fan motor rotation speed detector configured to detect a change in rotation speed of the air supply fan motor according to the operation of the air supply fan in a test operation mode; And a control unit for estimating the amount of indoor air leakage by receiving the change in the number of rotations of the air supply fan motor, and adjusting the air supply air volume of the air supply fan so that the set air supply air volume obtained by adding or subtracting the air leakage amount from the required air supply air volume is supplied to the interior. It is composed of.

The control unit includes a first table storage unit in which a first table in which data on the air supply fan air volume and the air supply fan motor rotation speed is inputted when the room is in a flat pressure state, and when indoor differential pressure is generated according to the operation of the trial operation mode. A second table storage unit in which a second table into which data on an amount of leakage corresponding to the number of rotations of the air supply fan motor is input is stored.

The control unit sets the air supply fan air volume data input to the first table storage unit as the required air supply air volume, and presses the air leakage amount data corresponding to the rotation speed of the air supply fan motor input to the second table storage unit. It can be estimated by skill.

The control unit may further include a set air supply air volume calculation unit that receives the required air supply air volume and the leakage air volume and calculates the set air supply air volume.

It may further include an air supply fan speed control voltage control unit for adjusting the speed control voltage applied to the motor of the air supply fan so that the amount of air equal to the calculated set air supply air volume is supplied to the room through the air supply fan.

The control unit may receive the number of stages of the range hood, and the first table and the second table may be provided by inputting different data corresponding to the number of stages of the lazy hood.

The air supply air volume control method of the present invention includes the steps of: (a) commissioning the air supply fan at an initial rotational speed of the air supply fan motor that satisfies the required air supply air volume corresponding to the exhaust air volume through the range hood; (b) detecting a change in the rotation speed of the air supply fan motor; (c) estimating an amount of leakage based on the change in the number of rotations of the air supply fan motor; And (d) adjusting the air supply air volume of the air supply fan so that an air volume equal to the set air supply air volume obtained by adding or subtracting the leakage air amount from the required air supply air volume is supplied to the room.

In the step (a), the air supply fan is commissioned and operated according to the data of the first table in which the air supply fan air volume and the air supply fan motor rotation speed are input when the room is in a flat state, and the step (c) includes the air supply fan It may be configured to estimate the amount of leakage according to the data of the input second table, the amount of leakage corresponding to the number of rotations of the air supply fan motor when the indoor differential pressure is generated according to the operation of.

The step (b) may be configured to detect a change in the number of rotations of the air supply fan motor after the air supply fan is commissioned.

The step (d) may be configured to adjust a speed control voltage applied to the motor of the air supply fan so that an air volume equal to the set air supply air volume is supplied to the room through the air supply fan.

Prior to the step (a), further comprising the step of receiving the number of stages of the range hood, wherein the first table and the second table are provided by inputting different data according to the number of stages of the range hood. The set air supply air volume may be calculated by setting the required air supply air volume and estimating the leakage air volume based on data input to the first table and the second table provided for each number of stages.

According to the air supply air volume control device and air supply air volume control method according to the present invention, when the pilot operation mode of the ventilation system is activated, by estimating the amount of air leakage for each household and controlling the set air supply air volume supplied through the air supply fan, the air supply amount In response to the different environmental conditions of each household, the air supply required to secure smooth exhaust performance through the range hood can be satisfied. Accordingly, contaminants generated during cooking in the kitchen can be smoothly discharged to the outdoors through the range hood, so that indoor air can be maintained in a comfortable state.

In addition, by variably controlling the speed control voltage (VSP) applied to the air supply fan motor in response to the calculated air supply air volume set by the air supply fan, it is possible to accurately and conveniently set the air supply air volume set by the air supply fan.

In addition, based on the data input to the first and second tables provided for each of the range hoods, the required air supply air volume corresponding to the number of stages of the range hood is set, and the amount of leakage is estimated to calculate the set air supply air volume. Even when the number of stages is changed, the required air supply air volume can be satisfied to ensure smooth exhaust performance through the range hood.

1 is a state diagram at the start of a test operation mode of the air supply air volume control device according to the present invention,
2 is a state diagram of the air supply air volume control device according to the present invention after operation in a trial run mode;
3 is a control block diagram of the air supply air volume control device according to the present invention;
4 is an exemplary view of a first table and a second table stored in the control unit of the air supply air volume control apparatus according to the present invention;
Figure 5 is a flow chart of the air supply air volume control method according to the present invention.

Hereinafter, the configuration and operation of a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The air supply air volume control device 1 of the present invention includes an air supply fan 20 for supplying outdoor air into the room so as to satisfy a required air supply air volume corresponding to the exhaust air volume Qe through the range hood 30, and the air supply air. An air supply fan motor rotation speed detector 110 that detects a change amount of the rotation speed RPM1 of the air supply fan motor according to the operation of the test operation mode of the fan 20, and the change amount of the rotation speed RPM1 of the air supply fan motor is received and The control unit 200 that calculates the amount of air supply Qin_1 and adjusts the air supply air volume of the air supply fan 20 so that the set air supply air volume Qs_set obtained by adding or subtracting the air leakage amount Qin_1 from the required air supply air volume is supplied to the room. Consists of including.

Referring to FIGS. 1 and 2, when a configuration of a ventilation system to which the air supply air volume control device 1 according to an embodiment of the present invention is applied and its surrounding facilities will be described, an indoor 10 such as a kitchen where food is cooked. Wow, an air supply fan 20 that sucks outdoor air and supplies it to the indoor 10 side, and a supply air supply 21 provided to supply outdoor air blown by the air supply fan 20 through the ceiling of the indoor 10 ), a range hood 30 provided on the upper side of the counter 40 where food is cooked to inhale and exhaust pollutants such as smoke generated when cooking food together with indoor air, and the range hood 30 and outdoors It may be configured to include an exhaust port 31 to connect.

In the ventilation system of the indoor 10 such as a kitchen configured as described above, in order to smoothly discharge pollutants generated when cooking food to the outdoors through the range hood 30, the range hood 30 is installed when the ventilation system is installed. It is necessary to appropriately set the air supply air volume through the air supply fan 20 so as to meet the required air supply air volume corresponding to the exhaust air volume Qe through the air supply. Here, the required air supply air volume may be set to the same air volume as the exhaust air volume Qe, or a slightly larger or smaller air volume than the exhaust air volume Qe.

In one embodiment, when the required air supply air volume is set to the same air volume as the exhaust air volume Qe, the indoor pressure becomes a pressure equal to the outdoor pressure and thus no differential pressure occurs. In another embodiment, when the required air supply air volume is set to an air volume less than the exhaust air volume Qe, the air volume exhausted is greater than the air volume supplied to form a differential pressure, so that the indoor pressure is lower than the outdoor pressure. State.

In the present specification, an example in which the required air supply air volume is set to the same air volume as the exhaust air volume Qe is described as an example, but the air supply air volume required is the air supply fan 20, the air supply port 21, the range hood 30, and It may be set to a slightly larger or smaller air volume than the exhaust air volume Qe by compensating for a pressure loss of air depending on the location where the exhaust port 31 is installed.

Referring to FIG. 1, a ventilation system including an air supply fan 20 is installed, and at the stage of starting the test operation mode, the indoor pressure P0 is a pressure state equal to the outdoor pressure and is a normal pressure state in which no differential pressure occurs, The range hood 30 is operated to meet the set exhaust air volume Qe, and the air supply fan 20 is the initial air supply fan motor rotation speed (RPM0) to supply the required air supply air volume Qs_0 corresponding to the exhaust air volume Qe. ). Even in this case, there is an initial amount of air leakage Qin_0 through a gap in the window of the room 10 or the like.

Referring to FIG. 2, when the air supply fan 20 and the range hood 30 are commissioned and operated, the indoor pressure according to the flow of indoor air by air supply through the air supply fan 20 and exhaust through the range hood 30 (P1) is changed to a pressure (P1) different from the initial indoor pressure (P0) in FIG. 1 to generate a differential pressure. Accordingly, the motor rotational speed RPM1 and the leakage amount Qin_1 of the air supply fan 20 also fluctuate. The fluctuation of the motor rotation speed RPM1 and the leakage amount Qin_1 of the air supply fan 20 is caused by a differential pressure formed according to the supply air and exhaust, and the motor rotation speed RPM1 of the air supply fan 20 is changed. By detecting ), the leakage amount Qin_1 can be estimated.

The exhaust air volume Qe through the range hood 30 is an air volume obtained by adding or subtracting the air volume supplied from the air supply fan 20 and the air leakage volume Qin_1. Accordingly, when the air volume equal to the air volume obtained by adding or subtracting the leakage air volume Qin_1 from the exhaust air volume Qe is supplied to the room 10 through the air supply fan 20, the required air supply air volume can be satisfied.

3 and 4, the air supply air volume control apparatus 1 of the present invention is an air supply fan motor that detects a change in rotation speed of the air supply fan 20 motor according to the operation of the test operation mode of the air supply fan 20. The set air supply air volume (Qs_set) obtained by adding or subtracting the air leakage amount (Qin_1) from the required air supply air volume is calculated by calculating the indoor air leakage amount (Qin_1) by receiving the rotation speed detection unit 110 and the air supply fan motor rotation speed change amount. It is configured to include a control unit 200 for adjusting the air supply air volume of the air supply fan 20 so as to supply air to the room 10.

The air supply fan motor rotation speed detection unit 110 may be configured to detect a change in the air supply fan motor rotation speed RPM1 after a trial operation of the air supply fan 20 is started.

The control unit 200 may include a first table storage unit 210, a second table storage unit 220, an air leakage amount estimating unit 230, and a set air supply air amount calculation unit 240.

4, in the first table storage unit 210, data on the air supply fan air volume and the rotation speed of the air supply fan motor in the normal pressure state as shown in FIG. 1 in which the indoor differential pressure is 0 Pa are input. 1 table is stored.

The second table storage unit 220 stores a second table in which data on the number of rotations of the air supply fan motor and the amount of leakage corresponding thereto are stored as shown in FIG. 4.

The first table and the second table are experimental result data under laboratory conditions and are previously stored in the first table storage unit 210 and the second table storage unit 220 of the control unit 200, and a ventilation system It is used as information for estimating the amount of air leakage and calculating the set air supply air volume during the commissioning of the motor.

4 illustrates data of the first table and the second table when the number of stages of the range hood 30 is one. Referring to the first table, if the air supply fan air volume is 100 cmh and the air supply fan motor rotation speed is 1000 RPM at the start of the commissioning mode of the ventilation system, and the air supply fan motor rotation speed detected after starting the test operation mode is 1120 RPM, the As shown in Table 2, the amount of leakage corresponding to the fluctuating air supply fan motor rotation speed of 1120 RPM is estimated by reading 50 cmh. At this time, the differential pressure between indoor and outdoor is -30 Pa.

In this case, the required air supply air volume is set to 100 cmh, which is the exhaust fan air volume input to the first table.

The leakage amount estimating unit 230 estimates 50 cmh of leakage amount data corresponding to 1120 RPM, which is the number of rotations of the air supply fan motor input to the second table storage unit 220, as the leakage amount.

The set air supply air volume calculation unit 240 receives the required air supply air volume of 100 cmh and the air leakage volume estimation unit 230, the air leakage volume estimated by 50 cmh, and receives the air leakage amount from the required air supply air volume (100 cmh). 50 cmh), minus 50 cmh), is calculated as the set air supply air volume (Qs_set).

The control unit 200 includes an air supply fan speed control voltage control unit 310 such that an air volume equal to the set air supply air volume calculated by the set air supply air volume calculation unit 240 is supplied to the room 10 through the air supply fan 20. A control signal is transmitted to the air supply fan, and the air supply fan speed control voltage control unit 310 adjusts a speed control voltage (VSP; Voltage to Control Speed) applied to the motor of the air supply fan 20, so that the air supply fan 20 Through this, the set air supply air volume is controlled to be supplied. For example, the speed control voltage VSP may be adjusted within a range of 0 to 5 Volt.

By variably controlling the speed control voltage (VSP) applied to the air supply fan motor in response to the set air supply air volume calculated in this way, the air supply fan 20 must actually supply air to meet the required air supply air volume. The set air supply air volume can be accurately and easily set.

As another embodiment, when the number of stages of the range 30 can be set to multiple stages, the control unit 200 receives the number of stages of the range hood 20 from the range hood stage number input unit 120, and the first table And the second table may be provided to have different experimental data corresponding to the number of stages of the lazy hood 20.

The range hood number of stages input unit 120 may be configured to receive the number of stages of the range hood 20 through interlocking with the range hood 20 through communication, or a person directly inputs the number of stages of the range hood 20. have.

According to this configuration, based on the data input to the first and second tables provided for each number of stages of the range hood 30, the required air supply air volume corresponding to the number of stages of the range hood 30 is set, and the amount of leakage is estimated. By calculating the set air supply air volume, even when the number of stages of the range hood 20 is changed, the required air supply air volume for securing smooth exhaust performance through the range hood 30 can be satisfied.

In another embodiment, the control unit 200 is the acreage (area or area) of the room 10 in which air supply through the air supply fan 20 and exhaust through the range hood 30 from the indoor acreage input unit 120 are performed. Volume) can be configured to be input. In this case, the data on the air supply fan air volume and the air supply fan motor rotation speed input to the first table storage unit 210, and the air supply fan motor rotation speed and the air leakage amount input to the second table storage unit 220 The data for each room 10 may be configured to have different experimental data for each area.

Hereinafter, a method for controlling a supply air volume according to the present invention will be described with reference to FIG. 5.

The air supply air volume control method of the present invention comprises the steps of commissioning and operating the air supply fan 20 at the initial rotational speed of the air supply fan motor that satisfies the required air supply air volume corresponding to the exhaust air volume through the range hood 30, the air supply fan ( 20) detecting a change in the number of rotations of the motor, estimating the amount of leakage based on the change in the number of rotations of the motor of the air supply fan 20, and the amount of air equal to the set air supply air volume obtained by adding or subtracting the amount of air leakage from the required air supply air volume. It is configured to include the step of adjusting the air supply air volume of the air supply fan 20 so as to supply air to the room (10).

First, the range hood 30 is operated, and the number of stages in which the range hood 30 is operated is input (S1). In the case of a specification in which the number of stages of the range hood 30 can be selected in multiple stages, a corresponding stage number is input from stage 1 to stage n, and the process described below is repeatedly performed for each stage, thereby setting a set air supply air volume corresponding to the stage number. It is set for each number.

Next, the acreage (area or volume) of the indoor 10 space in which supply through the air supply fan 20 and exhaust through the range hood 30 is formed is input (S2). However, this step S2 is performed only when the data of the first table and the second table are created by reflecting the indoor area.

Next, the air supply fan 20 is commissioned and operated (S3). In this case, the air supply fan 20 is commissioned and operated according to the data of the first table in which the air supply fan air volume and the air supply fan motor rotation speed are input when the room 10 is in a normal state.

After the test operation of the air supply fan 20 is started, the number of rotations of the air supply fan motor is detected (S4).

When the changed air supply fan motor rotation speed RPM1 is detected, the air leakage amount Qin_1 corresponding to the air supply fan motor rotation speed RPM1 is estimated according to the data of the input second table (S5). .

When the leakage amount is estimated, a set air supply air volume Qs_set is calculated as an air volume obtained by adding or subtracting the air leakage amount from the required air supply air volume, which is the air supply fan air volume input to the first table (S6).

When the set air supply air volume (Qs_set) is calculated, the speed control applied to the motor of the air supply fan 20 so that the air volume equal to the air supply air volume (Qs_set) is supplied to the room 10 through the air supply fan 20 The voltage (VSP) is adjusted (S7), and the commissioning mode of the ventilation system is terminated.

The steps S1 to S7 may be repeatedly performed while changing the number of stages of the range hood 30. The control of the air supply air volume of the present invention, when the ventilation system is installed and operated in the trial operation mode, individually estimates the amount of air leakage that is different for each household, and adjusts the set air supply air volume by reflecting the estimated air volume. , It is possible to optimally set the set air supply air volume, which is the actual air supply air volume, in the air supply fan 20 so as to meet the required air supply air volume according to the indoor environmental conditions of each household.

In this way, the set air supply air volume set once during the commissioning of the ventilation system is applied so that the set value is continuously maintained without fluctuation during the operation of the ventilation system in the future.

According to the above configuration, when the ventilation system is operated in the trial run mode, by estimating the amount of air leakage for each household and controlling the set air supply air volume through the air supply fan 20 optimally, the environmental conditions for each household with a difference in the amount of air leakage. Corresponding to this, it is possible to meet the required air supply air volume for securing smooth exhaust performance through the range hood 30. Accordingly, contaminants generated during cooking in the kitchen can be smoothly discharged to the outdoors through the range hood 30, so that indoor air can be maintained in a comfortable state.

As described above, the present invention is not limited to the above-described embodiments, and modifications are apparent by those of ordinary skill in the art without departing from the technical spirit of the present invention claimed in the claims. It is possible, and such modifications are within the scope of the present invention.

1: supply air volume control device 10: indoor
20: air supply fan 21: air supply
30: range hood 31: exhaust port
40: worktop 110: air supply fan motor rotation speed detection unit
120: hood level input unit 130: indoor area input unit
200: control unit 210: first table storage unit
220: second table storage unit 230: leakage amount estimation unit
240: set air supply air volume calculation unit 310: supply fan speed control voltage control unit
320: air supply fan motor

Claims (11)

An air supply fan for supplying outdoor air into the room so as to satisfy a required air supply air volume corresponding to the exhaust air volume through the range hood;
An air supply fan motor rotation speed detector configured to detect a change in rotation speed of the air supply fan motor according to the operation of the air supply fan in a test operation mode; And
A control unit configured to receive a change in the number of rotations of the air supply fan motor to estimate an indoor air leakage amount, and to adjust the air supply air volume of the air supply fan so that a set air supply air volume obtained by adding or subtracting the air leakage amount from the required air supply air volume is supplied to the interior; But,
The control unit includes a first table storage unit in which a first table in which data on the air supply fan air volume and the rotation speed of the air supply fan motor is input when the room is in a flat pressure state is stored, and when indoor differential pressure is generated according to the operation of the trial operation mode. A second table storage unit in which a second table in which data on an amount of leaked air corresponding to the number of rotations of the air supply fan motor is input is stored, and the air supply fan air volume data input to the first table storage unit is set as the required air supply air volume, , Estimating leakage amount data corresponding to the rotation speed of the air supply fan motor input to the second table storage unit as the leakage amount, and calculating the set air supply air volume by receiving the required air supply air volume and the air leakage amount. Air supply air volume control device. delete delete delete The method of claim 1,
Air supply air volume control device further comprising an air supply fan speed control voltage control unit for adjusting the speed control voltage applied to the motor of the air supply fan so that the amount of air equal to the calculated set air supply air volume is supplied to the room through the air supply fan. The method of claim 1,
The control unit receives the number of stages of the range hood,
And the first table and the second table are provided by inputting different data corresponding to the number of stages of the range hood. (a) commissioning and operating the air supply fan at an initial rotational speed of the air supply fan motor that satisfies the required air supply air volume corresponding to the exhaust air volume through the range hood;
(b) detecting a change in the rotation speed of the air supply fan motor;
(c) estimating an amount of leakage based on the change in the number of rotations of the air supply fan motor; And
(d) adjusting the air supply air volume of the air supply fan so that an air volume equal to the set air supply air volume obtained by adding or subtracting the leak amount from the required air supply air volume is supplied to the room;
Including,
In the step (a), the air supply fan is commissioned and operated according to the data of the first table in which the air supply fan air volume and the air supply fan motor rotation speed are inputted when the room is in a flat state,
The step (b) detects a change in the rotation speed of the air supply fan motor after the test operation of the air supply fan and
The step (c) comprises estimating the amount of air leakage according to data of a second table into which the amount of air leakage corresponding to the number of revolutions of the air supply fan motor when the indoor differential pressure is generated due to the operation of the air supply fan is input. Control method. delete delete The method of claim 7,
In the step (d), the speed control voltage applied to the motor of the air supply fan is adjusted so that the amount of air equal to the set air supply air volume is supplied to the room through the air supply fan. The method of claim 7,
Prior to the step (a), further comprising the step of receiving the number of stages of the range hood, wherein the first table and the second table are provided by inputting different data according to the number of stages of the range hood,
A supply air volume, characterized in that the set air supply air volume is calculated by setting the required air supply air volume and estimating the leakage air volume based on the data input to the first table and the second table provided for each stage of the range hood. Control method.

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