KR102107769B1 - Ultra-fine dust-free air clean circulator with room temperature and CO2 concentration detection - Google Patents

Abstract

The present invention relates to an ultra-fine dust-removing air cleaning circulation device using detection of an indoor temperature and CO2 concentration, capable of maintaining indoor air fresh. The present invention comprises an air supply module, an exhaust module, a recovery module, a detection module, an operation module, and a control module.

Description

Ultra-fine dust-free air clean circulator with room temperature and CO2 concentration detection

The invention ultrafine dust removal type air through comfortably maintain control the return amount of the supply amount and bet emissions and bets of the outside air to constant room air at room temperature and CO ₂ concentration detected, which can in accordance with the room temperature and CO ₂ concentration It relates to a clean circulation device.

In general, even if the concentration of fine dust or ultra fine dust in the air is high, it is filled with indoor dust and contains contaminants, and exhausting the polluted air in the room with high carbon dioxide concentration to the outside and supplying outdoor air to the room must be done. need.

In places where many people use, such as banks, restaurants, shopping malls, government offices, offices, etc., there is an air circulation device that discharges indoor polluted indoor air to improve indoor air quality and supplies outdoor air, fresh outdoor air, indoors. have.

This air circulation device is a simple structure that circulates the air by discharging the bet to the outdoors through one blower fan and discharging the bet to the outdoors through the other blower fan. There is a problem in that the cooling and cooling efficiency is lowered by discharging a relatively low temperature bet to the outside by cooling.

In order to solve the above-mentioned problems, an air clean circulation device capable of increasing the heating and cooling efficiency by allowing heat exchange between the inside and the outside air is devised and registered by the present applicant.

The air cleaning circulation device is provided with an air supply module and an exhaust module, the lower end of the air supply module and the upper end of the exhaust module communicate with each other, and the air supply module is provided with an air supply fan and an air supply damper, and the air supply module has an exhaust fan and an exhaust damper. It is a structure.,

That is, energy is reduced by supplying the outside air to the interior through the air supply module and discharging the bet to the outside through the exhaust module, so that a part of the bet is returned to the air supply module and supplied to the room together with the outside air.

However, since the return amount of the bet returned from the exhaust module to the air supply module is not adjusted, there is a problem in that it is difficult to maintain the indoor temperature and the CO ₂ concentration at the set temperature and the CO ₂ concentration.

Korea Registered Patent Publication No. 10-1992285, 2019.06.25.

The present invention is invented to solve the above problems, the indoor temperature and the indoor temperature to be maintained corresponding to the CO ₂ concentration based on the room temperature and CO ₂ concentration are set to raise the pleasant and clean at all times in indoor air and CO ₂ Clean air circulation with ultra-fine dust removal through detection of indoor temperature and CO ₂ concentration to keep the indoor air always comfortable by adjusting the discharge amount of the bet, the return amount of the bet and the supply amount of the outside air according to the concentration. The purpose is to provide a device.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood from the following description.

In order to achieve the above object, the ultra-fine dust-removing air clean circulation device by detecting the indoor temperature and CO ₂ concentration according to the present invention includes an air supply duct with a front end communicating with the interior and a rear end communicating with the outdoors, and the inside of the air supply duct. The air supply fan installed at the front end and feeding the outside air into the room, the air supply damper installed at the rear end of the air supply duct and adjusting the supply amount of the air supplied to the room by the air supply fan, and the multi-stage installed in the middle of the air supply duct An air supply module consisting of a filter unit; An exhaust duct provided at a lower portion of the air supply duct, the front end communicating with the interior, and the rear end communicating with the outdoors, an exhaust fan installed in the middle of the exhaust duct and feeding the bet to the outside, and the interior rear end of the exhaust duct. Exhaust module consisting of an exhaust damper that is installed and controls the discharge amount of the bet that is pushed to the outdoor by the exhaust fan according to the opening and closing angle; A reciprocating duct communicating the air supply duct and the exhaust duct up and down at the rear end of the air supply duct and the exhaust duct to return the bet discharged to the outdoors through the exhaust duct to the air supply duct, and installed inside the revolving duct A regression module consisting of a revolving damper that adjusts a revolving amount of a bet that is returned from the exhaust duct to the air supply duct according to the opening and closing angle; A detection module provided in the room to measure the indoor temperature and a CO ₂ measurement sensor provided in the room to measure CO ₂ concentration; An operation module provided in the room to set a desired temperature according to a user's input operation; And the and the air supply fan to keep the standard CO ₂ concentration of the room temperature is maintained at the desired temperature set by the operation module or the CO ₂ concentration is measured by the CO ₂ sensor is predetermined, as measured by the room temperature sensor It may be composed of; a control module for individually controlling the operation of the exhaust fan and the opening and closing of the air supply damper, the exhaust damper and the return damper.

The control module includes a desired temperature storage unit for storing the desired temperature from the operation module; An indoor temperature storage unit that stores the indoor temperature from the indoor temperature sensor; An air supply fan driving unit for driving the air supply fan; An exhaust fan driving unit for driving the exhaust fan; An air supply damper opening and closing unit for opening and closing the air supply damper; An exhaust damper opening and closing unit for opening and closing the exhaust damper; A return damper opening and closing unit for opening and closing the return damper; And the supply fan driving part, the exhaust fan driving part, the air supply damper opening and closing part, the exhaust damper opening and closing part, and the return damper opening and closing part so that the indoor temperature stored in the indoor temperature storage part is maintained at the desired temperature stored in the desired temperature storage part. It may include; a temperature control unit for interlocking control.

The control module CO ₂ concentration storage unit for storing the CO ₂ concentration from the CO ₂ sensor; May comprise; and CO ₂ concentration control unit for controlling the air supply fan and the exhaust fan driving unit driving the said CO ₂ concentration of the CO ₂ stored in the storage unit to maintain the concentration in the reference CO ₂ concentration.

The air supply damper has a body through which the air supply mechanism is formed along the longitudinal direction and has a cylindrical shape; A connection flange installed outside the body and fixed to a rear end of the air supply duct; A rotation axis rotatably installed inside the body and one end protruding outward of the body; An opening and closing wing fixed to the rotating shaft, a plurality of dogs arranged radially at regular angle intervals, formed in a semicircular shape, and opening and closing the air supply according to the rotation of the rotating shaft, and a gasket installed on an outer circumferential surface in close contact with the inner surface of the body; A driving motor installed outside of the body, a motor shaft connected to one end of the rotating shaft, and rotating the rotating shaft according to driving; And a housing installed outside the body and surrounding the driving motor from the outside.

The exhaust damper has a body through which an exhaust port is formed along a longitudinal direction and has a cylindrical tube shape; A connection flange installed outside the body and fixed to the rear end of the exhaust duct; A rotation axis rotatably installed inside the body and one end protruding outward of the body; An opening and closing wing fixed to the rotating shaft, a plurality of radially arranged at a predetermined angle interval, formed in a semi-circular shape, opening and closing the exhaust port according to the rotation of the rotating shaft, and a gasket installed on an outer circumferential surface in close contact with the inner surface of the body; A driving motor installed outside of the body, a motor shaft connected to one end of the rotating shaft, and rotating the rotating shaft according to driving; And a housing installed outside the body and surrounding the driving motor from the outside.

The return damper has a body having a square tube shape through which a return hole is formed along a longitudinal direction; A connection flange installed outside the body and fixed inside the revolving duct; A rotation axis rotatably installed inside the body and one end protruding outward of the body; It is fixed to the rotating shaft and a plurality of dogs are arranged radially at regular intervals, formed in a quadrangular shape, opening and closing the revolving opening according to the rotation of the rotating shaft, and an opening and closing wing on which gaskets are installed that are in close contact with the inner surface of the body; And a driving motor installed on one side of the body, a motor shaft connected to one end of the rotating shaft, and rotating the rotating shaft according to driving.

A heater module installed in the air supply module and heating the air inside the air passing through the air supply duct by the air supply fan to be pushed into the room and the air inside the air returning duct through the return duct by the exhaust fan to generate warm air. And further comprising, the detection module is provided outside the outdoor temperature sensor for measuring the outdoor temperature; An outdoor temperature storage unit that stores the outdoor temperature measured by the outdoor temperature sensor; And a heater driving unit for operating the heater module when the outdoor temperature stored in the outdoor temperature storage unit is lower than a preset minimum temperature.

The ultra-fine dust-removing air clean circulation device by detecting the indoor temperature and CO2 concentration according to the present invention according to the above-described configuration can expect the following effects.

First, it is possible to automatically adjust the supply amount of the outside air and the return amount and discharge amount of the outside air according to the indoor temperature and the concentration of CO ₂ , so that the indoor air can be kept constantly.

In addition, since the multi-stage filter unit including a HEPA filter is provided inside the air supply module, even when the outside air is supplied to the room, even ultra-fine dust can be supplied in a removed state, thereby improving indoor air quality.

In addition, a heater is provided to heat the outside air supplied to the room and the inside air returning to the room according to the outdoor temperature to increase the room temperature.

1 is an overall configuration diagram of an ultra-fine dust-removing air clean circulation device through detection of indoor temperature and CO ₂ concentration according to a preferred embodiment of the present invention.
FIG. 2 is a functional block diagram of an ultra-fine dust-removing air cleaning circulation device through detection of indoor temperature and CO ₂ concentration according to a preferred embodiment of the present invention.
3 is a perspective view of an air supply and exhaust air damper of the ultra-fine dust removal type air clean circulation device through detection of indoor temperature and CO ₂ concentration according to a preferred embodiment of the present invention.
4 is a plan view of an air supply and exhaust air damper of an ultra-fine dust removal type air clean circulation device through detection of indoor temperature and CO ₂ concentration according to a preferred embodiment of the present invention.
Figure 5 is a perspective view of a return damper of the ultra-fine dust removal type air clean circulation device through the detection of indoor temperature and CO ₂ concentration according to a preferred embodiment of the present invention.
6 is a plan view of a return damper of an ultra-fine dust-removing air cleaning circulation device through sensing of indoor temperature and CO ₂ concentration according to a preferred embodiment of the present invention.

The present invention relates to an ultra-fine dust-removing air clean circulation device that detects indoor temperature and CO ₂ concentration for supplying outdoor air to the indoor and exhausting contaminated air to the outside to make indoor air comfortable.

In particular, the ultra-fine dust-removing air clean circulation device by detecting the indoor temperature and the CO ₂ concentration according to the present invention changes the discharge amount of the bet, the return amount of the bet and the supply amount of outside air according to the indoor temperature and the CO ₂ concentration, and the opening and closing angle of the damper It is characterized in that the indoor air is always kept comfortable and clean by adjusting to.

Hereinafter, a detailed description will be given with reference to the accompanying drawings of an ultra-fine dust removal type air clean circulation device through indoor temperature and CO ₂ concentration detection according to a preferred embodiment of the present invention.

The ultra-fine dust removal type air clean circulation device 100 through detection of indoor temperature and CO ₂ concentration according to a preferred embodiment of the present invention includes an air supply module 10 and an exhaust module 20 as shown in FIGS. 1 and 2. And a regression module 30, a heater module 40, a detection module 50, an operation module 60, and a control module 70.

First, the air supply module 10 is configured to supply fresh air to the room through multi-stage filtering to remove even fine air.

To this end, the air supply module 10 is installed in the air supply duct 11 whose front end communicates with the indoor and the rear end communicates with the outdoor, and the inside air front end of the air supply duct 11 and rotates in accordance with the driving of the driving motor to allow the outside air to go indoors. Between the air supply fan (12) for feeding, and the air supply damper (13) installed at the rear end of the air supply duct (11) and controlling the outside air being forced into the room by the air supply fan (12), and the inside of the air supply duct (11). It is composed of a multi-stage filter unit 14 is installed.

Therefore, when the air supply fan 12 is operated while the air supply damper 13 is open, external air may be supplied to the room after passing through the interior of the air supply duct 11. And the inflow amount of the outside air supplied to the room can be adjusted by the driving speed of the air supply fan 12 and the opening and closing angle of the air supply damper 13.

Here, the air supply damper 13 has a body 131 having a cylindrical tube shape through which the air supply 131a is formed, and is installed on the outside of the body 131 as shown in FIGS. 3 and 4. The connecting flange 132 fixed to the rear end of the duct 11, the rotational shaft 133 rotatably installed inside the body 131, and one end protruding outwardly of the body 131, and the rotating shaft ( 133) is fixed to the outer circumferential surface, a plurality of dogs are arranged radially at regular angle intervals and are formed on a semicircular opening and closing blade 134, and installed on the outside of the body 131, the motor shaft is connected to one end of the rotating shaft 133 It consists of a driving motor 135 and a housing 136 installed outside the body 131 and surrounding the driving motor 135 from the outside.

That is, the supply air 131a of the body 131 may be opened or closed by a plurality of opening and closing wings 134 according to the rotation angle of the rotating shaft 133 according to the driving of the driving motor 135.

At this time, a gasket 134a that is in close contact with the inner circumferential surface of the body 131 is installed on the outer circumferential surface of the opening / closing wing 134 to maintain airtightness and ensure that the air supply 131a is closed.

And the opening and closing wings 134 is composed of a total of four according to the embodiment can be fixedly installed at 90-degree intervals on the outer circumferential surface of the rotating shaft (133).

Here, as the opening and closing blades 134 are composed of four and arranged at intervals of 90 degrees, the rotation shaft 133 is rotated 0 degrees, 90 degrees, 180 degrees, 270 degrees in one direction depending on the driving of the driving motor 135 The mechanism 131a can be closed.

In addition, when the rotating shaft 133 is rotated according to the driving of the driving motor 135, the rotational resistance of the rotating shaft 133 is naturally reduced as the outside air pushes the opening and closing blades 134 to perform a smooth opening and closing operation.

On the other hand, the multi-stage filter unit 14 is connected to the multi-stage in turn while maintaining the airtightness between the pre-filter 141 and the medium filter 142 and the hepa filter 143 toward the front end from the rear end of the air supply duct 11 It has a structure.

Therefore, as the outside air supplied to the room through the air supply duct 11 passes through the pre-filter 141, the medium filter 142, and the hepa filter 143 in turn, large and small foreign substances, dust and odor are removed as well as ultra-fine. Even dust can be removed.

Next, the exhaust module 20 is configured to discharge the bet supplied to the room through the air supply module 10 to the outside.

To this end, the exhaust module 20 is installed in the lower portion of the air supply duct 11, the front end communicates with the interior, the rear end communicates with the outdoors, and the exhaust duct 21 is installed in the middle of the exhaust duct 21 and the driving motor. Exhaust fan (22) for feeding the bet to the outdoors while rotating according to the driving of the, and the exhaust damper (23) installed at the inner rear end of the exhaust duct (21) to control the bet to be sent to the outside by the exhaust fan (22) It consists of.

Therefore, when the exhaust fan 22 is operated in the state in which the exhaust damper 23 is open, the inside air may be discharged to the outside through the inside of the exhaust duct 21. And the discharge amount of the bet can be adjusted by the driving speed of the exhaust fan 22 and the opening / closing angle of the exhaust damper 23.

Here, as shown in FIGS. 3 and 4, the exhaust damper 23 is formed with a body 231 through which an exhaust port 231a is formed through a longitudinal direction and has a cylindrical tube shape, and an exhaust duct installed outside the body 231. The connection flange 232 fixed to the rear end of the (21), a rotating shaft 233 rotatably installed inside the body 231 and one end protruding outward of the body 231, and a rotating shaft 233 ) Is fixed to the outer circumferential surface, a plurality of dogs are arranged radially at regular angle intervals, and the opening and closing blades 234 formed in a semi-circular shape are installed outside the body 231 and the motor shaft is connected to one end of the rotating shaft 233 It is composed of a drive motor 235 and a housing 236 installed outside the body 231 and surrounding the drive motor 235 from the outside.

That is, the exhaust port 231a of the body 231 may be opened or closed by a plurality of opening and closing wings 234 according to the rotation angle of the rotation shaft 233 according to the driving of the driving motor 235.

At this time, a gasket 234a that is in close contact with the inner circumferential surface of the body 231 is installed on the outer circumferential surface of the opening and closing wing 234 so as to maintain airtightness and ensure that the exhaust port 231a is closed.

In addition, the opening and closing wings 234 are composed of a total of four according to the embodiment can be fixedly installed at an interval of 90 degrees on the outer peripheral surface of the rotating shaft 233.

Here, as the opening and closing blades 234 are composed of four and arranged at intervals of 90 degrees, each time the rotating shaft 233 is rotated 0 degrees, 90 degrees, 180 degrees, 270 degrees in one direction according to the driving of the driving motor 235 231a may be closed.

In addition, when the rotating shaft 233 is rotated according to the driving of the driving motor 235, as the outside air pushes the opening and closing blades 234, the rotational resistance of the rotating shaft 233 is naturally reduced to perform a smooth opening and closing operation.

Next, the regression module 30 is configured to return the bet discharged to the outside by the exhaust module 20 to the air supply module 10.

That is, the regression module 30 is for re-using the heat or cold air of the bet discharged to the outside by the exhaust module 20 for energy saving.

To this end, the revolving module 30 is vertically installed at the rear ends of the air supply duct 11 and the exhaust duct 21 and communicates with the air supply duct 11 and the exhaust duct 21 up and down and outdoor along the exhaust duct 21. Revolving duct 31 for returning the exhaust air discharged to the air supply duct 11, and a revolving damper installed inside the return duct 31 and intermittently betting the return air from the exhaust duct 21 to the supply duct 11 It consists of (32).

However, the return duct 31 is located behind the exhaust fan 22. Therefore, when the exhaust fan 22 is operated while the return damper 32 is open, the bet passing through the exhaust duct 21 is returned to the supply duct 11 through the return duct 21 and supplied to the room again. have. And the return amount of the bet can be adjusted by the driving speed of the exhaust fan 22 and the opening / closing angle of the return damper 32 and the exhaust damper 23.

Here, the return damper 32 has a body 321 having a square tube shape through which a return hole 321a is formed along a longitudinal direction as shown in FIGS. 5 and 6, and is installed outside the body 321 and The connection flange 322 fixed to the inside of the revolving duct, the rotation shaft 323 rotatably installed inside the body 321 and the end protruding outward of the body 321, and the rotation shaft 323 It is fixed to the outer circumferential surface of the plurality of dogs are arranged radially at regular angle intervals, the opening and closing blades 324 formed in a rectangular shape, and installed on the outside of the body 321 and the motor shaft is connected to the end of the rotating shaft 323 to drive It consists of a motor (325).

That is, the return opening 321a of the body 321 may be opened or closed by the plurality of opening and closing wings 324 according to the rotation angle of the rotation shaft 323 according to the driving of the driving motor 325.

At this time, a gasket 324a in close contact with the inner circumferential surface of the body 321 is installed on the outer circumferential surface of the opening / closing wing 324 to maintain airtightness so that the return port 321a can be reliably closed.

And the opening and closing wings 324 is composed of a total of four according to the embodiment can be fixedly installed at an interval of 90 degrees on the outer circumferential surface of the rotating shaft (323).

Here, as the opening and closing blades 324 are composed of four and arranged at intervals of 90 degrees, the rotation shaft 323 is rotated every time 0 degrees, 90 degrees, 180 degrees, 270 degrees in one direction according to the driving of the driving motor 325 The mechanism 321a can be closed.

In addition, when the rotating shaft 323 is rotated according to the driving of the driving motor 325, as the outside air pushes the opening and closing blades 324, the rotational resistance of the rotating shaft 323 is naturally reduced to perform a smooth opening and closing operation.

Next, the heater module 40 is installed in the air supply module 10 and passes through the air supply duct 11 according to the operation of the air supply fan 12, and is driven into the room by the outside air and the exhaust fan 22. It is a configuration that generates warm air by heating the bet that passes through the return duct 31 and returns to the supply air duct 11.

That is, when the temperature difference between the indoor temperature and the outdoor temperature is large, the heater module 40 artificially heats the compressed air and the returning air to prevent the indoor temperature from rapidly lowering or rising due to the temperature of the outdoor air.

Next, the detection module 50 is configured to measure the CO ₂ concentration of the indoor temperature and the outdoor temperature and the room and measuring the measured indoor temperature and outdoor temperature and CO ₂ concentration.

That is, the detection module 50 is the air supply fan 12 and exhaust fan 22 and the air supply damper (13) according to the indoor temperature and outdoor temperature and CO ₂ concentration measurements measured at room temperature by a and the outdoor temperature and the CO ₂ concentration And the exhaust damper 23, the return damper 32, and the heater module 40 to operate while interlocking with each other by the control module 70.

To this end, the detection module 50 is provided indoors to measure the indoor temperature, the indoor temperature sensor 51, and is provided indoors to detect the CO ₂ concentration of the indoor CO ₂ measurement sensor 52, and is provided outdoors It consists of an outdoor temperature sensor 53 for measuring the outdoor temperature.

Next, the operation module 60 is configured to turn the power on / off and set the room temperature to a desired temperature according to a user's input operation.

Finally, the control module 70 is the indoor temperature and the CO ₂ concentration and the outdoor temperature measured by the indoor temperature sensor 40 and the CO ₂ measurement sensor 50 and the outdoor temperature sensor 53 of the detection module 50, respectively. According to this configuration, the supply fan 12, the exhaust fan 22, the supply damper 13, the exhaust damper 23, and the return damper 32 are individually operated.

That is, the control module 70, the supply temperature damper 13 and the exhaust damper so that the indoor temperature and CO ₂ concentration detected through the detection module is maintained at a preset indoor temperature and a preset CO ₂ concentration according to a user's input operation. (23) and the return damper (32) are operated individually to adjust the opening and closing angle of each.

Then, according to the opening / closing angles of the air supply damper 13, the exhaust damper 23, and the return damper 32 controlled by the control module 70, the outdoor air supply amount, the air exhaust amount, and the air return amount are individually controlled and the outdoor environment is controlled. Adaptively responds to the indoor air so that it can be kept comfortable and clean all the time.

To this end, the control module 70, as shown in Figure 2, the power supply unit 71, the desired temperature storage unit 721, the indoor temperature storage unit 722, the CO ₂ concentration storage unit 723 and the outdoor temperature storage unit (724) and air supply fan driving unit (731), exhaust fan driving unit (732), air supply damper opening and closing unit (741), exhaust damper opening and closing unit (742), return damper opening and closing unit (743), temperature control unit (75) and CO ₂ concentration control It is composed of a part 76 and a heater driving part 77.

Meanwhile, the power supply unit 71 applies electric power from the outside so that the supply fan 12, the exhaust fan 22, the supply damper 13, the exhaust damper 23, the return damper 32, and the heater module 40 are operated. Receive and supply operating power.

And the desired temperature storage unit 721 stores the desired temperature set by the user through the operation module 60, the indoor temperature storage unit 722 stores the indoor temperature measured by the indoor temperature sensor 51, CO2 The concentration storage unit 723 stores the CO ₂ concentration measured by the CO ₂ measurement sensor 52.

In addition, the supply fan driving unit 731 receives the operating power from the power supply unit 71 to drive the supply fan 12, and the exhaust fan driving unit 732 receives the operating power from the power supply unit 71 to receive the exhaust fan 22 ).

Here, the air supply damper opening and closing unit 741 receives the operating power from the power supply unit 71 to drive the drive motor 135 of the air supply damper 13 to open and close the air supply mechanism 131a, and the exhaust damper opening and closing unit 742 is powered The operating power is supplied from the supply unit 71 to drive the driving motor 235 of the exhaust damper 23 to open and close the exhaust port 231a, and the return damper opening and closing unit 743 receives operating power from the power supply unit 71 The driving motor 325 of the return damper 32 is driven to open and close the return opening 321a.

In addition, the temperature control unit 75 compares the indoor temperature stored in the indoor temperature storage unit 722 with the desired temperature stored in the desired temperature storage unit 721, and when the indoor temperature is higher or lower than the desired temperature, the indoor temperature is adjusted to the desired temperature. The air supply fan driving unit 731, the exhaust fan driving unit 732, the air supply damper opening and closing unit 741, the air exhaust damper opening and closing unit 742, and the return damper opening and closing unit 743 are controlled to reach the air supply fan 12 and the exhaust fan 22. The supercharger damper 13, the exhaust damper 23, and the return damper 32 are operated to interlock.

That is, when the indoor temperature is higher than the desired temperature, the temperature control unit 75 opens the air supply damper 13 and the exhaust damper 23 so as to supply the outdoor air to the indoor and discharge the bet to the outdoors, and the return damper 32 In the closed state, the air supply fan 12 and the exhaust fan 22 are driven.

Contrary to the above, when the indoor temperature is lower than the desired temperature, the air conditioning damper 13 and the exhaust damper 23 are closed and the return damper 32 so as to block the supply of outside air and return the inside air to the room. ) Is opened so that the exhaust fan 22 is driven.

In addition, CO2 concentration control unit 76 if the CO ₂ concentration compared to the standard CO ₂ concentration of the preset and the outdoor temperature storage unit a CO ₂ concentration in the CO2 concentration storage unit (723) exceeds the reference CO ₂ concentration of CO ₂ concentration The supply fan 12 is controlled by controlling the supply fan driving part 731, the exhaust fan driving part 732, the supply air damper opening and closing part 741, the exhaust damper opening and closing part 742, and the return damper opening and closing part 743 so as to decrease to a standard CO ₂ concentration. And the exhaust fan 22, the supply damper 13, the exhaust damper 23, and the return damper 32 to operate in cooperation with each other.

That is, the CO2 concentration control unit 76 opens the air supply damper 13 and the exhaust damper 23, closes the return damper 32, and drives the air supply fan 12 and the exhaust fan 22 to obtain a CO ₂ concentration. The high bet is discharged outdoors and the outside with low CO ₂ concentration is supplied indoors so that the CO ₂ concentration reaches the reference CO ₂ concentration.

The CO2 concentration control unit 76 is the air supply fan driving unit 731 and the air exhaust fan driver to reduce rapidly to a relatively large case based on CO ₂ concentration of the CO ₂ concentration difference in the CO ₂ concentration is compared with the reference CO ₂ concentration ( By controlling 732, it is possible to further increase the driving speeds of the air supply fan 12 and the exhaust fan 22.

On the other hand, the heater driving unit 77 operates the heater module 40 when the outdoor temperature stored in the outdoor temperature storage unit 724 is lower than the preset minimum temperature, and the bet that returns to the indoor air and the indoor air is returned to the room. It is heated to supply warm air to the room.

The above-described embodiments are merely exemplary, and those skilled in the art can variously modify various embodiments therefrom.

Therefore, the true technical protection scope of the present invention should include other embodiments variously modified as well as the above embodiments by the technical spirit of the invention described in the following claims.

10: air supply module
11: Supply duct
12: air supply fan
13: air supply damper
131: body
131a: air supply
132: connection flange
133: rotating shaft
134: opening and closing wings
134a: gasket
135: drive motor
136: housing
14: multi-stage filter unit
141: pre-filter
142: medium filter
143: Hepa Filter
20: exhaust module
21: exhaust duct
22: exhaust fan
23: exhaust damper
231: body
231a: vent
232: connection flange
233: rotating shaft
234: opening and closing wings
234a: gasket
235: drive motor
236: housing
30: regression module
31: regression duct
32: return damper
321: body
321a: regression
322: connection flange
323: rotating shaft
324: opening and closing wings
324a: gasket
325: drive motor
40: heater module
50: detection module
51: indoor temperature sensor
52: CO ₂ measuring sensor
53: outdoor temperature sensor
60: operation module
70: control module
71: power supply
721: desired temperature storage
722: indoor temperature storage
723: CO ₂ concentration storage
724: outdoor temperature storage
731: air supply fan driving part
732: exhaust fan driving unit
741: air supply damper opening and closing
742: exhaust damper opening and closing
743: revolving damper switch
75: temperature control unit
76: CO ₂ concentration control unit
77: heater driving unit
100: air clean circulation device

Claims (7)

An air supply duct with a front end communicating with the interior and a rear end communicating with the outside, an air supply fan installed at the inner front end of the air supply duct and for feeding the outside air to the room, and a supply air fan installed at the rear end of the air supply duct and along the longitudinal direction An air supply module comprising a multi-stage filter unit installed in the middle of the air supply duct, and a supply air damper for adjusting the supply amount of external air that is formed through and is forced into the room by the air supply fan;
An exhaust duct provided at a lower portion of the air supply duct, the front end communicating with the interior, and the rear end communicating with the outdoors, an exhaust fan installed in the middle of the exhaust duct and feeding the bet to the outside, and the interior rear end of the exhaust duct. An exhaust module formed with an exhaust damper configured to penetrate the exhaust port along the longitudinal direction and adjust the exhaust amount of the bet that is pushed out by the exhaust fan according to the opening / closing angle;
A reciprocating duct communicating the air supply duct and the exhaust duct up and down at the rear end of the air supply duct and the exhaust duct to return the bet discharged to the outdoors through the exhaust duct to the air supply duct, and installed inside the revolving duct Regression module consisting of a revolving damper for adjusting the revolving amount of the bet that is revolving through the longitudinal direction and is returned from the exhaust duct to the air supply duct according to the opening and closing angle;
A detection module provided in the room to measure the indoor temperature and a CO ₂ measurement sensor provided in the room to measure CO ₂ concentration;
An operation module provided in the room to set a desired temperature according to a user's input operation; And
Wherein said room temperature measured by the room temperature sensor held at the desired temperature set by the operation module or the air supply fan so that the CO ₂ concentration of the group remains set based on CO ₂ concentration is measured by the CO ₂ sensor and the exhaust Consists of a control module for individually controlling the driving of the fan and the opening and closing of the air supply damper, the exhaust damper and the return damper, respectively,
The return duct is located at the rear of the exhaust fan and induces the inside air passing through the exhaust duct to return to the air supply duct according to the operation of the exhaust fan while the return damper is open.
The return amount of the bet returned to the return duct is adjusted by the driving speed of the exhaust fan and the opening / closing angle of the return damper and the exhaust damper,
The control module includes a desired temperature storage unit for storing the desired temperature from the operation module, an indoor temperature storage unit for storing the indoor temperature from the indoor temperature sensor, an air supply fan driving unit for driving the air supply fan, and the exhaust The exhaust fan driving unit for driving the fan, the air supply damper opening and closing unit for opening and closing the air supply damper, the exhaust damper opening and closing unit for opening and closing the exhaust damper, the return damper opening and closing unit for opening and closing the return damper, and stored in the indoor temperature storage unit A temperature control unit for interlocking control of the air supply fan driving unit, the air exhaust fan driving unit, the air supply damper opening and closing unit, the air exhaust damper opening and closing unit, and the return damper opening unit so that the indoor temperature is maintained at the desired temperature stored in the desired temperature storage unit; and a CO ₂ concentration of a storage unit for storing the CO ₂ concentration from the CO ₂ sensor, the CO is stored in the CO ₂ concentration of the storage unit _It includes; ₂ CO ₂ concentration control unit for controlling the air supply fan driving unit and the exhaust fan driving unit so that the concentration is maintained at the reference CO ₂ concentration,
When the indoor temperature is higher than the desired temperature, the temperature control unit controls the supply air damper and the exhaust damper by interlocking and controlling the air supply fan driving unit, the air exhaust fan driving unit, the air supply damper opening and closing unit, the air exhaust damper opening, and the return damper opening and closing unit. Opening and closing the return damper and simultaneously driving the air supply fan and the exhaust fan to supply the outside air to the room and control the inside air to be discharged to the outside,
When the indoor temperature is lower than the desired temperature, the air supply fan driving part, the air exhaust fan driving part, the air supply damper opening and closing part, the exhaust damper opening and closing part, and the return damper opening and closing control are interlocked to close the air supply damper and the exhaust damper and return to By opening the damper and driving only the exhaust fan, it blocks the outside air from being supplied to the room and controls the inside air to return to the room,
The CO ₂ concentration control unit the CO ₂ concentration of the storage unit the CO ₂ concentration of the reference time is relatively higher than the CO ₂ concentration of the air supply fan drive and the exhaust fan drive and the air supply damper opening and closing portion and the exhaust damper opening and closing part and the stored in the By interlocking control of the return damper opening and closing, the air supply damper and the exhaust damper are opened, the return damper is closed, the air supply fan and the exhaust fan are driven, and the driving speed is controlled while the air is discharged to the outdoors and the air is relatively higher than the air bet. By supplying the outside air having a low CO ₂ concentration to the room, the CO ₂ concentration is controlled to correspond to the reference CO ₂ concentration,
The air supply damper, the exhaust damper, and the return damper include opening and closing wings for opening and closing the air supply port, the exhaust port, and the return port respectively according to a rotation angle according to driving of a drive motor driven by the control module. Ultra-fine dust removal type air clean circulation device by detecting indoor temperature and CO ₂ concentration. delete delete According to claim 1,
The air supply damper
A body through which the air supply mechanism is formed and has a cylindrical shape in the longitudinal direction;
A connection flange installed outside the body and fixed to a rear end of the air supply duct;
A rotation axis rotatably installed inside the body and one end protruding outward of the body;
The opening and closing wings are fixed to the rotating shaft, a plurality of dogs are arranged radially at regular angle intervals, are formed in a semicircular shape, and open and close the supply mechanism according to the rotation of the rotating shaft, and a gasket is installed on an outer circumferential surface in close contact with the inner surface of the body; And
A driving motor installed outside of the body, a motor shaft connected to one end of the rotating shaft, and rotating the rotating shaft according to driving; And
A housing installed on the outside of the body and surrounding the driving motor from the outside; an ultra-fine dust removal type air clean circulation device comprising indoor temperature and CO ₂ concentration sensing. According to claim 1,
The exhaust damper
A body having a cylindrical tube shape through which the exhaust port is formed along the longitudinal direction;
A connection flange installed outside the body and fixed to the rear end of the exhaust duct;
A rotation axis rotatably installed inside the body and one end protruding outward of the body;
The opening and closing wings are fixed to the rotating shaft, a plurality of dogs are arranged radially at a predetermined angle interval, formed in a semi-circular shape, the opening and closing of the exhaust port according to the rotation of the rotating shaft, and a gasket that is in close contact with the inner surface of the body on an outer circumferential surface;
A driving motor installed outside of the body, a motor shaft connected to one end of the rotating shaft, and rotating the rotating shaft according to driving; And
A housing installed on the outside of the body and surrounding the driving motor from the outside; an ultra-fine dust removal type air clean circulation device comprising indoor temperature and CO ₂ concentration sensing. According to claim 1,
The return damper
A body having a square tube shape through which the revolving sphere is formed along a longitudinal direction;
A connection flange installed outside the body and fixed inside the revolving duct;
A rotation axis rotatably installed inside the body and one end protruding outward of the body;
The opening and closing wings are fixed to the rotating shaft, a plurality of dogs are arranged radially at a predetermined angle intervals, formed in a square shape, the opening and closing of the revolving opening according to the rotation of the rotating shaft, and a gasket installed in close contact with the inner surface of the body on an outer circumferential surface; And
It is installed on one side of the body, the motor shaft is connected to one end of the rotating shaft, and a driving motor that rotates the rotating shaft according to the driving; ultra-fine dust removal type air clean circulation device consisting of indoor temperature and CO ₂ concentration detection. delete

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