KR102231011B1 - Eco-friendly and high-efficiency air conditioning system - Google Patents

Abstract

The present invention relates to an eco-friendly and highly efficient air conditioning system. A structure of the present invention is improved to recognize a current atmospheric situation through a sensor measuring an indoor air state and has an additional control unit to control a flow amount of air to selectively control a sucking intensity of external air and a discharging intensity of internal air to maintain a constant indoor air purification level. More specifically, a dust connection structure is improved to prevent damage and air leakage of a connection portion, and fine dust is prevented from being stacked through anti-bacterial and antistatic coating in the inside of a duct. Moreover, the present invention has a main configuration comprising a blowing duct line (100), an exhaust duct line (200), a conflux duct line (300), and a variable air amount control unit (400) for reducing the indoor fine dust by filtering the fine dust in the air introduced from the outside.

Description

Eco-friendly and high-efficiency air conditioning system

The present invention relates to an eco-friendly and high-efficiency air conditioning system, and in more detail, the structure is improved to identify the current atmospheric situation through a sensor that measures the indoor air condition and to control the air flow rate by providing a separate control unit to inhale and discharge the internal air. The strength of the duct can be selectively adjusted to keep the indoor air cleanliness constant.In particular, the duct connection structure is improved to prevent damage and leakage at the connection part, and fine dust is accumulated through the antibacterial and antistatic coating inside the duct. The present invention relates to an eco-friendly and high-efficiency air conditioning system capable of reducing indoor fine dust by filtering fine dust in the air introduced from the outside while preventing it.

In general, air conditioning is a type of installing an air conditioner in a machine room and leading the conditioned air to each room through a duct. The main functions were temperature and humidity control and air inflow and outflow, but recently, technologies for controlling air cleanliness, airflow control devices, and fine dust reduction are emerging as technology development issues.

For example, a duct is a passage through which air flows and is used as a structure for supplying and exhausting, and for blowing. In some cases, depending on the use of the duct, dust in the duct adheres due to corrosion of the connection part or condensation inside the duct, or bacteria grow due to moisture inside the duct. In the past, there are many cases of making galvanized steel, but recently, a technology of making a plate with corrosion resistance or coating a coating agent (silver nano) having antistatic and antibacterial functions is applied.

As an example, in the existing air purification system, air is introduced into the room through a filtering device such as a filter by inhaling outdoor air, and contaminated air in the room is discharged to the outside through a separate discharge device. That is, a certain amount of air is introduced and It is difficult to optimize indoor air cleanliness as it is composed of a single structure system in which outflow occurs.

Accordingly, in Patent Registration No. 10-2129080 disclosed in the prior art, a main body for exchanging heat between indoor air and outdoor air; A water supply tank for receiving and draining water from the water supply means; Humidification induction means for inducing humidification while removing harmful substances in the air; A water tank provided with a water supply means for resupplying water to the water supply tank for use; And a configuration including a control unit for controlling the configurations has been previously proposed.

However, in the prior art, contaminated indoor air is discharged to the outside and clean air is supplied indoors.However, in order to control indoor air cleanliness, contaminants generated indoors are diluted with outdoor air to be kept below an appropriate allowable concentration. However, there was a problem that the indoor air cleanliness could not be optimized because the TSms device capable of monitoring the indoor air condition and a separate device capable of appropriately controlling the intake of outside air and the discharge of internal air were not provided.

In addition, in the case of a duct that transports air, the problem of durability degradation such as easily corroding the connection part or generating a gap occurs frequently, and in particular, there is no configuration to prevent dust accumulation and bacterial growth inside the duct. .

KR 10-2129080 B1 (2020.06.25.)

Accordingly, the present invention was conceived to solve the above problems, and the structure was improved to identify the current atmospheric situation through a sensor measuring the indoor air condition and to control the air flow rate by providing a separate control unit. The strength can be selectively adjusted to keep the indoor air cleanliness constant.In particular, the duct connection structure is improved to prevent damage and leakage in the connection area, and fine dust, etc., accumulates through antibacterial and antistatic coatings inside the duct. Its purpose is to provide an eco-friendly and high-efficiency air conditioning system capable of reducing indoor fine dust by filtering fine dust in the air introduced from the outside while preventing it.

In order to achieve this object, a feature of the present invention is that an air supply blower 120 and a filter module 140 are installed to filter outdoor air and introduce it to the indoor side, and an air supply damper for controlling the amount of outdoor air inflow at the end of the inlet side ( Blowing duct line 100 provided with 110; An exhaust duct line 200 having an exhaust blower 220 installed to discharge indoor air to the outdoor side, and an exhaust damper 210 configured to control an exhaust amount of indoor air at an end of the outlet side; A return duct line 300 provided to re-inflow the indoor air exhausted through the exhaust duct line 200 into the blowing duct line 100, and adjust the amount of indoor air re-inflow by the flow damper 320; And a variable air volume control unit 400 that measures the indoor air pollution degree and controls the amount of outdoor air introduced through the blowing duct line 100 to increase in proportion to the indoor air pollution degree.

At this time, the blowing duct line 100 includes a first blowing pipe 101 extending to the outdoor side, an air supply damper 110 installed in the first blowing pipe 101 to control the amount of outdoor air inflow, and a first blowing pipe 101. ) Is connected to the filter module 140 to filter outdoor air, the air supply blower 120 connected to the outlet of the filter module 140 to inhale outdoor air, and the air supply blower 120 is connected to the outlet of each indoor compartment. It characterized in that it comprises a second blowing pipe 102 for supplying the filtered outdoor air.

In addition, the exhaust duct line 200 includes a first exhaust pipe 201 connected to each compartment of the room, an exhaust blower 220 connected to the first exhaust pipe 201 to suck indoor air, and an exhaust fan 220. ) Is connected to the outlet of the second exhaust pipe 202 to transfer indoor air to the outdoor side, and an exhaust damper 210 installed in the second exhaust pipe 202 to control the amount of indoor air exhaust.

In addition, the circulation duct line 300 is installed in the first ventilation pipe 101, the T-shaped blowing branch pipe 160 disposed between the air supply damper 110 and the filter module 140, and the second exhaust pipe ( A T-type exhaust branch pipe 260 installed in 202 and disposed between the exhaust damper 210 and the exhaust blower 220, and the T-type blowing branch pipe 160 and the T-type exhaust branch pipe 260 are connected. And, it characterized in that it comprises a circulation pipe 310 provided to re-intake indoor air, and a circulation damper 320 installed in the circulation pipe 310 to adjust the amount of indoor air re-inflow.

In addition, the variable air volume control unit 400 includes a blowing damper 410 installed at the outlet side of the blowing duct line 100 to control the amount of outdoor air introduced, and a sensor module 420 that detects air pollution levels for each indoor compartment. It characterized in that it comprises a.

In addition, the duct pipe 10 forming the air movement passage of the blowing duct line 100 and the exhaust duct line 200 is divided into a plurality and connected by a duct joint unit 20, and the duct joint unit 20 ) Is a plurality of'b'-shaped brackets 30 forming a concave groove 32 on one side by bending a plurality of incision plates divided by cutting the edge of the end of the duct pipe 10 in two stages in an outward direction Wow, it is disposed at the corner of the end of the duct pipe 10, the'b' in which both ends are accommodated in the intaglio groove 32 of the neighboring'b'-shaped bracket part 30, and a plurality of fastening holes 42 are formed. Fixed bolts 50 for fastening the type reinforcing bar 40 and the'a' type reinforcing bar 40 installed at the end of the neighboring duct pipe 10, and the'b' at the end of the neighboring duct pipe 10 It characterized in that it includes a gasket 60 to maintain airtightness between the'shaped bracket portion 30.

In addition, the duct pipe 10 is characterized in that the filter sheet 70 is provided with antibacterial and antistatic treatment on the inner circumferential surface.

In addition, the filter sheet 70 is formed of a belt-type filter having both ends connected to each other and is cleaned while being orbitally moved by a cleaning means 500, and the cleaning means 500 includes the duct tube 10 as a square tube. By forming, a plurality of inner guide rollers 510 guiding the trajectory movement of the filter sheet 70 at three inner corners, and the duct pipe 10 is formed in the longitudinal direction at the remaining one of the inner corners of the duct pipe 10, An incision line 520 provided to enter and exit the filter sheet 70 into and out of the duct pipe 10, and disposed at an inner edge of the duct pipe 10 corresponding to the incision line 520, and a driving part 532 A finishing roller 530 that pressurizes and clamps the filter sheet 70 to the inner circumferential surface of the duct pipe 10 while opening and closing the cutting line 520 and outside the duct pipe 10 corresponding to the cutting line 520 An outer guide roller 540 which is disposed and guides the filter sheet 70 drawn out of the duct pipe 10 through the cut line 520 to be revolved and drawn into the duct pipe 10, and the outer guide roller It is installed between the cleaning section 550 in which the filter sheets 70 which are orbitally moved by turning around the axis 540 are disposed to face each other, and the filter sheets 70 facing each other of the cleaning section 550, A suction duct 560 having a suction port 562 formed to collect foreign substances including dust, a vibration generating unit 570 installed on the opposite side of the filter sheet 70 facing the suction duct 560 to apply vibration, and , An ultraviolet lamp 580 installed inside the suction port 562 of the suction duct 560 to sterilize and disinfect the filter sheet 70 by irradiating ultraviolet rays, and the outer peripheral surface of the duct pipe 10 corresponding to the cut line 520 It is installed in the outer guide roller 540 characterized in that it comprises a transparent cover 590 provided to accommodate the filter sheet 70 to be orbited in the isolation space.

In addition, when the cleaning mode by the cleaning means 500 is executed, the cutting line 520 is opened by the movement of the finishing roller 530 and the fixing force of the filter sheet 70 is released, and thereafter, the outer guide roller 540 ) By the driving force of the filter sheet 70 and the orbital movement of the filter sheet 70 being drawn out of the duct pipe 10 through the cut line 520 is started, by the vibration generating unit 570 The filter sheet 70 is vibrated to remove foreign substances including dust, and the ultraviolet lamp 580 is turned on while the foreign substances are collected through the suction port 562 of the suction duct 560 on the opposite side of the filter sheet 70 The filter sheet is introduced into the duct pipe 10 through the cut line 520 in a state in which the filter sheet is sterilized by the ultraviolet rays output by the filter sheet 70 by the control unit 502. It characterized in that it is set to stop after the rotation operation by the number of rotations corresponding to the length of ).

In addition, the control unit 502 is provided so that the cleaning mode is executed at a set time period, and the blowing duct line 100 and the exhaust duct line 200 are turned off at a time when the cleaning mode is executed, or the control unit 502 is It is characterized in that it is provided to execute the cleaning mode at a time when the off operation signal of the blowing duct line 100 and the exhaust duct line 200 is sensed.

In addition, the end of the blower duct line 100 connected to the air supply blower 120 is connected to the inlet of the exhaust blower 220 of the exhaust duct line 200 by a direct pipe 504 and is connected to a plurality of cleaning dampers (D). Thus, the blowing duct line 100, the exhaust duct line 200, and the direct pipe 504 are provided to open and close, and after the cleaning mode is executed or the cleaning mode is executed by the control unit 502, the cleaning damper ( D) The blower duct line 100 and the exhaust blower 220 communicate with each other through the direct pipe 504 by operation, the end of the exhaust duct line 200 connected to the exhaust blower 220 is closed, and the air supply blower 120 ) When the exhaust blower 220 is turned on while the discharge port is closed, the air inside the blowing duct line 100 is exhausted to the outside, and foreign matters separated during the cleaning mode are removed together with the air. do.

According to the above configuration and operation, the present invention is improved in structure to determine the current atmospheric situation through a sensor measuring the indoor air condition and to control the air flow rate by providing a separate control unit, so that the intensity of the intake and discharge of the outside air can be selectively adjusted. It maintains a constant indoor air cleanliness, and in particular, improves the duct connection structure to prevent damage and leakage at the connection part, and prevents the accumulation of fine dust through antibacterial and antistatic coatings inside the duct. There is an effect of reducing fine dust indoors by filtering fine dust in the incoming air.

1 is an overall configuration diagram showing an eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention.
2 is a block diagram showing a duct joint means of an eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention.
3 is a block diagram showing a cleaning means of an eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention.
Figure 4 is a configuration diagram showing the operating state of the cleaning means of the eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention.
5 is a block diagram showing a direct pipe of an eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of the present invention, when it is determined that the subject matter of the present invention may be unnecessarily obscured as matters that are apparent to those skilled in the art with respect to known functions related to the present invention, a detailed description thereof will be omitted.

1 is a block diagram showing the overall configuration of an eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention, and FIG. 2 is a configuration diagram showing a duct joint means of an eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention. 3 is a configuration diagram showing the cleaning means of the eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention, Figure 4 is an operating state of the cleaning means of the eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention Fig. 5 is a block diagram showing a direct pipe of an eco-friendly and high-efficiency air conditioning system according to an embodiment of the present invention.

The present invention relates to an eco-friendly and high-efficiency air conditioning system, which is improved in structure to determine the current atmospheric situation through a sensor measuring indoor air condition and to control the air flow rate by providing a separate control unit to increase the intensity of intake and discharge of outdoor air. It can be selectively adjusted to keep the indoor air cleanliness constant, and in particular, the duct connection structure is improved to prevent damage and leakage at the connection part, and the accumulation of fine dust, etc. through antibacterial and antistatic coatings inside the duct is prevented. In addition, a blowing duct line 100, an exhaust duct line 200, a circulation duct line 300, and a variable air volume control unit 400 are included to filter fine dust in the air introduced from the outside to reduce indoor fine dust. And make it the main composition.

In the blowing duct line 100 according to the present invention, an air supply blower 120 and a filter module 140 are installed to filter outdoor air and introduce it to the indoor side, and an air supply damper 110 that controls the amount of outdoor air inflow at the end of the inlet side. ) Is provided.

At this time, the blowing duct line 100 includes a first blowing pipe 101 extending to the outdoor side, an air supply damper 110 installed in the first blowing pipe 101 to control the amount of outdoor air inflow, and a first blowing pipe 101. ) Is connected to the filter module 140 to filter outdoor air, the air supply blower 120 connected to the outlet of the filter module 140 to inhale outdoor air, and the air supply blower 120 is connected to the outlet of each indoor compartment. It includes a second blowing pipe 102 for supplying the filtered outdoor air.

In addition, in the exhaust duct line 200 according to the present invention, an exhaust blower 220 is installed to discharge indoor air to the outdoor side, and an exhaust damper 210 for controlling the amount of indoor air exhaust is provided at an end of the outlet side.

Here, the exhaust duct line 200 includes a first exhaust pipe 201 connected to each compartment of the room, an exhaust blower 220 connected to the first exhaust pipe 201 to suck indoor air, and an exhaust blower 220 ) And a second exhaust pipe 202 connected to the outlet of the air to transfer indoor air to the outdoor side, and an exhaust damper 210 installed in the second exhaust pipe 202 to control the amount of indoor air exhaust.

In addition, the circulation duct line 300 according to the present invention re-inflows the indoor air exhausted through the exhaust duct line 200 to the blowing duct line 100, and the amount of indoor air re-inflow is controlled by the circulation damper 320. It is provided to adjust.

At this time, the circulation duct line 300 is installed in the first ventilation pipe 101, the T-shaped blowing branch pipe 160 disposed between the air supply damper 110 and the filter module 140, and the second exhaust pipe ( A T-type exhaust branch pipe 260 installed in 202 and disposed between the exhaust damper 210 and the exhaust blower 220, and the T-type blowing branch pipe 160 and the T-type exhaust branch pipe 260 are connected. And, it includes a circulation pipe 310 provided to re-intake indoor air, and a circulation damper 320 installed in the circulation pipe 310 to adjust the amount of indoor air re-inflow.

In addition, the variable air volume control unit 400 according to the present invention is provided to measure the indoor air pollution degree and control the amount of outdoor air introduced through the blowing duct line 100 to increase in proportion to the indoor air pollution degree.

Here, the variable air volume control unit 400 includes a blowing damper 410 installed at the outlet side of the blowing duct line 100 to control the amount of outdoor air introduced, and a sensor module 420 that detects air pollution levels for each indoor compartment. Includes.

Accordingly, the amount of outdoor air introduced is adjusted in proportion to the air pollution degree of each indoor compartment measured by the sensor module 420, and the indoor air is diluted by the outdoor air, and the cleanliness level is maintained under a condition that minimizes deterioration of cooling and heating efficiency. .

At this time, the duct pipe 10 forming the air movement passage of the blowing duct line 100 and the exhaust duct line 200 is divided into a plurality and connected by a duct joint unit 20.

In addition, the duct joint means 20 is a plurality of ′ forming a concave groove 32 on one side by bending a plurality of incision plates divided by cutting the edge portion of the end of the duct pipe 10 in two stages in an outward direction. Arranged at the corners of the b'-shaped bracket part 30 and the end of the duct pipe 10, the both ends are accommodated in the intaglio groove 32 of the neighboring'b'-shaped bracket part 30, and a plurality of fastening holes ( A fixing bolt 50 for fastening the'ㄱ'-type reinforcing bar 40 on which 42) is formed and the'a'-type reinforcing bar 40 installed at the end of the neighboring duct pipe 10, and the neighboring duct It includes a gasket 60 to maintain airtightness between the'b'-shaped bracket portion 30 at the end of the tube 10.

In this way, there is an advantage that the duct pipe 10 adjacent to the duct pipe 10 and the'b'-shaped reinforcing bar 40 are firmly reinforced and fastened at the corners to improve the durability of the connection portion.

In addition, the duct pipe 10 is provided with an antibacterial and antistatic filter sheet 70 on its inner circumferential surface. As described above, the filter sheet 70 prevents accumulation of dust and bacteria in the duct pipe 10, and a high-functional filter including a HEPA filter is attached to the fine dust flowing into the duct pipe 10. It is also possible to filter and discharge.

In FIG. 3, the filter sheet 70 is formed of a belt-type filter having both ends connected to each other, and is cleaned while being orbitally moved by a cleaning means 500, and the cleaning means 500 squares the duct pipe 10 Formed as a tube, a plurality of inner guide rollers 510 guiding the trajectory movement of the filter sheet 70 at three inner corners, and a duct tube 10 formed in the longitudinal direction at the remaining one of the inner corners of the duct tube 10 The duct pipe 10 is disposed at an inner corner position of the duct pipe 10 corresponding to the cut line 520 and the cut line 520 provided to enter the filter sheet 70 in and out, and the driving unit ( A finishing roller 530 which is transported by 532 and opens and closes the cut line 520 to pressurize the filter sheet 70 to the inner circumferential surface of the duct pipe 10, and the duct pipe 10 corresponding to the cut line 520 An outer guide roller 540 which is disposed on the outside and guides the filter sheet 70 drawn out of the duct pipe 10 through the cut line 520 to be revolved and drawn into the duct pipe 10, and the outer side It is installed between the cleaning section 550 in which the filter sheets 70 that are orbitally moved by rotating the guide roller 540 to face each other, and the filter sheets 70 facing each other of the cleaning section 550, A suction duct 560 having a suction port 562 formed to collect foreign substances including dust in both directions, and a vibration generator 570 installed on the opposite side of the filter sheet 70 facing the suction duct 560 to apply vibration. ), an ultraviolet lamp 580 installed inside the suction port 562 of the suction duct 560 to sterilize the filter sheet 70 by irradiating ultraviolet rays, and a duct pipe 10 corresponding to the cut line 520 ) It is installed on the outer circumferential surface and includes a transparent cover 590 provided to accommodate the filter sheet 70 orbitally moved through the outer guide roller 540 in the isolation space.

Looking at the operating state of the cleaning means 500 through FIG. 4, when the cleaning mode by the cleaning means 500 is executed, the cutting line 520 is opened by the movement of the finishing roller 530 and the filter sheet (70) The holding force is released.

Thereafter, when the filter sheet 70 is actuated by the driving force of the outer guide roller 540 and the orbital movement in which the filter sheet 70 is drawn out of the duct pipe 10 through the cut line 520 starts, vibration The filter sheet 70 is vibrated by the generator 570 to remove foreign substances including dust, and the foreign substances are collected through the suction port 562 of the suction duct 560 from the opposite side of the filter sheet 70, thereby collecting ultraviolet rays. The filter sheet is sterilized by ultraviolet rays output by the on operation of the lamp 580 and is introduced into the duct pipe 10 through the cutting line 520.

At this time, the outer guide roller 540 is set to be stopped after rotation by the number of rotations corresponding to the length of the filter sheet 70 by the control unit 502.

In addition, the control unit 502 is provided so that the cleaning mode is executed at a set time period, and the blowing duct line 100 and the exhaust duct line 200 are turned off at a time when the cleaning mode is executed, or the control unit 502 is It is provided to execute the cleaning mode at a time when the off operation signal of the blowing duct line 100 and the exhaust duct line 200 is sensed.

5, the end of the air duct line 100 connected to the air supply fan 120 is connected to the inlet of the exhaust blower 220 of the exhaust duct line 200 by a direct pipe 504, and a plurality of cleaning dampers D ) Is provided so that the blowing duct line 100, the exhaust duct line 200, and the direct pipe 504 are opened and closed.

After the cleaning mode is executed or the cleaning mode is executed by the control unit 502, the blowing duct line 100 and the exhaust blower 220 are communicated through the direct pipe 504 by the operation of the cleaning damper (D). , When the exhaust blower 220 is turned on while the end of the exhaust duct line 200 connected to the exhaust blower 220 is closed, the air supply blower 120 discharge port is closed, the air inside the blower duct line 100 is external. It is provided so that foreign matters that are released while being exhausted while executing the cleaning mode are removed together with the air.

As such, the structure has been improved to identify the current air condition through a sensor that measures the indoor air condition and to control the air flow rate with a separate control unit, so that the intensity of the intake and discharge of the outside air can be selectively adjusted to keep the indoor air cleanliness constant. , In particular, by improving the duct connection structure, it prevents damage and leakage at the connection part, prevents accumulation of fine dust, etc. through the antibacterial and antistatic coating inside the duct, and filters fine dust in the air entering from the outside. There is an advantage of reducing indoor fine dust.

As described above, the most preferred embodiments of the present invention have been described in the detailed description of the present invention, but various modifications are possible within the scope not departing from the technical scope of the present invention. Therefore, the scope of protection of the present invention is not limited to the above embodiments, but the scope of protection should be recognized from the techniques of the claims to be described later and from these techniques to equivalent technical means.

100: ventilation duct line 200: exhaust duct line
300: circulation duct line 400: variable air volume control unit

Claims (11)

A first ventilation pipe 101 extending to the outdoor side, an air supply damper 110 installed in the first ventilation pipe 101 to control the amount of outdoor air inflow, and a filter module connected to the first ventilation pipe 101 to filter outdoor air (140) and a second air supply blower 120 connected to the outlet of the filter module 140 to inhale outdoor air, and a second air supply pipe connected to the outlet of the air supply blower 120 to supply filtered outdoor air to each indoor compartment ( Blowing duct line 100 including 102;
A first exhaust pipe 201 connected to each compartment in the room, an exhaust blower 220 connected to the first exhaust pipe 201 to suck indoor air, and an exhaust blower 220 connected to the outlet of the exhaust fan 220 to direct indoor air to the outdoor side. An exhaust duct line 200 including a second exhaust pipe 202 to be transferred and an exhaust damper 210 installed in the second exhaust pipe 202 to control an amount of indoor air exhaust;
It is installed in the first ventilation pipe 101, the T-shaped blowing branch pipe 160 disposed between the air supply damper 110 and the filter module 140, and installed in the second exhaust pipe 202, the exhaust damper 210 ) And the T-type exhaust branch pipe 260 disposed between the exhaust blower 220, and the T-type blowing branch pipe 160 and the T-type exhaust branch pipe 260 are connected, and provided to re-introduce indoor air. A circulation duct line 300 including a circulation pipe 310 and a circulation damper 320 installed in the circulation pipe 310 to control the amount of indoor air re-inflow; And
Including; a variable air volume control unit 400 that measures the indoor air pollution degree and controls the amount of outdoor air introduced through the blowing duct line 100 to increase in proportion to the indoor air pollution degree,
The duct pipe 10 forming the air movement passage of the blowing duct line 100 and the exhaust duct line 200 is divided into a plurality and connected by a duct joint unit 20, and the duct joint unit 20 is , A plurality of'b'-shaped bracket portions 30 forming an intaglio groove 32 on one side by bending a plurality of incision plates divided by cutting the edge portion of the end of the duct pipe 10 in two stages in an outward direction, Arranged at the edge of the end of the duct pipe 10, the both ends are accommodated in the intaglio groove 32 of the neighboring'b'-shaped bracket 30, and a'b'-shaped reinforcement in which a plurality of fastening holes 42 are formed The bar 40 and the'b'-shaped reinforcement bar 40 installed at the end of the neighboring duct pipe 10 are fastened to each other, and a'b' shape at the end of the neighboring duct pipe 10 Includes a gasket 60 to maintain airtightness between the bracket portion 30,
The duct pipe 10 is provided with an antibacterial and antistatic filter sheet 70 on the inner circumferential surface,
The filter sheet 70 is formed of a belt-type filter having both ends connected to each other and is cleaned while being orbited by a cleaning means 500, and the cleaning means 500 forms a duct tube 10 into a square tube. , A plurality of inner guide rollers 510 guiding the trajectory movement of the filter sheet 70 at three inner corners, and the duct pipe 10 is formed in the longitudinal direction at the remaining one of the inner corners of the duct pipe 10, (10) The incision line 520 provided to enter and exit the filter sheet 70 to the inside and the outside, and the incision line 520 and the corresponding duct pipe 10 is disposed at the inner edge position, by the drive unit 532 A finishing roller 530 that pressurizes the filter sheet 70 to the inner circumferential surface of the duct pipe 10 while being transferred to open and close the cutting line 520, and is disposed outside the duct pipe 10 corresponding to the cutting line 520 , An outer guide roller 540 for guiding the filter sheet 70 drawn out of the duct pipe 10 through the cut line 520 to be revolved and introduced into the duct pipe 10, and the outer guide roller 540 ) Is installed between the cleaning section 550 in which the filter sheets 70 that are orbitally moved by turning around the axis are disposed opposite to each other, and the filter sheets 70 facing each other in the cleaning section 550, thereby removing dust in both directions. A suction duct 560 having a suction port 562 formed to collect foreign substances, and a vibration generating unit 570 installed on the opposite side of the filter sheet 70 facing the suction duct 560 to apply vibration, and suction An ultraviolet lamp 580 installed inside the suction port 562 of the duct 560 to sterilize the filter sheet 70 by irradiating ultraviolet rays, and the duct pipe 10 corresponding to the cut line 520 installed on the outer circumferential surface Eco-friendly and high-efficiency air conditioning system, characterized in that it comprises a transparent cover (590) provided to accommodate the filter sheet (70) orbital movement through the outer guide roller (540) in the isolation space. delete delete delete The method of claim 1,
The variable air volume control unit 400 includes a blowing damper 410 installed at the outlet side of the blowing duct line 100 to control the amount of outdoor air introduced, and a sensor module 420 that detects air pollution levels for each indoor compartment. Eco-friendly and high-efficiency air conditioning system, characterized in that. delete delete delete The method of claim 1,
When the cleaning mode by the cleaning means 500 is executed, the cutting line 520 is opened by the movement of the finishing roller 530 and the fixing force of the filter sheet 70 is released. When the orbital motion in which the filter sheet 70 is drawn out of the duct pipe 10 through the incision line 520 while the filter sheet 70 is actuated by the driving force starts, the filter sheet 70 by the vibration generating unit 570 (70) is vibrated and foreign substances including dust are separated, and foreign substances are collected through the suction port 562 of the suction duct 560 on the opposite side of the filter sheet 70, and the ultraviolet lamp 580 is turned on. The filter sheet is brought into the inside of the duct pipe 10 through the cutting line 520 in a state where the filter sheet is sterilized by the output ultraviolet rays, and the outer guide roller 540 is Eco-friendly and high-efficiency air conditioning system, characterized in that it is set to stop after rotation operation by the number of rotations corresponding to the length. The method of claim 9,
The control unit 502 is provided to execute the cleaning mode at a set time period, and to turn off the blowing duct line 100 and the exhaust duct line 200 at a time when the cleaning mode is executed, or the control unit 502 is Eco-friendly and high-efficiency air conditioning system, characterized in that it is provided to execute a cleaning mode at a time when an off operation signal of the line 100 and the exhaust duct line 200 is sensed. The method of claim 9,
The end of the blower duct line 100 connected to the air supply blower 120 is connected to the inlet of the exhaust blower 220 of the exhaust duct line 200 by a direct pipe 504 and is blown by a plurality of cleaning dampers (D). The duct line 100, the exhaust duct line 200, and the direct pipe 504 are provided to open and close, and after the cleaning mode is executed or the cleaning mode is executed by the control unit 502, the cleaning damper (D) By operation, the blower duct line 100 and the exhaust blower 220 communicate with each other through the direct pipe 504, the end of the exhaust duct line 200 connected to the exhaust blower 220 is closed, and the air supply blower 120 is discharged. Eco-friendly, characterized in that when the exhaust blower 220 is turned on in a closed operation, the air inside the blowing duct line 100 is exhausted to the outside, and foreign matters separated during the cleaning mode are removed together with the air. And high-efficiency air conditioning system.

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