KR102267172B1 - Integrated Control Air-Circulaiton System and method of Each Room - Google Patents

Abstract

The present invention relates to an integrated control air circulation system and method for each room that controls a plurality of rooms, respectively, and can circulate air. More particularly, according to the present invention, the integrated control air circulation system comprises: a total heat exchanger in which a plurality of ducts are combined; a blower fan which is formed in the total heat exchanger, and enters and discharges air; a heat exchanger which is formed in the total heat exchanger and exchanges heat between the inlet air and the exhaust air; a dehumidifier which is attached to the heat exchanger and removes moisture from the inlet air; and a filtration filter which is formed in the heat exchanger and removes foreign substances from the inlet air.

Description

Integrated Control Air-Circulaiton System and method of Each Room

The present invention relates to an integrated control air circulation system and method for each room that respectively controls a plurality of rooms and is capable of circulating air.

Patent Document 001 discloses a local air conditioner system comprising at least one indoor unit and an outdoor unit; a remote management system for controlling the local air conditioner system; In the multi-air conditioner integrated management system comprising a network connecting the local air conditioner system and the remote management system, the remote management system reports and receives a program version in use from the local air conditioner system, and When the program of the air conditioner system is older than the program of the remote management system, the final version of the program is transmitted to the local air conditioner system, and the local controller connects to the remote management system and reports the version of the program currently in use. a first step; a second step of determining, by the remote management system, whether a program update of the local controller is necessary based on the version information of the program being used in the remote management system; a third step of downloading the final version of the program from the remote management system when it is determined that the program update of the local controller is necessary; After the download of the final version of the program is completed, the connection is terminated, the program is restarted, and a fourth step of operating the local air conditioner system is presented.

Patent Document 002 relates to an indoor air conditioning integrated control system that automatically controls an air conditioner according to various air conditions measured by a sensor to control indoor air in an optimal state, comprising: a sensor unit for measuring indoor air conditions; A control unit that is interlocked with the sensor unit, compares the measured air state with a preset setting range, and transmits a control signal when out of a predetermined range, and operates to reach a preset air condition setting range according to the control signal in conjunction with the control unit Accordingly, a technology including one or more air conditioners for conditioning indoor air is proposed.

Patent Document 003 discloses a plurality of air conditioners that perform indoor air conditioning, and the plurality of air conditioners and the plurality of air conditioners are connected through a network to enable integrated control of each air conditioner through an application program, and update the application program is possible. and a central controller having a slot into which an external memory card can be easily mounted, wherein the central controller is configured to copy data stored in an external memory card mounted in the slot to an internal memory, RAM, with one operation. a first step of separately providing an update button and storing update data in an external memory card to update an application program of a central controller for integrated control of a plurality of air conditioners; a second step of selecting an update button for requesting an update after the external memory card is installed in the slot of the central controller; A technology including a third step of automatically updating data stored in the memory card is copied to an internal memory in RAM (RAM) according to the selection of the update button is proposed.

Patent Document 004 discloses a multi-type air conditioning system, comprising: a cooling unit having at least one compressor, an evaporator, a blowing fan, and an inlet duct integrally, and a main controller to control the cooling operation in an integrated and centralized manner; It consists of a plurality of ducts individually connected between each room equipped with the cooling unit and the room controller, and a damper control member for controlling the amount of cold air by sensing the cooling load generated in the room is located inside the duct. It is equipped, and this damper control member presents a technology to signally connect with the main controller.

KR 10-2007-0072262 A (July 04, 2007) KR 10-2019-0106608 A (September 18, 2019) KR 10-2005-0034416 A (April 14, 2005) KR Special 2002-0073861 A (September 28, 2002)

The present invention relates to an integrated control air circulation system and method for each room that respectively controls a plurality of rooms and is capable of circulating air.

In order to solve the problems of the prior inventions, the present invention is an entry step (S1100) in which air enters the room by the blowing fan 110;, during the entry step (S1100), the air is supplied by the blowing fan 110 discharging to the outside step (S1200); a heat exchange step (S1300) of heat exchange between the entry air and the exhaust air during the entry step (S1100) and the exhaust step (S1200); In the entry step (S1100), a dehumidifying step (S1110) of removing moisture from the incoming air; In the entry step (S1100), a temperature control step of controlling the temperature of the incoming air (S1120); In the entry step (S1100), the foreign material removal step (S1130) of removing foreign substances in the entering air; consists of a configuration including a.

The present invention is an invention for an integrated control air circulation system for each room, and after the entry step (S1100) in the above-mentioned invention, a distribution entry step (S1400) of distributing the entry air to each room to enter; Before the discharging step (S1200), a distribution discharging step (S1500) of integrally accommodating the exhaust air discharged from each room; During the distribution entry step (S1400), a sterilization step (S1410) of removing bacteria and viruses in the entering air; is added.

The present invention is an invention for an integrated control air circulation system for each room, and after the distribution entry step (S1400) to the invention presented above, a supply step (S1600) of supplying air to each room; In the supply step (S1600), a suction step (S1700) of sucking air in each chamber; is added.

The present invention includes: a total heat exchanger 100 to which a plurality of ducts 20 are coupled; a blowing fan 110 formed in the total heat exchanger 100 and for entering and discharging air; a heat exchanger 120 formed in the total heat exchanger 100 and exchanging heat between the incoming air and the exhaust air; a dehumidifier 130 attached to the heat exchanger 120 and removing moisture from the incoming air; It is formed in the heat exchanger 120, the filtering filter 140 for removing foreign substances in the incoming air; consists of a configuration including a.

The present invention is an invention for an integrated control air circulation system for each room, and the total heat exchanger 100 ;, the blowing fan 110 ;, the heat exchanger 120 ; the dehumidifier 130 ; and the filtration filter 140 presented above. A heat exchanger 200 that is formed in the total heat exchanger 100 to the invention consisting of, and controls the temperature of the outside air; is added.

The present invention is an invention for an integrated control air circulation system for each room, and the total heat exchanger 100 ;, the blowing fan 110 ;, the heat exchanger 120 ; the dehumidifier 130 ; and the filtration filter 140 presented above. A distributor 300 coupled to the indoor side of the total heat exchanger 100 to the invention consisting of, and to which the conduit 10 extending from a plurality of rooms is coupled; is added.

The present invention is an invention for an integrated control air circulation system for each room, and the total heat exchanger 100 ;, the blowing fan 110 ;, the heat exchanger 120 ; the dehumidifier 130 ; and the filtration filter 140 presented above. A damper 400 that is formed in the distributor 300 in the invention consisting of, and controls the amount of air; A sterilization device 500 for sterilizing the incoming air introduced into the distributor 300; is added.

The present invention is an invention for an integrated control air circulation system for each room, and the total heat exchanger 100 ;, the blowing fan 110 ;, the heat exchanger 120 ; the dehumidifier 130 ; and the filtration filter 140 presented above. ; is formed in each room to the invention consisting of, and a circulation device 600 for circulating air; is added.

The present invention is an invention for an integrated control air circulation system for each room, and the total heat exchanger 100 ;, the blowing fan 110 ;, the heat exchanger 120 ; the dehumidifier 130 ; and the filtration filter 140 presented above. A control device 700 that is formed in each room to control the amount of air to the invention consisting of; is added.

The present invention can control each thread as the circulation device is formed in a plurality of threads.

The present invention can supply air to a plurality of chambers at the same time as the distributor is formed.

In the present invention, heat exchange can be achieved by crossing indoor air and outdoor air.

In the present invention, the temperature can be controlled as the air flowing into the room passes through the heat exchanger.

According to the present invention, a dehumidifier is formed in a heat exchanger to control the humidity of air flowing into a room in summer.

In the present invention, the air introduced into the room may be filtered by a filtration filter installed in the heat exchanger.

In the present invention, a plurality of dampers are formed inside the distributor to control the amount of air.

According to the present invention, a photocatalytic reaction is generated by irradiating ultraviolet rays with a photocatalytic filter from a sterilization lamp formed of an LED inside the distributor to sterilize bacteria in the air introduced into the room.

1 to 2 are exemplary views of each room integrated control air circulation system of the present invention.
Figure 3 is a cross-sectional view of the total heat exchanger of the present invention.
Figure 4 is a perspective view of the dispenser of the present invention.
5 is a cross-sectional view of the dispenser shown in FIG.
Figure 6 is a perspective view showing a state in which the distributor of the present invention is integrally formed.
7 to 8 are cross-sectional views of the dispenser shown in FIG.
9 to 10 are cross-sectional views of the circulation device of the present invention.
11 is an exemplary view of a control device of the present invention.
12 is a flowchart of a method for controlling air circulation in each room in accordance with another embodiment of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to describe in detail enough that a person of ordinary skill in the art to which the present invention pertains can easily carry out the present invention.

The numbers cited in the examples below are not limited only to the objects of reference, and may be applied to all examples. Objects exhibiting the same purpose and effect as the configuration presented in the examples correspond to equivalent replacement objects. The higher-level concept presented in the examples includes sub-concept objects that are not described.

(Embodiment 1-1) In the present invention, in each room integrated control air circulation method, the entry step (S1100) in which air enters the room by the blowing fan 110;, during the entry step (S1100), the blowing fan A discharge step in which air is discharged to the outside by (110) (S1200); a heat exchange step (S1300) of heat exchange between the entry air and the exhaust air during the entry step (S1100) and the exhaust step (S1200); In the entry step (S1100), a dehumidifying step (S1110) of removing moisture from the incoming air; In the entry step (S1100), a temperature control step of controlling the temperature of the incoming air (S1120); In the entry step (S1100), a foreign material removal step (S1130) of removing foreign substances in the entering air; includes.

(Example 2-1) The present invention relates to a method of air circulation for integrated control of each room, and in Example 1-1, after the entry step (S1100), a distribution entry step of distributing the entry air to each room and entering each room (S1400); Before the discharging step (S1200), a distribution discharging step (S1500) of integrally accommodating the exhaust air discharged from each room; Among the distribution entry step (S1400), a sterilization step (S1410) of removing bacteria and viruses in the entering air; includes.

The present invention relates to a method for controlling air circulation in each room, specifically, to distribute outdoor air to each room by filtering and controlling temperature and humidity. At this time, the amount of incoming air is determined as the angle of the damper 400 is adjusted by the control device 700 , which is determined by the user of each room. In addition, the air in the distribution entry step (S1400) and the distribution discharge step (S1500) is adjusted to be the same to keep the indoor air intake and air discharge constant.

(Embodiment 3-1) The present invention relates to a method of air circulation for integrated control of each room. In Example 2-1, after the distribution entry step (S1400), a supply step of supplying air to each room (S1600); In the supply step (S1600), a suction step (S1700) of sucking air in each chamber; includes.

The present invention relates to a method for controlling air circulation in each room, and specifically, the air supplied to each room is discharged to the wall through the ceiling so that the air is circulated in the room. At this time, the air sucked in the suction step (S1700) is concentrated and discharged in the distribution/discharge step (S1500), and the air concentrated in the distribution/discharge step (S1500) is the air sucked from the plurality of rooms is discharged.

(Embodiment 4-1) The present invention relates to each room integrated control air circulation system, a total heat exchanger 100 to which a plurality of ducts 20 are coupled; a blower fan 110 formed in the total heat exchanger 100 and for entering and discharging air; a heat exchanger 120 formed in the total heat exchanger 100 and exchanging heat between the incoming air and the exhaust air; a dehumidifier 130 attached to the heat exchanger 120 and removing moisture from the incoming air; It is formed in the heat exchanger 120, the filtration filter 140 for removing foreign substances in the entering air; includes.

(Embodiment 4-2) Each room integrated control air circulation system of the present invention according to Embodiment 4-1, the duct 20 includes an input duct having a first air inlet and a first air outlet; and an exhaust duct having a second air inlet and a second air outlet formed therein.

(Example 4-3) Each room integrated control air circulation system of the present invention according to Example 4-2 accommodates the input duct, the exhaust duct, and the heat exchanger 120, and includes a first air inlet and a first air and a case in which the outlet, the second air inlet, and the second air outlet are formed.

(Embodiment 4-4) Each room integrated control air circulation system of the present invention according to Embodiment 4-3, the blower fan 110 includes a first blower located in the input duct; and a second blower located in the exhaust duct.

The present invention relates to each room integrated controlled air circulation system. Specifically, as the indoor air and the outdoor air cross and circulate, heat is exchanged and ventilation proceeds. Each of these room integrated control air circulation systems circulates air in a plurality of rooms, rooms, and spaces forming households and offices, and crosses outdoor air and indoor air. At this time, in each room integrated control air circulation system, a circulation device 600 for circulating air in each room is formed for each room, and the air entering and discharged from the circulation device 600 of each room is supplied to the distributor 300 . It crosses the outdoor and indoor areas. The distributor 300 is connected to the total heat exchanger 100 to circulate air, and the total heat exchanger 100 is a blower fan 110 that moves air, and the air entering the room and the exhaust air discharged to the outside cross each other. A heat exchanger 120 is formed through which heat is exchanged. In addition, a dehumidifier 130 for removing moisture from the incoming air is installed, and a filtration filter 140 for removing foreign substances is formed. The total heat exchanger 100 is formed in a housing shape. An exhaust duct for discharging indoor air to the outside is formed inside the case, and an input duct is formed for internal supply of outdoor air. The input duct and the discharge duct form an intersection in the middle, and a heat exchanger 120 is formed in the intersection. Accordingly, the temperature cooled in the room is not thrown out, but is in thermal equilibrium with the incoming outdoor air. That is, it is possible to prevent the loss of heating and cooling energy in the room.

To facilitate air flow, first and second blowers are installed in the input and exhaust ducts. The first and second blowers may each be formed as separate blowers 110 , and as another embodiment, each fan may be mounted on both sides of one motor 440 to drive the two blowers simultaneously. In addition, the first blower and the second blower may be formed of any one selected from a centrifugal type and an axial flow type.

Accordingly, the ventilation device circulates the indoor air and the outdoor air through the duct 20 and has a feature of preventing the loss of heating and cooling energy in the room as heat is exchanged by the heat exchanger 120 .

(Embodiment 4-5) In the embodiment 4-1, in the room integrated control air circulation system of the present invention, the dehumidifier 130 is attached to the heat exchanger 120, has a block shape, and has a block shape inside the block. Including the heat flow tube and / or the heat transfer plate is accommodated in the.

(Example 4-6) In Example 4-5, the integrated control air circulation system for each room of the present invention is formed at the lower end of the heat exchanger 120 to which the dehumidifier 130 is attached, and collects moisture sieve 131; includes.

(Example 4-7) Each room integrated control air circulation system of the present invention according to Example 4-6, is formed in the collector 131, the discharge pump 132 for discharging the moisture to the outside; include

The present invention relates to the dehumidifier 130 , and specifically, the dehumidifier 130 is attached to the heat exchanger 120 to remove moisture flowing into the room. The outdoor air in summer is hot and humid, and while the hot and humid air enters the room through the duct 20 , moisture contained in the air is collected by the dehumidifier 130 . The dehumidifier 130 is a porous material artificially synthesized with a “metal-organic framework”, which is abbreviated as “MOF”. And the dehumidifier 130 is attached to the heat exchanger 120 and adsorbs only moisture when it is introduced into the room, and the adsorbed moisture is collected by the collector 131 formed at the bottom of the heat exchanger 120 . The moisture collected in the collector 131 is discharged to the outside by the discharge pump 132 formed in the collector 131 , and a portion is evaporated by the temperature of the heat exchanger 120 .

Accordingly, the dehumidifier 130 has a feature of controlling the humidity of the room by removing moisture from the air entering the room.

(Example 4-8) Each room integrated control air circulation system of the present invention according to Example 4-1, wherein the filtration filter 140 is formed in the input duct, is attached to and spaced apart from the heat exchanger 120, What is formed; includes.

(Embodiment 4-9) Each room integrated control air circulation system of the present invention according to Embodiment 4-8, the filtration filter 140 includes a dust collecting filter for filtering foreign substances; a deodorizing filter for filtering odors of air passing through the dust collecting filter; and a pre-filter for removing fine dust in the air passing through the deodorizing filter.

(Example 4-10) Each room integrated control air circulation system of the present invention includes a filter case in which the dust collection filter, the deodorization filter, and the pre-filter are accommodated in the example 4-9.

(Embodiment 4-11) Each chamber integrated control air circulation system of the present invention according to Embodiment 4-9, wherein the deodorization filter is formed of activated carbon; includes.

The present invention relates to the filtration filter 140, and specifically, the filtration filter 140 is formed in the input duct to filter dust, fine dust, bacteria, odor, etc. of the air flowing into the room. The filtration filter 140 is formed by being attached to one surface of the heat exchanger 120 , or installed in the same cross-section as the input duct to be spaced apart from the heat exchanger 120 . The filter filter 140 is accommodated in the filter case, and the filter case is formed so that both sides are open. The filtration filter 140 is formed with a dust collecting filter that filters foreign substances such as relatively large particles of dust or pet hair, and the dust collecting filter is detachably formed in the total heat exchanger 100 so that cleaning can be carried out frequently. In addition, the filtering filter 140 is formed to be in contact with the dust collecting filter, and a deodorizing filter for removing odors, cigarette smoke, and other harmful gases of the air passing through the dust collecting filter is formed. The deodorization filter is formed of activated carbon to remove odors such as bad odors, so that fresh air can be formed and the room can be ventilated. And the pre-filter formed in contact with the deodorizing filter is formed of a HEPA filter, and the pre-filter cleanly removes up to 99.97% of air pollutants of 0.3 μm or larger such as house dust, mites, viruses, mold, and bacteria. Such a pre-filter is formed of filter paper having a predetermined thickness or overlapping several layers of asbestos fibers or the like.

(Example 5-1) The present invention relates to an integrated control air circulation system for each room. In Example 4-1, the heat exchanger 200 is formed in the total heat exchanger 100 and controls the temperature of outside air. includes ;

(Embodiment 5-2) Each room integrated control air circulation system of the present invention according to Embodiment 2-1 includes: a heat medium 210 circulating the heat exchanger 200; a compressor 220 and an expander 230 positioned inside and outside the total heat exchanger 100 and communicating with the heat exchanger 200, respectively; and a control valve 240 for changing the flow direction of the heating medium 210 .

(Example 5-3) Each room integrated control air circulation system of the present invention according to Example 2-1, wherein the heat exchanger 200 is formed in the input duct and is formed as a radiator.

(Example 5-4) In Example 5-3, the integrated control air circulation system for each room of the present invention includes: a first heat exchanger 200 formed in the input duct; and a second heat exchanger 200 formed in the inlet duct 20 .

The present invention relates to a heat exchanger 200 , and specifically, the heat exchanger 200 is formed in the input duct of the total heat exchanger 100 to provide cooling and heating functions. A cooling device is driven to supply cooled air to the input duct in summer, and a heating device is driven to supply heated air to the input duct in winter. The heat exchanger 200 raises or lowers the temperature of the incoming air according to the indoor set temperature, and is located in the entire cross-sectional area of the pipe 10 of the input duct. In addition, the heat exchanger 200 has a radiator shape, and a dehumidifier 130 to be described later is attached thereto. The heat exchanger 200 communicates in a zigzag manner, and a heat medium 210 flow tube formed in a plurality of layers is formed. And a heat transfer plate is formed on the outside of the heat medium 210 flow tube. The heat medium 210 flow pipe flows inside, such as Freon gas, water, and the like, and the temperature is controlled, and the temperature of the heat medium 210 flow pipe is transferred to the air flowing into the room by the heat transfer plate. In addition, the heat medium 210 flow tube is formed of a material having excellent heat transfer, and must also have corrosion resistance. Specifically, a stainless tube, a copper tube, etc. can be used, and a tube of an equivalent material can be used. The heat transfer plate may be in contact with the heat medium 210 flow pipe to have high heat conduction efficiency. In addition, the heat exchanger 200 is formed with a heat medium 210 that moves the heat medium 210 flow pipe, and the heat medium 210 may implement the role of a heat pump. And the heat medium 210 moves the first heat exchanger 200, the second heat exchanger 200, the compressor 220 and the expander 230 (expansion valve) in stages, and can supply heat or absorb heat. . As for the heat exchanger 200, the function of the first heat exchanger 200 formed in the input duct and the second heat exchanger 200 formed in the inlet duct 20 should be changed according to the season and the operating state of the ventilation device. . This is done by the control valve 240 . The control valve 240 changes the flow path of the first and second heat exchangers 200 to change the function. This is to control the temperature of the heat exchanger 200 formed in the input duct in order to control the temperature of the air introduced into the room. At this time, the heat exchanger 200 is formed in the input duct and the inlet duct 20, respectively, and the flow path of the heating medium 210 is formed by the compressor 220 and the expander 230 formed outside the total heat exchanger 100. It is to adjust the temperature of the first heat exchanger 200 formed in the inlet duct 20 according to the change. At this time, the second heat exchanger 200 may be formed in the inlet duct 20 or may be formed outside the total heat exchanger 100 together with the compressor 220 and the expander 230 .

Accordingly, the heat exchanger 200 of the present invention is formed in the input duct of the total heat exchanger 100 to cool and heat the air flowing into the room.

(Example 6-1) The present invention relates to an integrated control air circulation system for each room, and in Example 4-1, a pipe coupled to the indoor side of the total heat exchanger 100 and extending in a plurality of rooms ( 10) is coupled to the distributor 300; includes.

(Embodiment 6-2) Each room integrated control air circulation system of the present invention is the embodiment 6-1, wherein the distributor 300 includes an entry distributor 301 through which entry air is distributed; and a discharge distributor 302 in which exhaust air is integrally concentrated.

(Embodiment 6-3) In the embodiment 6-2, each room integrated control air circulation system of the present invention comprises: a distribution box 310 formed in the distributor 300 and coupled to the total heat exchanger 100; It is formed on the outside of the distribution box 310, the flange 320 coupled to the total heat exchanger 100; includes.

(Embodiment 6-4) Each room integrated control air circulation system of the present invention according to Embodiment 6-3, a guide plate 330 formed inside the distribution box 310 and guiding the flow of air; include

(Example 6-5) Each room integrated control air circulation system of the present invention according to Example 6-3, includes a clamp for fixing the flange 320 of the distributor 300 and the total heat exchanger 100; do.

(Embodiment 6-6) Each room integrated control air circulation system of the present invention is the embodiment 6-3, wherein the distribution box 310 is formed to have a narrow width at one end to facilitate air distribution and concentration. includes ;

The present invention relates to the distributor 300, and specifically, the distributor 300 is formed on the indoor side of the total heat exchanger 100 to distribute air to each room or to concentrate the air in each room. The distributor 300 is formed by injection molding containing copper powder or coating a polymer thin film containing copper powder indoors and outdoors in order to suppress the occurrence of bacteria. At this time, in addition to the distributor 300, the total heat exchanger 100 and the pipe line 10 are also formed by injection molding with copper powder or by coating a polymer thin film containing copper powder. The distributor 300 is coupled to a pipe 10 delivered from each room, and the pipe 10 is formed with an entry pipe through which air enters the room and an exhaust pipe through which air is discharged to the outside. The entry pipe and the discharge pipe are coupled to a circulation device 600 to be described later. And the distributor 300 is coupled to the input duct and the exhaust duct of the total heat exchanger 100 at the other end, but a plurality of conduits 10 are coupled to one end. The distributor 300 has flanges 320 formed at both ends, and is opposed to the flanges 320 formed in the pipe line 10 and the total heat exchanger 100 . And each flange 320 is fastened by a clamp, and the clamp is fixed by a fixing hardware, and a sealing material is formed so that air is not discharged between the flanges 320 . In this way, the distributor 300 connecting the total heat exchanger 100 and the pipe 10 is formed with an entry distributor 301 to which the entry air is distributed and an exhaust distributor 302 from which the exhaust air is discharged, and the total heat exchanger 100. The distribution box 310 in which the flange 320 is formed so as to be coupled to the is formed. The distribution box 310 has one end having a narrower width than the other end, so that the incoming air is uniformly distributed or the exhaust air delivered from each room is concentrated and delivered to the total heat exchanger 100 . And the distribution box 310 is formed in the direction of the total heat exchanger 100 in oblique lines and curves on both sides to smoothly maintain the flow of air. In addition, the distribution box 310 has a plurality of guide plates 330 formed therein, the guide plate 330 is formed to connect the upper and lower portions of the distribution box 310 . The guide plate 330 is not formed to be in contact with the end of the distribution box 310 or to supply or discharge uniform air to each conduit 10 is formed in an oblique line. This is to control the amount of air supplied to each chamber, and when the damper 400 to be described later is blocked, air is guided to the other chamber.

Therefore, the distributor 300 of the present invention is formed between the total heat exchanger 100 and the conduit 10 of each room to distribute the air to a plurality of chambers or to concentrate the air discharged from the plurality of chambers to the total heat exchanger 100. It has the characteristics to transmit.

(Embodiment 6-7) Each room integrated control air circulation system of the present invention according to Embodiment 6-3, the distribution box 310 includes a first fastening part 311 to which a plurality of conduits 10 are fastened; and a second fastening part 312 formed at the other end of the first fastening part 311 and fastened to the total heat exchanger 100 .

(Embodiment 6-8) Each room integrated control air circulation system of the present invention includes, according to Embodiment 6-7, that the first fastening portion 311 has a step difference from the center to both sides.

The present invention relates to the distribution box 310, and specifically, the distribution box 310 has a first fastening part 311 formed in a step so that the conduit 10 connected from a plurality of chambers is fastened. A step is generated from the center of the first fastening part 311 to both sides of the first fastening part 311 so that a plurality of conduits 10 connected in each chamber are fastened. The step is formed to be wider than the diameter of the conduit 10 so as not to interfere with each other when the plurality of conduits 10 are fastened. This is so that the conduit 10 is simply fastened in the distributor 300 when remodeling or repairing the room. In addition, the conduit 10 fastened to the first fastening part 311 may be bent so as not to interfere with each other.

(Embodiment 6-9) Each room integrated control air circulation system of the present invention includes, in Embodiment 6-7, wherein the entry distributor 301 and the exhaust distributor 302 are integrally formed.

(Embodiment 6-10) Each room integrated control air circulation system of the present invention according to Embodiment 6-9, a partition plate 340 formed in the center to partition the entry distributor 301 and the exhaust distributor 302. ); and a fastening duct 350 formed in the second fastening portion 312 of the entry distributor 301 and the exhaust distributor 302 , through which air is transmitted from the total heat exchanger 100 .

(Embodiment 6-11) Each room integrated control air circulation system of the present invention is the embodiment 6-10, wherein the partition plate 340 has the heat inside the entry distributor 301 and the exhaust distributor 302. It includes; a plurality of conductive plates 360 to be transferred.

According to the present invention, the entry distributor 301 and the exhaust distributor 302 are integrally formed, and the entry distributor 301 and the exhaust distributor 302 are partitioned by a partition plate 340 and are respectively formed in the upper and lower portions. In the entry distributor 301 and the exhaust distributor 302, first fastening parts 311 to which the conduit 10 of each chamber is fastened are formed at the upper and lower sides, respectively, and the second fastening to which the total heat exchanger 100 is fastened. The part 312 is connected by a fastening duct 350 . At this time, as the fastening duct 350 is bent and formed, it is connected to the entry distributor 301 and the discharge distributor 302 of the upper and lower portions. In addition, in the partition plate 340, a plurality of conductive plates 360 protrude upward and downward, and heat of the entry air passing through the entry distributor 301 and the exhaust air passing through the exhaust distributor 302 is conducted so that heat exchange is performed. is done

(Embodiment 7-1) The present invention relates to an integrated control air circulation system for each room, and according to Embodiment 6-1, a damper 400 is formed in the distributor 300 and controls the amount of air; It includes; a sterilization device 500 for sterilizing the incoming air flowing into the distributor (300).

(Embodiment 7-2) In Embodiment 7-1, the integrated control air circulation system for each room of the present invention includes: a rotating shaft 410 formed in the damper 400 and penetrating the distributor 300; and a rotating plate 420 that rotates by the rotating shaft 410 .

(Embodiment 7-3) Each room integrated control air circulation system of the present invention includes, in Embodiment 7-2, wherein the damper 400 is installed in a fastening hole to which each conduit 10 is fastened. do.

(Embodiment 7-4) Each room integrated control air circulation system of the present invention includes, in Embodiment 7-3, the rotary plate 420 being formed to have the same width as the fastening hole.

(Embodiment 7-5) Each room integrated control air circulation system of the present invention includes, in Embodiment 7-4, the amount of air being adjusted according to the opening/closing angle of the rotating plate 420 .

(Embodiment 7-6) Each room integrated control air circulation system of the present invention includes, according to Embodiment 7-5, the amount of air of the entry distributor 301 and the exhaust distributor 302 being adjusted to be the same; do.

The present invention relates to a damper (400). Specifically, a plurality of dampers 400 are formed in the distributor 300 to control the amount of air entering and discharged from each chamber. The damper 400 is formed inside the distributor 300 and is installed in a fastening hole that is fastened to the conduit 10 connected to each seal. The damper 400 opens and closes the rotating plate 420 as the rotating shaft 410 formed through the distributor 300 is rotated by the motor 440 . The rotating plate 420 is formed in the same shape and size as the fastening hole, and adjusts the amount of air controlled in each chamber. And when the rotation shaft 410 is coupled to the center of the rotation plate 420, and the rotation shaft 410 is rotated, the rotation plate 420 is opened and closed at the center of the fastening hole. At this time, the damper 400 coupled to the entry distributor 301 and the exhaust distributor 302 is controlled in the same way for each room, and the amount of entry air entering from each room and the amount of exhaust air being discharged is the same. In addition, when the entry distributor 301 and the exhaust distributor 302 are integrally formed, the rotary shaft 410 simultaneously passes through the entry distributor 301 and the exhaust distributor 302 to enter the same amount of entry into one motor 440 . It can penetrate air and exhaust air.

Accordingly, the damper 400 of the present invention has a feature of constantly adjusting the amount of the air entering and discharged into each chamber.

(Embodiment 7-7) Each room integrated control air circulation system of the present invention according to Embodiment 7-1, is formed in the sterilization apparatus 500, the sterilization lamp 510 for irradiating ultraviolet rays; and a photocatalytic filter 520 in which a photocatalytic reaction is generated by ultraviolet rays.

(Embodiment 7-8) Each room integrated control air circulation system of the present invention is a module in which the sterilization device 500 is combined with the sterilization lamp 510 and the photocatalytic filter 520 according to the embodiment 7-7. is formed, and is formed between the plurality of guide plates 330 .

(Embodiment 7-9) Each room integrated control air circulation system of the present invention is the embodiment 7-7, wherein the germicidal lamp 510 crosses and irradiates a plurality of ultraviolet rays formed of UV and/or UV-C. to do; includes

(Embodiment 7-10) Each chamber integrated control air circulation system of the present invention includes the one in Embodiment 7-9, wherein the photocatalytic filter 520 is made of titanium dioxide (TiO2).

(Embodiment 7-11) Each chamber integrated control air circulation system of the present invention according to Embodiment 4-5, the photocatalytic filter 520 includes a through hole 530 through which air passes.

(Embodiment 7-12) In the embodiment 4-6, each room integrated control air circulation system of the present invention is formed in the through-hole 530, and is formed in a cross-section of a semicircle, a square, and a triangle ( 540);

The present invention relates to a sterilization apparatus 500, specifically, the sterilization apparatus 500 is formed between a plurality of guide plates 330 formed inside the entry distributor 301, and sterilizes air entering the room. . The sterilization apparatus 500 is formed with a plurality of sterilization lamps 510 for supplying ultraviolet rays. The sterilization lamp 510 is formed at equal intervals in the sterilization device 500 and is formed of a UV lamp, and is formed of an LED irradiating A-type and/or C-type ultraviolet rays. The ultraviolet wavelength of the germicidal lamp 510 is formed in a band of 200 to 390 nm, and the ultraviolet rays of type A and type C are mixed and used. At this time, the A-type and C-type ultraviolet rays are formed with different wavelengths and are mixed and irradiated so as not to be cut off. More specifically, the wavelength of ultraviolet rays is generated at regular intervals, and type C ultraviolet rays are irradiated at intervals generated when type A ultraviolet rays are irradiated. Accordingly, the UV rays of type A and type C are continuously irradiated, and the sterilization effect can be enhanced by mixing at regular intervals.

In the photocatalytic filter 520 , a photocatalytic reaction is generated by the sterilization lamp 510 , and a plurality of sterilization lamps 510 are formed of titanium dioxide (TiO2) and blue titanium dioxide (Blue-TiO2). ) to sterilize bacteria in the air. As described above, when a sterilizing gas is generated by the photocatalytic reaction between the photocatalytic filter 520 and ultraviolet rays, the air is sterilized. At this time, the photocatalytic filter 520 has a plurality of through-holes 530 are formed, and the through-holes 530 are formed in a straight shape or a locking plate 540 is arranged in a zigzag manner therein to suppress the flow of air. This is to increase the sterilization effect by increasing the time the air passes through the through-hole 530 , and the air passes through the vortex and the collision by the stopping plate 540 . And the sterilization lamp 510 and the photocatalytic filter 520 are formed as a module formed as a set, and at least one module is installed to increase the sterilization effect of the air.

Therefore, the entry distributor 301 of the present invention has a feature that the sterilization device 500 is formed to sterilize the air entering the room.

(Embodiment 8-1) The present invention relates to an integrated control air circulation system for each room, and according to Embodiment 7-1, a circulation device 600 formed in each room and circulating air; includes.

(Embodiment 8-2) In the embodiment 8-1, the integrated control air circulation system for each room of the present invention is formed in the circulation device 600 and installed on the ceiling, the housing 610; and the housing 610 ) is formed inside, the suction unit 620 for sucking the exhaust air; It is formed on the outer peripheral surface of the suction unit 620, the discharge unit 630 for discharging the entering air; includes.

(Embodiment 8-3) In the embodiment 8-2, each room integrated control air circulation system of the present invention comprises: a partition case 640 for partitioning the suction unit 620 and the discharge unit 630; It is formed through the partition case 640, and includes a rotating device 650 for sucking and discharging air.

(Embodiment 8-4) In the embodiment 8-3, in the integrated control air circulation system for each room of the present invention, the rotating device 650 has a through shaft penetrating the housing 610 and the partition case 640. (651); a rotating case (652) rotating by the through shaft (651) and rotating in the partition case (640); and a blade 653 coupled to the through shaft 651 and the rotating case 652 and rotating by the through shaft 651 .

(Embodiment 8-5) In the embodiment 8-4, in the chamber integrated control air circulation system of the present invention, the blade 653 is coupled to the through shaft 651 and the first blade 654 sucks air. ); and a second blade 655 that is formed at a different angle from the first blade 654 and discharges air as it is coupled to the rotation case 652 .

(Embodiment 8-6) In Embodiment 8-2, each room integrated control air circulation system of the present invention includes a cover 660 coupled to one surface of the housing 610 and exposed to the room.

The present invention relates to a circulation device (600). Specifically, the circulator 600 circulates air in order to improve the air quality of each room. The circulation device 600 is formed as a housing 610 installed on the ceiling, and the housing 610 is formed so that one surface is exposed to the interior. And the housing 610 is formed in a cylinder to suck and discharge air, the sucked air is concentrated to the distributor 300 and discharged through the total heat exchanger 100, the air sucked in the total heat exchanger 100 is the distributor ( 300) through each circulator 600 enters the room. In this case, the housing 610 is preferably injection-molded, and contains copper powder to prevent the introduction of bacteria. In the circulation device 600 , an intake part 620 and an exhaust part 630 are formed inside the housing 610 so that the intake and discharge of air are made at the same time. The suction part 620 and the discharge part 630 are partitioned by the partition case 640, and the partition case 640 is formed through the rotating device 650. In the rotating device 650 , the through shaft 651 is penetrated from the outside of the housing 610 to the partition case 640 . At this time, the through shaft 651 is rotated by the motor 440 outside the housing 610 , and one end of the through shaft 651 extends to the inside of the partition case 640 . In addition, the through shaft 651 is connected to the rotating case 652 which rotates by a bearing or the like at the center of the partition case 640 , and rotates the rotating case 652 to rotate the plurality of blades 653 . In this case, the blade 653 is formed of a first blade 654 formed in the suction unit 620 and a second blade 655 formed in the discharge unit 630 . The first blade 654 has a rotating case 652 formed inside or coupled to one end of the through shaft 651 , and the second blade 655 is formed outside the rotating case 652 . At this time, since the first blade 654 and the second blade 655 are formed at different angles, respectively, when the through shaft 651 rotates in one direction, air intake and discharge can be performed simultaneously. In addition, the air in the suction unit 620 is transmitted to the discharge distributor 302 by the conduit 10 connected through the partition case 640 and the side surfaces of the housing 610, respectively. In this way, a cover 660 is formed on the housing 610 so that air is sucked into and discharged from the suction unit 620 and the discharge unit 630 , and the cover 660 has an intake port and an exhaust port formed therein. It is formed to face the wall of the seal, and the inlet is formed inside the outlet so that air is sucked in from the center.

Accordingly, the circulation device 600 of the present invention is installed on the ceiling of the room and has a feature of circulating indoor air and outdoor air.

(Embodiment 9-1) The present invention relates to an integrated control air circulation system for each room, and in Example 8-1, a control device 700 formed in each room to adjust the amount of air; includes.

(Embodiment 9-2) The integrated control air circulation system for each room of the present invention is the embodiment 9-1, wherein the control device 700 includes the total heat exchanger 100, the distributor 300, and the circulation device ( Individual controllers 710 for controlling each of the 600); and a main controller 720 for controlling the plurality of individual controllers 710 to adjust the amount of air.

(Example 9-3) The integrated control air circulation system for each room of the present invention includes, in Example 9-2, wherein the control device 700 adjusts the amount of air by means of an operation device formed in each room. .

The present invention relates to a control device 700, and specifically to control the total heat exchanger 100, the distributor 300, and the circulation device 600 in order to improve air quality by a user and a sensor. The control device 700 includes an individual controller 710 formed in the total heat exchanger 100 , the distributor 300 , and the circulation device 600 , and a main controller 720 for controlling the plurality of individual controllers 710 . do. The individual controller 710 controls the temperature, foreign matter removal, humidity, etc. of the incoming air entering through the total heat exchanger 100 , and adjusts the amount of air through the damper 400 in the distributor 300 . And the amount of air sucked through the circulation device 600 and the amount of air discharged are maintained the same. In this case, the individual controller 710 formed in each device is controlled by the main controller 720 , and the main controller 720 can control a plurality of rooms at the same time.

10: conduit 20: duct
100: total heat exchanger 110: blowing fan
120: heat exchanger 130: dehumidifier
131: collector 132: discharge pump
140: filter filter 200: heat exchanger
210: heating medium 220: compressor
230: expander 240: control valve
300: distributor 301: entry distributor
302: exhaust distributor 310: distribution box
311: first fastening part 312: second fastening part
320: flange 330: guide plate
340: partition plate 350: fastening duct
360: conduction plate 400: damper
410: rotation shaft 420: rotation plate
430: fastening groove 500: sterilization device
510: germicidal lamp 520: photocatalytic filter
530: through hole 540: catch plate
600: circulation device 610: housing
620: suction unit 630: discharge unit
640: compartment case 650: rotating device
651: through shaft 652: rotation case
653: blade 654: first blade
655: second blade 660: cover
700: control device 710: individual controller
720: main controller S1100: entry step
S1110: dehumidification step S1120: temperature control step
S1130: foreign matter removal step S1200: discharge step
S1300: heat exchange step S1400: distribution entry step
S1410: sterilization step S1500: distribution discharge step
S1600: supply stage S1700: suction stage

Claims (9)

Entry step (S1100) in which air enters the room by the blowing fan 110;
During the entry step (S1100), a discharge step (S1200) in which the air is discharged to the outside by the blowing fan (110);
a heat exchange step (S1300) of heat exchange between the entry air and the exhaust air during the entry step (S1100) and the exhaust step (S1200);
In the entry step (S1100), a dehumidifying step (S1110) of removing moisture from the incoming air;
In the entry step (S1100), a temperature control step of controlling the temperature of the incoming air (S1120);
In the entry step (S1100), a foreign material removal step (S1130) of removing foreign substances in the entering air;
After the entry step (S1100), a distribution entry step (S1400) of distributing the entry air to each chamber to enter;
guiding the flow of incoming air so that uniform air is supplied to each chamber in the distribution entry step (S1400);
Before the discharging step (S1200), a distribution discharging step (S1500) of integrally accommodating the exhaust air discharged from each room;
exchanging heat between the air entering in the distribution entry step (S1400) and the exhaust air in the distribution discharge step (S1500);
a sterilization step (S1410) of removing bacteria and viruses in the entering air during the distribution entry step (S1400);
In the sterilization step (S1410), generating a vortex and a collision in the incoming air to suppress the flow of air to increase the passage time of air; each room integrated control air circulation method comprising a.
delete The method according to claim 1,
After the distribution entry step (S1400), a supply step of supplying air to each chamber (S1600);
In the supply step (S1600), a suction step (S1700) of sucking air in each room; each room integrated control air circulation system comprising a.
Total heat exchanger 100 to which a plurality of ducts 20 are coupled;
a blower fan 110 formed in the total heat exchanger 100 and for entering and discharging air;
a heat exchanger 120 formed in the total heat exchanger 100 and exchanging heat between the incoming air and the exhaust air;
a dehumidifier 130 attached to the heat exchanger 120 and removing moisture from the incoming air;
a filtration filter 140 formed in the heat exchanger 120 and removing foreign substances from the incoming air;
a distributor 300 coupled to the indoor side of the total heat exchanger 100 and to which a conduit 10 extending from a plurality of rooms is coupled;
The distributor 300 includes an entry distributor 301 through which entry air is distributed;
an exhaust distributor 302 integrally formed on the lower side of the entry distributor 301 and concentrating exhaust air integrally;
a partition plate 340 dividing the entry distributor 301 and the exhaust distributor 302 vertically;
a conduction plate 360 formed on the partition plate 340 so that the entry air of the entry distributor 301 and the exhaust air of the exhaust distributor 320 exchange heat;
a guide plate 330 formed inside the entry distributor 301 and guiding the flow of air;
a damper 400 that is formed in the distributor 300 and controls the amount of air;
a sterilization device 500 for sterilizing the incoming air introduced into the distributor 300;
The sterilization apparatus 500 includes a sterilization lamp 510 and a photocatalytic filter 520 formed between a plurality of guide plates 330;
The photocatalytic filter 520 includes a through hole 530 through which air passes;
Each room integrated control air circulation system including a; is formed inside the through hole (530) and is formed in a semicircle, square, or triangular cross section.
5. The method according to claim 4,
Each room integrated control air circulation system comprising a; is formed in the total heat exchanger (100), the heat exchanger (200) for controlling the temperature of the outside air.
delete delete 5. The method according to claim 4,
Each room integrated control air circulation system including; a circulator 600 that is formed in each room and circulates air. 9. The method of claim 8,
Each room integrated control air circulation system including; a control device 700 that is formed in each room to control the amount of air.

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