KR102484689B1 - underfloor air distribution fan terminal unit with space sterilization function - Google Patents

Abstract

A fan terminal unit for floor air conditioning disposed below an indoor access floor is disclosed. The fan terminal unit for floor air conditioning includes a front wall on which an outdoor air intake hole is formed and a rear wall blocked opposite to the front wall, and the outdoor air intake port and the indoor air intake port are separated by a partition wall formed with an air transfer hole, respectively. A square box-shaped body in which a suction chamber communicated with a discharge chamber communicated with an air supply discharge port is formed as compartments; a fan unit disposed in the suction chamber to blow air coming in through the outdoor air intake or the indoor air intake to the discharge chamber, and supplying air from the discharge chamber to the room through the supply air discharge port; and a space sterilization module disposed in the discharge chamber and generating hydroxyl radicals for indoor space sterilization, wherein the space sterilization module includes a module case with open rear and front sides, and a module case disposed within the module case. A UV lamp emitting UV with a wavelength of 260 nm, and a plurality of flow cells arranged in the module case and allowing air flow by operation of the fan unit, wherein the plurality of flow cells, the 250 to 260 It includes a catalyst that is activated by UV at a wavelength of nm to generate hydroxyl radicals.

Description

Fan terminal unit for floor air conditioning having space sterilization function {underfloor air distribution fan terminal unit with space sterilization function}

The present invention relates to a fan terminal unit for floor air conditioning, and more particularly, by supplying outdoor air through an indoor floor (or access floor) and simultaneously diffusing hydroxyl radicals into the room together with the outdoor air, A fan terminal unit for floor air conditioning having a space sterilization function capable of simultaneously achieving ventilation and sterilization, disinfection, and deodorization of an indoor space.

In the past, most buildings have adopted ceiling exhaust air conditioning systems. The ceiling exhaust air conditioning system is configured to supply cool outdoor air to the room through an air duct on the ceiling. In the case of using such a ceiling exhaust system, in order for the air supplied through the ceiling to reach the living area below 1.7m height, and furthermore, to the place where people are sitting at a height of 1.2m to 1.5m below, the hot air above is first cooled Since it has to come down, the cooling efficiency is inevitably lowered. In the past, when indoor heating was considered important in winter and there were few changes in room partitions and furniture arrangements, a ceiling ventilating air conditioning system was suitable. In the present, where there are many changes, an air conditioning system capable of overcoming the disadvantages of existing ceiling ventilation air conditioning systems is required.

Under such a background, a newly proposed air conditioning system is a floor air conditioning system. The floor air conditioning system supplies air introduced from the outdoors to the room through a fan or a fan terminal unit installed below an indoor floor side, more specifically, an access floor. In such a floor air conditioning system, since air or ventilation supplied from the outdoors is supplied from a floor side close to a position where a person is sitting, the cooling and heating efficiency of the living area is high.

However, since existing air conditioning systems including floor air conditioning systems are designed to ventilate air by blowing air, it is necessary to prepare for viruses, bacteria, etc. that may be included in droplets and spread through the blown air, such as corona virus. It was difficult. Accordingly, there is a study on adding a separate sterilization system that sterilizes viruses in the indoor air separately from the floor air conditioning system, but this is not economical, and is not particularly suitable for sterilizing viruses that move rapidly by blowing.

Patent Registration No. 10-1540891 (registration date: July 24, 2015)

The problem to be solved by the present invention is to provide indoor ventilation and sterilization, disinfection and It is to provide a fan terminal unit for floor air conditioning capable of achieving deodorization at the same time.

According to one aspect of the present invention, there is provided a fan terminal unit for floor air conditioning disposed below an indoor access floor, and the fan terminal unit for floor air conditioning is blocked at a front wall where an outdoor air intake is formed and opposite to the front wall. a rectangular box-shaped body including a rear wall having an air transfer hole formed therein to define a suction chamber communicating with the outdoor air inlet and the indoor air inlet and a discharge chamber communicating with the air supply outlet, respectively; a fan unit disposed in the suction chamber to blow air coming in through the outdoor air intake or the indoor air intake to the discharge chamber, and supplying air from the discharge chamber to the room through the supply air discharge port; and a space sterilization module disposed in the discharge chamber and generating hydroxyl radicals for indoor space sterilization, wherein the space sterilization module includes a module case with open rear and front sides, and a module case disposed within the module case. A UV lamp emitting UV with a wavelength of 260 nm, and a plurality of flow cells arranged in the module case and allowing air flow by operation of the fan unit, wherein the plurality of flow cells, the 250 to 260 It includes a catalyst that is activated by UV at a wavelength of nm to generate hydroxyl radicals.

According to one embodiment, the fan terminal unit for floor air conditioning further includes a partition frame installed to separate the discharge chamber from a lower space, and the partition frame has a base end coupled to the partition wall near a lower end of the air delivery hole. and a horizontal plate portion extending from the lower end of the air delivery hole toward the rear while maintaining a horizontal shape, a swash plate portion extending upward at an angle from the front end of the horizontal plate portion in a direction approaching the rear wall and the air supply outlet, and a front end of the swash plate portion. and a fixed plate portion fixed to the rear wall, and the space sterilization module is mounted on the horizontal plate portion.

According to an embodiment, the fan terminal unit for floor air conditioning further includes a cover bracket mounted on the horizontal plate to cover an upper surface and both side surfaces of the space sterilization module, and the cover bracket is an upper part of the space sterilization module. An upper plate portion covering the surface, a pair of side plate portions covering both sides of the space sterilization module, and a lower fastening plate portion formed at the lower end of the pair of side plate portions and coupled to the upper surface of the horizontal plate portion, The upper plate part extends further rearward than the rear end outlet of the space sterilization module, so that an end is located closer to the inclined plate part than the rear end of the space sterilization module.

According to an embodiment, the plurality of flow cells include first group flow cells installed to fill the front space within the module case based on the UV lamp, and fill the rear space within the module case based on the UV lamp. and a second group of flow cells installed to

The fan terminal unit for floor air conditioning according to the present invention supplies outdoor air through an indoor floor (or access floor) and at the same time diffuses hydroxyl radicals into the room together with the outdoor air, thereby providing indoor ventilation and sterilization of the indoor space. and deodorization at the same time.

1 is a plan view showing a fan terminal unit for floor air conditioning according to an embodiment of the present invention, in which some invisible components are briefly displayed with hidden lines;
2 is a conceptual cross-sectional view showing a fan terminal unit for floor air conditioning according to an embodiment of the present invention;
3 is a cross-sectional view showing a space sterilization module assembly including a space sterilization module and a cover bracket of a fan terminal for floor air conditioning together with a partition frame;
Figure 4 is an exploded view showing the space sterilization module assembly shown in Figure 3,
5 is a front view of the space sterilization module assembly shown in FIGS. 3 and 4;
FIG. 5 is a view for explaining the space sterilization module of the fan terminal for floor air conditioning shown in FIGS. 1 to 4 .

Hereinafter, the present invention will be described with reference to the accompanying drawings. Note that any structure, material, step or feature of any embodiment disclosed herein may constitute another embodiment along with any structure, material, step or other feature of any other embodiment that is part of the invention. do. Note that the detailed description and related drawings do not limit or define the protection scope of the present invention. The protection scope of the present invention is defined by the claims.

1 is a plan view showing a fan terminal unit for floor air conditioning according to an embodiment of the present invention, in which some invisible components are briefly displayed with hidden lines, and FIG. 2 is a floor plan view according to an embodiment of the present invention A conceptual cross-sectional view showing a fan terminal unit for air conditioning, and FIG. 3 is a cross-sectional view showing a space sterilization module assembly including a space sterilization module and a cover bracket of a fan terminal for floor air conditioning together with a partition frame, and FIG. 4 is a cross-sectional view of FIG. 3 5 is a front view of the space sterilization module assembly shown in FIGS. 3 and 4, and FIG. 5 is a space of a fan terminal for floor air conditioning shown in FIGS. 1 to 4 It is a drawing for explaining the sterilization module.

1 to 5, the fan terminal unit 1 for floor air conditioning according to an embodiment of the present invention includes a square box-shaped body 10 having a suction chamber C1 and a discharge chamber C2, and a fan unit 20 disposed in the suction chamber C1 and operating to send air (in particular, outdoor air) entering the suction chamber C1 to the outside through the discharge chamber C2. In addition, the fan terminal unit 1 for floor air conditioning according to this embodiment includes a space sterilization module 50 disposed in the discharge chamber C2 and configured to generate hydroxyl radicals for space sterilization. The hydroxyl radical generated by the space sterilization module 50 is supplied to the room together with the supply air through the discharge chamber C2 by blowing by the fan unit 20, and is used for sterilization, disinfection, and deodorization of the room do.

In addition, the square box-shaped body 10 includes an outdoor air intake port G1 formed on the front wall 15, an indoor air intake port G2 formed on the front upper surface, and an air supply outlet G3 formed on the rear upper surface. do.

At this time, the fan terminal unit 1 for floor air conditioning is rotated inside the suction chamber C1 by a damper actuator (not shown) disposed on one side of the square box-shaped body 10, and the air conditioning air intake port G1 ) and a damper 40 that selectively opens or closes the indoor air inlet G2 or adjusts the degree of opening thereof.

When the damper 40 blocks the indoor air inlet G2, only the outdoor air coming in through the outdoor air inlet G1 is supplied to the room through the air supply outlet G3, and the damper 40 blocks the indoor air inlet If (G2) is shut off, only the indoor air coming in through the indoor air intake port (G2) will be supplied back to the room through the air supply outlet (G2). In addition, when the damper 40 opens both the outdoor air inlet G1 and the indoor air inlet G2, the outdoor air passing through the outdoor air inlet G1 and the indoor The mixing amount of indoor air passing through the air inlet G2 is controlled.

The control of the damper 40 may be performed by the controller based on the air temperature measured by the temperature sensor installed at the outdoor air inlet side and the indoor air temperature measured by the temperature sensor installed at the indoor air inlet side.

Additionally, the fan terminal unit 1 for floor air conditioning may further include a heater 30 located upstream of the fan unit 20 . The fan terminal unit 1 to which the heater 30 is applied may be installed on the outer peripheral side floor of a building where the indoor temperature is relatively low, such as near a window. Note that heaterless fan terminal units are also within the scope of the present invention.

A partition wall 13 in which rectangular air delivery holes 132 are left and right is formed to divide the inner space of the rectangular box-shaped body 10 into the aforementioned suction chamber C1 and discharge chamber C2. The outdoor air inlet (G2) and the air supply outlet (G3) are connected to both sides of the top and back of the box-shaped body (10) by the upper plate (14) coupled with a gap at the top of the box-shaped body (10). are formed in each In addition, the rectangular box-shaped body 10 has the aforementioned outdoor air intake port G1 on the front wall 15 in a rectangular shape. Laterally extending flange portions 154 and 164 are formed at the upper ends of the rectangular box-shaped body 10, in particular, at the upper ends of the front wall 15 and the rear wall 16.

In addition, the fan terminal unit 1 for floor air conditioning according to the present embodiment includes an upper discharge chamber C2 through which the downstream space (ie, the rear space) is connected to the air supply discharge port G3 based on the partition wall 13 and its It includes a partition frame 18 separating the lower space C3 from the discharge chamber C2.

A control unit including a printed circuit board may be installed in the lower space C3 isolated from the discharge chamber C2 by the partition frame 18 . The partition frame 18 can uniformly spread and discharge air from the floor toward the indoor space without loss by a structure described below.

The partition frame 18 has a proximal end coupled to the partition wall 13 near the lower end of the air delivery hole 132 and toward the rear from the lower end of the air delivery hole 132 (ie, the downstream side of the air flow). toward) a horizontal plate part 182 extending while maintaining a horizontal position, and an inclined plate part 184 extending upward at an angle from the front end of the horizontal plate part 182 in a direction approaching the rear wall 16 and the air supply outlet G3. ), and a fixing plate portion 186 formed at the front end of the inclined plate portion 184 and fixed over a fixing portion formed on the rear wall 16.

The left and right widths of the horizontal plate part 182 are the same as the left and right widths of the discharge chamber C2, but the width of the base end of the horizontal plate part 182 is such that the discharge chamber C2 is inserted into the air delivery hole 132. It is smaller than the left and right width of and is almost equal to the width of the air delivery hole 132. To this end, cutouts may be formed at both left and right corners of the base end of the horizontal plate part 182 .

On the other hand, the above-described space sterilization module 60 is mounted on the horizontal plate part 182 . At this time, it is preferable that the space sterilization module 50 is mounted so as to occupy only a partial section in the middle of the entire section of the left and right widths of the horizontal plate part 182 . Since the space sterilization module 50 not only performs sterilization within itself through UV lamps described below, but also generates and exports hydroxyl radicals to the outside space, all blown air by the fan unit 20 It is not necessary to pass through, and only a blowing force capable of blowing the generated hydroxyl radical is sufficient. If the space sterilization module 50 occupies the entire width of the left and right sides of the horizontal plate portion 182 to pass the entire supply air to be blown, the sterilization effect on the passing air by the UV lamp UV C wavelength will be improved, but the fan unit ( 50) may result in an increased load. On the other hand, in order to increase the performance of the space sterilization module 50, it is advantageous that the blowing power into the space sterilization module 50 does not decrease. It is preferable to be as close as possible, and in this embodiment, the inlet of the space sterilization module 50 and the air delivery hole 132 are on the same plane or the inlet of the space sterilization module 50 passes through the air delivery hole 132. It passes through and is located on the side of the suction chamber (C1).

In addition, the inclined plate portion 184 extends obliquely so as to gradually approach the air supply outlet G3 toward the rear. It is preferable that the inclined plate part 184 has an angle of 120 to 140 degrees with respect to the horizontal plate part 182 .

On the other hand, the space sterilization module 50 is disposed in the module case 52, the front and rear of which are open, and the module case 52 and emits UV of a wavelength of 250 to 260 nm, more preferably, a wavelength of 254 nn A lamp 56 and a plurality of flow cells 54 including a photocatalyst disposed in the module case 52 and activated by UV to generate hydroxyl radicals.

The module case 52 has a substantially rectangular parallelepiped shape, and has a structure in which air is introduced into the front and rear sides through which air is discharged. The left and right widths of the module case 52 are greater than the upper and lower widths of the module case 52 .

In addition, the UV lamp 56 is located in the middle of the front and rear length and the middle of the top and bottom height of the module case 52 and extends left and right. The UV lamp 56 radiates UV to its rear side and front side over the entire width of the left and right sides of the module case 52 and also radiates UV to the upper side and lower side.

In addition, each of the plurality of flow cells 54A and 54B (commonly referred to as 54) has a pipe shape and includes a catalyst material that is activated by UV with a wavelength of 250 to 260 nm to generate hydroxyl radicals. The plurality of flow cells 54A and 54B (commonly referred to as 54) include the first group flow cells 54A installed to fill the front space in the module case 52 based on the UV lamp 56, and the UV Second group flow cells 54B installed to fill the rear space within the module case 52 based on the lamp 56 are included. The first group flow cells 54A and the second group flow cells 54B are formed with a multi-metal hydrophilic coating layer and a hydration coating layer of a catalyst material. The catalytic material of the multi-metal hydrophilic coating includes a material in which rhodium, silver, copper, and titanium are mixed.

The UV lamp 56 emits UV light having a wavelength of 250 to 260 nm to the first group flow cells 54A located at the front with respect to itself and the second group flow cells 54B located at the rear relative to the UV lamp 56. By irradiating, catalytic materials including rare metals and noble metals included in the first group flow cells 54A and the second group flow cells 54B are activated, thereby generating purification plasma and hydroxyl radicals let it Hydroxyl radicals are supplied into the room together with the supplied air by the supply air blowing force of the fan unit 20, and ventilate the room and participate in sterilization, disinfection, and deodorization of the room.

In addition, the fan terminal unit 1 for floor air conditioning of this embodiment includes a cover bracket 60 mounted on the horizontal plate part 182 of the partition frame 18 to cover the top and both sides of the space sterilization module 50 more includes The cover bracket 18 includes an upper plate part 62 covering the upper surface of the space sterilization module 50, a pair of side plate parts 64 covering both side surfaces of the space sterilization module 50, and the pair of It is formed at the lower end of the side plate part 64 and integrally includes a lower fastening plate part 66 connected to the upper surface of the horizontal plate part 182 and fastened by a fastener.

The upper plate portion 62 of the cover bracket 60 extends further rearward than the rear end outlet of the space sterilization module 50 so that its end is more of the partition frame 18 than the rear end of the space sterilization module 50. It is located close to the inclined plate portion 184. This allows air containing hydroxyl radicals to be directed more quickly and more uniformly towards the interior space. This reduces the amount of air containing hydroxyl radicals that stagnates in the air supply discharge chamber or does not flow back into the room, thereby enhancing the sterilization, disinfection, and deodorization effects of the indoor space. Furthermore, the structure extending further toward the rear wall so that the upper plate portion 62 sufficiently covers the outlet side of the space sterilization module 50 as above also suppresses direct exposure of UV from the UV lamp 20 to people. Valid.

Accordingly, the upper plate portion 62 of the cover bracket 60 extends further toward the rear end than the lower end of the side plate portion 64 of the cover bracket 60, and the side plate portion 64 extends from the upper end meeting the upper plate portion 62. It is inclined to the lower end where it meets the fastening plate part 66. The front and rear lengths of the lower end of the side plate part 64 of the cover bracket 60 and the fastening plate part 66 are limited according to the horizontal plate part 182 whose extension length is limited in order to secure a sufficient extension length of the inclined plate part 184.

Hydroxyl radicals (OH radicals) generated in the sterilization module 50 of the fan terminal unit 1 for floor air conditioning and introduced into the indoor space by the blowing force of the fan unit 20 have oxidizing power (ability to sterilize, disinfect, and decompose) It is approximately 2000 times stronger than ozone and 180 times stronger than solar ultraviolet rays, but unlike fluorine, chlorine and ozone, it is non-toxic and harmless to the human body, so it can be used very advantageously for indoor sterilization, deodorization and disinfection of buildings.

10...........................Square box body
20...........................Fan unit
50............ Space sterilization module
52...........................Module case
54A, 54B, 54..............Eurocell
56........................... UV lamp

Claims (4)

In the fan terminal unit for floor air conditioning disposed under the access floor indoors,
It includes a front wall on which an outdoor air intake is formed and a rear wall blocked opposite to the front wall, and is connected to a suction chamber and an air supply outlet, which are respectively connected to the outdoor air intake and the indoor air intake, by a partition wall having an air transfer hole. a rectangular box-shaped body in which a discharge chamber is formed as a compartment;
a fan unit disposed in the suction chamber to blow air coming in through the outdoor air intake or the indoor air intake to the discharge chamber, and supplying air from the discharge chamber to the room through the supply air discharge port; and
A space sterilization module disposed in the discharge chamber and generating hydroxyl radicals for indoor space sterilization;
The space sterilization module,
A module case with open rear and front sides;
A UV lamp disposed in the module case and emitting UV with a wavelength of 250 to 260 nm;
It is disposed in the module case and includes a plurality of flow cells that allow air flow by operation of the fan unit,
The plurality of flow cells include a catalyst that is activated by UV with a wavelength of 250 to 260 nm to generate hydroxyl radicals,
It further includes a partition frame installed to separate the discharge chamber from a lower space, and the partition frame has a proximal end coupled to the partition wall near the lower end of the air delivery hole and extends from the lower end of the air delivery hole toward the rear while remaining horizontal. a horizontal plate portion, an inclined plate portion inclined upwardly extending from the tip of the horizontal plate portion in a direction approaching the rear wall and the air supply outlet, and a fixed plate portion formed at the tip of the inclined plate portion and fixed to the rear wall, A fan terminal unit for floor air conditioning, characterized in that the space sterilization module is mounted on the horizontal plate. delete The method according to claim 1, further comprising a cover bracket mounted on the horizontal plate to cover an upper surface and both sides of the space sterilization module, the cover bracket includes an upper plate covering the upper surface of the space sterilization module, and the space sterilization module It includes a pair of side plate parts covering both side surfaces of the pair and a lower fastening plate part formed at the lower end of the pair of side plate parts and coupled to the upper surface of the horizontal plate part in contact with each other, and the upper plate part is more than the rear end outlet of the space sterilization module. A fan terminal unit for floor air conditioning, characterized in that it extends further to the rear so that an end is located closer to the inclined plate portion than the rear end of the space sterilization module. The method according to claim 1, wherein the plurality of flow cells are first group flow cells installed to fill the front space within the module case based on the UV lamp, and fill the rear space within the module case based on the UV lamp A fan terminal unit for floor air conditioning, characterized in that it includes installed second group flow cells.

Images