KR101176038B1 - Green navigator and green jet cruiser system - Google Patents

Abstract

PURPOSE: A flow changeable volume device for a green air conditioner and a green air conditioner using the same are provided to control the speed of air flow and blowing distance by using a plurality of multi-step coupled air reducers in an air chamber. CONSTITUTION: A flow changeable volume device for a green air conditioner comprises an air reducer(10) and an air damper(20). The air reducer comprises an insert pipe and a nozzle pipe for inertia guide. The insert pipe and the nozzle pipe for inertia guide are partitioned through a stepped portion. A holder(13) and a hook(14) are formed in the exterior of the nozzle pipe for inertia guide. The air damper comprises a main body and a control plate. The control plate adjusts the quantity of air flow. A coupling hook is formed in a pipe min body.

Description

Green air conditioning system having airflow variable volume device and airflow variable volume device for green air conditioning system {GREEN NAVIGATOR AND GREEN JET CRUISER SYSTEM}

The present invention is to promote efficient air conditioning and air conditioning in a large space and convection circulation of vertical, horizontal counter temperature difference, which is provided with an air chamber on one side of the duct supplied and withdrawn from the air conditioner, a plurality of multi-stage coupling type By tightening the air reducer, it is possible to precisely control the wind speed and spraying distance of the inertia, and also allow the separate air damper to control the air volume (volume), so that efficient air conditioning and air conditioning and improved greenhouse effect of the building can be achieved. It is formed to be secured.

Therefore, the present invention enables to significantly reduce the temperature deviation by the horizontal counter temperature convection circulation air conditioning system even for a large space of one (same floor) with a wide building orientation and a large temperature difference. And airflow variable volume device for green air conditioning system, characterized in that the efficient air conditioning and control can be easily carried out by the vertical large temperature difference convection circulation air conditioning system for large space buildings with a large temperature deviation on the ceiling and A green air conditioning system having an airflow variable volume device.

Recently, in order to create pleasant indoor air in living spaces and to protect human health, air conditioners are supplied with fresh air and heat sources of heat source equipment, connected to air conditioning ducts, and then air is transferred to the air conditioning area of the desired building for heating and cooling. And the installation of the air-conditioning system to perform the ventilation is constantly increasing.

An air conditioner of such an air conditioning system is installed in a building or an underground facility, and it is recognized that it is almost essential to provide not only an air conditioning function but also an air purifying function.

In addition, the air-conditioning and airflow through the air conditioner is branched to each interior of the building through the air conditioning duct, the airflow branched to each room performs the function of indoor cooling and heating and ventilation through the air outlet of each room.

On the other hand, contaminated dusts in human dwellings are generally distributed in various sizes ranging from submicron units to tens of microns, and have very different chemical or microbiological characteristics.

Therefore, depending on the chemical or microbiological characteristics of these polluted dusts, the harmful effects of the polluted dusts on the human body also vary.

Accordingly, the air filtration device must be able to remove not only the filtration by a prefibrous pretreatment filter but also an electrostatic precipitating method and gaseous or microbial contaminants.

In more detail, the conventional air conditioner is a device for controlling the cooling, heating and air in the room, including an inlet for inhaling fresh outside air and an outlet for discharging muddy air in the room, which is sucked through the inlet Various filters are installed at internal places to filter external air.

In addition, a cooling coil for cooling the temperature of the air and a heating coil for heating the air are provided inside the apparatus, and a drain fan for accommodating or draining the condensate is provided, and a blower and a driving unit are provided at the rear of the heating coil. It has a structure that can be discharged to the outside through the discharge port is equipped with a motor to make.

At this time, a vibration-proof structure for absorbing / mitigating the vibration and noise emitted from the air according to the operation of the blower is included.

In this case, the case of the air conditioner is made of a box having a frame made of a roughly hexahedron by using a welding or connecting member, and is provided in the form of a box with an insulating plate attached to the outside of the frame and provides a space for installing the above components therein. .

However, in the conventional air conditioning system, when the floor height is high and the space is large, such as a large space, the extracted air-conditioning airflow does not reach the desired air conditioning area sufficiently and rises rapidly to the upper floor of the room, so that the heat loss is large and the upper and lower temperature difference is increased. As a result, the preheating time of buildings is long and needs to be maintained.

As a result, the conventional air conditioning system has to increase the equipment capacity accordingly, and it is designed even when the air conditioner and the heat source equipment are operated because it is almost impossible to control the airflow speed, the reach distance, the air volume, the direction, etc. according to each zone. There was a problem in that the heating and cooling temperatures and airflows that meet the conditions could not be obtained, resulting in enormous energy loss and financial loss due to facility investment.

In addition, currently used air conditioning system is not composed of air circulation control system such as air speed, reach, air volume, direction control, etc., and it is effective and comfortable air-conditioning There is no ventilation.

In addition, the conventional air conditioner used glass wool (glass fiber) or polyurethane (PU) as a heat insulating insulating material to a simple steel (tin, etc.) insulation board, glass wool material is a non-combustible glass fiber Due to the nature of work, there is a safety problem, and when it is left for a long time, the glass fiber itself hardens, and eventually the glass fiber is swept in the air conditioner and flows into the room through the duct, which is not environmentally friendly and extremely harmful to the human body. It's happening.

In addition, although the polyurethane (PU) material is significantly improved in use safety compared to glass wool, it is pointed to a problem that is vulnerable to fire because it is formed of a combustible material that burns well, and has a low density structure. Due to the poor thermal insulation and noise reduction effect, the installation volume must be designed thick, which causes oversizing of equipment and increase of manufacturing cost.

In addition, a conventional heat insulating plate is a simple metal panel such as tin, SS41, SUS304, etc., and is easily contaminated and discolored, thereby degrading air filtration performance and durability, as well as surface friction between the device airflow and the inner panel generated during air filtration. It is largely generated and causes a decrease in air conditioning efficiency and an increase in operating costs.

In addition, a conventional air conditioner generates a considerable amount of heat loss in the air chamber and the duct for distributing the filtered air to each room, and in particular, in recent years, it is required to prepare a countermeasure against noise generated during operation of the air conditioner. .

The present invention is to solve the above-described problems, the technical gist of the air conditioning and air conditioning in a large space and to promote efficient air conditioning of the vertical, horizontal counter temperature difference convection circulation, which is an air chamber on one side of the duct supplied and recovered from the air conditioner And fastening a plurality of multi-stage coupled air reducers to the air chamber to precisely control the wind speed and the injection distance of the air flow due to inertia, as well as to control the air volume (volume) by a separate air damper. It is formed to ensure efficient cooling and air conditioning and improved greenhouse effect of the building. This is achieved by the horizontal large temperature difference convection circulation air conditioning system for the large space on the same floor where the building orientation is wide and the temperature difference is large. While the temperature deviation can be significantly reduced, the high floor height Airflow variable volume device and airflow variable for green air conditioning system, characterized in that the efficient air conditioning and control can be easily performed by the vertical large temperature difference convection circulation air conditioning system for large space buildings with large temperature deviation. It is an object of the present invention to provide a green air conditioning system having a volume device.

In addition, the present invention allows the air conditioner's exterior cover panel, air chamber and duct to effectively block heat conduction, convection, and radiation, but is flame retardant and harmful compared to conventional glass wool or polyurethane (PU) thermal insulation materials (environmentally friendly). ), Safety and noise reduction effect is greatly improved, as well as hybrid coating on inner panel of aluminum (air chamber, duct), so corrosion, water resistance, acid resistance, Alkali resistance, abrasion resistance, heat resistance, yellowing resistance, high hardness, durability (life), etc. to be significantly improved, which can be applied to a wide range of installation site (indoor-outdoor swimming pool, seaside, factory, clean room, etc.) The air conditioner is operated so as to improve the air conditioning efficiency by minimizing the friction coefficient of the airflow conveyed therein. It is another object of the present invention to provide a hybrid green air conditioner having energy and noise reduction functions, eco-friendly construction properties, and high flame retardancy, which may be expected to reduce operating costs and energy savings due to power reduction.

Thus, the present invention has a predetermined interval with the frame angle bar of the air conditioner, the metal rods are assembled to the corner mold of the synthetic resin material so as not to be exposed (obscured) from the inner side of the air conditioner, the corner mold and each bar is separate Condensation prevention paint and silicon are coated and bonded to prevent condensation from occurring on the outside of each bar of the frame during heat exchange due to temperature difference between inside and outside of the air conditioner. It is characterized by preventing and deteriorating air filtration performance.

In order to achieve the above object, in the airflow variable volume device of the present invention, a hollow insert tube 11 is formed, and a step diameter is narrower than a diameter of the insert tube 11 at an end adjacent to the insert tube 11. An air reducer 10 is formed by combining an inertial nozzle tube 12 so as to form the same.

At this time, the air reducer 10 has a joint holder 13 and a hook 14 formed on the outer circumferential surface of the insert pipe 11 and the inertial nozzle nozzle 12, so that a plurality of medium or small diameter air les It is preferable to allow the duplexers 10a and 10b to be assembled in multiple stages by a one-touch method.

In addition, the air flow variable volume device is a hollow tube body 21 is formed, the inside of the tube body 21 is provided with a control intermittent plate 22 for diffraction or rotation to adjust the amount of flow of air flow, On the outer circumferential surface of the tube body 21 is formed an air damper 20 in which a coupling hook 23 is formed so as to be assembled to correspond to the insert tube 11 side holder 13 of the air reducer.

At this time, the control damping plate 22 of the air damper is formed with a hinge shaft 22-11 penetrating the tube body 21 in an orthogonal direction, and the disc 22-12 inserted into the tube body based on the hinge axis. ) Is a rotating intermittent plate 22-1 for intermittent conveyance of the airflow while rotating, or a perforated plate 22-21 in which a plurality of holes are formed in the tube body 21 is formed, and the central hinge of the perforated plate ( It is preferable that the shielding plate 22-23 is formed of any one of the diffraction interrupting plates 22-2 to open and close the holes to interrupt the transport of the airflow while diffusing in the circumferential direction with reference to 22-22). Do.

In addition, the air reducer 10 and the air damper 20 is preferably made of a synthetic resin material or a metal material.

At this time, the air reducer 10 is directly connected to the end of the inertial induction nozzle tube 12 to combine the wind direction control diffuser 30, or other connector including a flexible duct at the end of the inertial induction nozzle tube 12 After connecting to the end of the connector is preferably any one of the wind direction control diffuser 30 is coupled.

In addition, the air reducer 10 allows the insert pipe 11 to be directly attached to the air conditioner duct 1 or the air chamber 2 connected from the central air conditioner, the air chamber is exposed to the desired living space Or a buried ceiling bar connected air chamber, a ceiling individual box split air chamber, a floor individual box air chamber, or a floor individual stand-arm air chamber. As it is, preferably coupled to the opening of the air chamber.

On the other hand, the green air conditioning system having a variable air flow device of the present invention to promote the air supply and circulation for various large-space buildings, but two or more internal devices of the blower, filtration filter device, washing device, heat exchanger is optionally composed An air conditioner 3; An air conditioner duct (1) for conveying the filtered air from the air conditioner to the indoor side of the desired large space or conveying the indoor air to the air conditioner side; In the configured air conditioning system, the air conditioner duct (1) is formed to be connected to the indoor air chamber (2), the air chamber so that one or more air reducer (10) is coupled to the opening hole, The air reducer 10 is formed of a hollow insert tube 11, the end adjacent to the insert tube 11 to the step of forming an inertial nozzle tube to form a step smaller than the diameter of the insert tube 11 ( 12 is coupled, the joint holder 13 and the hook 14 is formed on the outer circumferential surface of the insert pipe 11 and the inertial nozzle nozzle 12, a plurality of medium or small diameter air reducer (10a) , 10b) can be assembled in multiple stages by one touch method. When multiple air reducers are combined in multiple stages horizontally, vertically or in multiple directions, the airflow is inertia induced. Optimal convection circulation efficiency It is formed to secure.

In this case, the green air conditioning system is such that the air damper 20 is coupled between the air chamber 2 and the air reducer 20, the air damper 20 is a hollow tube body 21 is formed, Inside the tube body 21, a control intermittent plate 22 for diffraction or rotation is formed to adjust the amount of air flow, and on one outer peripheral surface of the tube body 21, the insert tube 11 side of the air reducer is provided. It is preferable that the coupling hook 23 is formed to correspond to the holder 13 so that the amount of airflow injected through the air reducer can be adjusted.

Accordingly, the air conditioner of the green air conditioning system includes a frame-type frame 100 formed in a frame shape, a filtration air conditioner 200 formed inside the frame to perform filtration while providing air supply and ventilation, and the frame of In the air conditioner provided with a plurality of panels 300 to be coupled to correspond to the outer peripheral surface of the opening, the panel 300 is based on the PIR (Poly Isocyannurate Resin) thermal insulation material 310, the outer plate 320 and the aluminum material of the metal material The inner plate 330 is combined to form an integrated panel.

At this time, it is preferable that the hybrid coating agent 331 is applied to the outer circumferential surface of the inner plate 330 of the panel.

In addition, a box-type filtration chamber 400 is formed on the upper circumferential surface of the hybrid green air conditioner to connect the ventilation and air supply ducts 1 for each living space to distribute the filtered air, and the outer wall 410 of the filtration chamber is The outer plate 412 of the metal material and the inner plate 413 of the aluminum material are coupled to the poly isocyannurate resin (PIR) insulating material 411 to form an integral outer wall 410.

Thus, the frame 100 is formed to form a frame by a plurality of angle rods 110, the corner mold 500 of the synthetic resin material is coupled to the inner side edge end (C) of the angle rod 110 is cold air in the air conditioner It is preferable that condensation is generated on the outer surface of each rod during convection.

In addition, the corner mold 500 is formed with a shielding plate 510 branched in a direction parallel to the surface of the panel 300, the shielding plate 510 is formed to abut the inner surface of the panel 300 On the other side opposite to the shielding plate 510, a locking hole 520 is formed to correspond to the coupling groove 111 formed at the corner end C side of each rod 110 so as to be fixedly coupled to the frame when viewed from the inside of the air conditioner. It is preferable to prevent the condensation from occurring by blocking the convection of the cold air in the air conditioner to the angle bar 110 side by forming a predetermined interval (D) with the angle bar 110 while covering the angle bar 110.

At this time, it is preferable that the condensation preventing paint is applied to the corner molds 110 of the corner mold 500 and the frame.

In addition, when the corner mold 500 and the angular bar 110 of the frame is coupled, it is preferable to apply silicon (S) to prevent the leakage of the coupling groove and each seam of the latch.

Thus, the hybrid coating agent 331 is preferably a flame retardant, oxidation-resistant, antifouling, moisture-proof function is formed by combining the silicon dioxide (SiO2) component with a solvent (alcohol) and a curing agent as a main component.

In addition, the hybrid green air conditioner is coupled to the ventilation chamber and the air supply duct (1) for each living space in the filtration chamber 400, the duct 1 is made of a metal material based on the poly isocyannurate resin (PIR) 610 It is preferable that the outer plate 620 and the inner plate 630 made of aluminum are integrally combined to greatly improve corrosion resistance.

In addition, the poly isocyannurate resin (PIR) insulating material (310, 411, 610) is preferably a high density flame-retardant rigid polyurethane foam.

In this case, it is preferable that the hybrid coating agent 331 is also applied to the outer circumferential surfaces of the filtration chamber 400 and the inner plates 411 and 330 of the duct 1.

Thus, the filtration air conditioning unit 200 is composed of a filtration filter and a blower for supply and exhaust, the blower is preferably a hybrid coating is applied to the blade (rotation blade) and the inner surface.

As described above, the present invention is to promote efficient air conditioning and air conditioning in a large space and convection circulation of vertical and horizontal large temperature difference convection, which is provided with an air chamber on one side of the duct that is supplied and recovered from the air conditioner. By connecting a multi-stage combined air reducer, it is possible to precisely control the wind speed and injection distance of the air flow due to inertia, as well as to control the air volume (volume) by a separate air damper to improve air conditioning and air conditioning and improve the structure. It is formed to secure the greenhouse effect, which makes it possible to significantly reduce the temperature deviation by the horizontal large temperature difference convection circulation air conditioning system even for large spaces on the same floor where the temperature difference is large. Also, for large space buildings with high temperature variations between the floor and ceiling due to the high floor height The vertical counter temperature difference convection circulation air conditioning system has an effect of allowing efficient control and variable control of air conditioning.

Therefore, the air conditioner of the present invention, but the outer cover panel, air chamber and ducts to all effectively block heat conduction, convection and radiation, but compared to the conventional glass wool or polyurethane insulation, flame retardant and harmful (eco-friendly), safety In addition, the noise reduction effect can be greatly improved, and a hybrid coating is applied to the aluminum (Al) inner panel (air chamber, duct) so that corrosion resistance, water resistance, acid resistance, alkali resistance, Abrasion resistance, heat resistance, yellowing resistance, high hardness, durability (life), etc. to be significantly improved, which is formed so that the installation site of the air conditioner (indoor-outdoor swimming pool, seaside, factory, clean room, etc.) can be widely applied In this regard, the air conditioner improves the air conditioning efficiency by minimizing the friction coefficient of the airflow transferred from the inside, thereby driving power The reduction in operating costs and energy savings can be expected.

In addition, the present invention has a predetermined interval with the frame angle bar of the air conditioner, each of the metal rod is assembled to the corner mold of the synthetic resin material so as not to be exposed (covered) from the inner side of the air conditioner, the corner mold and each rod is separate Condensation prevention paint and silicon are coated and bonded to prevent condensation from occurring on the outside of each bar of the frame during heat exchange due to temperature difference between inside and outside of the air conditioner. It is effective in preventing and reducing air filtration performance.

1 is a side view of an air reducer according to the present invention;
Figure 2 is an exemplary view showing a multi-stage mounting use state of the air reducer according to the present invention,
3 is a side view of the coupling state of FIG.
4 to 5 is an exemplary view of an air damper according to the present invention,
6 to 10 is an exemplary view showing an example in which the air reducer of the present invention is applied to the air conditioning system,
11 is a side view of an air conditioner according to the present invention;
12 is a side cross-sectional view of the panel according to the present invention;
13 is a perspective view of a planar main part of the air chamber according to the present invention;
14 is a cross-sectional view taken along the line AA of FIG. 13;
15 is an exemplary view showing that the corner mold according to the present invention is coupled to each bar,
16 is a side view of a duct according to the present invention;
17 is a cross-sectional view taken along line BB of FIG. 16.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

1 to 10, the airflow variable volume device of the present invention is composed of each air reducer and air damper that can be used as a single piece, the air reducer and air damper can be used in combination with each other It is configured to be.

At this time, the air reducer 10 is a hollow insert pipe 11 is formed, the end adjacent to the insert pipe 11 for inertial induction so as to form a step smaller in diameter than the diameter of the insert pipe 11 The nozzle tube 12 is made of a combination.

That is, the insert pipe and the nozzle tube for inertial induction are integral pipes, and when connected in multiple stages such as large diameters, medium diameters, and small diameters, precise injection distances and air space vertical, There is a characteristic that can improve the horizontal temperature difference.

At this time, the air reducer 10 has a joint holder 13 and a hook 14 formed on the outer circumferential surface of the insert pipe 11 and the inertial nozzle nozzle 12, so that a plurality of medium or small diameter air les It is preferable to allow the duplexers 10a and 10b to be assembled in multiple stages by a one-touch method.

That is, the holder for the joint means a kind of through groove, and the hook corresponds to the through groove of the holder, which means that the one-way wedge may be filled and fixed.

In other words, when the one or more air reducers are combined, the insert tube of the medium-diameter air reducer corresponds to the nozzle tube for inertial induction of the reference air reducer to form a step and further inertia.

In this case, the insert pipe of the air reducer may be directly coupled to the duct connected from the air conditioner, or the duct is coupled to the exhaust hole side of the air chamber is connected to a plurality of flexible ducts to be coupled to the nozzle tube for inertial induction It is possible.

Thus, the insert tube side of the air reducer is preferably formed to be coupled to the air damper for the air volume control, that is, volume control.

At this time, the air damper 20 is a hollow tube body 21 is formed, the inside of the tube body 21 is provided with a control intermittent plate 22 for diffraction or rotation to adjust the amount of air flow, A coupling hook 23 is formed on one side outer circumferential surface of the tube main body 21 so as to be assembled to correspond to the insert tube 11 side holder 13 of the air reducer.

At this time, the control damping plate 22 of the air damper is formed with a hinge shaft 22-11 penetrating the tube body 21 in an orthogonal direction, and the disc 22-12 inserted into the tube body based on the hinge axis. ) Is a rotating intermittent plate 22-1 for intermittent conveyance of the airflow while rotating, or a perforated plate 22-21 in which a plurality of holes are formed in the tube body 21 is formed, and the central hinge of the perforated plate ( It is preferable that the shielding plate 22-23 is formed of any one of the diffraction interrupting plates 22-2 to open and close the holes to interrupt the transport of the airflow while diffusing in the circumferential direction with reference to 22-22). Do.

In addition, the air reducer 10 and the air damper 20 is preferably made of a synthetic resin material or a metal material.

At this time, the air reducer 10 is directly connected to the end of the inertial induction nozzle tube 12 to combine the wind direction control diffuser 30, or other connector including a flexible duct at the end of the inertial induction nozzle tube 12 After connecting to the end of the connector is preferably any one of the wind direction control diffuser 30 is coupled.

In addition, the air reducer 10 allows the insert pipe 11 to be directly attached to the air conditioner duct 1 or the air chamber 2 connected from the central air conditioner, the air chamber is exposed to the desired living space Or a buried ceiling bar connected air chamber, a ceiling individual box split air chamber, a floor individual box air chamber, or a floor individual stand-arm air chamber. As it is, preferably coupled to the opening of the air chamber.

On the other hand, the green air conditioning system having a variable air flow device of the present invention to promote the air supply and circulation for various large-space buildings, but two or more internal devices of the blower, filtration filter device, washing device, heat exchanger is optionally composed An air conditioner 3; An air conditioner duct (1) for transferring the filtered air from the air conditioner to the indoor side of the desired large space or conveying the indoor air to the air conditioner side; It is configured to form a basic air conditioning system.

In this case, the air conditioner duct (1) is formed to be connected to the indoor air chamber (2), the air chamber is to allow one or more air reducer 10 is coupled to the opening hole, the air reducer (10) The hollow insert tube 11 is formed, the end adjacent to the insert tube 11 is coupled to the inertial induction nozzle tube 12 to form a step with a diameter narrower than the diameter of the insert tube 11, A joint holder 13 and a hook 14 are formed on the outer circumferential surfaces of the insert pipe 11 and the inertial nozzle nozzle 12 so that a plurality of medium or small diameter air reducers 10a and 10b are one-touch. When multiple air reducers are combined in multiple stages horizontally, vertically or in multiple directions, the airflow is inertial to optimize convective circulation efficiency of vertical and horizontal large temperature differences when spraying large spaces. It is formed to secure.

In this case, the green air conditioning system is such that the air damper 20 is coupled between the air chamber 2 and the air reducer 20, the air damper 20 is a hollow tube body 21 is formed, Inside the tube body 21, a control intermittent plate 22 for diffraction or rotation is formed to adjust the amount of air flow, and on one outer peripheral surface of the tube body 21, the insert tube 11 side of the air reducer is provided. It is preferable that the coupling hook 23 is formed to correspond to the holder 13 so that the amount of airflow injected through the air reducer can be adjusted.

As described above, the green air conditioning system of the present invention is (a) air conditioning of Muju large space such as airport, history, office building, and performance hall / (b) air conditioning of high floor space such as auditorium, gymnasium, lobby, hall, and (c) factory Total air conditioning and local air conditioning in large places such as, workplaces, manufactory, etc./ (D) Quiet and pleasant air conditioning in high-level spaces such as art museums, museums, churches, and cathedrals. Vertical large temperature difference convection circulation in large spaces / (bar) Buildings, lobby, hall, etc. Horizontal large temperature difference convection circulation air conditioner with large temperature difference according to greenhouse effect and building direction / (G) Airport, office building, history As a large temperature difference convection circulation air conditioning system in a large space with a large vertical and horizontal temperature difference due to azimuth, greenhouse effect, etc., there is a characteristic that the optimum efficiency can be expected.

On the other hand, the air conditioner of the air conditioning system according to the present invention, as shown in Figures 10 to 17, and the frame-type frame 100 made of a large frame shape, mounted inside the frame to perform the filtration while providing air supply, ventilation Filtration air conditioning unit 200 is formed to be formed, and a plurality of panels 300 are provided to be coupled to correspond to the outer peripheral surface of the opening of the frame.

In this case, the panel 300 is formed to combine the outer plate 320 of the metal material and the inner plate 330 of the aluminum material based on the poly isocyannurate resin (PIR) insulating material 310 to form an integrated panel.

That is, the panel is formed in the form of an integrated sandwich panel in which the insulation is coupled between the inner and outer plates.

At this time, the PIR insulation material 310 is preferably a high-density flame-retardant rigid polyurethane foam.

In more detail, the PIR thermal insulation material 310 is an organic material refractory material that is not burned while having excellent thermal insulation performance of 70% or more than a general thermal insulation material, and is made of polyisocyanurate resin.

That is, the conventional styrofoam (polystyrene foam) has a disadvantage in that the price is competitive, but weak in heat and no fire resistance at all, while the glass fiber has a high flame retardancy but low insulation, the thickness of the thickening during construction, the heat insulating material of the present invention Its fire resistance is very strong, so even if it is directly heated by a torch, only a slight burning occurs, and even if it is continuously applied, it does not catch fire.

In addition, the heat insulating material of the present invention is classified as K = 0.023W / mh ° C or lower by KS M 3809, but according to the test of an official institution, it is a high-efficiency heat insulating material having a lower K = 0.020W / mh ° C. can do.

In addition, the heat resistance and flame retardancy of the PIR insulation material is semi-flammable (flame retardant 2) grade, and is safe to fire, and the aluminum inner plate reflects and radiates radiant heat (about 65% to 80% of the total heat) to show the best insulation effect. .

Thus, the PIR insulation is a high-density flame-retardant hard polyurethane, excellent sound insulation and moisture resistance.

At this time, it is preferable that the hybrid coating agent 331 is applied to the outer circumferential surface of the inner plate 330 of the panel.

Thus, the hybrid coating agent 331 is preferably a flame retardant, oxidation-resistant, antifouling, moisture-proof function is formed by combining the silicon dioxide (SiO2) component with a solvent (alcohol) and a curing agent as a main component.

In addition, a box-type filtration chamber 400 connected to the ventilation and air supply ducts 1 for each living space is formed on the outer circumferential surface of the hybrid green air conditioner, and the outer wall body 410 of the air chamber is formed. The outer plate 412 of the metal material and the inner plate 413 of the aluminum material are coupled to the poly isocyannurate resin (PIR) insulating material 411 to form an integral outer wall 410.

Thus, the frame 100 is formed to form a frame by a plurality of angle rods 110, the corner mold 500 of the synthetic resin material is coupled to the inner side edge end (C) of the angle rod 110 is cold air in the air conditioner It is preferable that condensation is generated on the outer surface of each rod during convection.

In addition, the corner mold 500 is formed with a shielding plate 510 branched in a direction parallel to the surface of the panel 300, the shielding plate 510 is formed to abut the inner surface of the panel 300 On the other side opposite to the shielding plate 510, a locking hole 520 is formed to correspond to the coupling groove 111 formed at the corner end C side of each rod 110 so as to be fixedly coupled to the frame when viewed from the inside of the air conditioner. It is preferable to prevent the condensation from occurring by blocking the convection of the cold air in the air conditioner to the angle bar 110 side by forming a predetermined interval (D) with the angle bar 110 while covering the angle bar 110.

At this time, it is preferable that the condensation preventing paint is applied to the corner molds 110 of the corner mold 500 and the frame.

In addition, when the corner mold 500 and the angular bar 110 of the frame is coupled, it is preferable to apply silicon (S) to prevent the leakage of the coupling groove and each seam of the latch.

In addition, the hybrid green air conditioner is coupled to the ventilation chamber and the air supply duct (1) for each living space in the filtration chamber 400, the duct 1 is made of a metal material based on the poly isocyannurate resin (PIR) 610 It is preferable that the outer plate 620 and the inner plate 630 made of aluminum are integrally combined to greatly improve corrosion resistance.

In this case, it is preferable that the hybrid coating agent 331 is also applied to the outer circumferential surfaces of the filtration chamber 400 and the inner plates 411 and 330 of the duct 1.

Thus, the filtration air conditioning unit 200 is composed of a filtration filter and a blower for supply and exhaust, the blower is preferably a hybrid coating is applied to the blade (rotation blade) and the inner surface.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10 ... air reducer 11 ... insert tube
12 ... nozzle tube 13 ... holder
14 ... Hook 20 ... Air Damper
21 ... tube body 22 ... intermittent plate
23 ... hooks for joining 30 ... diffuser for adjusting wind direction
100 ... frame 110 ... each bar
111 ... coupling groove 200 ... filtration air conditioning unit
300 ... panel 310 ... PIR insulation
320 ... outer plate 330 ... inner plate
331 ... hybrid coating 400 ... filtration chamber
410 ... outer wall 500 ... corner mold
510 ... blind plate 520 ... latch

Claims (10)

delete delete A hollow insert tube 11 is formed, and the inertial nozzle tube 12 is coupled to the end adjacent to the insert tube 11 to form a step with a diameter narrower than the diameter of the insert tube 11. The reducer 10 is configured, and the air reducer 10 includes a joint holder 13 and a hook 14 formed on an outer circumferential surface of the insert pipe 11 and the inertial nozzle nozzle 12. In the airflow variable volume device that allows the medium- or small-diameter air reducer (10a, 10b) can be sequentially assembled in a multi-stage by a one-touch method,
The airflow variable volume device is a hollow tube body 21 is formed, the inside of the tube body 21 is provided with a control intermittent plate 22 for diffraction or rotation to adjust the amount of air flow, the tube body On one side of the outer peripheral surface of the 21 is characterized in that the air damper 20 is formed that the coupling hook 23 is formed so as to be assembled to correspond to the holder 13 of the insert tube 11 side of the air reducer Airflow variable volume device for green air conditioning system. The method of claim 3, wherein the control intermittent plate 22 of the air damper is
A hinge shaft 22-11 penetrating the tube body 21 in an orthogonal direction is formed, and the disc 22-12 inserted into the tube body with respect to the hinge axis rotates to interrupt the transfer of airflow. Perforated plate (22-1) or the perforated plate (22-21) formed with a plurality of holes in the tube body 21 is formed, the shielding plate (22-23) based on the central hinge (22-22) of the perforated plate ) Is a diffraction interrupting plate (22-2) which opens and closes the hole while diffracting in the circumferential direction to interrupt the transport of the airflow. delete A hollow insert tube 11 is formed, and the inertial nozzle tube 12 is coupled to the end adjacent to the insert tube 11 to form a step with a diameter narrower than the diameter of the insert tube 11. The reducer 10 is configured, and the air reducer 10 includes a joint holder 13 and a hook 14 formed on an outer circumferential surface of the insert pipe 11 and the inertial nozzle nozzle 12. In the airflow variable volume device that allows the medium- or small-diameter air reducer (10a, 10b) can be sequentially assembled in a multi-stage by a one-touch method,
The airflow variable volume device is a hollow tube body 21 is formed, the inside of the tube body 21 is provided with a control intermittent plate 22 for diffraction or rotation to adjust the amount of air flow, the tube body On the outer circumferential surface of one side 21 is formed an air damper 20 is formed with a coupling hook 23 is formed so as to be assembled to correspond to the holder 13 of the insert pipe 11 side of the air reducer,
The air reducer 10 is coupled directly to the end of the inertial induction nozzle tube 12 to couple the wind direction control diffuser 30, or to connect the other connector including a flexible duct to the end of the inertial nozzle tube 12. And then the airflow variable volume device for a green air conditioning system, characterized in that any one of the wind direction control diffuser 30 is coupled to the end of the connector. 7. The air reducer (10) according to claim 6, wherein the air reducer (10) allows the insert pipe (11) to be directly attached to the air conditioner duct (1) or the air chamber (2) connected from the central air conditioner, the air chamber being the desired residence. Ceiling bar (BAR) connected air chambers exposed or buried in space, ceiling individual box split air chambers, floor individual box air chambers, or floor individual stand-arm air chambers Any one of phosphorus, the air flow variable volume device for a green air conditioning system, characterized in that coupled to the opening of the air chamber. delete An air conditioner (3) configured to provide air supply and circulation to various large-space buildings, wherein two or more internal devices of a blower, a filtration filter device, a washing device, and a heat exchanger are selectively combined; An air conditioner duct (1) for conveying the filtered air from the air conditioner to the indoor side of the desired large space or conveying the indoor air to the air conditioner side; In the configured air conditioning system,
The air conditioner duct (1) is formed to be connected to the indoor air chamber (2), the air chamber is to allow one or more air reducer 10 is coupled to the opening hole, the air reducer 10 is hollow Insert tube 11 of the formed is formed, the end adjacent to the insert tube 11 is coupled to the inertial induction nozzle tube 12 to form a step with a diameter narrower than the diameter of the insert tube 11, the insert A joint holder 13 and a hook 14 are formed on the outer circumferential surfaces of the pipe 11 and the inertial nozzle tube 12 so that a plurality of medium or small diameter air reducers 10a and 10b are formed by a one-touch method. In order to be assembled in multiple stages sequentially, when multiple air reducers are combined in multiple stages in the horizontal, vertical or multi direction, the airflow is inertial to ensure optimal convection circulation efficiency of vertical and horizontal large temperature differences when spraying large spaces. But
The green air conditioning system is such that the air damper 20 is coupled between the air chamber 2 and the air reducer 20, the air damper 20 is a hollow tube body 21 is formed, the tube body Inside the 21, an adjustable intermittent plate 22 for diffraction or rotation is formed so as to adjust the amount of flow of airflow, and on one outer peripheral surface of the tube main body 21, an insert tube 11 side holder of an air reducer ( 13) Green hook air conditioning system having a variable air flow variable volume characterized in that the coupling hook 23 is formed so that it can be assembled to correspond to the control to adjust the amount of air flow is injected through the air reducer. 10. The air conditioner (3) of claim 9, wherein
Enclosure-type frame 100 having a frame shape, a filtration air conditioner 200 mounted inside the frame and configured to perform filtration while promoting air supply and ventilation, and a plurality of coupled to correspond to the outer peripheral surface of the opening of the frame A panel 300 is provided, wherein the panel 300 is coupled to the outer plate 320 of the metal material and the inner plate 330 of the aluminum material based on a poly isocyannurate resin (PIR) insulation material 310 to form an integrated panel. A hybrid coating agent 331 is formed on an outer circumferential surface of the inner plate 330 of the panel;
The outer circumferential surface of the upper side of the air conditioner is formed with a box-type filtration chamber 400 connected to the ventilation and air supply duct 1 for each living space to distribute the filtered air, and the outer wall 410 of the filtration chamber is PIR (Poly Isocyannurate). Resin) is formed to combine the outer plate 412 of the metal material and the inner plate 413 of the aluminum material based on the insulating material 411 to form an integral outer wall body 410;
The frame 100 is formed to form a frame by a plurality of angle bars 110, the corner mold 500 of the synthetic resin material is coupled to the inner edge end (C) of the angle rod 110, while convection of cold air in the air conditioner It is formed to block the generation of condensation on the outer surface of each rod;
The corner mold 500 is formed with a shielding plate 510 branched in a direction horizontal to the surface of the panel 300, the shielding plate 510 is formed to abut the inner surface of the panel 300, On the other side opposite to the shielding plate 510, the latch 520 is formed to correspond to the coupling groove 111 formed on the corner end (C) side of the angle bar 110 to be fixedly coupled to each bar of the frame when viewed from the inside of the air conditioner It is formed to block the convection of the cold air in the air conditioner to the side of the rods 110 by forming a predetermined distance (D) and the angle bar 110 while covering the 110;
The duct 1 is coupled to the outer plate 620 of the metal material and the inner plate 630 of the aluminum material based on the poly isocyannurate resin (PIR) insulating material 610 to be greatly improved corrosion resistance Green air conditioning system having an airflow variable volume device.

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