KR101872225B1 - High Efficient Ventilation by using of Backward Flow Preventing Damper for Air Supply and Exhaust and Storage Element - Google Patents

Abstract

The present invention relates to a high-efficiency ventilation system using a composite structure. It solves the problems of lowering the heat exchange efficiency of the ventilation system of the ceiling heat exchanger and increasing the manufacturing cost and power consumption due to the obligation of installing the preheater and improving the floor reheating of the floor- In order to solve the problem of frequent heating operation and the enormous loss of energy due to the simple exhaust of indoor air during exhaust, we developed a backflow prevention damper combined with a supply and exhaust system so that it can be used both as an air supply pipe and an exhaust pipe to use a heat storage element, The air supply air flowing through the dual-purpose back-flow preventing damper installed in the dual-purpose piping is heat-exchanged first by the heat storage element, and is preheated and passes through the bottom piping embedded in the indoor floor heating floor. The preheater is unnecessary, and the exhaust air at the time of exhaust is heated in the heat storage element It is possible to minimize the energy loss by reducing the heat exchange efficiency by using the structure that is exhausted through the anti-reverse flow preventing damper after exchanging all the heat, and preventing the backflow of both the air supply and exhaust in stopping the ventilation system. Since the blades of the damper are all closed, It is possible to reduce the installation cost and power consumption, reduce the heating operation rate for floor reheating, improve the energy recovery efficiency of the exhaust gas, and improve the energy efficiency. The present invention provides a high-efficiency ventilation system using the same.
In order to achieve the above object, according to the present invention, external air is introduced by driving an air supply fan to perform primary heat exchange in a heat storage element, secondary heat exchange is performed through an air supply pipe embedded in the floor, And the air in each indoor space divided by the driving of the exhaust fan flows through the exhaust diffuser to perform heat exchange in the heat storage element through the exhaust pipe and to be exhausted to the outside through the exhaust fan And the air in the air supply fan 41 and the exhaust fan 42 are shut off to prevent contact between the air having a large temperature difference when the ventilation system is stopped. And at least one electric damper (11) for preventing condensation having at least one blade between an air supply mechanism and an exhaust port connected to the air damper The technical point of regard to the stem.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high efficiency ventilation system using a backflow prevention damper and a heat storage element,

The present invention relates to a high efficiency ventilation system using a backflow preventing damper serving as an air supply and exhaust valve combined with a heat storage element and more particularly to a ventilation system having a low heat exchange efficiency and a problem of increased manufacturing cost and power consumption In order to solve the problems of frequent heating operation for floor reheating of floor-mounted type ventilation system and the enormous loss of energy due to simple exhaust of indoor air during exhaust, it is necessary to supply and exhaust air supply and exhaust pipes so as to use air- Combined backflow prevention damper was developed and the air supply air flowed through the supply and exhaust preventing damper installed on one piping for supplying and exhausting air is heat exchanged from the heat storage element in the first order and passed through the bottom piping buried in the indoor floor heating floor, Since the heat is supplied to the room in a fully preheated state by heat exchange, The exhaust air at the time of exhaust and exhaust is heat-exchanged at the heat storage element and exhausted through the anti-reverse flow preventing damper after all the heat is taken out, thereby improving the heat exchange efficiency and minimizing the energy loss. Prevention dampers are closed, the inflow of outside air is prevented from the exhaust air from the air supply outlet, the installation cost and the power consumption are reduced because the preheater installation is unnecessary, the heating operation rate for the reheating is lowered and the energy recovery efficiency of the exhaust gas is improved, Efficiency ventilation system using a backflow preventing damper serving as an air supply and exhaust system.

Conventionally, a ventilation system for each household is installed so as to communicate with air supply and exhaust ducts piped under a floor heating pipe in a ceiling or an interior, and to supply and exhaust air simultaneously through respective diffusers installed through a living room and a ceiling or wall of a room .

1, the ventilation system 100 of the ceiling type total enthalpy heat exchanger is provided with a ventilation unit 130 in which a supply fan 141 and an exhaust fan 142 are installed separately from each other, The air supply damper 111 is opened and the air supply diffuser 161 installed in the living room and the room via the air supply duct 112 through the total enthalpy heat exchanger 120 The exhaust damper 112 is opened and the indoor air is exhausted through the exhaust diffuser 161 installed in the living room and the room. 113, the total enthalpy heat exchanger 140, the exhaust fan 42, and the air supply and exhaust are performed at the same time.

At this time, when the outside air passes through the heating element of the total enthalpy heat exchanger 120, the ceiling-type total enthalpy heat exchanger ventilation system 100 conveys the indoor air passing through the heat exchanger 121 in a staggered manner through the thin film, The supply and exhaust must be operated at the same time.

However, according to the actual efficiency test, the heat exchange efficiency is very low as the heat exchange time is shortened because the flow rate of the cool outside air and the warm room air below -10 ° C in the winter passing through the heating element becomes very fast, There is a problem that the heat exchange can not be performed properly.

In addition, since the air supply air is not properly exchanged with the room air from the total enthalpy heat exchanger 120, cold outside air is introduced into the room as it is, and it is pre-heated before passing through the total enthalpy heat exchanger 120 (Note: Ministry of Land, Infrastructure and Transport Notice No. 2013-612, Attached Table 3 of Health-Friendly Housing Construction Standard * Application Method 3) Waste heat recovery Ventilation In the case of the unit, the bypass function shall be ensured and a preheater (including a system capable of operating in cold weather, such as a preheater) shall be installed, except when applied to mixed ventilation equipment.)

In addition, as shown in FIG. 2, the 'Ventilating system for households improved in the apartment house' disclosed in Korean Patent No. 1137453 of the present applicant as the floor-standing type ventilation system 101 of the prior art, The indoor air is exhausted by using the fan 171 and the air supply fan 41 of the air supply device 141 is also driven to supply air through the air supply pipe 112 and the air supply grille If the ventilation is necessary while the bathroom is in use, use a vertical exhaust pipe (182) and a bathroom fan (171) for efficient ventilation before and after the morning work and after work, A floor-mounted type ventilation system has been disclosed in which the entire air supply and the total exhaust can be simultaneously performed.

However, in the conventional floor-standing type ventilation system 101, since the floor is lost as much heat as the outside air passes through the air supply pipe 150 embedded in the floor of the indoor oven floor and heat-exchanged, The operation is continued. However, the lower the outside air, the more heat is lost and the operation of the heating boiler is frequent. Also, the indoor air that has been cooled and heated at the time of exhausting is discharged through the bathroom fan 171 as it is, .

Recently, in order to solve the problem of low heat exchange efficiency, studies have been made actively using a heat storage element having a high heat absorption rate and absorbed heat for a certain period of time and having a high heat transfer rate. However, Heat recovery, heat storage and heat supply are performed in the air passing through the heat storage element when the supply and exhaust are sequentially performed, unlike the heat transfer element 131 in which heat exchange occurs at the same time.

Therefore, there is a restriction that the supply and exhaust must be sequentially performed through the piping having the heat storage element thereon, so that the practical application is very difficult.

The larger the temperature difference between the outside air temperature and the room air is, the greater the temperature difference between the total enthalpy heat exchanger 130 and the air supply unit 141 during the non-operation of the ceiling type total enthalpy heat exchanger ventilation system 100 and the bottom- And there is a problem that condensation occurs.

In order to solve such a condensation problem, a damper is provided in order to block the contact between the air supply device and the air supply device in the air supply device and the exhaust air supply device. However, all of the air supply device and the exhaust device are provided with a structure for limiting air flow only in one direction, There is a problem that there is no damper to be applied to piping for both supply and exhaust.

Registered Utility Model No. 20-433079 (filing date: December 7, 2006), designation of the design: "Ventilation system of apartment house, exhaust ventilation type" Korean Patent No. 10-1137453 filed on Mar. 9, 2012, entitled " Improved Household Ventilation System in Apartment House "

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a ventilation system of a ceiling-mounted total enthalation heat exchanger which is capable of improving the efficiency of manufacturing heat- In order to solve the problem of frequent heating operation for reheating the floor and the enormous energy loss caused by the simple exhaust of indoor air in exhaust, the backflow prevention damper combined with the exhaust gas supply and exhaust system has been developed so that it can be used both as an air supply pipe and an exhaust pipe. Air supply damper installed on both the supply and exhaust piping for both supply and exhaust, first heat-exchanges heat from the heat storage element, passes through the bottom piping embedded in the floor of the indoor heated floor, and is heat- The preheater is not necessary, and the exhaust air at the time of exhausting is stored in the heat storage Heat exchanged and heat is exhausted through a damper to prevent the backflow of steam. The heat exchange efficiency is improved by minimizing the energy loss and preventing the backflow of both the exhaust gas and the exhaust gas when the ventilation system is stopped. It prevents the inflow of outside air from the exhaust air source and eliminates the installation cost and power consumption because it requires no preheater installation. It also reduces the heating operation rate for floor reheating and improves the energy recovery rate of exhaust gas, And an object of the present invention is to provide a high-efficiency ventilation system using the same.

According to an aspect of the present invention, there is provided an air conditioner comprising: a heat storage element disposed in a pipe via an air supply / discharge port passing through an outer wall by driving an air supply fan installed in a ventilation unit and passing through an air supply / Exchanged by the first heat exchanger, passed through piping embedded in the floor of the ondol, passed through the air supply fan, subjected to secondary heat exchange, and connected to the respective indoor spaces partitioned by the diffuser, and partitioned by the driving of the exhaust fan installed in the ventilation unit The indoor air flowing through the diffuser from each indoor space is heat-exchanged in the heat storage element disposed in the pipe through the exhaust fan and connected to the outside through the air supply and discharge port via the air supply and exhaust preventing damper. And an object of the present invention is to provide a highly efficient ventilation system using a regenerative element.

In addition, in the high-efficiency ventilation system using the backflow preventing damper and the heat storage element combined with the air supply and exhaust, the heat storage element 30 includes at least one of synthetic metal, synthetic fiber and charcoal excellent in thermal conductivity and heat- It is preferable that a plurality of through holes are formed in the longitudinal direction of the piping so that the supply air and the exhaust air sequentially alternate in opposite directions and heat exchange occurs alternately.

In addition, in the high-efficiency ventilation system using the above-described air supply and exhaust valve and the heat storage element, the heat storage element 30 is installed in the piping provided between the air supply and exhaust flow- Or ventilated from the ventilation unit 40 in the indoor direction.

The air supply fan 41 and the exhaust fan 42 in the ventilation unit 40 are arranged at the center so as to alternately supply and exhaust air, Are respectively installed on both sides of the partitioning wall 43 and selectively driven; And an electric discharge damper 44 for opening and closing the discharge port which is opened to the electric discharge simultaneously with the driving of the corresponding fan to the discharge ports 411 and 421 of the air supply fan 41 and the discharge fan 42.

In the high efficiency ventilation system using the air supply and exhaust preventing damper and the heat storage element together with the air supply and exhaust system, contact between the air supply fan (41) and the exhaust fan (42) And at least one electric damping damper (11) for preventing condensation and having at least one blade between the air exhaust port (10) and the heat storage element (30) communicating with the outside to prevent condensation, wherein the blade Or the insulation damper 11 is attached to the side of the heat accumulating element 30 and the condensing prevention electric damper 11 is additionally provided between the heat accumulating element 30 and the ondol-bottom buried pipe 50 communicating therewith.

Further, in the high-efficiency ventilation system using the backflow preventing damper serving as both the air supply and exhaust unit and the heat storage element, the backflow prevention damper 20 serving as both the air supply and exhaust is provided in the piping communicating with the air supply and exhaust, The blades installed by the wind pressure are opened to the indoor side and the outside air is introduced to the heat storage element side and the blades installed by the exhaust wind pressure according to the driving of the exhaust fan at the time of exhausting are opened to the outdoor side and are driven to discharge the room air toward the air supply outlet It is preferable that the blades are closed when the ventilation system is stopped and the inflow of the outside air is prevented at the source.

In addition, in the high efficiency ventilation system using the backflow preventing damper serving as both the air supply and exhaust valve and the heat storage element, the backflow preventing damper 20 serving as the air supply and exhaust valve is provided with an opening 211 at the center, A support portion 21 having a support portion 21; And is disposed at one side of the opening 211 and has one end rotatably coupled to the upper portion of the support portion 21 and has an opening 211 A first blade (22) having a plurality of through holes (221) formed in a corresponding surface thereof; The second blade 22 is located on the opposite side of the first blade 22 in a direction in which the first blade 22 can open and close and is in close contact with the first blade 22 to seal the through hole 221 of the first blade 22 One end thereof having a second blade 23 rotatably coupled to the upper portion of the support portion 21 or the upper portion of the first blade 22; One of the first blade 22 and the second blade 23 is opened to the inside of the room by being interlocked with the air supply fan so that the outside air is introduced during the supply of air and the other of the first and second blades 22, One is preferably opened to the outdoor side in association with the exhaust fan so as to discharge indoor air at the time of exhausting.

Further, in the high-efficiency ventilation system using the above-described air supply and discharge preventing damper and the heat storage element combined with the air supply and exhaust device, the second blade 23 is made of a magnetic material so that the second blade 23 is in close contact with the first blade 22 when the first blade 22 is opened, The second blades 23 may be separated from the first blades 22 by a wind pressure of an air supply fan or an exhaust fan used when the second blades 23 are opened.

In addition, in the high-efficiency ventilation system using the above-described air supply and discharge preventing damper and the heat storage element, the backflow prevention damper 20 serving as both the air supply and exhaust valve is inserted or drawn out into the pipe, Shaped frame 201 in the form of a separate shape.

In addition, in the high-efficiency ventilation system using the backflow preventing damper serving as both the air supply and exhaust unit and the heat storage element, the outside air introduced through the air supply fan is supplied to each indoor space partitioned through the diffuser through the air supply pipe It is preferable to be connected.

The effects of the present invention are as follows.

The problem of the low heat exchange efficiency of the ventilation system of the ceiling heat exchanger and the requirement of the installation of the preheater improves the manufacturing cost and the increase of the power consumption and the problem of frequent heating operation for floor reheating of the floor- In order to solve the energy loss problem, the backflow prevention damper combined with the supply and exhaust has been developed so that it can be used both as the supply pipe and the exhaust pipe to use the heat accumulating element, and the backflow prevention damper The preheater is not necessary because the air supply air is firstly heat-exchanged from the heat storage element and the preheated air is passed through the bottom pipe embedded in the indoor floor heating floor and the heat exchange is performed in the second order so as to be sufficiently preheated. After all the heat has been taken away, it is fed through the anti-backflow damper It minimizes energy loss by improving the efficiency of low heat exchange by improving the efficiency of low heat exchange by preventing the backflow of combined damper. It is a very useful invention that can provide a high efficiency ventilation system using an anti-reverse flow preventing damper for improving the energy efficiency by reducing installation cost and power consumption, lowering the heating operation rate for floor reheating and improving the energy recovery rate of exhaust gas.

1 is a schematic view of a conventional ceiling type total enthalpy heat exchanger ventilation system
Fig. 2 is a schematic view of a conventional floor-
3 and 4 are schematic views of a ventilation system to which the present invention is applied
Fig. 5 is a perspective view of a backflow preventing damper serving as an air supply /
Fig. 6 is a graph showing the relationship between the supply and exhaust state of the backflow prevention damper serving as both the air supply /

Hereinafter, the present invention will be described in detail with reference to preferred embodiments. It is to be understood, however, that the embodiments are illustrative of the invention in order that the invention may be better understood, and that the terms or words used should not be construed in a conventional or dictionary sense, It should be understood that the present invention should not be construed as being limited to the meanings and concepts consistent with the technical idea of the present invention based on the principle that the concept of the term can be appropriately defined in order to explain it by a method.

(Example 1)

First, the present invention improves the manufacturing cost and the increase of power consumption due to the low heat exchange efficiency of the ventilation system of the ceiling heat exchanger and the obligation to install the preheater. In addition, frequent heating operation for floor reheating of the floor- In order to solve the problem of massive energy loss due to simple discharge, we have developed a backflow prevention damper which can be used both as an exhaust and an exhaust system, and it has a function to regenerate the air supply air flowing through a double- Heat is exchanged firstly in the device and it is preheated. It passes through the bottom pipe embedded in the floor of the room. It is heat exchanged by the second heat and is supplied to the room in a sufficiently preheated state, so no preheater is required. Exhaust air exchanges heat in the heat- By using the structure that is exhausted through the anti-reverse flow damper Improves heat exchange efficiency, minimizes energy loss, eliminates installation cost and power consumption because it minimizes energy loss, reduces heating operation rate for floor reheating, improves energy recovery efficiency of exhaust gas, and improves energy efficiency. A highly efficient ventilation system using a damper is provided.

The ventilation system (1) of the present invention is fabricated so as to have a composite structure while compensating for the disadvantages while taking advantage of the conventional ceiling type total enthalpy heat exchanger ventilation system and the bottom-buried ventilation system. In order to use the heat storage element (30) The present invention provides a ventilation system having excellent heat exchange efficiency by developing and applying a non-powered exhaust gas / The ventilation system of the present invention also includes a modification in which the piping for supplying and exhausting the floor piping embedded in the indoor floor is connected to the ceiling.

3 and 4, the ventilation system 1 of the present invention includes an air supply opening 10, a backflow prevention damper 20 serving as an air supply and exhaust valve, a ventilation unit 40, a damping prevention electric damper 11, An element 30, a pipe 12 for supplying and exhausting air, and a diffuser 60 for supplying and exhausting air.

The air supply / exhaust port 10 is designed to be used both as a conventional air supply device and as an exhaust port. The air supply / exhaust port 10 is coupled to the outdoor side so as to allow outside air to flow into the room And has a structure for preventing foreign matter from entering by using a net.

As shown in FIGS. 5 and 6, the backflow preventing damper 20 combined with the air supply and exhaust is improved in the structure of the backflow preventing damper, which is opened only in one direction and closed in the reverse direction, The blades are interlocked with the driving of the air supply fan at the time of air supply and are opened to the indoor side so that the ambient air is introduced to the heat storage element side and the blades interlocked with the driving of the exhaust fan at the time of exhausting are opened to the outdoor side, And has a structure that can be used both as an air supply and an air discharge by being driven to discharge air toward the air supply port side.

The development of the backflow preventing damper 20 having the above-described structure has been based on the characteristics of the heat accumulating element 30 and the heat of the air passing through the heat accumulating element 30, (Heat recovery) and the process of providing heat to the air passing through the heat storage element while the heat storage element is in contact (heat supply) must be performed sequentially, not simultaneously.

Therefore, since the outside air and the room air are sequentially passed from both sides of the heat storage element 30 at the time of supplying and exhausting air, the backflow preventing damper located near the heat storage element 30 can flow backward in both directions, do.

Next, the backflow preventing damper 20, serving as both the air supply and exhaust, is provided with a support portion 21 extending in a direction in which the flow of the fluid is blocked in the pipe, and having an opening 211 at the center thereof; And is disposed at one side of the opening 211 and has one end rotatably coupled to the upper portion of the support portion 21 and has an opening 211 A first blade (22) having a plurality of through holes (221) formed in a corresponding surface thereof; The second blade 22 is located on the opposite side of the first blade 22 in a direction in which the first blade 22 can open and close and is in close contact with the first blade 22 to seal the through hole 221 of the first blade 22 One end thereof having a second blade 23 rotatably coupled to the upper portion of the support portion 21 or the upper portion of the first blade 22; One of the first blade 22 and the second blade 23 is opened to the inside of the room by being interlocked with the air supply fan so that the outside air is introduced during the supply of air and the other of the first and second blades 22, One is opened to the outdoor side in association with the exhaust fan so that indoor air is discharged at the time of exhausting.

Also, the backflow preventing damper 20 serving as the air supply and exhaust valve is provided at the next position communicating with the air supply and exhaust port 10 so that all the blades 22 and 23 are closed when the ventilation system is stopped, To prevent condensation.

The magnetic force of the magnetic body 24 is used when the second blade 23 is opened so that the second blade 23 is in close contact with the first blade 22 when the first blade 22 is opened And is formed in a size separable from the first blade 22 by the wind pressure of the air supply fan or the exhaust fan.

The magnetic material 24 is made of a plate material having a weak magnetic property and the magnetic material 24 is formed by attaching a thin steel material to the first blade 22 or a magnetic material 24 Is applicable by using a magnet and fixing a thin steel metal to the corresponding portion of the second blade 23. [

The backflow preventing damper 20 serving as both the air supply and exhaust unit may be of a detachable type installed in a tubular frame 201 having a predetermined length that can be inserted or withdrawn into the pipe to be detachable.

Next, the ventilation unit 40 is attached to a ceiling of a veranda or the like in the form of a box, and connects pipes to both sides thereof. The ventilation unit 40 includes an air supply fan 41 or an exhaust fan 42, And various filters 44 for purifying the air supply air.

The ventilation unit 40 of the present invention is provided with a partition 43 at the center of the ventilation unit 40 and a supply fan 41 and an exhaust fan 42 at both sides of the ventilation unit 40, And the fan 42 are selectively driven, the same piping communicably connected to both sides of the ventilation unit 40 is commonly used so that supply or exhaust is selectively performed.

Next, the heat storage element 30 is installed in front of the ventilation unit 40, preferably in the piping 20 serving as an air supply / exhaust pipe connected to the air supply / exhaust port 10 and the ventilation unit 40 so as to communicate with each other Respectively.

Unlike the total heat exchanger in which the heat storage element 30 is provided with the heat transfer element that conveys the heat through the thin film having the high thermal conductivity while the supply air and the exhaust air simultaneously pass therethrough, the heat storage element 30 is made of synthetic metal, The heat accumulating element 30 made of fiber or char is provided so that the exhaust air flows through the heat accumulating element 30 without supplying the air supply air and the exhaust air at the same time, (Heat storage), and the air supply air flows through the heat storage element 30 so as to take the stored warm / cool air through the heat exchange (heat supply), so that the air supply and exhaust are performed by the heat storage element 30, And even if the flow rate is fast, sufficient efficiency can be obtained, and the energy loss that is discarded is reduced, and the heat exchange efficiency is improved.

Accordingly, the heat storage element 30 must be installed on the same pipe, that is, the piping 20 serving as both the air supply and the exhaust, so that the air supply and the air discharge sequentially occur so that the air supply and exhaust are sequentially performed and heat exchange can be performed.

Next, the air supply / discharge pipe 12 is inserted into the outer wall 2 and connected to the air supply / exhaust port 10 so as to communicate with the ventilation unit 40. An intake port (12) is provided at one side of the air supply / discharge pipe (12), which can be opened and closed by a user and is capable of performing maintenance and replacement of the heat storage element (30) 13).

The damping prevention electric damper 11 is provided outside the heat storage element 30, that is, between the heat storage element 30 and the air supply / exhaust port 10 to prevent the inflow of outside air during non-operation of the ventilation system 1 In order to prevent condensation due to the contact of the indoor air having a large difference in temperature with the outside air, the blades are made of a material having high heat insulation efficiency and two or more blades are simultaneously rotated to provide a plurality of blades So that a heat insulating space can be formed.

It is preferable that the electric damper 11 for preventing condensation is provided on the inner side of the outer wall because of excellent heat insulating efficiency.

In addition, the electric damper 11 for preventing condensation used in the present invention uses three blades to improve the dew condensation preventing effect.

3, the floor-embedded piping 50 includes a sound-insulating layer 6b, an air supply pipe 102, a bubble layer 6c, a heating pipe 6d and a mortar 6d. The layer 6e is successively applied.

The air supply / discharge diffuser 60 is installed so as to be embedded in a ceiling or a wall surface so as to distribute and introduce air.

Hereinafter, the present invention will be described in detail with reference to the drawings.

(Example 1): Manufacture of a backflow prevention damper serving as both an inlet and an outlet

First, as shown in FIGS. 4 and 5, the backflow preventing damper 20 serving as an air supply / discharge unit is provided with a support portion 21 extending in a direction of obstructing the flow of fluid in the pipe, and having an opening 211 at the center thereof. And is disposed at one side of the opening 211 and has one end rotatably coupled to the upper portion of the support portion 21 and has an opening 211 A first blade (22) having a plurality of through holes (221) formed in a corresponding surface thereof; The second blade 22 is located on the opposite side of the first blade 22 in a direction in which the first blade 22 can open and close and is in close contact with the first blade 22 to seal the through hole 221 of the first blade 22 One end thereof having a second blade 23 rotatably coupled to the upper portion of the support portion 21 or the upper portion of the first blade 22; Any one of the first blade 22 and the second blade 23 is opened to the inside of the room by interlocking with the air supply fan 41 so that the outside air is introduced during the supply of air and the first blades 22 and the second blades 23 ) Is opened to the outdoor side in association with the exhaust fan so as to discharge indoor air at the time of exhausting.

The magnetic force of the magnetic body 24 is used when the second blade 23 is opened so that the second blade 23 is in close contact with the first blade 22 when the first blade 22 is opened And is formed in a size separable from the first blade 22 by the wind pressure of the air supply fan or the exhaust fan.

For example, referring to FIGS. 4 and 5, when the air feed port 10 is positioned on the left side of the air supply duct 20 and the heat storage element 30 is positioned on the right side,

The second blade 23 is brought into close contact with the first blade 22 by the magnetic force and the first blade 22 is brought into close contact with the support portion 21 by its own weight to be in an airtight state, The first blade 22 and the second blade 23 are brought into close contact with each other by the exhaust wind pressure of the exhaust fan 42 together with the driving of the exhaust fan 42 as shown in FIG. 5 (b) The indoor air is exhausted from the right side to the left side while being opened in the left direction with respect to the left and right sides of the heat accumulating device 30, and is discharged through the air supply / exhaust port 10 while taking heat /

5 (c), the first blade 22 is closely fixed to the support portion 21 by the supply air pressure of the air supply fan 41 while the air supply fan 41 is driven, and the second blade 23 Is released from the first blade 22 and rotates around the second hinge portion 232 to open to the right and the outside air flows through the plurality of through holes 221 of the first blade 22 to the heat storage element 30 The hot / cold air recovered from the room air at the time of exhausting is stored (stored in the heat storage) and supplied to the outside air from the heat storage element 30 (heat supply).

In this process, the first and second blades 22 and 23 of the anti-reverse flow damper 20 are prevented from being opened only in one direction, Backflow prevention function.

The backflow preventing damper 20 serving as both the air supply and the air supply and exhaust is composed of a separable type which is installed in a tubular frame 201 having a predetermined length that can be inserted or withdrawn into the piping so as to be removable, It can be installed anywhere.

(Embodiment 2): Configuration of high efficiency ventilation system

First, a configuration related to the supply of air is described. A supply / discharge port 10 is provided on the outer side of the outer wall 2, a reverse flow-preventing damper is installed inside the supply / exhaust port 10, A heat storage element 30 of a material having excellent thermal conductivity and heat resistance is provided inside the air supply and exhaust pipe 12 and an air supply fan 41 communicating with the heat storage element 30, 41, connected to the floor-embedded pipe 50 after passing through the wall surface, and then connected to the diffuser 60 for supplying air to the ceiling or wall surface after passing through another wall surface.

Here, the electric damper 11 for preventing condensation is provided between the heat storage element 30 and the air supply fan 41.

Next, a description will be made of the connection of the exhaust-related components. The exhaust port 10 is provided so as to penetrate through the outer wall, and a reverse flow-preventing damper is installed on the inner side. On the inner side of the outer wall, A heat storage element 30 made of a material having excellent thermal conductivity and heat resistance is disposed inside the heat storage element 12 and an exhaust fan 42 is provided in communication with the heat storage element 30 and an exhaust pipe is connected to communicate with the heat storage element 30, Or to the diffuser 60 for exhaust provided on the wall surface.

Here, the electric damper 11 for preventing condensation is provided between the heat storage element 30 and the exhaust fan 42.

At this time, if the backflow preventing damper is constituted by the backflow preventing damper 20 serving as both the air supply and exhaust of the present invention, the air supply and exhaust port 10, the backflow preventing damper 20 serving as both the air supply and exhaust air supply, (12) and the heat storage element (30) are commonly used for supplying and exhausting air;

The exhaust fan 42, the exhaust pipe, and the diffuser 60 in the exhaust structure are configured to be separately used in the exhaust-only configuration .

3, a ventilation unit 40 including an air supply fan 41 and an air discharge fan 42 is used for supplying and exhausting air to and from the vehicle. The ventilation unit 40 includes a floor-embedded type pipe 50 and a diffuser 60) can be used to configure all the components for common use.

The operation state of the present invention having the above-described connected structure will be described as follows.

First, when the exhaust fan 42 is driven for exhausting, air in each compartment divided by the driving of the exhaust fan 42 flows through the diffuser 60 for supplying and discharging air, Passes through the fan 42 and passes through the heat accumulating element 30 to perform heat exchange (heat recovery), passes through the open condensation preventing electric damper 11 and flows through the air supply / discharge port 10 through the air / .

Next, when the air supply fan 41 is driven for air supply, external air is introduced through the air supply / exhaust port 10 by driving the air supply fan 41 to open the air supply / (Heat supply) through the heat accumulating element 30 through the heat accumulating element 30 and then through the bottom condensing type pipe 50 through the open condensation preventing electric damper 11 to perform secondary heat exchange (heat supply) (60). ≪ / RTI >

The indoor air having the warm / cool air is not discharged as it is, and the indoor / outdoor heat exchanger 30 stores the warm / cool air of the room air passing through the heat accumulating element 30 and the room air recovered from the warm / The air is exhausted to the outside through the air supply / exhaust port 10 via the air supply / discharge preventing damper 20 serving as an air supply / exhaust system, and the air supplied is stored in the heat storage element 30 through the heat storage element 30 and through the primary heat exchange The hot / cool air is obtained through the secondary heat exchange through the bottom-buried pipe 50, so that air having a temperature similar to that of the indoor air can be supplied, thereby improving the efficiency.

The warm / cool air recovered from the indoor air is stored in the heat storage element 30 and then transferred to the outside air passing through the heat storage element 30 during the air supply.

The supply and exhaust processes can be selectively performed by the user. Of course, a plurality of longitudinal through holes formed in the heat accumulating element 30 can be used for supplying and discharging separately.

The ventilation system 1 of the present invention is provided with a ventilation unit 40 connected to the heat storage element 30 so as to block contact between the air supply fan 41 and the exhaust fan 42, The air damper 11 has a plurality of blades for preventing condensation. The air damper 11 closes the air damper, closes the airflow, and forms a heat insulating space for buffering a temperature difference between the blades and the blades.

As the number of such thermal insulation spaces increases, the difference in temperature between the outside air and the room temperature is caused to occur in a stepwise manner in several stages, thereby preventing condensation. Condensation occurs when condensation occurs on the high temperature side air when the temperature difference at which the thin blade touches is 15 ° C or more, but no temperature difference of 15 ° C or more occurs at the stepwise temperature difference.

It is preferable that the electric damper 11 for preventing condensation is provided at least one between the heat storage element 30 and the bottom-buried pipe 50 connected thereto.

Reference numeral 110 in the drawing denotes an air supply / discharge port, 110a an air supply device, 110b an exhaust port, 161 an air supply diffuser, 162 an exhaust diffuser, 103 an ondol, and 111 an anti-

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.

Description of the Related Art
B: Veranda S: Indoors
1: ventilation system 2: outer wall
3: Ondol 10: Exhaust air outlet
11: Electric damper for preventing condensation 12: Piping for supply and exhaust
13: Check port 20: Combined backflow prevention damper
201: frame 202: projection
21: support part 211: opening
22: first blade 221: through hole
222, 232: first and second hinge portions 23: second blade
24: magnetic body 30: heat storage element
40: ventilation unit 41: air supply fan
42: exhaust fan 43: partition wall
50: Floor-mounted piping 60: Supply and exhaust diffuser

Claims (10)

The external air introduced through the air supply / discharge port passing through the outer wall by the driving of the air supply fan installed in the ventilation unit is subjected to the primary heat exchange in the heat storage element installed in the piping via the air supply and exhaust valve combined damper and the air supply fan The indoor heat exchanger is connected to the indoor space partitioned by the secondary heat exchanger through the piping embedded in the floor of the ondol floor and supplied through the diffuser from each indoor space partitioned by the driving of the exhaust fan installed in the ventilation unit The indoor air is heat-exchanged in the heat storage element disposed in the pipe through the exhaust fan and connected to the outside through the air exhaust port via the airflow preventing damper serving as the air supply and exhaust unit;
The backflow preventing damper 20 serving as the air supply and exhaust valve is provided in a piping communicating with the air supply and exhaust port. The bladder interlocked with the air supply fan is opened to the room side so that the outdoor air flows into the room through the heat storage element The blades interlocked with the exhaust fan are opened to the outdoor side so that the room air is discharged at the time of exhausting, and the indoor air is discharged to the air exhaust port side through the heat storage element, so that it can be used for both air supply and exhaust. Is prevented from being infiltrated;
The backflow prevention damper (20) serving as an air supply /
A support (21) extending in a direction blocking the flow of the fluid in the pipe and having an opening (211) at the center;
And is disposed at one side of the opening 211 and has one end rotatably coupled to the upper portion of the support portion 21 and has an opening 211 A first blade (22) having a plurality of through holes (221) formed in a corresponding surface thereof;
The second blade 22 is located on the opposite side of the first blade 22 in a direction in which the first blade 22 can open and close and is in close contact with the first blade 22 to seal the through hole 221 of the first blade 22 One end thereof having a second blade 23 rotatably coupled to the upper portion of the support portion 21 or the upper portion of the first blade 22;
One of the first blade (22) and the second blade (23) is interlocked with the air supply fan by the wind pressure of the air supply fan to open the indoor side so that outside air flows in the air supply, And the other of the blades (23) is opened to the outdoor side by being interlocked with the exhaust fan by wind pressure of the exhaust fan so as to discharge the room air at the time of exhausting;
The magnetic force of the magnetic body is applied to the supply fan or the exhaust fan to be used when the second blade 23 is interlocked when the second blade 23 is opened. Wherein the first and second blades (22, 24) are separated from the first blade (22) by wind pressure. The method according to claim 1,
The backflow prevention damper (20) serving as both the air supply and exhaust air supply and the backflow prevention damper (20) is of a detachable type installed in a tubular frame (201) having a certain length to be inserted or withdrawn into a pipe so as to be detachable. High Efficiency Ventilation System Using Dampers and Heat Storage Devices Combined with Exhaust Backflow. The method according to claim 1,
The heat storage element 30 is formed by including at least one of synthetic metal, synthetic fiber, or charcoal excellent in thermal conductivity and heat resistance, and has a plurality of through holes formed in the longitudinal direction of the pipe, And the heat exchange is alternately performed while sequentially alternating in opposite directions to each other. The high efficiency ventilation system using the backflow preventing damper for combined supply and exhaust, and the heat storage element. The method of claim 3,
Characterized in that the heat storage element (30) is installed in a pipe installed between the backflow preventing damper (20) serving as an air supply and exhaust valve and the ventilation unit (40) or in a pipe connected in the indoor direction from the ventilation unit (40) High Efficiency Ventilation System Using Damper and Heat Storage Element Combined with Air Supply and Exhaust. 5. The method of claim 4,
The air supply fan 41 and the air discharge fan 42 in the ventilation unit 40 are selectively installed at both sides of the partition 43 partitioning the center so as to alternately supply and exhaust air;
And an electric damper (44) for opening and closing a discharge port which is opened to the electric discharge simultaneously with the driving of the fan on the discharge ports (411, 421) of the air supply fan (41) and the discharge fan (42) High efficiency ventilation system using heat storage element. 6. The method according to any one of claims 3 to 5,
An air exhaust port 10 communicating with the outside to prevent the condensation by interrupting the contact of the outdoor air having a large temperature difference when the air supply fan 41 and the exhaust fan 42 in the ventilation unit 40 are not operated, (11) for preventing dew condensation, the condensation prevention damper (11) having one or more blades
The blades may be made of a material having a high heat insulating property or may be adhered to a side surface thereof and the condensation preventing electric damper 11 may be additionally provided between the heat storage element 30 and the ondol floor- Highly efficient ventilation system using dual-purpose backflow prevention damper and heat storage element. The method according to claim 1,
And the outdoor air introduced through the air supply fan is connected to the indoor spaces partitioned through the diffuser through the air supply / discharge pipe installed in the ceiling so as to be supplied to the interior space divided by the air supply and exhaust fan. . delete delete delete

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