KR101072145B1 - Air Circulation Apparatus and Air Circulation System - Google Patents

Abstract

The present invention provides an indoor ventilation system and a ventilator that discharges indoor air to the outside and supplies the outside air to the room, and not only circulates the indoor air and the outside air, but also lights and refrigerators installed in the room. By effectively discharging heating air by heat generated from electric appliances such as TV and TV in summer, it prevents the increase of cooling load in the room by heating air, and recovers heat from heating air by using a ventilation device in winter and uses it as indoor heating source. The present invention relates to a ventilator for reducing heating load by supplying the same to a room and an indoor ventilation system using the same.

According to the present invention, a heat exchanger is formed in the heat exchanger, and a conversion valve is provided so that heated air generated by the home appliance passes through the bypass unit without heat exchange in the summer, and heated air generated by the household appliance exchanges the heat in the winter season. Provided is a heat recovery ventilator having a heating load control function having a structure capable of recovering heat from heated air by passing through a heat exchanger, and a ventilation system for indoor and outdoor air circulation using the same.

Description

Heat recovery ventilator with heating load control function and indoor ventilation system using same {Air Circulation Apparatus and Air Circulation System}

The present invention relates to a heat recovery ventilator having a heating load control function and an indoor ventilation system using the same, and more specifically, to a ventilation system and a ventilator that discharges indoor air to the outside and supplies the outside air to the room for ventilation. In addition to simply circulating the indoor air and the outside air, it prevents the increase of the cooling load of the room due to the heated air by effectively discharging the heated air from the heat generated by the electrical appliances such as lighting, refrigerator, TV, etc. installed in the room in summer. And, in the winter it relates to a ventilator and an indoor ventilation system using the same to recover the heat load by using the ventilator to recover the heat from the heated air to use as an indoor heating heat source to supply it back to the room.

When the lighting is used indoors, the temperature of the lighting equipment is higher than the ambient temperature due to the heat generation of the lights. When cooling the indoors in summer, the increase in the ambient temperature of the lighting equipment due to the above lighting increases the cooling load. In addition to the cause, the phenomenon that the lighting efficiency of the lamp itself due to the high temperature is also reduced. In addition to lights, other home appliances such as TVs and refrigerators also generate considerable heat during operation. Such home appliances, such as TVs, also increase the cooling load in the summer, as well as lighting, and cause malfunctions of the home appliances themselves.

On the other hand, in winter, the heat generated when operating a product such as a lamp, a TV, a refrigerator (hereinafter, referred to as "home appliances") is advantageous for indoor heating. It's happening locally. In other words, since heat is generated locally only around the home appliance, heat is generated locally in the winter, or heat is locally generated at an unsuitable location for the residents to feel warm.

The present invention was developed in order to utilize the above problems and disadvantages of the current state in an advantageous direction, and in summer, the heating air by the locally generated heat from home appliances is sucked by the exhaust device and discharged to the outside. This prevents the increase of cooling load due to the heating of home appliances and prevents the malfunction of home appliances itself.In winter, the heat generated from home appliances can be recovered by heat exchanger and supplied to the room to reduce heating load. It aims to do it.

In the present invention, in order to achieve the above object, to form a bypass unit in the heat exchanger, and provided with a conversion valve, the heating air generated by the household appliance in the summer to pass through the bypass unit without heat exchange in the summer, the household appliance in the winter A heat recovery ventilator having a heat load control function having a structure capable of recovering heat from the heated air by allowing the heat generated by the heat exchanger to pass through the heat exchanger is provided.

In addition, in the present invention, by supplying the outside air to the room using such a ventilator and exhausting the indoor air to the outside while ventilating the indoor air while preventing the increase in cooling load due to the heating air generated by the home appliances in the summer, and in the winter A ventilation system for indoor and outdoor air circulation is provided with a heating load control function that utilizes heating air to reduce heating load and at the same time prevents overheating of home appliances to improve operating efficiency.

Specifically, in the present invention, as a means for achieving the above object, a heat exchanger is provided; In the periphery of the heat exchanger, an external organ region to which external air from which external air is introduced from is connected, an exhaust pipe region to be connected to an exhaust pipe to which air is discharged to the outside, and a ventilation tube area to which a ventilation pipe through which air sucked from the air flows is connected; And an air supply pipe region to which an air supply pipe for supplying air to the room is connected; The ventilation pipe region is divided into a heating air region to which a heating air tube into which heating air sucked from home appliances is introduced, and a ventilation region to which the ventilation tube is connected; The heat exchanger includes a bypass portion communicating with the heated air region and the exhaust pipe region so that the heated air passes from the heated air region to the exhaust pipe region without heat exchange; A conversion valve is provided between the heating air zone and the ventilation zone, and the bypass section is closed or opened while the heating air zone and the ventilation zone are in communication with each other or remain separated by the operation of the conversion valve. When the heating air area and the ventilation area are in communication with each other, the bypass part is closed, and if the heating air area and the ventilation area are maintained in a separate state, the bypass part has a structure in which the bypass part is opened. Ventilation equipment is provided.

In addition, in the present invention, in order to achieve the above object, an external engine into which outside air is introduced from the outside, an exhaust pipe through which air is discharged to the outside, a ventilation pipe through which air sucked from the room flows, and an air supply pipe supplying air to the room; And a ventilator having a heat exchanger, and the internal air flowing from the outside and the room introduced from the outside through the external pipe and flowing through the ventilation pipe is heat-exchanged in the heat exchanger so that the outdoor air enters the interior through the air supply pipe. A ventilation system for allowing indoor air to circulate by allowing indoor air to be discharged to the outside through an exhaust pipe, wherein the ventilation device is a ventilation device of the above-described heat recovery function, and heating air generated from household appliances increases cooling load. In this case, the bypass air is discharged to the outside without heat exchange and heating When using a ten won for heating, the ventilation system is provided, it characterized in that it has the ability to control the heat load on the home appliances by allowing heated air is discharged through a heat exchanger.

In the ventilator and the ventilation system according to the present invention as described above, the ventilator is provided with a case; The heat exchanger is disposed inside the case, and the space of the case is divided into left and right sides by the heat exchanger, and partition walls are formed in each of the left and right spaces, so that the left and right spaces are divided into two spaces, respectively. , The exhaust pipe region, the ventilation pipe region and the air supply region are formed separately; An additional partition wall is installed in the ventilation pipe region, the ventilation pipe region is divided into a heating air zone and a ventilation zone; The heating air region is connected to a heating air tube in communication with a connecting tube, through which heating air generated from a home appliance flows; The bypass portion is formed to contact the side wall of the case at one side of the heat exchanger; The conversion valve is composed of a plate member which can rotate left and right, and is installed in a partition that separates the heating air area and the ventilation area, and the conversion valve rotates left and right to open or close the heating air area and the ventilation area. It may have a structure to close or open the pass portion.

According to the present invention, since it is possible to effectively discharge the heating air generated from home appliances, in the summer it is possible to prevent the cooling load is increased due to the heating air generated from the home appliances to reduce the energy required for indoor cooling, It is possible to prevent malfunction of home appliances due to overheating of home appliances and to improve the operation efficiency of home appliances.

In addition, in winter, heat is recovered from the heating air generated from home appliances and used as a heat source for indoor heating to warm the outside air and supply it to the room, thereby recovering waste heat that is wasted and recycling waste resources. In addition, the heating load is reduced, thereby reducing the energy required for heating and increasing the efficiency of home appliances. In particular, there is an effect that the heat from the home appliances that have not been utilized as a heating heat source to the residents because it occurs locally can be utilized as a heating heat source for the residents to feel warm.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The present invention has been described with reference to the embodiments shown in the drawings, which are described as one embodiment by which the technical spirit of the present invention and its core configuration and operation are not limited.

First, an embodiment according to the present invention will be described with reference to FIGS. 1 and 2.

1 and 2 are schematic supply and exhaust circuit diagrams of a ventilation system (hereinafter, abbreviated as "heat generation load control ventilation system") having a heating load control function of a household appliance according to the present invention. 1 is a circuit diagram illustrating a heat load exhaust state of a home appliance in a state where indoor cooling is performed in summer, and FIG. 2 is a circuit diagram showing a heat load heat recovery state of a household appliance in a state where indoor heating is performed in winter.

The heating load control ventilation system according to the present invention ultimately supplies the air from the outside to the interior of a building such as a house or a building, and discharges the indoor air to the outside, as shown in FIGS. 1 and 2. An external pipe 101 through which external air is introduced from the outside, an exhaust pipe 102 through which air is discharged to the outside, a ventilation pipe 201 through which air sucked from the inside flows, and an air supply pipe 202 supplying air into the room It includes, and includes a ventilator 300 of the heat recovery function that the heat exchange is performed as the outside air introduced from the outside and the interior air discharged from the room passes.

The ventilation device 300 is provided with the heat exchanger 301, and the ventilation device 300 includes four areas surrounding the heat exchanger 301, that is, the external organ area 111, the exhaust pipe area 112, Ventilation pipe area 211 and the air supply pipe area 212 is formed, the external pipe 101, the exhaust pipe 102, the ventilation pipe 201 and the air supply pipe 202 is connected to each area. The air sucked from the room is discharged to the outside through the exhaust pipe 102 through the heat exchanger 301 through the ventilation pipe 201, the outside air, that is, the outside air is sucked through the outer pipe 101 to exchange heat exchanger 301 Through the air supply pipe 202 is supplied to the room. Therefore, in the summer, the air cooled by indoor cooling is discharged through the ventilation pipe 201 for ventilation, the heat exchange when the cooled air passes through the heat exchanger 301 via the ventilation pipe area 211 through the ventilation pipe 201 This is made and thus the hot outside air flowing through the outer tube 101 is cooled while passing through the heat exchanger 301. The cooled outside air is supplied to the room through the air supply pipe 202 via the air supply pipe region 212.

On the other hand, in the winter, when the air heated by the indoor heating is discharged through the heat exchanger 301 through the ventilation pipe 201, the heat exchange is made through the heat pipe 301, the heat exchanger 301 It becomes warm as passing through, and the heated outside air is supplied to the room through the air supply pipe (202). In FIG. 1 and FIG. 2, the reference numeral 302 denotes a shock apparatus 302 for allowing air to flow smoothly through the exhaust pipe 102 and the air supply pipe 202, respectively.

In the heating load control ventilation system according to the present invention, an inhaler 10 for suctioning indoor air ("heated air") heated by the home appliance is installed around the home appliance where the heat is generated, and the inhaler 10 is provided. The connecting pipe 11 is connected. Specifically, when the home appliance is a lighting installation, the inhaler 10 may be installed on the lampshade, and when the home appliance is a TV or a refrigerator, the inhaler 10 may be installed on the rear wall of the TV or the refrigerator. . The heated air sucked into the inhaler 10 flows through the connecting pipe 11, and the heated air flowing through the connecting pipe 11 is operated according to the operation of the conversion valve 12 provided in the heating air flow path. After the heat exchange is carried out through the 301 is discharged to the outside through the exhaust pipe 102 or the heat exchange by the heat exchanger 301 is immediately discharged to the outside through the exhaust pipe (102).

When the cooling load is increased due to the heat generation of the home appliance, such as in summer, when heating air is sucked through the inhaler 10 installed around the home appliance and flows along the connection pipe 11, as shown in FIG. By bypassing the heat exchanger 301 directly, the heat exchanger 301 is discharged to the outside through the exhaust pipe 102 without heat exchange. That is, the heating air containing heat generated locally from the home appliance is sucked around the home appliance and discharged to the outside. Therefore, it is possible to prevent overheating of the home appliances, thereby minimizing the malfunction of the home appliances. In addition, it is possible to prevent the increase in the cooling load due to the generation of heating air from the household appliances.

On the other hand, when it is necessary to use the heat generated by the home appliance for indoor heating as in winter, heating air from the home appliance flowing along the connecting pipe 11 passes through the heat exchanger 301. Heat recovery takes place while passing through the heat exchanger 301, the heat recovered air is discharged to the outside through the exhaust pipe 102, the recovered heat is used as a heat source for heating the room. For example, when the outside air introduced through the external pipe 101 passes through the heat exchanger 301, it can be heated and supplied to the room by the heat recovered from the heated air. As described above, in the present invention, the heat generated locally from the home appliance is recovered by the heat exchanger 301 to be used as a heat source for indoor heating, and since heat is generated locally, it is difficult for the occupant to feel warmth, It is recycled as a heating source that allows residents to feel warm.

Next will be described a specific configuration of an embodiment of the ventilation device 300 according to the present invention used in the implementation of the heating load control ventilation system according to the present invention as described above.

3 and 4 show an embodiment of a heat recovery ventilator 300 according to the present invention in a schematic perspective view, Figure 3 is a heat load exhaust of the home appliance in the state in which the indoor cooling in summer as shown in Figure 1 A state is illustrated, and FIG. 4 illustrates a heat load heat recovery state of the home appliance in a state where indoor heating is performed in winter as shown in FIG. 2. 3 and 4, the case 310 of the ventilator 300 is illustrated by a dotted line in order to show the internal configuration for convenience.

In the present invention, the ventilation device 300 is provided with a heat exchanger 301, the outer tube area 111, the exhaust pipe area 112, the ventilation pipe area 211 and the air supply pipe area around the heat exchanger 301. 212 is formed, and the external pipe 101, the exhaust pipe 102, the ventilation pipe 201, and the air supply pipe 202 are connected to each area. Specifically, in the case of the embodiment shown in the drawings, the above configuration is implemented through the following configuration. That is, the heat exchanger 301 is disposed inside the case 310 of the ventilator 300, and the space of the case 310 is divided into left and right by the heat exchanger 301, and partition walls 311 are provided in the left and right spaces, respectively. ), The left and right spaces are divided into two spaces, respectively, and the inside of the ventilator 300 is an external pipe area 111 to which the external pipe 101 is connected, and an exhaust pipe area to which the exhaust pipe 102 is connected. It is divided into four areas, 112, the ventilation pipe area 211, and the air supply pipe area 212 to which the air supply pipe 202 is connected.

On the other hand, the ventilation device 300 according to the present invention is the heated air sucked through the inhaler 10 flows in, the ventilation pipe area 211 is divided into two areas, that is, the heating air area 211a and the ventilation area 211b. ). In order to implement this, in the embodiment shown in the drawing, an additional partition 311 is installed in the ventilation pipe region 211, and the ventilation pipe region 211 is divided into a heating air region 211a and a ventilation region 211b. . A ventilation pipe 201 is connected to the ventilation area 211, and a heating air pipe 203 is connected to the heating air area 211 a through which the heated air generated and sucked by the home appliance flows. The heating air pipe 203 is in communication with the connecting pipe (11).

A conversion valve 12 is provided between the heating air area 211a and the ventilation area 211b, and the heating air area 211a and the ventilation area 211b communicate with each other by the operation of the conversion valve 12. Or maintained separately. On the other hand, the heat exchanger 301 is provided with a bypass portion 303 through which air passes without heat exchange. The inlet of the bypass portion 303 is formed toward the heated air region 211a and exits. Is formed toward the exhaust pipe region 112, and the heated air region 211a and the exhaust pipe region 112 communicate with each other when the bypass portion 303 is opened.

The bypass unit 303 is opened or closed in conjunction with the operation of the conversion valve 12. When the conversion valve 12 is operated so that the heating air area 211a and the ventilation area 211b communicate with each other. The bypass unit 303 is closed, and on the contrary, when the conversion valve 12 is operated so that the heating air area 211a and the ventilation area 211b do not communicate with each other, the bypass unit 303 operates. Is opened to communicate the heated air region 211a and the exhaust pipe region 112 with each other.

In the specific embodiment shown in the drawing, the bypass portion 303 is formed to contact the side wall of the case 310 on one side of the heat exchanger 301, the conversion valve 12 is a plate that can be rotated left and right It is comprised in the member and is provided in the partition 312 which distinguishes the said heating air area | region 211a and the ventilation area | region 211b. Therefore, the bypass valve 303 rotates from side to side to open or close the heating air region 211a and the ventilation region 211b to close or open the bypass portion 303.

In the summer, the conversion valve 12 is operated to maintain a state in which the heating air region 211a and the ventilation region 211b are divided. At this time, the plate member of the conversion valve 12 is in a position to close the passage in which the heating air region 211a and the ventilation region 211b communicate with each other, and thus the bypass portion 303 is opened. As described above with reference to FIG. 1, when heated air sucked into the inhaler 10 flows through the connection pipe 11, only the bypass air flows into the heated air region 211a through the heated air pipe 203. And flows to 303 and is discharged to the outside through the exhaust pipe 102 through the exhaust pipe region 112 without heat exchange. That is, when heating air is generated from the home appliance as in summer, the heating air is immediately discharged to the outside without heat exchange, thereby preventing an increase in indoor cooling load due to the heating air.

On the other hand, in winter, the conversion valve 12 is operated to close the bypass unit 303 by allowing the home appliance opening area 211a and the general ventilation pipe area 211b to communicate with each other. That is, in the embodiment shown in the drawing, the plate member of the conversion valve 12 is rotated so that the passage where the heating air region 211a and the ventilation region 211b communicate with each other is in a position to open the bypass portion 303. The communication is closed. Accordingly, as shown in relation to FIG. 2, when heated air sucked into the inhaler 10 flows through the connecting pipe 11, the heating air flows into the heating air area 211a through the heating air pipe 203 and subsequently the ventilation area. Flow through the heat exchanger (301) flows to (211b). That is, the heat exchange is performed while flowing through the heat exchanger 301 instead of flowing to the bypass unit 303, and heat is recovered from the heated air. The air passing through the heat exchanger 301 is discharged to the outside through the exhaust pipe 102 through the exhaust pipe region 112. As such, in winter, the heat of the heating air generated from the home appliance is recovered by the heat exchanger 301 and recycled as a heat source for indoor heating. In other words, the heat generated from the home appliances that cannot be used as a heating heat source for the residents because it occurs locally can be utilized as a heating heat source for the residents to feel warm.

In particular, according to the present invention it is possible to effectively remove the heat of the home appliances that occur locally and cause a malfunction can increase the operating efficiency of the home appliances.

1 and 2 are schematic supply and exhaust circuit diagrams of a ventilation system having a heating load control function of a household appliance according to the present invention, respectively.

3 and 4 are schematic perspective views showing one embodiment of a heat recovery ventilator according to the present invention, respectively.

<Explanation of symbols for the main parts of the drawings>

10: inhaler

12: switching valve

300: ventilation device

301: heat exchanger

303: bypass section

Claims (4)

As the ventilator 300 of the heat recovery function, A case 310 is provided; A heat exchanger 301 is disposed inside the case 310; A space inside the case 310 is divided left and right by the heat exchanger 301; Partition walls 311 are formed in each of the left and right spaces of the case 310 separated by the heat exchanger 301 so that the left and right spaces are divided into two spaces, respectively. Of the external organs (101) to which the external air is introduced, the external organ area (111) connected thereto, the exhaust pipe area (112) to which the exhaust pipes (102) are discharged to the outside, and the ventilation pipes (201) through which the air sucked from the room flows. Vent pipe region 211 to which is connected the air supply pipe region 212 to which the air supply pipe 202 for supplying air to the room is connected, and is formed in the inside of the ventilator 300; The additional partition 312 is installed in the ventilation pipe region 211, so that the ventilation pipe region 211 is connected to the connection pipe 11 so that the heating air generated from the home appliance is sucked in and flows into the heating air pipe 203. It is divided into the heating air area (211a) which is connected, and the ventilation area (211b) to which the ventilation pipe (201) is connected; The heat exchanger 301 communicates the heating air region 211a and the exhaust pipe region 112 with each other so that the heating air passes from the heating air region 211a to the exhaust pipe region 112 without heat exchange. A pass section 303 is provided; The bypass part 303 is formed to contact the side wall of the case 310 on one side of the heat exchanger (301); Between the heating air area 211a and the ventilation area 211b, a conversion valve 12 made of a plate member that can rotate left and right is a partition wall separating the heating air area 211a and the ventilation area 211b ( 312, the conversion valve 12 made of a plate member is operated to open or close between the heating air region 211a and the ventilation region 211b while rotating left and right, thereby heating the heating air region 211a. ) And the ventilation area 211b are in communication with each other or remain separated, and at the same time the bypass part 303 is closed or opened, and the heating air area 211a and the ventilation area 211b are in communication with each other. In this case, the bypass part 303 is closed, and the bypass part 303 is opened when the heating air area 211a and the ventilation area 211b are maintained in a separate state. Heat recovery function Device. delete An external pipe 101 through which external air is introduced from the outside, an exhaust pipe 102 through which air is discharged to the outside, a ventilation pipe 201 through which air sucked from the inside flows, and an air supply pipe 202 supplying air into the room And a ventilator 300 having a heat exchanger 301, and internal air sucked from the outside and the room introduced from the outside through the external pipe 101 and flowing through the ventilation pipe 201 As a heat exchange is made in the heat exchanger 301, the outside air is introduced into the room through the air supply pipe 202 and the indoor air is discharged to the outside through the exhaust pipe 102, so that the indoor air is circulated. The ventilation device 300 has a case 310; The heat exchanger 301 is disposed inside the case 310, and the space of the case 310 is divided into left and right by the heat exchanger 301, and partition walls 311 are formed in the left and right spaces, respectively, so that the left and right spaces are provided. As shown in FIG. 2, the spaces of the heat exchanger 301 are connected to an external pipe area 111 to which the external pipe 101 is connected, an exhaust pipe area 112 to which the exhaust pipe 102 is connected, and a ventilation pipe 201. An air supply pipe region 212 to which the ventilation pipe region 211 and the air supply pipe 202 are connected are formed in the ventilation device 300; The additional partition 312 is installed in the ventilation pipe region 211, so that the ventilation pipe region 211 is connected to the connection pipe 11 so that the heating air generated from the home appliance is sucked in and flows into the heating air pipe 203. It is divided into the heating air area (211a) which is connected, and the ventilation area (211b) to which the ventilation pipe (201) is connected; The heat exchanger 301 communicates the heating air region 211a and the exhaust pipe region 112 with each other so that the heating air passes from the heating air region 211a to the exhaust pipe region 112 without heat exchange. ) Is provided; The bypass part 303 is formed to contact the side wall of the case 310 on one side of the heat exchanger (301); Between the heating air area 211a and the ventilation area 211b, a conversion valve 12 made of a plate member that can rotate left and right is a partition wall separating the heating air area 211a and the ventilation area 211b ( 312, the conversion valve 12 made of a plate member is operated to open or close between the heating air region 211a and the ventilation region 211b while rotating left and right, thereby heating the heating air region 211a. ) And the ventilation area 211b are in communication with each other or remain separated, and at the same time the bypass part 303 is closed or opened, and the heating air area 211a and the ventilation area 211b are in communication with each other. In this case, the bypass part 303 is closed, and the bypass part 303 is opened when the heating air area 211a and the ventilation area 211b are maintained in separate states. When the heating air generated from the home appliance increases the cooling load, the heating air is discharged to the outside without heat exchange through the bypass unit 303, and the heating air is the heat exchanger 301 when the heating air is used as the heat source for heating. Ventilation system, characterized in that it has a function to control the heating load of the home appliances by passing through. delete

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