KR101115778B1 - The structure for ventilation system - Google Patents

Abstract

The present invention relates to a structure of a ventilation system, which rotates a fan through a drive motor to supply outdoor air to a room, and in a ventilation device configured to discharge indoor air to the outside, conventionally, two drive motors are connected to a single drive motor. By rotating each fan located on the outdoor side and the indoor side through the one drive motor to ventilate the room in a comfortable state, one drive motor compared to the conventional ventilation device equipped with two drive motors There is an excellent effect that can greatly reduce the production cost according to the configuration.

In addition, since each fan located on the outdoor side and the indoor side is rotated by using one drive motor, there is also an excellent effect of reducing the power consumption of the drive motor for rotating the fan.

Ventilation, motor, indoor ventilation

Description

The structure for ventilation system

1 is a schematic structural diagram of a conventional ventilation device.

2 is an operating state diagram of a conventional ventilation device.

3 is a schematic structural diagram of a ventilation system according to the present invention;

4 is an operational state diagram of the ventilation system according to the present invention.

Explanation of symbols on the main parts of the drawings

10. Case 12. Outdoor side air intake

12a. Indoor Intake 14.Outside Exhaust

14a. Indoor exhaust port 20, 120. Drive motor

121.Motor mount 122.Rotary shaft

22, 123. Fan 30. Heat Exchanger

130. Upper heat exchanger 131. Lower heat exchanger

132. Connectors l. Heat exchanger width

L. Upper / Lower Heat Exchanger Width

The present invention relates to a ventilation system, and more particularly, in a ventilator configured to supply outdoor air to a room by rotating a fan through a drive motor and to discharge indoor air to the outside, a conventional two drive motors as one The present invention relates to a ventilation system structure configured to drive the fan in a pleasant state by rotating each fan located at the outdoor side and the indoor side through the one drive motor.

In general, the ventilation device is to supply the outdoor air to the room by rotating the fan through the drive motor, and to discharge the indoor air to the outside to ventilate the room in a comfortable state, the configuration of the ventilation device in more detail As follows.

As shown in FIG. 1, the ventilation device includes a case 10 having a predetermined size in which an interior is partitioned into an outdoor side and an indoor side; A plurality of drive motors 20 respectively installed at the outdoor side and the indoor side of the case 10; Installed in each of the drive motors 20, the outdoor air sucked through the inlet 12 on the outdoor side while being rotated by driving the motor 20 to the indoor side, the indoor air sucked through the inlet 12a on the indoor side A plurality of fans 22 discharged to the outdoor side; It is installed in the inner center of the case 10, and composed of a heat exchanger 30 for mutual heat exchange between the outdoor air sucked from the inlet 12 on the outdoor side and the indoor air sucked from the inlet 12a on the indoor side. It is.

Reference numeral 21 is a rotating shaft 21 in which the outdoor driving motor 20 and the indoor driving motor 20 are connected to make the same rotation.

Among the components of the ventilation device, the case 10 is formed in a rectangular shape having a predetermined size so that the case 10 may be installed at a window that borders the indoor and outdoor areas. Each of the compartments, the exhaust port 14 to the upper end of the outdoor side so that the indoor air sucked through the drive motor 20 and the fan 22 located on the outdoor side can be discharged to the outside through the heat exchanger (30). Is formed, the inlet 12 is formed at the lower end of the outdoor side so that outdoor air can be sucked into the case 10 through the drive motor 20 and the fan 22 located on the indoor side.

In addition, an air inlet 12a is formed at an upper end of the indoor side to allow indoor air to be sucked into the case 10 through the driving motor 20 and the fan 22 located at the outdoor side. An exhaust port 14a is formed at a lower end of the air outlet 14a so that outdoor air sucked through the driving motor 20 and the fan 22 positioned at the indoor side can be discharged to the room via the heat exchanger 30.

And, the heat exchanger 30 is installed in the center of the case 10, from the indoor air sucked from the indoor side inlet 12a of the case 10 and from the outdoor side inlet 12 of the case 10 Refrigerant pipes (not shown) which are bent and stacked at a predetermined length so that the sucked outdoor air passes through the heat exchanger 30 and are mutually exchanged through a refrigerant that is a medium of heat exchange, and are installed at regular intervals on the outer circumferential surface of the refrigerant pipe. It is composed of a plurality of pins (not shown).

In addition, the drive motor 20 is composed of a plurality of which are respectively installed on the outdoor side and the indoor side of the case 10 partitioned through the heat exchanger 30, respectively, the outdoor drive motor 20 and the indoor The side drive motors 20 are rotated in the same rotational direction when driven.                         

In addition, the fan 22 rotates by driving the motor 20 to discharge the outdoor air sucked through the outdoor air intake 12 to the indoor side, and the indoor air sucked through the indoor air intake 12a. It is installed in each of the drive motors 20 to be discharged to the outdoor side, wherein the fan 22 is made of a turbo fan so that the suction amount and discharge amount of the air by driving the motor 20 can be increased. have.

Referring to the operating state of the ventilation device configured as described above are as follows.

When operating the ventilation device provided with two drive motors 20 and fans 22 for comfortable ventilation in the room, as shown in FIG. 2, drive motors respectively installed on the outdoor side and the indoor side of the case 10. 20 is driven and the fan 22 according to the driving of the motor 20 is also rotated, so that the outdoor air and the indoor air are respectively cased through the outdoor air intake 12 and the air intake 12a. 10) to be sucked into the outdoor side and the indoor side.

At this time, the outdoor air and indoor air respectively sucked to the outdoor side and the indoor side of the case 10 are discharged to the heat exchanger 30 installed in the center of the case 10 through the blowing action of the fan 22, The outdoor air and the indoor air discharged to the heat exchanger 30 pass through the heat exchanger 30 and mutually heat exchange with each other through a refrigerant that is a heat exchange medium in a refrigerant pipe (not shown). The air is blown by the fan 22 installed on the side, and the air is discharged to the room through the indoor exhaust port 14a to ventilate the room in a comfortable state, and the indoor air heat-exchanged with the outdoor air is blown by the fan 22 installed on the outdoor side. By the action is discharged to the outdoor through the outdoor exhaust port 14, the ventilation process of the room for the ventilation device is terminated.                         

However, in the case of the conventional ventilation device to provide a rotational force to the fan 22, which serves to suck the outdoor air and discharge it to the indoor side as a method for comfortably ventilating the room, and to suck the indoor air and discharge it to the outdoor side. Since the drive motor 20 constitutes two elements, each of which is installed on the outdoor side of the case 10 and the indoor side of the case 10 with respect to the heat exchanger 30 installed in the center of the case 10. There is a big problem that power consumption increases as the two driving motors 20 are driven.

In addition, in manufacturing a conventional ventilator, since two drive motors 20 for rotating each fan 22 located on the outdoor side and the indoor side are provided, the production cost for manufacturing the ventilator There was also a big problem that greatly increased.

The present invention has been made in order to solve the above problems, in the ventilation device configured to supply the outdoor air to the room by rotating the fan through the drive motor, and to discharge the indoor air to the outside, one conventional drive motor Composed of a drive motor of the motor by rotating each fan located on the outdoor side and the indoor side through the one drive motor to ventilate the room in a comfortable state, compared to the conventional ventilation device equipped with two drive motors The purpose is to reduce the production cost of the drive motor.

In addition, since one fan is used to rotate each fan located at the outdoor side and the indoor side, it is another object to reduce the power consumption of the drive motor for rotating the fan.

The object of the present invention is to provide a ventilator configured to supply an outdoor air to a room by rotating a fan through a drive motor, and to discharge the indoor air to the outside, and the present invention comprises two drive motors as one drive motor. The bar can be solved by the structure of the ventilation system, will be described in detail with reference to the accompanying drawings.

3 is a schematic structural diagram of a ventilation system according to the present invention.

Ventilation system structure of the present invention, the inside of the case 10 of the predetermined size partitioned into the outdoor side and the indoor side;

A drive motor 120 installed in the center of the case 10;

A motor mount 121 for fixing the drive motor 120 to the case 10;

It is installed on the upper / lower side of the case 10 based on the driving motor 120 and the motor mount 121, and is sucked from the outdoor air sucked from the inlet 12 of the outdoor side and the inlet 12a of the indoor side. Upper and lower heat exchangers 130 and 131 for mutual heat exchange in the indoor air space;

Installed at both ends of the rotation shaft of the drive motor 120, the outdoor air sucked through the intake port 12 on the outdoor side while rotating by driving the motor 120 to the indoor side, through the intake port 12a on the indoor side The sucked indoor air is characterized by consisting of a fan 123 for discharging to the outdoor side.

At this time, the fan 123 is characterized in that the symmetrical structure with respect to the drive motor 120 installed in the center inside the case 10.

In addition, in the case of the fan 123, a blade (not shown) so that the indoor / outdoor air can be sucked to the indoor side and the outdoor side in which the fan 123 driven by the motor 120 rotates to form the opposite direction, respectively. Forming direction is characterized in that formed opposite to each other.

In addition, in order to prevent bending of the rotating shaft of the drive motor 120 by the rotational force (centrifugal force) of the fan 123, the rotating shaft is characterized by the configuration of a single-axis flange coupling (not shown) structure.

In addition, the upper / lower heat exchanger (130, 131) is characterized in that configured in the form of one heat exchanger through the connection pipe (132).

Hereinafter, the ventilation system structure of the present invention will be described in detail.

Ventilation system structure of the present invention, in the conventional ventilation device configured to supply the outdoor air to the indoor by rotating each fan 22 through the two drive motor 20, and to discharge the indoor air to the outside, the outdoor side In addition to lowering the power consumption of the drive motor 20 for rotating the respective fan 22 located in the room and the indoor side, and reduces the production cost of having two drive motors 20 in the conventional ventilation device. Conventionally, two drive motors 20 are configured as one drive motor 120 so as to rotate each fan 123 located on the outdoor side and the indoor side through the single drive motor 120. In order to ventilate in a comfortable state, the present invention will be described in detail. The same reference numerals will be applied to the same configurations as those of the present invention and the conventional art described above.

Ventilation system structure according to the present invention in the conventional ventilation device configured to supply the outdoor air to the indoor by rotating each fan 22 through the two drive motor 20, and to discharge the indoor air to the outside, The drive motor 20 is configured as one drive motor 120 to rotate each fan 123 located on the outdoor side and the indoor side through the one drive motor 120 to ventilate the room in a comfortable state. As one, as shown in Figure 3, the interior of the predetermined size of the case 10 partitioned into the outdoor side and the indoor side; A drive motor 120 installed in the center of the case 10; A motor mount 121 for fixing the drive motor 120 to the case 10; It is installed on the upper / lower side of the case 10 based on the driving motor 120 and the motor mount 121, and is sucked from the outdoor air sucked from the inlet 12 of the outdoor side and the inlet 12a of the indoor side. Upper and lower heat exchangers 130 and 131 for mutual heat exchange in the indoor air space; Installed at both ends of the rotary shaft of the drive motor 120, the outdoor air sucked through the intake port 12 on the outdoor side while being rotated by the drive of the motor 120 to the indoor side, indoors sucked through the intake of the indoor side Air is comprised by the fan 123 which discharges to the outdoor side.

At this time, the case 10 is made of the same structure as the case 10 of the ventilation apparatus described in the prior art, and is formed in a rectangular shape of a predetermined size so that it can be installed in a window that borders the indoor and outdoor. The upper and lower heat exchangers 130 and 131 and the driving motor 120 are respectively partitioned into the outdoor side and the indoor side, and the upper side of the outdoor side is sucked through the fan 123 located at the outdoor side. An exhaust port 14 is formed to allow the indoor air to be discharged to the outside through the heat exchanger 130, 131, and the outdoor air case is formed at the bottom of the outdoor side through the fan 123 located at the indoor side. 10) The inlet 12 is formed to be sucked into.

In addition, an inlet 12a is formed at the upper end of the indoor side to allow the indoor air to be sucked into the case 10 through the fan 123 located at the outdoor side, and at the lower end of the indoor side to the indoor side. An exhaust port 14a is formed to allow the outdoor air sucked through the located fan 123 to be discharged into the room through the heat exchanger 130 and 131.

In addition, the drive motor 120 is formed in the center of the case 10 by forming the two drive motor (20) elements, which are each installed on the outdoor side and the indoor side of the conventional ventilation apparatus as a single drive motor 120 As the rotation of the motor 120, that is, the rotation shafts 122 formed on both sides of the driving motor 120, rotate in the same rotational direction, and in particular, the driving motor 120 is driven by the rotational force (centrifugal force) of the fan 123. In order to prevent bending of the rotating shaft 122, the rotating shaft 122 may be configured as a single-axis flange coupling (not shown) structure.

In addition, the fan 123 respectively installed at both ends of the rotation shaft 122 of the drive motor 120 rotates through the driving of the motor 120 while the outdoor air sucked through the outdoor air intake 12 is discharged to the indoor side. In addition, the indoor air sucked through the indoor side air inlet 12a serves to discharge the outdoor side. In the case of the fan 123, the air suction and discharge amount of the air driven by the motor 120 may be increased. It consists of a fan (not shown), the fan 123 of the fan 123 so that the indoor / outdoor air can be sucked to the indoor side and the outdoor side in the opposite direction while rotating the fan 123 by driving the motor 120, respectively. Blades (not shown) are formed in opposite directions.

Furthermore, in the case of the fan 123, in order to prevent damage due to an eccentricity when the fan 123 is rotated by driving the motor 120, the fan 123 is symmetrical with respect to the drive motor 120 installed in the center of the case 10. It is made of structure.

In addition, the upper and lower heat exchangers 130 and 131 are indoor air sucked from the indoor inlet 12a of the case 10 and outdoor air sucked from the outdoor inlet 12 of the case 10. Refrigerant pipes (not shown) which are bent and stacked in a predetermined length so that mutual heat exchange is made through the refrigerant that is a medium of heat exchange while passing through the heat exchangers 130 and 131, and a plurality of installed at regular intervals on the outer circumferential surface of the refrigerant pipe. The upper heat exchanger 130 and the lower heat exchanger 131 made of fins (not shown) are separately installed on the upper and lower sides of the case 10 based on the driving motor 120 and the motor mount 121. In the case of the upper / lower heat exchanger (130, 131), it consists of a single heat exchanger through the connecting pipe (132).

In particular, in order to improve heat transfer performance and efficiency of the upper and lower heat exchangers 130 and 131, the width L of the upper and lower heat exchangers 130 and 131 may be adjusted to the width of the conventional heat exchanger l. It is about 2 to 3 times wider than that.

Referring to the operating state of the ventilation system configured as described above are as follows.

4 shows an operating state diagram of the ventilation system according to the invention.

When one drive motor 120 is installed in the center of the case 10 for comfortable ventilation in the room, and the fan 123 is installed at both ends of the rotating shaft of the drive motor 120 to operate the ventilation system. The drive motor 120 installed in the center of the case 10 is driven, and the fan 123 according to the motor drive 120 is also rotated, through the outdoor side air inlet 12 and the indoor side air inlet 12a. Outdoor air and indoor air are respectively sucked into the outdoor side and the indoor side in the case 10.

At this time, the outdoor air and the indoor air sucked into the outdoor side and the indoor side of the case 10 are installed on the upper / lower side inside the case 10 through the blowing action of the fan 123, that is, the drive motor 120 and Based on the motor mount 121 is discharged to the upper / lower heat exchanger (130) 131 installed in the upper / lower side inside the case 10, and discharged to the upper / lower heat exchanger (130, 131) The outdoor air and the indoor air pass through the upper / lower heat exchangers 130 and 131 and exchange heat with each other through a refrigerant that is a heat exchange medium in a refrigerant pipe (not shown). The indoor air is discharged to the room through the indoor side exhaust port 14a by the blowing action of the fan 123 installed, and the indoor air exchanged with the outdoor air is blown out by the fan 123 installed on the outdoor side. Will be discharged to the outside.

In more detail, the process of penetrating the heat exchanger 130, 131 in the state where the temperature of the indoor air sucked into the indoor side of the case 10 is high, the heat exchanger (130, 131) of the As the heat exchange is performed during the indoor air period with the refrigerant in the refrigerant pipe, the temperature flows toward the fan 123 installed on the outdoor side, and the indoor air flowed toward the outdoor fan 123 is connected to the outdoor fan. By the blowing action of 123, it is discharged to the outside through the outdoor side exhaust port (14).

On the contrary, when passing through the heat exchangers 130 and 131 in a state where the temperature of the outdoor air sucked into the outdoor side of the case 10 is low, that is, the refrigerant in the refrigerant pipes of the heat exchangers 130 and 131. The heat exchange is performed in the outdoor air during the heat exchange with the refrigerant having a high temperature through heat exchange with the indoor air having a high temperature, so that the temperature is increased to make the room comfortable and flows toward the fan 123 installed at the indoor side. , The outdoor air flowed toward the indoor fan 123 is discharged into the room through the indoor exhaust port 14a by the blowing action of the indoor fan 123 to ventilate the room in a comfortable state.

Ventilation system structure of the present invention configured as described above, by supplying the outdoor air to the indoor by rotating the fan 22 installed in the drive motor 20 using the two drive motor 20, the indoor air to the outdoor In the conventional ventilation device for ventilating the room comfortably by discharging, by configuring the two drive motor 20 as one drive motor 120, it is possible to greatly reduce the production cost compared to the conventional ventilation device, the fan It is a very excellent invention, such as to reduce the power consumption of the drive motor 120 for rotating (123).

Ventilation system structure of the present invention, in the ventilation device configured to supply the outdoor air to the room by rotating the fan through the drive motor, and to discharge the indoor air to the outside, by conventionally comprising two drive motor as one drive motor By rotating each fan located at the outdoor side and the indoor side through the one drive motor to ventilate the room in a comfortable state, according to the configuration of one drive motor compared to the conventional ventilation device equipped with two drive motors There is an excellent effect that can greatly reduce the production cost.

In addition, since each fan located on the outdoor side and the indoor side is rotated by using one drive motor, there is also an excellent effect of reducing the power consumption of the drive motor for rotating the fan.

Claims (5)

A case of a predetermined size having an interior partitioned into an outdoor side and an indoor side; A drive motor installed in the center of the case; A motor mount for fixing the drive motor inside the case; Upper and lower heat exchangers are installed separately on the upper and lower sides of the case based on the driving motor and the motor mount, and mutual heat exchange is performed between the outdoor air sucked from the intake port on the outside and the indoor air sucked from the intake port on the indoor side. ; Installed at both ends of the rotary shaft of the drive motor, the outdoor air sucked through the intake port on the outdoor side while rotating by the motor drive to the indoor side, the indoor air sucked through the intake port on the indoor side is composed of a fan to discharge to the outdoor side Ventilation system structure, characterized in that. The ventilation system structure according to claim 1, wherein the fan has a symmetrical structure with respect to a drive motor installed in the center of the case. According to claim 1 or claim 2, wherein the fan, the blade forming direction is opposite to each other so that the indoor and outdoor air can be sucked to the indoor side and the outdoor side in the opposite direction while the fan driven by the motor is rotated, respectively Ventilation system structure, characterized in that formed. 2. The ventilation system structure according to claim 1, wherein the rotation shaft is constituted by a single-axis flange coupling structure in order to prevent bending of the rotation shaft of the drive motor due to the rotational force (centrifugal force) of the fan. The ventilation system structure according to claim 1, wherein the upper / lower heat exchanger is configured in the form of one heat exchanger through a connecting pipe.

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