KR200195145Y1 - Heat exchanger fan - Google Patents

Abstract

The present invention relates to a heat exchange ventilator.

That is, the heat exchange plate pieces disposed at the center of the ventilation fan body are orthogonal to cross the intake and exhaust air at the same time, but are not mixed with each other.The air filter is installed in the intake and exhaust fans to block the dust from adhering to the heat exchange plate. In addition, the control box is installed to automatically adjust the operation of the fan installed in the ventilator is characterized by providing the appropriate room temperature and the appropriate indoor air volume.

Description

Heat exchanger fan

The present invention relates to a heat exchange ventilator, in which the waste heat contained in the indoor air discharged by the exhaust fan and the heat exchange plate having a structure through which the outdoor air introduced by the suction fan pass through each other are separated, The air is not mixed with each other but relates to a heat exchange ventilator capable of recovering waste heat.

In order to ventilate, the general ventilator is used to suck air or exhaust air only, so the positive or negative pressure is generated inside the room, so that the ventilation is not good, and the indoor cooling or heated air is discharged to the outside. Therefore, it has a defect of wasting energy, there is no variable device that can control the ventilation amount, and there is no operation device of the ventilation fan by automatic temperature sensing, so many improvements are necessary.

The present invention has been made to solve the above problems, the purpose is to have a heat exchanger disposed in the center of the ventilation main body and to allow the intake and exhaust air to cross at the same time, the air inlet portion of the intake, exhaust fan The purpose of the filter is to prevent dust from adhering to the heat exchanger plate, and to install a control box that can automatically control the operation of the fan installed in the ventilator to provide proper room temperature and proper room air.

1 is an exploded perspective view of the present invention.

Figure 2 is a plan cross-sectional view of the coupling state of the present invention.

Figure 3 is a schematic diagram of the use state of the present invention.

4 is a circuit diagram according to the present invention.

The heat exchange part 11 formed by alternately stacking several heat exchange plates 11a formed in a slate shape in the center inside the vent main body 10 is for distributing air between indoor and outdoor to cross the first heat exchanger. The guide hole 11a ″ of the corrugation bend 11a 'formed in the plate 11a is disposed in the longitudinal direction so that air is guided from the indoor to the outdoor, and the flat plate 11b is loaded thereon to maintain balance, and The guide hole 11c ″ of the corrugation bend 11c ′ formed in the second heat exchange plate 11c is formed on the upper surface of 11b in a longitudinal direction so as to guide air from the outdoor to the indoor. The exhaust fan 12b is fastened to the indoor exhaust piece 12a of the frame 12 formed at the edge of the heat exchanger 11, and the suction fan 13b is fastened to the outdoor suction piece 13a. Each of the outdoor exhaust fan 12b and the indoor suction fan 13b In front of the air filter (12c) (13c) is installed, the indoor exhaust port (15a) of the ventilation main body 10 is connected to the suction pipe (15b) that can suck the muddy air of the room, and to the indoor suction port (16a) A supply pipe 16b capable of supplying fresh air to the room is connected, and several supply holes 16b 'are perforated at regular intervals in the supply pipe 16b, and indoor air is exhausted from the outdoor exhaust port 15c. 15 d of exhaust pipes are connected, and an intake pipe 16 d is connected to an outdoor suction port 16 c to supply fresh air from the outside, and the suction fan 13 b and the exhaust fan 12 b are arranged in parallel. The connected power line 17 is connected in parallel to the temperature controller 21 and the speed controller 22 built in the control box 20 and can vary the power between the temperature controller 21 and the speed controller 22. Temperature control furnace for connecting the changeover switch 23 to adjust the temperature controller 21 A speed control knob 22 'for adjusting the groove 21' and the speed controller 22 is formed outside the control box 20, and electricity is supplied between the changeover switch 23 and the temperature controller 21. It is configured by installing an LED (24) that can be confirmed that the variable and the switching switch 23 and the speed controller 22 connected to the LED 25 to confirm that the electricity is changed to the speed controller (22) .

The operation of the present invention configured as described above is as follows. In the room, the temperature is controlled by the temperature adjusting knob 21 'in order to maintain the proper temperature while maintaining the proper temperature of the room through a boiler or another heating device.

At this time, if the set temperature is 20 ° C, for example, the temperature adjusting knob 21 'is also set to 20 ° C. Subsequently, when the indoor temperature reaches 20 ° C or more while the switching switch 23 is switched in the direction of the temperature control knob 21 ', the LED 24 is turned on and the exhaust fan 12b and the suction fan 13b operate simultaneously. The muddy air in the room is along the guide hole 11a ″ formed in the inlet pipe 15b, the air filter 12c, and the corrugation bend 11a 'of the heat exchange plate 11a for introducing air from the room to the outside. After moving, it is exhausted to the outside through an exhaust pipe 15d connected to the outside of the wall 26. On the contrary, outdoor fresh air is sucked into the suction pipe 16d connected to the outdoor suction port 16c to remove various dusts in the air. It moves along the guide hole 11c ″ formed in the curved air filter 11c 'of the air filter 13c and the suction fan 13b to filter and the heat exchange plate 11c which guides air from the outdoors to the room, Subsequently, the gas is exhausted to the supply hole 16b 'of the supply pipe 16b connected to the indoor suction port 16a. Will.

In this way, when the indoor air passes through the outside and the outdoor air crosses the inside, when the indoor temperature passes through the heat exchange unit 11 and the outdoor temperature passes through the heat exchanger 11, the indoor supply pipe 16b passes through the indoor supply pipe 16b. Approximately 15 degrees Celsius is formed and it is exhausted indoors. After that, if the indoor temperature does not reach a predetermined temperature of 20 ° C., especially in winter, the temperature detecting sensor 27 connected to the temperature control lever 21 detects this and stops the operation of the exhaust fan 12b and the suction fan 13b. It blocks the indoor and outdoor air at the same time.

On the contrary, when the indoor temperature is 20 ° C. or higher, especially in summer, the temperature sensor 27 detects this and operates the exhaust fan 12b and the suction fan 13b to lower the temperature to a predetermined temperature in the room and not to burn the heater. The air conditioner (not shown) is operated again to adjust the temperature. Alternatively, when the selector switch 23 is supplied with electricity to the speed controller 22, the LED 25 is turned on. When the speed control knob 22 'is adjusted, the exhaust fan 12b and the suction fan 13b are turned on. At the same time, the speed is variable, and the amount of ventilation can be determined by adjusting the amount of exhaust and intake air.

As described above, the present invention allows the heat exchanger 11 disposed at the center of the ventilation main body 10 to simultaneously cross the outside and the inside of the air, thereby providing fresh air to the outside of the room at the same time, and using aluminum having high thermal conductivity. By using the heat exchange plate 11a, the outdoor temperature sucked by the waste heat exhausted is increased and supplied to the room, thereby saving energy by using the waste heat and venting by the intake and exhaust fans.

In addition, the temperature detection sensor 27 is used to operate the intake and exhaust fans at or above the set temperature for ventilation, and to stop the fans at or below the set temperature.

In addition, by controlling the speed of the intake and exhaust fans by the variable speed controller 22, the amount of ventilation can be controlled. The energy can be saved by the waste heat recovery by heat exchange, and the intake and exhaust fans are operated simultaneously, so that the ventilation can be well ventilated. There is.

Claims (2)

In the heat exchange part 11 provided inside the ventilation main body 10, the heat exchange part 11 alternately stacks several slate type heat exchange plates 11a, but between each heat exchange plate 11a. A heat exchange ventilator, characterized in that a flat plate (11b) is interposed. The guide hole (11a ") of the corrugation bend (11a ') formed in the first heat exchange plate (11a) of the heat exchange unit 11 is disposed in the longitudinal direction to guide the air from the indoor to the outdoor On the upper surface of the flat plate 11b loaded on the upper surface of the heat exchange plate 11a, the guide hole 11c ″ of the corrugation bend 11c 'formed in the second heat exchange plate 11c is indoors. Heat exchange fan, characterized in that arranged in the longitudinal direction to guide the air to the furnace.