KR200431537Y1 - Converting device for cooling and heating of heat recovery ventilators using heat pipe - Google Patents

Abstract

 The present invention is a heating and cooling switching device of the ventilation unit using a heat pipe, the heat pipe type heat exchanger is axially installed horizontally across the center of the air supply passage and the exhaust passage in the main body, and fixed to one side of the heat pipe type heat exchanger The drive link of the regulator is connected to the fin so that it is driven by the switch. The user does not have to go to the air conditioning room where the ventilation unit is installed. It is easy to switch to cooling or heating, and also can be easily installed in the existing ventilation unit that is not equipped with a heating and cooling conversion device.

Description

  CONVERTING DEVICE FOR COOLING AND HEATING OF HEAT RECOVERY VENTILATORS USING HEAT PIPE}

1 is a cross-sectional view of the present invention

2 is an enlarged view of a part of the present invention

3 is an enlarged sectional view taken along the line I-I of FIG.

4 is an enlarged sectional view taken along the line I-I of FIG.

<Explanation of symbols for main parts of drawing>

1: Main body 10: Air supply 11: Air supply passage

20: exhaust port 21: exhaust passage 30: bulkhead

40 heat pipe type heat exchanger 41 heat pipe 42 lifting pin 50 rotation shaft 60 regulator 61 drive link

70: switch 100, 101: corrugated curtain

The present invention relates to a heating and cooling conversion device of the ventilation unit using a heat pipe. More specifically, the lift pins are fixed to one side of the heat pipe type heat exchanger horizontally axially intersected between the air supply passage and the exhaust passage in the main body, and the drive link of the regulator is connected to the lift pins to operate the switch. Heat pipe type heat exchanger is characterized in that it is converted to cooling or heating by converting the upper and lower positions of the left and right parts about the rotation axis. Ventilation units using heat pipes are installed horizontally across the center of the supply and exhaust passages, the left side of the heat exchanger located in the supply passage and the right side of the heat exchanger located in the exhaust passage, depending on the position. It is divided into heating part and condensation part or condensation part and heating part, and is provided with an air inlet for introducing external air and an outlet for exhausting indoor air. In summer, the outside warm air flows into the heating section of the heat pipe type heat exchanger through the air supply and supplies cold, uncontaminated air to the room, and the indoor air passes through the condensation section of the heat pipe type heat exchanger. It is discharged through the outlet. On the other hand, in winter, the outside cold air flows into the condensation area of the heat pipe type heat exchanger through the air supply to supply uncontaminated warm air to the room, and the indoor air is heated area of the heat pipe type heat exchanger. Through the outlet will be discharged. In order to effectively exhibit such a heat recovery function, the heating section of the heat pipe type heat exchanger should be located in the supply passage in summer, and the heating section of the heat pipe type heat exchanger should be adjusted in the exhaust passage in winter.

 Conventionally, in the individual ventilation unit installed in the room has been devised to switch the heat pipe type heat exchanger to cooling or heating with a lever. However, in the case of a relatively large ventilation unit that supplies cooling or heating to a plurality of indoor ducts, the user has to go to the air conditioning room where the ventilation unit is installed to perform the heating and cooling work.

The present invention devised to solve the above problems, the heat pipe type heat exchanger is axially installed horizontally across the center of the supply passage and the exhaust passage in the main body, the lifting pin fixed to one side of the heat pipe type heat exchanger The drive link of the regulator is connected to the switch and driven by a switch. The user does not have to go to the air conditioning room where the ventilation unit is installed, and the upper and lower positions of the left and right sides of the heat pipe type heat exchanger are changed by manipulating the switch installed in the room. It is intended to be easily switched to cooling or heating, and also to be easily installed in an existing ventilation unit that is not equipped with a heating and cooling conversion device.

Referring to the configuration and operation of the subject innovation in detail as follows.

FIG. 1 is a cross-sectional view of the present invention, and FIG. 2 is an enlarged view of a part of the present invention. Referring to the configuration of the present invention, the air supply passage 11 and the exhaust port communicated with the air supply port 10 in the main body 1 are illustrated. The exhaust passage 21 communicated with the 20 is partitioned left and right by the partition 30, and the heat pipe type heat exchanger 40 is rotated across the center of the air supply passage 11 and the exhaust passage 21. It was installed so as to rotate, a plurality of heat pipes 41 are arranged horizontally in the heat exchanger (40). In addition, the lift pin 42 is fixed to one side of the heat pipe type heat exchanger 40, and the drive link 61 fixed to the regulator 60 is connected to the lift pin 42 to be installed indoors 70. The controller 60 is adjusted to adjust cooling or heating. The tongue symbol 80 denotes an air supply fan, 81 an exhaust fan, and 90 and 91 denote a filter.

Looking at the operating process of the present invention as described above, the outside fresh air sucked from the air supply unit 10 by the air supply fan 80 through the filter 90, and then through the heat pipe type heat exchanger 40 indoors The air in the room and the turbid air in the room discharged to the exhaust port 20 by the exhaust fan 81 at the same time are installed in a counterflow type through the filter 91 and then discharged to the outside through the heat pipe type heat exchanger 40. And the intake and exhaust air passes through each independently. At this time, while the outside air or the indoor air passes through the heat pipe type heat exchanger 40, the cold air is warm, and the warm air is heat-exchanged. When the heat pipe type heat exchanger 40 in which the refrigerant is sealed is heated inside the heat pipe 41 and the left side is heated around the rotation shaft 50, the refrigerant inside the evaporator obtains thermal energy from the outside and evaporates. After the steam moves to the condensation unit, which is the right side of the heat pipe 41, the gas is condensed under the influence of low external temperature, and at this time, heat energy (evaporative latent heat) is released. After releasing the heat energy, the fluid becomes liquid again and is returned to the heating part by capillary force and gravity, and this phenomenon is repeated repeatedly so that heat can be transferred without any power.

3 is a state diagram that is switched to cooling, when the drive link 61 of the regulator 60 by operating the switch 70 rotates the lifting pins 42 of the heat pipe type heat exchanger 40 upward at a certain angle exhaust pipe The right part of the heat pipe type heat exchanger 40 located in the furnace 21 is raised to become a condensation part, and the left part located in the air supply passage 11 is lowered to become a heating part to be converted into a cooling state. Therefore, the outside warm air flows into the room through the left heating part of the heat pipe type heat exchanger 40 as cold air, and the inside cold air passes through the right condensing part area of the heat pipe type heat exchanger 40 through the exhaust port. Discharged to (20). The upper surface of the heat pipe type heat exchanger 40 and the main body 1 of the heat pipe type heat exchanger 40 in order to prevent the outside air through the air supply port 10 is introduced into the room and mixed with the air discharged to the exhaust port 20 in the room. Corrugated curtains 100 and 101 are respectively provided at the gaps between the ceilings and the gaps between the bottom of the heat pipe type heat exchanger 40 and the bottom of the base 1, respectively. When switching to cooling or heating has the effect of blocking the mixing of the outside air and indoor air.

4 is a state diagram that is switched to heating, when the drive link 61 of the regulator 60 rotates the lifting pin 42 of the heat pipe type heat exchanger 40 at a predetermined angle by operating the switch 70 The left portion of the heat pipe type heat exchanger 40 located in the passage 11 is raised to become a condensation portion, and the right portion located in the exhaust passage 21 is lowered to become a heating portion to be converted to a heating state. Therefore, the external cold air flows into the left condenser area of the heat pipe type heat exchanger 40 through the air supply 10 to supply warm air, and the warm air in the room is supplied to the heat pipe type heat exchanger 40. It is discharged through the outlet 20 via the right heating region.

As described above, the drive link 61 fixed to the regulator 60 is connected to the lifting pin 42 fixed to one side of the heat pipe type heat exchanger 40 to drive the regulator 60 with the switch 70. It is easy to switch to cooling or heating, it is possible to maximize the heat recovery efficiency in both summer and winter, and to minimize the temperature deviation between indoor and outdoor. In particular, in the case of a large ventilation unit that supplies cooling and heating to a plurality of spaces through a duct, the user does not have to go to the air conditioning room in which the ventilation unit is installed, and the drive link 61 of the regulator 60 is operated by a simple operation of the switch 70 installed indoors. By operating), the left side and the right side of the heat pipe type heat exchanger 40 can be switched to a heating part or a condensation part, thereby making it convenient to use.

Claims (2)

The air supply passage 11 communicated with the air supply port 10 and the exhaust passage 21 communicated with the exhaust port 20 in the main body 1 are partitioned left and right by the partition wall 30, and the air supply passage 11 and the exhaust passage ( 21, the heat pipe type heat exchanger 40 is installed to be rotated by the rotation shaft 50, and the heat pipe type heat exchanger 40 has a plurality of heat pipes 41 arranged horizontally. The lift pins 42 are fixed to one side of the heat pipe type heat exchanger 40, and a drive link 61 fixed to the regulator 60 is connected to the lift pins 42 to drive the switch 70. Cooling and heating switching device of the ventilation unit using a heat pipe The spaced portion between the top surface of the heat pipe type heat exchanger 40 and the ceiling of the body 1 and the spaced portion between the bottom surface of the heat pipe type heat exchanger 40 and the bottom of the body 1, respectively. Corrugated curtain (100, 101) is installed, the heating and cooling switching device of the ventilation apparatus using a heat pipe, characterized in that when switching to cooling or heating to prevent the mixing of external air and indoor air

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