KR200226249Y1 - hot-air heater - Google Patents

Abstract

The present invention forms a heat dissipation tube for discharging high-temperature gas and arranges an air distribution tube through which cold air passes through the inner space of the heat dissipation tube, and supplies a high-temperature gas through the heat dissipation tube to supply external gas through the air distribution tube. It is intended to provide a hot air fan to allow the air to be introduced and to allow the cold air to be heated by the heat emitted from the heat dissipation tube and to supply the heated hot air into the greenhouse.

Description

Hot air heater {hot-air heater}

The present invention discharges the high-temperature gas generated by the ignition of the burner to the outside through the heat dissipation tube and makes the inside of the heat dissipation tube contact the outside air, so that the outside air is heated by the heat of dissipation of the heat dissipation tube and the heated hot air is It's about a warmer that lets you feed into a greenhouse like a house.

Conventionally, the heat generated by igniting the burner is directly supplied to the greenhouse, so the amount of heat that can be used is very small compared to the amount of fuel consumed, and the loss of energy is very large.

The present invention forms a heat dissipation tube for discharging high-temperature gas and arranges an air distribution tube through which cold air passes through the inner space of the heat dissipation tube, and supplies a high-temperature gas through the heat dissipation tube to supply external gas through the air distribution tube. It is intended to provide a hot air fan to allow the air to be introduced and to allow the cold air to be heated by the heat emitted from the heat dissipation tube and to supply the heated hot air into the greenhouse.

1 is an internal structure diagram of a warm air fan according to the present invention.

2 is a cross-sectional view of a warm air fan according to the present invention.

3 is a flow chart of gas and air. * Explanation of the symbols for the main parts of the drawings * 1: Hot gas cylinders 2,3: First and second heat dissipation pipes 5,6: First and second air flow pipes 7: Communication tube 8: Discharge pipe 9: Case 10: Hot air exhaust duct

Hereinafter, the warm air fan according to the present invention will be described in detail with reference to the drawings. FIGS. 1 and 2 show the internal structure of the warm air fan according to the present invention in a perspective view and a cross-sectional view. It is provided with a hot gas cylinder (1) for receiving heat, and the gas inlet (1a) into which the gas having a high temperature flows into the hot gas cylinder (1) and the gas heat in the hot gas cylinder (1) are externally supplied to the hot gas cylinder (1). The gas discharge port 1b for discharging the gas is processed. The first heat dissipation tube 2 having a cylindrical shape is disposed above the hot gas cylinder 1 in order to receive heat from the hot gas cylinder 1 and release heat. Is formed, and the first gas inlet 2a and the first gas are introduced into the first heat dissipation pipe 2 so that the gas discharged through the gas discharge port 1b of the high temperature gas cylinder 1 flows in and is discharged again. The discharge ports 2b are respectively provided for processing. A second heat dissipation tube 3 having a shape similar to that of the first heat dissipation tube 2 is formed above the first heat dissipation tube 2, and the second heat dissipation tube 3 also introduces and discharges gas. The 2nd gas inlet 3a and the 2nd gas outlet 3b for processing are respectively processed. In addition, a first duct 4a is connected to the gas discharge port 1b and the first gas inlet 2a between the high temperature gas cylinder 1 and the first heat dissipation pipe 2, and the first heat dissipation pipe is connected. A second duct 4b is interposed between the first gas outlet 2b and the second gas inlet 3a between the second heat dissipation tube 3 and the second heat dissipation tube 3. A third duct 4c is interposed in the second gas outlet 3b of the c) so as to discharge the gas to the outside. On the other hand, the first air flow pipe (5) and the second air flow pipe (6) to the first air flow pipe 5 and the second air discharge pipe (6) in order to heat the cold air from the outside flows inside the first, second heat discharge pipe (2, 3) It is formed so as to penetrate inside the second heat dissipation pipe (2, 3). At this time, the first air inlet (5a) on one side and the first air outlet (5b) on the other The second air inlet 6a is processed on one side of the second air flow pipe 6, and the second air outlet 6b is processed on the other side of the second air flow pipe 6, respectively. , The communication pipe (7) to the first air outlet (5b) and the second air inlet (6a) of 6) in order to smoothly flow air from the first air flow pipe (5) to the second air flow pipe (6) The discharge pipe 8 is connected to and formed at one end of the first heat discharge pipe 2 corresponding to the second air discharge port 6b of the second air flow pipe 6. )by The third air inlet 8a is connected to the second air outlet 6b so as to communicate with each other, and the outlet 8b is formed on the other side. A hot air discharge duct 10 is connected to the upper portion of the case 9. The use state of the hot air fan thus formed will be described with reference to FIG. 3. First, the fuel in the burner (not shown) will be described. When the combustion gas generated by burning the gas flows into the hot gas cylinder 1, the hot gas flows through the first duct 4a to the first heat dissipation pipe 2 and then through the second duct 4b to the second gas. It flows to the heat discharge tube 3, and discharges it to the 3rd duct 4c (arrow H shown by a dashed-dotted line is a flow path of a combustion gas).

And the outside cold air is introduced into the first air flow pipe (5) through the first air inlet (5a), the discharge port of the discharge pipe (8) through the second air flow pipe (6) via the communication pipe (7) 8a), the air is heated by the high heat emitted from the first and second heat dissipation tubes (2, 3) and exits through the discharge tube (8). Arrow M is a flow chart of the primary heating air.The air heated to such a high temperature flows again between the case 9, the hot gas cylinder 1, and the first and second heat dissipation pipes 2, 3; In the process of being discharged to the discharge duct 10, it is heated again to become a high temperature hot air and blows it toward the greenhouse to increase the temperature through the hot air discharge duct 10 (arrow R shown by the three-dot chain line is secondary heating). To increase the temperature in the greenhouse.

As described above, the warm air heater according to the present invention can be used as a warm air heater having a very high thermal efficiency because the external cool air is dually heated while flowing along the inside and the outside of the first and second heat discharge tubes.

Claims (1)

A case 9 constituting an appearance having a hot air discharge duct 10 at an upper side thereof; A high temperature gas cylinder (1) installed at the bottom of the inside of the case (9) and provided with a gas inlet (1a) so as to pass through the case (9) to receive the ignition heat of the burner; First to be installed side by side above the hot gas cylinder (1) to be communicated through the first duct (4a) at a distance away from the gas inlet (1a) to receive the hot gas from the hot gas cylinder (1) A heat dissipation tube 2; Installed side by side above the first heat dissipation tube (2) is installed in communication through the second duct (4b) opposite to the first duct (4a) so as to receive a high-temperature gas from the first heat dissipation tube (2) sequentially And a second heat dissipation tube (3) installed so that the third duct (4c) is in communication with the second duct (4b) at a distance apart from the second duct (4b) to discharge the hot gas out of the case (9); The first air inlet 5a is provided to penetrate outside the case 9 and is installed to penetrate along the inside of the second heat dissipation pipe 3 so that the external cold air is introduced through the first air inlet 5a. A first air flow pipe 5 installed so as to be heated while passing through the second heat discharge pipe 3; Interposed in communication with the first air flow pipe (5) to guide the heated external air passing through the first air flow pipe (5) toward the first heat discharge pipe (2) from the side of the second heat discharge pipe (3). A communicating tube 7; Second air installed to pass through the inside of the first heat dissipation tube 2 while communicating with the communication tube 7 so that the heated external air passed through the communication tube 7 passes through the first heat dissipation tube 2 again. A distribution pipe 6; The heated outside air passing through the first heat dissipation pipe 2 through the second air flow pipe 6 may be discharged into the case 9 so that the heated outside air may escape through the hot air discharge duct 10. In order to be in communication with the second air flow pipe (6) on the side of the first heat dissipation pipe (2) opposite to the communication pipe (7), and characterized in that consisting of a discharge pipe (8) having a discharge port (8b) Warmer.