KR200312230Y1 - An Stand-Type oil heater with a bottom exhausted vent - Google Patents

Abstract

The present invention relates to a self-supporting radiator for lower discharge oil. The air supply unit is installed in the upper part of the heater, and the hot air outlet is installed in the lower part of the heater so that the hot air of the heat exchanger heated by oil combustion in the combustion chamber inside the heater provides the hot air outlet of the heater. It is a heater discharged by using a forced convection heating method in which the hot air blower forcibly discharges the expanded air heated by the heat exchanger inside the heater to the lower hot air outlet, and the hot air is a combination of the natural convection method of air circulated from the bottom to the upper part. The productability is increased by providing an energy-saving heater that is circulated to the air supply of the upper part of the heater, which is most suitable for the thermal characteristics and has an effect of increasing the heating efficiency.

Description

An stand-type oil heater with a bottom exhausted vent}

The present invention relates to a self-supporting radiator for lower discharge oil. Especially, it is designed to maximize the heating efficiency by using the natural convection method of air and to create a comfortable indoor environment. Taking into account that the cool air stays in the lower part of the room, the air circulation is installed using the air circulation system installed in the upper part of the heater and the hot air outlet at the bottom of the heater. The forced convection heating method for heating the lower part of the room by forcibly discharging the air and the hot air combines the natural convection heating method of the air circulated from the floor to the upper part. The hot air recovery of the conventional heater by using the increasing effect and the upper air supply of the heater of cold air Pleasant heating, the lower ejection energy-efficient removal of objectionable in the room occupants head of thermal oils relates to a free-standing heater

As shown in FIG. 1, the conventional self-supporting heater for the upper discharge oil is composed of the lower air supply mechanism 11 and the upper hot air discharge outlet 12 of the heater 10, and the combustion of the outdoor 20 when the heater 10 is operated in FIG. The blower 21 burns the oil 23 in the combustion chamber 22 and heats the air heated by the heat exchanger 24 to the room 27 by the hot air blower 26 through the upper hot air outlet 12. The air stays in the upper part of the room 27 and the air natural convection path is blocked by the staying of the cool air in the lower part, and the heating efficiency is low due to the space heating of the forced air reaching distance by the hot air blower 26. The hot air discharge position of the discharge port 12 is located at a height of about 140-180 cm, and is located at the head of a person sitting or standing, causing discomfort caused by radiant heat of the hot air.

The present invention is a combination of the heating circulation method of the hot air outlet from the upper air supply to the upper air supply in the self-standing heater for oil as described above, the combination of the natural convection of the air to move the hot air from the bottom to the upper portion and the forced circulation method of the hot air blower of the lower hot air outlet. The forced convection heating system aims to provide a self-contained heater for the discharge oil of the lower discharge oil which creates a pleasant indoor environment with the economical effect of saving energy by the uniform heating of all indoor spaces and the installation of the hot air discharge outlet.

1 is an external view of a conventional top discharge type self-supporting heater for oil

Figure 2 is a cross-sectional view of a conventional top discharge type self-supporting heater for oil

Figure 3 is an external view of a self-supporting radiator for the lower discharge type oil of the present invention

Figure 4 is a cross-sectional view of the self-supporting radiator for the bottom discharge type oil of the present invention

* Explanation of symbols for main parts of the drawings

DESCRIPTION OF SYMBOLS 10 Heater 11 Lower air supply mechanism 12 Upper hot air discharge outlet 20 Outdoor 21 Air supply 22 Combustion chamber 23 Oil (petroleum and diesel) 24 Heat exchanger 25 Exhaust 26 Hot air blower 27 Indoor 28 Burner 29 Combustion Blower 31: Upper Air Supply

32: lower hot air outlet 33: upper side

Structural features for achieving the intended purpose of the present invention is that the cold air introduced through the upper air supply of the heater in the self-supporting radiator for the lower discharge oil is changed to hot air by the heat exchanger, and the indoor air through the lower hot air outlet through the forced air of the hot air blower The most ideal type of indoor heating that combines the forced convection heating method heating from the lower part and the natural convection method of the hot air moving from the lower part to the upper part has the characteristics of the self-supporting heater for the lower discharge oil.

As shown in the accompanying drawings of the embodiment of the present invention, in Figure 3 the cold air flows into the upper air supply unit 31 of the heater 10 is discharged hot air inside the heater to the lower hot air outlet (32) indoors It has a structure to heat it. In FIG. 4, the combustion air supply 21 in the outdoor 20 burns the oil 23 with the combustion blower 29 and the combustion burner 28 in the combustion chamber 22 and passes through the heat exchanger 24 to the outdoor. Exhaust 25 to (20), the heat exchanger 24 makes the cold room (27) air introduced into the upper air supply (31) to the hot air, this hot air is forced into the hot air blower (26) When the air is discharged to the lower portion of the interior 27 through the lower hot air discharge outlet 32, the warm air after forced circulation by the blower becomes an upward airflow, which is adapted to the thermal characteristics of natural circulation, thereby providing even heating of the interior 27.

According to the present invention, a forced convection method and a warm air are installed at an upper part of a self-supporting radiator for lower discharge oil, and a hot air discharge outlet is installed at a lower part to discharge hot air from a hot air blower to a lower hot air discharge outlet, thereby heating the indoor lower part. It is a heater that combines natural convection method of air heating the upper part by rising air flow. It is energy saving effect that heating efficiency is increased by maximizing natural phenomena, and unlike the existing heater, it is installed by indoor hot air outlet. Its warm and cool hair creates a pleasant indoor environment.

Claims (3)

In the enclosure structure of the self-supporting heater 10 installed inside the heater by installing a heat exchanger inside, an upper air supply unit is provided in which the cool air flows into the internal heat exchanger in the upper part of the enclosure and on the upper left and right sides of the enclosure. The cold air forced out by the upper air supply passes through the heat exchanger inside the heater, and has a structure in which a lower hot air outlet is discharged to discharge the heated air to the front lower part of the heater enclosure. Self-supporting radiator for bottom discharge oil using (23: diesel and kerosene) delete delete