KR200254347Y1 - Multi heat absorption warm air circulator - Google Patents

Abstract

The present invention relates to a multiple heat absorption hot air fan that absorbs combustion heat by a burner and generates multiple warm air. More specifically, a burner 3 is installed at one side of the combustion chamber 2 to provide fuel inside the combustion chamber 2. The combustion heat generated by the combustion is passed through the heat exchange unit 4 to the outside through the exhaust pipe 5 so that the external air sucked through the blower 61 is heated while passing through the heat exchange unit 4 to produce warm air. In one known hot air fan, an expansion pipe 51 is formed in the middle portion of the exhaust pipe 5, and then a plurality of preheating pipes 52 are formed in the expansion pipe 51, and an air blower 61 is installed inside the expansion pipe 51. Between the circumferential wall 1a (2a) of the combustion chamber 2 and the circumferential wall 1a (2a) of the main body 1 having the heat exchanger 4 formed in the center of the main body 1 by forming the outside air intake pipe 6. The formed air heating furnace (7) and the outside air intake pipe (6) are in communication with each other, but the air heating furnace (7) at the end To the hot air outlet (8) formed on, absorbs heat of combustion generated in the combustion chamber hameuroseo form the walls of the spiral as possible it is possible to greatly improve the performance of the fan heater hameuroseo maximize thermal efficiency.

Description

Multi heat absorption warm air circulator

The present invention relates to a multiple heat absorption hot air fan that generates warm air by absorbing combustion heat by a burner in multiple times, and more specifically, provides a preheating chamber for preheating outside air by absorbing exhaust heat in the exhaust pipe where the combustion heat of the burner is discharged. By sending the air in the preheating chamber to the air heating furnace of the warmer equipped with the heat exchanger through the blower, the combustion heat of the burner is absorbed in multiple to produce the warm air to maximize the thermal efficiency of the warmer.

In general, a hot air fan emits the combustion heat generated by burning fuel in a combustion chamber using a burner, etc. to the outside through a heat exchanger, and passes the heat exchanger when inhaling the external air, thereby heating the outside air and forcibly discharging it through a blower. It is made up of one configuration.

However, since the conventional hot air blower has only one heat exchanger to absorb the combustion chamber inside the combustion chamber, the cold outside air is sucked into the heat exchanger and heated directly at the heat exchanger. Since it is difficult to heat, there was a problem that the thermal efficiency significantly affects the performance of the hot air blower.

The present invention has been devised to solve the above-mentioned problems, and when the outside air is sucked through the blower by forming an outside air intake pipe having a plurality of preheating tubes in the middle of the exhaust pipe where the combustion heat is discharged. Primary preheating by the preheating tube, and the preheated external air is sent back to the air heating furnace formed outside the combustion chamber inside the main body so that the air is absorbed and heated again while passing through the heat exchanger and the air heating furnace, thereby allowing multiple heat absorption. It will be described in more detail by the accompanying drawings as to improve the thermal efficiency of the hot air fan as follows.

1 is a perspective view of the present invention

2 is a front view of the present invention

3 is a side view of the present invention

4 is a cross-sectional view of the present invention.

* Explanation of symbols for the main parts of the drawings

1 body 1a main wall

2: combustion chamber 2a: main wall

3: burner 4: heat exchanger

5: exhaust pipe 51: expansion pipe

52: preheating pipe 6: air intake pipe

61 blower 7: air heating furnace

71: spiral wall 8: hot air outlet

A burner 3 is installed at one side of the combustion chamber 2 to combust fuel in the combustion chamber 2 and the combustion heat generated by the combustion chamber 2 is discharged to the outside through the exhaust pipe 5 through the heat exchange unit 4 so as to be blown out. In the known hot air fan, which is heated through the heat exchange part 4 to produce hot air through the heat exchange part 4), the expansion part 51 is formed after the expansion part 51 is formed in the middle of the exhaust pipe 5. The combustion chamber (2) having a plurality of preheating pipes (52) formed therein and an outside air intake pipe (6) provided with a blower (61) inside thereof, and having a heat exchanger (4) formed in the center of the body (1). The air heating furnace 7 formed between the circumferential wall 2a of the main body 1 and the circumferential wall 1a of the main body 1 and the outside air intake pipe 6 are communicated with each other. It is a structure formed by forming a spiral wall up to 8).

The present invention is thus used to burn fuel in the combustion chamber (2) by using the burner (3) installed on the side wall of the combustion chamber (2) inside the main body (1) and the heat of combustion heats the outer wall of the combustion chamber (2) and At the same time, it passes through the pipe of the heat exchanger 4 formed at the end of the combustion chamber 2 while heating and is discharged to the outside through the exhaust pipe 5.

At this time, the heat of combustion discharged through the exhaust pipe (5) passes through the preheating pipe (52) consisting of a plurality of expansion pipes (51) formed at the center of the exhaust pipe (5) and is discharged to the outside. At this time, the outside air inside the expansion pipe (51) When the blower 61 installed in the intake pipe 6 is operated to suck in the outside air, the outside air forced into the blower 61 is preheated primarily through the preheating pipe 52.

Thus, the first preheated external air is supplied to the air heating furnace 7 formed outside the combustion chamber 2 inside the main body 1. The preheated air thus supplied is connected to the connection between the combustion chamber 2 and the exhaust pipe 5. It is heated to a high temperature while passing through the heat exchange unit (4) located.

The air heated to this high temperature passes through the air heating furnace 7 and is discharged through the hot air outlet 8, wherein the air heating furnace has a circumferential wall 1a of the main body 1 and a circumferential wall 1a of the combustion chamber 2. Since the spiral wall 71 is formed up to the hot air outlet 8, the hot air heated by the heat exchanger 4 is slightly delayed in the combustion chamber 2 while moving to the hot air outlet 8. Since it is heated by the circumferential wall of the hotly heated combustion chamber by moving it on the circumferential wall 2a, heat absorption is continuously performed until it is discharged to the hot air discharge port 8, thereby utilizing the heat of combustion generated in the combustion chamber 2 to the maximum. Since it produces hot air, it is possible to maximize the thermal efficiency of the hot air fan.

Therefore, the present invention performs the first preheating when inhaling the outside air and heats the preheated air through the heat exchanger, and then heats it by using the main wall of the heated combustion chamber to discharge the heat efficiency. By maximizing, there is an advantage that can greatly improve the performance of the heater.

Claims (1)

A burner 3 is installed at one side of the combustion chamber 2 to combust fuel in the combustion chamber 2 and the combustion heat generated by the combustion chamber 2 is discharged to the outside through the exhaust pipe 5 through the heat exchange unit 4 so as to be blown out. In the known hot air fan, which is heated through the heat exchange part 4 to produce hot air through the heat exchange part 4), the expansion part 51 is formed after the expansion part 51 is formed in the middle of the exhaust pipe 5. The combustion chamber (2) having a plurality of preheating pipes (52) formed therein and an outside air intake pipe (6) provided with a blower (61) inside thereof, and having a heat exchanger (4) formed in the center of the body (1). The air heating furnace (7) formed between the circumferential wall (1a) (2a) of the main body (1) and the main wall (1a) (2a) of the main body (1) and the outside air intake pipe (6), but the air heating furnace (7) Multiple heat absorption hot air fans formed by forming spiral walls up to the hot air discharge ports 8 formed at the end portions.