KR20000010045U - Hot air fan using heat pipe - Google Patents

Abstract

The present invention discloses a warm air fan using a heat medium pipe.

The present invention is to provide a hot air heater using a heat transfer pipe that uses a heat transfer heater that is safe, low environmental pollution, and low installation cost, but very low maintenance costs. To this end, the present invention uses a known heat medium pipe having a heat pipe having a plurality of heat dissipation fins, a heat source for heating the heat medium pipe, and an air supply fan for continuously discharging hot air by continuously supplying air to the heat medium pipe. In a hot air heater, an electric heater as a heat source for heating a heat medium pipe and a heat storage block for absorbing heat of the electric heater to heat the heat medium pipe at an optimum temperature. Accordingly, the present invention has the effect of improving the heating effect while minimizing the maintenance cost by obtaining a warm air heated to a sufficient temperature while minimizing the power consumption.

Description

Hot air fan using heat pipe

The present invention relates to a warm air fan using a heat medium pipe, and more particularly to a warm air fan using a heat medium pipe that can be used at home or business.

As is well known, electrical energy is a correction energy that does not leave pollutants, and when it is heated using it, the facility cost can be minimized, and it can be used relatively safely without the risk of explosion such as when using oil or gas. Advanced energy. However, such electric energy is very expensive, and oil or gas energy is being used for heating, taking on various environmental pollution problems, expensive facilities, and safety problems.

Also, in recent years, heat is transferred from a heat source to a heat transfer medium and circulated to heat the object indirectly, thereby avoiding local intensive heating by the direct heating method and dissipating the hot air by a fan in a state in which the heat is dispersed over a large area. Heating apparatus using heat medium which let it blow out is utilized.

On the other hand, the heating device using such a heating medium is a gas burner or an oil burner, so it is very difficult to control the heat generation temperature, and in some cases, the operating temperature of the heating pipe is often exceeded. The situation is being avoided, it still does not solve the problems such as environmental pollution, excessive facility costs.

In view of the above-mentioned problems, the object of the present invention is to provide a warm air heater using a heat transfer pipe that uses a heat transfer heater that is safe, has low environmental pollution, and has a low facility cost, and has a very low maintenance cost.

1 is a perspective view showing the appearance of a warm air fan according to the present invention.

Figure 2 is an exploded perspective view of the main portion of the warmer according to the present invention.

Figure 3 is a longitudinal sectional view showing the structure of a warm air fan according to the present invention.

Figure 4 is an explanatory diagram illustrating a heat storage means block of a warm air fan according to an embodiment of the present invention.

5, 6, and 7 is an explanatory view showing the heat storage means of the hot air blower according to another embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

1: heat sink fin 2: tube

3: thermal medium pipe 5: air supply fan

6: Electric Heater 7: Heat Storage Means

In order to achieve the above object, the present invention has a known heat medium pipe having a plurality of heat radiation fins, a heat source for heating the heat medium pipe, and an air supply fan for continuously discharging hot air by continuously supplying air to the heat medium pipe. In the hot air fan using the heat medium pipe of the present invention, an electric heater as a heat source for heating the heat medium pipe, and a heat air fan using the heat medium pipe provided with heat storage means for absorbing heat of the electric heater to heat the heat medium pipe at an optimum temperature are proposed. do.

By the above-described configuration, the present invention is capable of heating the heat medium pipe to an optimum temperature while minimizing the amount of power consumed by the electric heater, thereby providing an effect of lowering maintenance costs than oil or gas heating appliances.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. The overall appearance of the present invention is shown in FIG. 1, and its structure is shown in FIGS.

As can be seen from this, the present invention has a low vapor pressure, low thermal stability and corrosion resistance, fluidity, and specific heat inside the tubular body 2, in which a plurality of disk-shaped heat-dissipating fins 1 are fixedly inserted at fixed intervals. The heat pipe is continuously discharged to the discharge port 4 by continuously contacting air around the plurality of the heat medium pipes 3 and the heat medium pipes 3, which are filled and sealed with a large, non-combustible organic or inorganic heat medium. In a warm air heater using a known heat medium pipe (3) provided with an air supply fan (5), it is optimal to absorb heat from the heat transfer heater (6) and the heat transfer heater (6) as a heat source for heating the heat medium pipe (3). It is provided with a heat storage means (7) for heating the heat medium pipe (3) to the temperature, the reference numeral is a temperature setter (8) for setting the overheat temperature of the heat storage means (7), Heat generation of the heater 6 A thermostat 9 for setting the temperature, 10 is a power switch, 11 is an electric heater heater switch, and 12 is an operation state indicator lamp.

The present invention as described above is to supply power to the electric heater (6) and the air supply fan (5) when the power switch 10 is turned on. Subsequently, when the user turns on the electrothermal heater operation switch 11, both the air supply fan 5 and the electrothermal heater 6 are operated. In this state, the electrothermal heater 6 moves the heat storage means 7 to the temperature controller ( It is to heat up to the temperature range set in 9) and to maintain the set temperature range. Therefore, electric power is supplied to the electric heater 6 to maintain the temperature range set by the temperature setter 8, and therefore the heat storage means 7 heats the heat medium pipe 3 to the set temperature range. By the heat conduction of the heat medium liquid, the entire temperature of the heat medium pipe 3 generates heat in the set temperature range.

Accordingly, the air introduced by the air supply fan 5 rises while being heated in contact with a myriad of heat dissipation fins 1 while passing through the heat medium pipe 3, thereby allowing hot air to be sufficiently heated at the discharge port 4.

In this way, the present invention generates high heat when electric power is input to the electric heater 6 by the temperature controller 9, and does not generate heat at all when the power supply is cut off, but the heating temperature by the electric heater 6 is maintained. Despite the ups and downs of heat, heat is accumulated in the heat storage means (7), so that the heat storage means (7) maintains a constant temperature range, and thus the heat medium pipe (3) fixed thereto is continuously maintained while maintaining the optimum temperature range. It is to be heated.

Therefore, the heat pipe (3) heated by the heat storage means (7) is heated in the optimum temperature range while minimizing the power input by intermittently controlling the electric power input to the electric heater (6) so that power consumption can be minimized. Of course, if the temperature of the heat storage means (7) is over the temperature set by the temperature setter (8) is immediately cut off the power supply can be used safely the heat medium pipe (3). In this invention, two or more blocks divided by the heat storage means 7 may be used in combination. In this case, as shown in FIG. 4, the heat transfer heater settling groove 13 and the heat pipe inserting groove 14 are provided in the block. It should be provided so that the heat transfer heater (6) and the heat pipe (3) is combined. In addition, in the present invention, the heat storage means 7 may be made of aluminum or copper, and of course, it may be used as other materials having high thermal conductivity and easy processing.

And the heat storage means (7) used in the present invention is the heat transfer heater (6) and the heat medium pipe (3) in the casting mold and cast as shown in Figure 5 the heat transfer heater (6) and heat medium pipe (3) heat It can also be combined with the storage means (7). This method is advantageous because it can reduce the working process in mass production.

In addition, according to the present invention, as shown in FIG. 6, a heat transfer medium such as water or oil may be put into the heat storage means 7, and the heat transfer medium may be heated by the heat transfer heater 6. ) Can be heated.

In this embodiment, since the heat of the heat transfer heater 6 can be transferred to the heat medium pipe 3 through the heat transfer medium, there is an advantage that the heat transfer efficiency can be improved.

And the above has shown an example in which the heat transfer heater 6 placed in the heat storage means (7) is arranged horizontally, as shown in Figure 7, it is also possible to vertically distribute the heat transfer heater (6), such According to the embodiment, the diffusion angle of the heat is narrowed upward, and since the electrothermal heater 6 is installed upright, many installations are possible.

In this way, the present invention is to minimize the power input to the heat transfer heater (6), while the use of clean energy can be used while reducing the cost of maintenance below the level of existing oil or gas heaters. According to the heat transfer heater (6) and the heat pipe (3) that can be expanded according to the number of heat radiation fins (1) are sufficiently heated to obtain a warm air is to obtain an excellent heating effect. In addition, the present invention can be designed and manufactured with various capacities as the heat storage means (7) can be added or subtracted into the divided block, the heat storage means (7) and the heat transfer heater (6), the heat medium In the case of integrally casting the pipe 3, there is an advantage that the productivity is greatly improved.

Claims (6)

Hot air continues in the heat pipes 3 and the heat dissipation fins 1 of the heat medium pipes 3, which are filled with a heat medium inside the tubular body 2 formed by inserting and fixing numerous heat dissipation fins 1 at a predetermined interval. In the well-known thing comprised of the air supply fan 5 which was made to contact, the heat transfer pipe 6 and the heat transfer heater 6 absorb heat of the heat transfer heater 6 as a heat source which heats the heat transfer pipe 3, and the heat transfer pipe 3 is made into the optimal temperature. Hot air heater using a heat medium pipe, characterized in that it is provided with a heat storage means (7) for heating the. The hot air heater using heat pipe according to claim 1, wherein the heat transfer heater (6) is horizontally settled. The hot air heater using heat pipe according to claim 1, wherein the heat transfer heater (6) is placed vertically. The hot air blower according to claim 1, wherein the heat storage means (7) is divided into a plurality of blocks. The hot air heater according to claim 1, wherein the heat storage means (7) is formed by integrally casting the electrothermal heater (6) and the heat medium pipe (3). The hot air heater using heat pipe according to claim 1, characterized in that a heat medium for receiving heat from the heat transfer heater (6) to the heat medium pipe (3) is received inside the heat storage means (7).