KR200219218Y1 - Electricity instantaneous heater current veiocity direction guidance system - Google Patents

Abstract

The present invention relates to a flow direction induction device of the electric instant heater.

In the conventional electric instantaneous heater, heat is generated in the heater using electric energy, and a heating medium such as water contacts the heater to increase the temperature of the heating medium by heating, thereby heating. In this case, in the case of the heat generating medium which is in direct contact with the heater, direct heat conduction is made, but in the case of the heat generating medium which is not in contact with the heater, heat conduction is indirectly performed, resulting in a decrease in efficiency.

The present invention has been devised to solve the above problems, and the subject matter of the present invention is a through-hole (2) is formed for the flow of the heating medium (7) is formed on one side of the flow velocity direction induction device formed with a wing (3) for the direction of the flow direction By applying a rotational force to the flow of the heat generating medium (7) to change the flow direction, the heat generating medium (7) makes contact with the heater 5 more smoothly to increase the efficiency of heat transfer.

Description

Electricity instantaneous heater current veiocity direction guidance system

The present invention relates to a flow direction induction apparatus for efficiently heat exchange of the electric instant heater used for heating in a general home or office.

Looking at the structure of the conventional electric instantaneous heater to generate heat to the heater by using the electrical energy, the heating medium such as water in contact with the heater to increase the temperature of the heating medium by the heat conduction phenomenon, circulating it by a motor or the like heating It was a way to do.

In this case, in order to increase the efficiency of heat transfer, the area in which the heating medium contacts the surface of the heater is maximized. In the case of the heating medium that is in direct contact with the heater, the heating medium is directly heated but does not come into contact with the heater. In this case, heat conduction is indirectly performed, resulting in a decrease in efficiency.

The present invention was devised to solve the above problems in order to maximize the efficiency of heat transfer. When supplying a heating medium such as water to a heat exchange chamber by using a motor, a flow velocity induction device is installed. By applying rotational force to the flow, the direction of the flow rate is changed so that the heating medium makes contact with the heater more smoothly, thereby increasing the efficiency of heat transfer.

1 is a perspective view of the present invention

2 is an embodiment of the present invention

3 is an embodiment when the present invention is installed in multiple stages

※ Explanation of symbols on important parts of drawing

1-guided body 2-hole 3-wing

4-Heater Ventilation 5-Electric Heater 6-Heat Exchanger

7-Heating Media

This will be described in detail based on the drawings.

1 is a perspective view of the present invention to form a body (1) of the induction apparatus in accordance with the shape of a conventional heat exchange chamber (6), such as round or square, and has a through hole (2) inside the body (1), such as water The heat generating medium 7 may flow through the through hole 2, but in order to give rotation to the flow of the heat generating medium 7, a propeller-shaped wing 3 is formed on one side of the body 1 in the flow direction to generate heat. When the medium 7 passes through the through hole 2, a rotational force is applied and flows in a spiral shape, thereby increasing the contact area with the heater 5 surface. In addition, in the body 1, a heater through hole 4 suitable for the size of the heater 5 may be formed in the body 5 so that the heating medium 7 flows only through the through hole 2. .

Looking at the overall configuration through an embodiment of the present invention (see FIG. 2) generates heat to the heater (5) by the electrical energy, the heat generated is transferred to the heating medium (7), such as water by heat conduction phenomenon The heating medium 7 is heated by circulating by a motor or the like (not shown). At this time, since the heating medium 7 flows in a spiral shape by the flow direction induction apparatus mounted in the heat exchange chamber 6, the number of particles colliding with the surface of the heater 5 increases, thereby increasing the efficiency of heat transfer. In addition, when the length of the heat exchange chamber 6 is long and the rotational force of the flow of the heating medium 7 passing through the flow direction induction apparatus may be reduced, the present invention may be installed in multiple stages (see FIG. 3). Attenuation can be prevented.

As described above, the present invention is installed inside the heat exchange chamber 6 to provide a rotational force to the flow of the heat generating medium 7 so as to flow in a spiral shape, whereby the heat generating medium 7 impinging on the surface of the heater 5. By increasing the number of particles of the more efficient heat conduction is to bring about energy savings.

Claims (1)

The body 1 of the induction apparatus is formed in accordance with the shape of a conventional heat exchange chamber 6, and the body 1 has a flow of the heater through-hole 4 and the heating medium 7 for fitting to the heater 5. A through-hole 2 is formed, one side of the flow rate direction induction apparatus is formed with a wing (3) for the direction of flow direction