KR200421462Y1 - spiral structure in cylinder heater system - Google Patents

Abstract

The present invention was conceived to compensate for problems such as heat loss and thermal efficiency deterioration caused by the short flow path of the cylindrical heater in the cylindrical heater having a structure in which water flows into the existing cylindrical heater. It is possible to obtain a substantial extension effect without having to lengthen the length of the cylindrical heater by inserting the structure as well as having a spiral flow passage having the advantage of drastically improving problems such as bubbles generated when using a high efficiency heater. Relates to a cylindrical heater.

Electric heater, cylindrical heater

Description

 {Spiral structure in cylinder heater system}

1 is a cross-sectional perspective view of the main portion showing the configuration of a cylindrical heater structure of a spiral flow path according to an embodiment of the present invention.

Figure 2 is a perspective view showing a cylindrical heater structure of the present invention shown in FIG.

Figure 3 is a perspective view showing a spiral flow passage structure of the present invention shown in FIG.

<Description of Symbols for Main Parts of Drawings>

10: spiral structure

11: cylindrical heater

12: insulation insulation

13: power terminal

14: heating element

The present invention circulates water into a cylindrical heater that converts electrical energy into thermal energy, thereby minimizing thermal energy loss that may occur when the water is heated and the generation of bubbles that may occur inside the cylindrical heater. It relates to a cylindrical heater structure of a spiral flow path for discharging out of the cylindrical heater without remaining inside the cylindrical heater.

In general, the cylindrical heater for heating the inflow water using the conventional inner flow passage has a structure for heating the water flowing into the cylindrical heater by heating the heater wire around the outside of the cylindrical heater to lengthen the length due to the characteristics of the cylindrical heater Due to the insufficient contact area between the cylindrical heater and the water, it is difficult to maximize the thermal efficiency because the thermal conductivity of the water is low, and thus it is difficult to obtain hot water at a desired temperature when the inflow water is discharged after being heated through the inner wall of the heater.

In order to solve this problem, when a high efficiency heater is used, bubbles may be generated inside the heater, and when such bubbles remain inside the cylindrical heater, the temperature of a specific portion of the cylindrical heater rises and the cylindrical heater is broken or the heater wire is disconnected. There is a problem such as being.

The present invention has been proposed in view of the problems described above, the purpose of which is to maximize the thermal efficiency of the cylindrical heater that converts electrical energy into thermal energy, and also to discharge the bubbles inside the heater generated when heating the water to the outside of the heater An object of the present invention is to provide a cylindrical heater whose purpose is not to damage the cylindrical heater.

As a technical means for achieving the above object,

In the process of heating the influent by being located inside the cylindrical heater and the cylindrical heater to heat the inlet water through the inlet for supplying the influent from the outside and the outlet through the heat inlet supplied through the inlet and the flow path inside There is a need for a helical structure for evenly heating the influent and for discharging bubbles from the heating process.

Cylindrical heater having a spiral structure according to the present invention for achieving the above object is a cylindrical heater 11 for heating water introduced from the outside and a power supply terminal 13 for supplying electrical energy required for heating the cylindrical heater. ) And an insulating heat insulating part 12 for blocking heat emitted to the outside when the cylindrical heater generates heat and surrounding the outside of the cylindrical heater for insulation between the heating element 14 and the outside. In addition, the cylindrical heater 11 minimizes heat loss when the cylindrical heater 11 heats water introduced from the outside, and also discharges bubbles generated inside the cylindrical heater 11 to the outside of the cylindrical heater 11 when the influent is heated. There is a need for a spiral structure 10.

The configuration of the cylindrical heater 11 having such a spiral structure will be described in more detail, and the operational state will be described. When the inflow water from the outside flows into the cylindrical heater 11 for heating, the spiral inserted into the cylindrical heater 11 By forming the vortex inside the cylindrical heater 11 by the structure 10 and effectively transferring the heat inside the cylindrical heater 11 to the influent, heat transfer from the heater to the inlet is made to an optimal state and generates heat outside the cylindrical heater. The heat loss is significantly reduced. In this case, when bubbles generated by the temperature difference between the temperature inside the cylindrical heater and the inflow water remain in the cylindrical heater 11, the heat inside the cylindrical heater 11 may not be effectively transmitted to the inflow water at the bubble-producing portion. Therefore, the temperature of the inner wall of the cylindrical heater 11 is excessively increased where bubbles remain in the cylindrical heater, which may cause breakage and shorten the life of the cylindrical heater 11. These bubbles are formed by the spiral structure 10. It is forcibly discharged out of the cylindrical heater 11 by the vortex.

According to the cylindrical heater structure of the spiral flow passage of the present invention described as described above

According to the present invention, when the inflow water flows into the cylindrical heater 11 in the cylindrical heater 11 having the instant hot water structure or the structure circulating the hot water, the vortex is formed by the spiral structure 10 inside the heater and the cylindrical heater ( 11) Since heat is transferred from the inside, effective heat transfer from the cylindrical heater 11 to the inflow path is possible, thereby reducing power consumption. Also, the temperature rise between the inflow and outflow water is also higher than before the spiral structure 10 is inserted. When installed in water purifiers, instantaneous water heaters, etc. requiring high temperature hot water, it is possible to provide a cylindrical heater having an improved function than a conventional cylindrical heater.

Claims (1)

In the cylindrical heater 11 having a structure in which the inflow water is supplied to heat the inflow water through the inside of the cylindrical heater, the inflow water forms a vortex by the spiral structure 10 located inside the cylindrical heater 11 and the cylindrical heater 11 Heater structure for inserting a spiral structure (10) inside the cylindrical heater to perform the function of receiving the heat of the inner wall and discharges bubbles generated during inlet water heating to the outside of the cylindrical heater (11).

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