KR200465539Y1 - wet type heater - Google Patents

Abstract

The present invention relates to a wet heating element, and more particularly, to a wet heating element that has a heat source as a molybdenum heating wire having a characteristic of maintaining a constant temperature, thereby reducing energy consumption and maximizing corrosion prevention and improving life.
To this end, in the heating element is connected to the terminal pin and generates a heating wire that generates heat by supply of power, and the coating layer covering the heating wire, the heating wire is made of molybdenum wire, the coating layer is a SUS tube filled with magnesium oxide And, it provides a wet heating element, characterized in that consisting of a copper (설치된) tube installed to surround the outside of the SUS pipe.

Description

Wet heating element {wet type heater}

The present invention relates to a wet heating element, and more particularly, to a wet heating element that can be used in a direct injection type vaporization apparatus by exhibiting a constant temperature holding characteristic and preventing corrosion.

A sheath heater widely used in general is a heater having a structure in which a hot wire is inserted into a center of a metal protective tube, followed by filling an insulating powder of magnesium oxide called magnesia between the protective tube and the hot wire to insulate the hot wire from the protective tube.

Apparatus in which the sheath heater is used include an electric furnace, a dryer, a bath, a casting machine, an oven foot temperature heater, a heating heater of industrial and general household heating products such as an electric warmer, and the like.

At this time, a brief description will be given of the electric heater with the sheath heater installed.

A main body provided with various components, a sheath heater provided in plural horizontally on one side of the main body, and a blowing fan provided at the rear of the sheath heater.

At this time, the air introduced by the blowing fan is heat-contacted to the sheath heater installed in front through the blowing fan is converted into warm air and then discharged to the outside of the main body.

However, the above-mentioned conventional sieve heaters have the following problems.

First, when the sheath heater is used in wet, such as a bath or foot temperature heater, the temperature of the heating element is rapidly lowered by the vaporization heat while the water is evaporated momentarily, the problem that the consumption of electrical energy is increased to increase the temperature of the heating element again It was.

Second, because it is always exposed to water, when used for a long time, various minerals contained in the water adhere to the surface of the sheath heater, resulting in scale and accumulation.

Such a scale interferes with heat conduction, promotes corrosion of the metal sheathing tube of the sheath heater, and may cause a problem that the sheath heater is broken.

The present invention is devised to solve the above problems, the object of the present invention is to provide a wet heating element to reduce the energy consumption by exhibiting the constant temperature characteristic that the resistance value varies with temperature, so that corrosion does not occur even when exposed to water. It would be.

To this end, in the heating element is connected to the terminal pin and generates a heating wire that generates heat by supply of power, and the coating layer covering the heating wire, the heating wire is made of molybdenum wire, the coating layer is a SUS tube filled with magnesium oxide and It is preferable that the copper tube is installed to surround the outside of the SUS tube.

At this time, a plurality of heat dissipation fins are installed on the outer surface of the copper tube, and the heat dissipation fins and the copper tube are preferably made of gold plating.

The wet heating element according to this paper has the following effects.

First, since the molybdenum heating wire which is a heating source of the heating element has a characteristic of automatically maintaining a constant temperature, the surface temperature is not rapidly cooled even when a low temperature liquid is directly contacted.

Accordingly, there is an effect that can reduce the energy consumption in vaporizing or warming the liquid.

In particular, the SUS material surrounding the molybdenum hot wire prevents excessive heat from the molybdenum hot wire to flow to the outside, thereby maintaining the surface temperature of the heating element at a predetermined temperature or more, thereby maximizing the constant temperature maintaining function of the heating element.

Second, since the material of the surface exposed to the outside of the heating element, that is, the surface in contact with the liquid is made of copper (재) material is excellent in preventing corrosion.

In addition, the gold is further plated on the copper tube and the heat radiating fins to maximize the effect on preventing corrosion.

1 is a side view showing a wet heating element according to a preferred embodiment of the present invention
2 is a plan view showing a unit unit of a wet heating element according to a preferred embodiment of the present invention
3 is a sectional view taken along the line II in Fig.

Hereinafter, a wet heating element according to a preferred embodiment of the present invention will be described with reference to FIGS. 1 to 3.

A wet heating element is a device that heats a liquid, such as water and medicine, in addition to heating air, and has a characteristic of maintaining a constant temperature even when a relatively low temperature liquid touches the heating element, and in particular, has an excellent anti-corrosion effect. There is this.

The wet heating element includes a heating wire 100, a SUS pipe 200, a copper pipe 300, and a heat dissipation fin 400 that are heat sources.

The heating wire 100 is a heating source that generates heat by electricity supply and is provided as molybdenum wire.

Since the heating wire provided by molybdenum wire (hereinafter referred to as 'molybdenum heating wire') exhibits a phenomenon in which electrical resistance increases or decreases due to the unique constant temperature holding property of molybdenum, even if the liquid is directly injected into the heating element, The temperature maintenance can be kept constant.

That is, the liquid phase in thermal contact with the heating element vaporizes the liquid energy in a constant manner by actively increasing or decreasing power consumption while adjusting the thermal energy absorbed by the constant temperature characteristic.

In particular, it is possible to maintain the maximum temperature of the surface of the heating element to approximately 200 degrees to suppress the material change of the liquid state as much as possible.

Next, the SUS tube 200 surrounds the molybdenum heating wire 100 and controls the high heating temperature of the molybdenum heating wire 100 to maintain the heating element surface in contact with the liquid phase at an optimum temperature for vaporizing the liquid phase. do.

That is, by controlling the excessive heat of the molybdenum heating wire 100 to approximately 1200 degrees to block the outflow of heat to the outside to increase the resistance value, it is possible to maintain the heating element surface temperature 200 degrees by lowering the amount of heat.

That is, when the liquid phase is in contact with the heating element and the surface temperature of the heating element is momentarily taken away, the deprived heat is immediately replenished.

On the other hand, the insulating material is filled in the interior of the SUS pipe 200, that is, between the SUS pipe 200 and the molybdenum heating wire 100.

The insulating material serves to block the current flowing through the molybdenum hot wire 100 from leaking to the outside.

At this time, the insulating material is preferably magnesium oxide.

Next, the copper pipe 300 is in close contact with the outer surface of the SUS pipe 200 serves to transfer the heat of the molybdenum heating wire 100 to the outside.

At this time, the material of the copper pipe 300 is made of copper (銅), it serves to facilitate the heat supply for the vaporization of the liquid and quickly absorb the surface heat of the SUS pipe 200.

That is, the copper tube 300 is the surface of the heating element exposed to the outside together with the heat radiation fin 400 to be described later, the liquid phase is a portion directly contacted.

At this time, the liquid phase is in continuous contact with the copper tube 300, the prevention of corrosion of the copper tube 300 is very important.

Of course, to prevent corrosion by using a copper material having a high effect on the corrosion protection, it is preferable to treat the gold plating on the surface of the copper tube 300 in order to maximize the effect on the corrosion protection.

Next, the heat dissipation fin 400 serves to enlarge the thermal contact area, it is installed in a plurality of thin plates on the outer surface of the copper tube (300).

At this time, the material of the heat dissipation fin 400 is provided with a high thermal conductivity of copper (,), it is preferable to treat the gold plating like the copper tube 300 in order to maximize the effect on the corrosion protection.

A plurality of unit units of the heating element having the above configuration is gathered to form one wet heating element as shown in FIG.

As described above, the wet heating element serves to heat the air and to vaporize the liquid phase.

In this case, the liquid phase refers to a liquid or sprayed liquid such as water or medicine, and the wet heating element is used as a device that can be applied to a spray device used for growing warm air or crops.

When used in a warm air device, it also serves as a humidifying role as well as discharging the warm air, providing a comfortable indoor air, as well as the liquid is completely vaporized and discharged to every corner of the room can be a warm air and humidification effect.

In addition, when applied to the drug spraying device used for crop cultivation, since the drug is completely vaporized and spread, it can be evenly spread evenly to the corner of the plastic house, so that the liquid falls directly on leaves such as fruits and vegetables without being vaporized No deterioration or deterioration of product quality occurs.

As described above, the wet heating element according to the present invention is provided with molybdenum heating wire 100 as a heating source, so that even if a liquid is directly injected to the heating element, the heating element is quenched so that energy consumption for raising the heating temperature is not increased.

That is, because of the constant temperature maintenance, it is possible to optimize the temperature for the liquid phase vaporization by maintaining a constant temperature at all times.

In addition, the material surrounding the molybdenum heating wire 100 is made of SUS, and the material surrounding its outer surface is made of copper, thereby maximizing heat loss and thermal conductivity, and plating gold on the copper pipe 300 and the heat dissipation fin 400. There is a technical feature that can maximize the protection against corrosion by treating.

100: molybdenum heating wire 200: SUS pipe
300: copper tube 400: heat dissipation fin

Claims (2)

In the heating element is connected to the terminal pin and generates a heating wire that generates heat by supplying power, and the coating layer covering the heating wire,
The heating wire is made of molybdenum wire, the coating layer
A wet heating element, comprising: a SUS tube wrapped around a heating wire made of molybdenum wire and filled with magnesium oxide, and a copper tube installed to surround the outside of the SUS tube. The method of claim 1,
A plurality of heat dissipation fins are installed on an outer surface of the copper tube, wherein the heat dissipation fin and the copper tube are made of gold plating.

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