KR100229818B1 - Method of manufacturing titanium heater for aquarium - Google Patents

Abstract

The present invention provides a heater manufacturing method that allows the heater to be completely locked in an aquarium or a plating bath.

The heater used to control the water temperature or the temperature of the solution uses an electric heater, which can't be completely immersed in the water because a short occurs when water penetrates into the connection part of the heating element and the current supply line. .

This problem is made possible by completely eliminating the heater manufacturing method from the prior art.

That is, after connecting the heater heating element and the current supply line, the connection part is placed in a mold mold and injection molded so that these connection parts are completely waterproofed.

Description

Manufacturing Method of Titanium Heater for Aquarium

The present invention relates to a method for manufacturing a titanium heater for an aquarium, and more particularly, to a heater manufacturing method that can be completely waterproof the portion where the heater heating element and the current supply line is connected.

Generally, fish farms and aquariums use titanium heaters to maintain optimal water temperature for fish.

Since the titanium heater has good corrosion resistance and heat resistance, it is particularly used as the most suitable heater in water.

The heater is composed of a heat conduction part made of titanium, a heat generating part located inside the heat conducting part, and a current supply line for supplying current to the heat generating part, and the connection portion of the heating element and the current supply line is protected from a short circuit and an electric shock. Put a protective cap on it.

4 shows an example of the use of a titanium heater generally used in an aquarium. The titanium heater uses a heat conduction unit 2 having a heating element located therein and a heating element (not shown) located inside the heat conducting unit. It is formed by the current supply line 4 to supply and the protective cap 6 which is manufactured and covered by these connection parts separately.

This titanium heater is installed in the aquarium 8 in a state as shown in FIG.

However, when the heater is used in the aquarium as described above, when the water in the aquarium decreases, the heat conduction part 2 of the heater is exposed, and thus the exposed part is heated to a high temperature while intensively heating, thereby causing a fire. This phenomenon is one factor that shortens the life of the heater.

In addition, when the heater is used in this way, the water in the aquarium starts to heat up from one side, resulting in uneven water temperature in the aquarium.

Despite these disadvantages, the heater is installed upright because the protective cap 6 is coupled to the heat conducting portion 2 so that the water penetrates completely between the protective cap and the heat conducting portion when the heater is completely submerged in water. This is because it causes an electrical short.

In addition, the heater in the state that the protective cap is covered as described above has a disadvantage of causing a short as the water in the aquarium evaporates while the water in the aquarium penetrates into the protective cap.

It is an object of the present invention to provide a method of manufacturing a titanium heater for an aquarium that can be used by completely submerging the heater in the aquarium so as to completely block the moisture penetrating between the protective cap and the heat conduction portion.

In order to realize the object of the present invention as described above, by connecting the heating element and the current supply line of the heater, and placing the connection portion in the mold of the injection mold and injection molding the waterproof means at the portion where the heating element and the current supply line is connected. It provides a method of manufacturing a titanium heater for providing.

1 is a view showing the first step of the heater manufacturing method according to the present invention.

Figure 2 shows a second step of the heater manufacturing method according to the present invention.

3 is a perspective view of a heater manufactured by the heater manufacturing method according to the present invention;

4 is a view for explaining a conventional use example of a titanium heater for an aquarium.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an electrical connection state of a typical titanium heater according to the present invention.

In the drawing, the heating element 20 is surrounded by a heat conductive part 22 made of titanium, and the heating element 20 shows a heater having a general structure electrically connected to the current supply line 24.

FIG. 1 illustrates the connection of the heating element 20 to the current supply line 24 when assembling the heater as described above. After such an assembling process, the heater as shown in FIG. 1 is shown in FIG. The mold is placed in the lower mold 26 of the injection mold, the upper mold 28 is moved to perform molding, and then the injection solution is supplied into the mold.

At this time, a part of the heat conductive part 22 of the heater and the part where the current supply line 24 is connected should be located in the mold together.

That is, in the conventional heater, the heater should be positioned so that the portion covered with the protective cap is located in the mold.

When the current supply line connecting portion of the heater is injected in this manner, as shown in Fig. 3, the water-proof means for injection molding into a conventional protective cap portion to embed a portion of the heat conducting portion 22 and the current supply line 24 into a buried state. 30 is provided.

The waterproof means 30 is to be injected into a good heat-resistant synthetic resin, the injection is made after the injection is contracted, so as to be in close contact with the thermal conductive portion and the current supply line without a small gap.

As described above, the titanium heater manufactured by the method according to the present invention does not generate a short due to water penetration because the part to which the current supply line is connected is completely surrounded by the waterproof means. The heater produced by the present invention was waterproof even at a water pressure of 10 m in water.

Since the connection part of the current supply line is completely waterproof as described above, the titanium heater manufactured according to the present invention can be laid on the inner bottom of the aquarium or can be installed freely by the user, thereby achieving a uniform water temperature distribution throughout the aquarium. However, even if the water in the aquarium is reduced, the heater is immersed in the water until the water is completely gone, thereby fundamentally eliminating all problems caused by the local heating of the heater.

That is, the life of the heater can be extended than before, and there is no risk of fire due to the local heating of the heater.

Claims (2)

A method of manufacturing a titanium heater for an aquarium in which a heating element and a current supply line of a heater are connected, and these connecting portions are placed in a mold of an injection mold and then injection molded to provide a waterproof means at a portion where the heating element and the current supply line are connected. The method of claim 1, wherein the waterproof means is made of synthetic resin.

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