KR20210092476A - Electrical heaters for water tanks - Google Patents

Abstract

The present invention proposes a heater assembly which is able to effectively heat water in a water tank. The heater assembly comprises: an inner bowl (2) which receives a positive pole; and outer bowls (4) installed on an outer side of the inner bowl at regular intervals, which have a vertical passage (20). In addition, the heater assembly is supported on a side surface of the water tank by using a mounting plate (30) having a hanging bump which can hang on the outer side toward a mounting hole on a side wall of the water tank. In addition, a first supporter (42a) electrically connects a positive pole contact point unit formed on an outer side of the mounting plate (30) to the inner bowl. A second supporter electrically connects a negative pole contact point unit formed on an outer side of the mounting plate (30) to the outer bowl. The water introduced through a passage (20) of the outer bowl is heated between the inner bowl (2) and the outer bowl (4), and flows to the outside through an upper side of the passage (20).

Description

Electric heater assemblies for water tanks

The present invention relates to an electric heater assembly mounted on a water tank to heat water in a water tank, and more particularly, to an electric heater assembly for a water tank having high efficiency by heating water directly.

For purposes such as agriculture or industry, where hot water is required, it is common to prepare by heating water in a water tank using an electric heater assembly. As described above, in an electric heater assembly used to heat water in a water tank, it is common to heat water through a heating element that generates heat by electricity.

That is, it can be said that the basic principle is to heat the water in the tank by heating the heating element (resistance) using electricity and exchanging heat with the water heated in this way. However, in this way, for example, using a resistor such as a heating wire involves heating the resistor and then exchanging heat between the resistor and water, and ultimately, it can be said that the heat conduction efficiency is low.

It is an object of the present invention to provide a heater assembly capable of maximally increasing heat exchange efficiency by directly heating water.

Another object of the present invention is to provide a heater assembly having an optimized structure that can be mounted on a water tank.

The heater assembly of the present invention includes an inner ball to which an anode is applied; It is installed to have a uniform distance from the outside of the inner ball, and includes an outer ball having a passage formed in the vertical direction. And it is supported on the side of the water tank by using a mounting plate having a locking jaw that can be caught from the outside with respect to the mounting hole of the side wall of the water tank. The first supporter electrically connects the positive contact portion formed on the outside of the mounting plate and the inner ball, and the second supporter electrically connects the negative contact portion formed on the outside of the mounting plate and the outer ball.

The water introduced through the passage of the outer ball is heated between the inner and outer balls, and flows out through the upper part of the passage. In addition, the first supporter and the second supporter are supported through the mounting plate in an insulated state by the insulating support. In addition, the first supporter is electrically connected to the inner ball while maintaining the insulation state from the outer ball by the first insulating spacer, and the inner ball and the outer ball are supported in an insulating state by the first supporter and the second supporter.

In addition, it is preferable that the corresponding portions of the inner ball and the outer ball contacted by the first supporter and the second supporter are formed in a flat surface.

According to the present invention having the above configuration, it is expected that water can be heated with substantially the highest efficiency because water is directly heated using a resistor without using another heating medium such as a heating wire. And according to the present invention, since electricity does not flow when there is no water, an advantage of preventing unnecessary power consumption is also expected.

1 is a front view of the heater of the present invention.
Figure 2 is a cross-sectional view of the heater of the present invention.

Next, the present invention will be described in more detail based on the embodiments shown in the drawings.

1 and 2, in the heater assembly of the present invention, the inner ball 2 and the outer ball 4 are installed with a predetermined interval. Here, the outer ball 4 is substantially bisected while a passage 20 is formed therebetween, and the passage 20 is formed in the vertical direction from the center of the outer ball 4 . The passage 20 of the outer ball 4 has a function as a passage through which water enters or exits.

Here, the inner ball 2 is connected to the positive (+) of electricity, and the outer ball (4) is connected to the negative (-). And between the inner ball (2) and the outer ball (4), the state in which the water introduced through the passage (20) is filled. That is, the heater assembly of the present invention is installed in the horizontal direction on the side wall Wa of the water tank, so that the water inside the water tank is introduced between the inner ball 2 and the outer ball 4 through the passage 20 . It can be seen from FIG. 2 that the inner ball 2 and the outer ball 4 are formed in a ball shape with an empty inside.

And the water filled in the passage (20) is generated by acting as a resistance between the inner ball (2) having a positive pole and the outer ball (4) having a negative electrode substantially. Here, the interval of the passage 20, that is, the interval between the inner ball 2 and the outer ball 4, substantially has to act as a resistance to which the water therebetween can be heated, so that the inner ball 2 and It should be set appropriately according to conditions such as the size and surface area of the outer ball 4 .

Formation of such a passage 20 is made by substantially dividing the outer ball 4, and spaced therebetween. The external balls 4 divided in this way are connected to each other by a connector 18 made of a plurality of conductors (eg, four), so that the above-described passage 20 can be maintained and supported.

It can be seen that the interval between the inner ball 2 and the outer ball 4 should be set so that the water between them can generate heat while acting as a resistor, and this condition is that the inner ball 2 and the outer ball 4 It will be preferable to set according to conditions, such as the size of the ball (4). And the inner ball 2 to which the positive electrode is applied and the outer ball 4 to which the negative electrode is applied should be sufficiently insulated.

In the illustrated embodiment, it can be seen that the inner ball 2 and the outer ball 4 are designed to maintain precisely spaced positions while being insulated by two insulating spacers 12 and 14 located on opposite sides of each other. there is. The first insulating spacer 12 is installed on the side to which the current is supplied as will be described later, and includes an inner spacer 12a interposed between the inner ball 2 and the outer ball 4, and the inner spacer 12a and It is composed of an external spacer (12b) connected from the outside.

And the second insulating spacer 14 provided on the opposite side includes an inner spacer 14a installed between the inner ball 2 and the outer ball 4, and an outer spacer installed on the outside of the inner spacer 14a ( 14b). Here, each of the inner spacers 12a and 14a and the outer spacers 12b and 14b described above are connected to each other and supported by a fastening screw Sa. In addition, an internal supporter 16 is installed inside the inner ball 2 corresponding to a portion connecting the first insulating spacer 12 and the second insulating spacer 14 to each other. This internal supporter 16 is fastened with a fastening screw Sa that connects the inner spacer 14a and the outer spacer 14b on one side.

In addition, the first insulating spacer 12 and the second insulating spacer 14 are respectively installed in contact with the inner ball 2 and the outer ball 4 . Here, among the surfaces of the inner ball 2 and the outer ball 4, the portion in contact with the first insulating spacer 12 and the second insulating spacer 14 most preferably has a planar shape, and this planar shape is It can be seen in FIG. 2 .

Next, a structure for mounting the heater assembly of the present invention on the side wall Wa of the water tank will be described. As shown in the figure, the heater assembly of the present invention is installed in the horizontal direction through the mounting hole Wc formed in the side wall Wa of the water tank. Here, the horizontal direction means a state in which the passage 20 of the above-described outer ball 4 is erected vertically.

The heater assembly has a mounting plate 30 that has a predetermined thickness and is made in a circular plate shape as a whole. The mounting plate 30 has a locking protrusion 32 formed between the outer 32a having a large diameter and the inner 32b having a small diameter. Therefore, when the inside 32b of the mounting plate 30 is inserted into the mounting hole Wc of the side wall Wa, the engaging jaw 32 is caught on the outside of the side wall Wa.

In this way, the mounting plate 30 may be fixed to the side wall Wa by using a fastening screw or the like in a state in which the side wall Wa is caught on the engaging protrusion 32 . And if necessary in terms of waterproofing and the like, it is of course possible to install a packing ring for watertightness around the locking jaw 32 .

And the mounting plate 30 is provided with a positive contact portion (40a) and a negative contact portion (40b) for supplying electricity to the above-described inner ball (2) and outer ball (4). The positive contact portion 40a is electrically connected to the inner ring 2 through a cylindrical conductive supporter 42a. Here, the conductive first supporter 42a must be insulated from the mounting plate 30 .

That is, in order to insulate between the first supporter 42a and the mounting plate 30 , an insulating support 44 is interposed between the first supporter 42a and the mounting plate 30 . The insulating support 44 includes a support holder 44a having a flange 44c in contact with the inner surface of the mounting plate 30 and surrounding the first supporter 42a, and the support ring 44a from the outside. It is molded in the shape of a cap that surrounds and is composed of a support ring 44b that is molded to pass through the anode contact portion 40a or the first supporter 42a. Due to the configuration of the insulating support 44 as described above, the conductive first supporter 42a connected to the positive contact portion 40a is insulated from the mounting plate 30 .

And the negative contact portion 40b is electrically connected to the conductive second supporter 42b, and the second contact portion 42b is electrically connected to the external ball 4 by the conductive connector 46 . A structure in which the second supporter 42b passes through the mounting plate 30 and is connected in an insulating state is the same as that of the first supporter 42a described above. Here, various modifications are possible in the configuration in which the conductive connector 46 electrically contacts the external ball 4, but in the illustrated embodiment, the connector 46 is connected to the second supporter 42b by a screw, and there is. And it is natural that the conductive connector 46 should be electrically connected only to the outer ball 4 .

Next, an operation of the heater assembly having the above configuration will be described. As mentioned above, the heater assembly of the present invention is fixed in a state in which it is caught on the outside of the mounting hole Wc of the side wall Wa by using the clasp 32 of the mounting plate 30 . In this state, an electric wire is connected to the positive contact portion 40a and the negative contact portion 40b.

When electricity is supplied through the positive contact portion 40a and the negative contact portion 40b, the inner ball 2 and the outer ball 4 through the conductive first supporter 42a and the second supporter 42b, respectively. is electrically connected to the Here, the outer balls 4 divided into two to form the passage 20 are electrically connected to each other by the conductive connector 18 .

In this state, the water filled between the inner ball 2 having a positive pole and the outer ball 4 having a negative pole acts as a kind of resistor. Therefore, as with the flow of electricity, the water between the inner ball 2 and the outer ball 4 is heated and the temperature rises. That is, in the present invention, since the water between the inner ball 2 of the anode and the outer ball 4 of the cathode is directly heated, the efficiency can be significantly higher than that of heating water through other heat generating media. It can be said that it is natural

The hot water heated in this way is discharged to the outside through the upper part of the passage 20 by convection, and the cold water inside the water tank through the lower part of the passage 20 is transferred to the inner ball 2 and the outer ball ( 4) It flows in between. The water introduced in this way is again heated between the outer ball 4 and the inner ball 2, and the flow of water rising by convection will be repeated. When the flow of water continues, the water in the water tank is substantially heated and can be supplied to a required part and used.

In consideration of other deformable embodiments of the present invention, when the above-described mounting plate 30 is made of a non-conductive material, the structure for insulation from the first supporter and the second supporter can be further simplified. will be. In addition, it may be possible to install a cover made of an insulating material on the outer surfaces of the first supporter and the second supporter. In addition, the passage 20 of the outer ball 4 is capable of various modifications within the range having a function of forming a passage of water, in which cold water is introduced from the lower part and heated water is discharged from the upper part to the outside.

In the present invention having such a configuration, it is fixed to the side wall by a plurality of screws or the like while being caught on the side wall (Wa) of the water tank using the hooking protrusion of the mounting plate 30, so that it is substantially mounted on the water tank. It can be seen that there is a very convenient advantage from a practical point of view. In addition, in the present invention, the inner ball and the outer ball are supported in an insulated state while being spaced apart by the first insulating spacer and the second insulating spacer. It can be seen that they are pursuing the convenience of manufacturing and assembly.

2 ..... inner ball
4 ..... Outer ball
12 ..... First insulating spacer
14 ..... Second insulating spacer
18 ..... connector
20 ..... aisle
30 ..... mounting plate
32 ..... jamming jaw
40a ..... positive contact
40b ..... Negative contact
42a ..... 1st supporter
42b ..... 2nd supporter

Claims (2)

a mounting plate 30 having a locking jaw that can be caught from the outside with respect to the mounting hole of the side wall of the water tank;
The inner ball (2) to which the positive electrode is applied;
an outer ball 4 having a passage 20 formed in a vertical direction and installed to have a uniform distance from the outside of the inner ball;
a conductive first supporter (42a) electrically connecting the anode contact portion formed on the outside of the mounting plate (30) and the inner ball; And
composed of a second conductive supporter (42b) electrically connecting the negative contact portion formed on the outside of the mounting plate (30) and an external ball;
The water introduced through the passage 20 is heated between the inner ball 2 and the outer ball 4 and flows out through the upper portion of the passage 20, and the first supporter 42a and the second supporter 42a and second The supporter 42b is supported through the mounting plate 30 in an insulated state by the insulating support 44 , and the first supporter 42a is insulated from the external ball 4 by the first insulating spacer 12 . It is electrically connected to the inner ball 2 while maintaining the state, and the inner ball 2 and the outer ball 4 are supported in an insulated state by the first supporter 42a and the second supporter 42b. electric heater assembly for water tanks.
The electric heater assembly for a water tank according to claim 1, wherein the corresponding portions of the inner ball (2) and the outer ball (4) contacting the first supporter (42a) and the second supporter (42b) are flat.

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