KR102152160B1 - electric heater arrayed multi- pin of electric conduction - Google Patents

Abstract

The present invention relates to a three-phase power electric heater having multiple conductive pins arranged. The heater has multiple heating spaces of a structure in which different electrodes are alternately or adjacently connected to each other in the shape of multiple conductive pins to rapidly heat water in the water. According to the present invention, the three-phase power electric heater having multiple conducive pins arranged comprises: a first power supply plate; a second power supply plate; a third power supply plate; a fourth power supply plate; a first heating induction conductive pin; a second heating induction conductive pin; a third heating induction conductive pin; a fourth heating induction conductive pin; multiple convective holes; a coupling nut; an insulating rod for maintaining a gap; and a power transmission coupling part.

Description

Electric heater arrayed multi-pin of electric conduction {electric heater arrayed multi-pin of electric conduction}

The present invention relates to an electric heater for a three-phase power supply having a plurality of conductive pins arranged, and more particularly, having a plurality of heating spaces having a structure in which different electrodes are alternately or adjacently connected in the shape of a plurality of conductive conductive pins. , It relates to an electric heater for a three-phase power supply having a plurality of conductive pins arranged to rapidly heat water in water.

In general, electric heaters that heat water are used in electric boilers, so that water in contact with a heater rod heated to a high temperature by receiving power is gradually heated to maintain a high temperature state.

However, since the heater rod of such an electric heater must be heated to a high temperature of 350°C or higher to heat the contacted water, the heat loss is high, so it takes considerable time to heat the water, and the electricity consumption is large due to the high electric loss. Since it is indirectly heated by the original body, there is a problem in that the efficiency is low and the operation and management costs are high.

In addition, while heating water, foreign matters are gradually attached to the heater rod, so that the heat transfer rate is lowered, so that the efficiency is lowered, or there is a problem in that it needs to be replaced, and the management cost according to the replacement is high.

The present invention was invented to solve the above problems, and a three-phase AC power source is connected to each of the first, second, third, and fourth power supply plates to create a plurality of heating spaces and induce a number of heating. Since the conductive pin directly heats the water in the water, it provides a three-phase electric heater for a three-phase power supply having a plurality of conductive pins arranged to quickly and stably perform a high-temperature heating function and improve efficiency by lowering power consumption. There is a purpose.

In addition, in the present invention, since a plurality of heating induction conductive pins are arranged adjacent to one heating induction conductive pin to directly heat water in water, heating is performed more rapidly, and comparatively by the power supply plate and the heating induction conductive pin. It has a simple structure to provide an electric heater for a three-phase power supply having a conductive pin shape in which a number of arrays are arranged so as to reduce the management cost and production cost according to maintenance and repair.

In addition, in the present invention, since a plurality of convection holes are formed in the first to fourth power supply plates, a plurality of convection and circulation of water heated by a plurality of heating induction conductive pins are arranged to enable rapid heating. To provide an electric heater for a three-phase power supply having a conductive pin, and its purpose.

The present invention, according to the above object, in a three-phase electric heater for power supply having a plurality of arranged conductive pins for directly heating water; A first power source disposed at one side of the first heating space and connected to the first power source among the first power source, the second power source, and the third power source having a plurality of mutually different power sources from a three-phase power source of an AC power source (commercial power source) Supply plate; A second power supply plate provided at a position corresponding to the front first power supply plate in the first heating space, and to which a second power supply among the three-phase power supplies is connected; A third power supply plate positioned at a predetermined distance from the other side of the second power supply plate to form a second heating space, and to which a third power supply among the three-phase power supplies is connected; A fourth power supply plate provided at a corresponding position to form a third heating space on the other side of the second heating space of the third power supply plate and to which a second power source of the second power supply plate is connected; The first power supply plate is coupled toward the first heating space to a fixing hole through which a plurality of the first power supply plate is passed, and is electrically connected by the first power source of the first power supply plate to directly heat the water. 1 heating induction conductive pin; The second power supply plate is coupled and fixed with screws toward the first heating space on one side and the second heating space on the other side in a fixing hole through which a plurality of the second power supply plates are penetrated, and is connected to the second power supply of the second power supply plate. A second heating induction conductive pin for directly heating water in the first and second heating spaces, which are electrically connected to each other; The third power supply plate is coupled and fixed with screws toward the second heating space on one side and the third heating space on the other side in a fixing hole through which a plurality of the third power supply plate passes, and is connected to the third power supply of the third power supply plate. A third heating induction conductive pin for directly heating water in the second and third heating spaces and electrically connected thereto; It is coupled toward the third heating space to a fixing hole through which a plurality of fourth power supply plates are penetrated, and is electrically connected by a second power source of the second power supply plate to directly supply water from the third heating space. A fourth heating induction conductive pin for heating; Convection to the outside is formed by the first to fourth power supply plates corresponding to the mutual ends of the first to fourth heating induction conductive pins and heated in each of the first to third heating spaces And a plurality of convection holes which circulate and induce rapid heating by the convection and circulation. A coupling nut for screwing the first heat-inducing conductive pin and the fourth heat-inducing conductive pin to be fixed to the first power supply plate and the fourth power supply plate; In a plurality of positions corresponding to the edges of the first power supply plate and the fourth power supply plate so that the first heating space to the third heating space are formed between each of the first power supply plate to the fourth power supply plate. An insulating rod for maintaining a gap, which is coupled by a nut and a screw method and maintains a gap between each of the first heating space to the third heating space; The second power supply plate and the fourth power supply plate are electrically connected to supply a second power supply, and a plurality of electric conductors including a power transfer coupling unit coupled to maintain the second and third heating spaces are arranged. It is achieved by an electric heater for three-phase power supply with a pin shape.

Here, an external supply terminal to which power is applied from the outside is formed at one edge of each of the first power supply plate and the fourth power supply plate, and the second power supply plate and the third power supply plate. desirable.

In the present invention, a three-phase AC power source is connected to the first, second, third, and fourth power supply plates, respectively, to create a plurality of heating spaces, and a plurality of heating induction conductive pins directly heat water in water, so that it is quickly There is an effect of stably performing a high-temperature heating function and improving efficiency by lowering power consumption.

In addition, in the present invention, since a plurality of heating induction conductive pins are arranged adjacent to one heating induction conductive pin to directly heat water in water, heating is performed more rapidly, and comparatively by the power supply plate and the heating induction conductive pin. Since it has a simple structure, it is possible to reduce the management cost and production cost according to maintenance and repair, and has the effect of maximizing productivity.

In addition, since a plurality of convection holes are formed in the first to fourth power supply plates, water heated by a plurality of heating induction conductive pins is rapidly convective and circulated to enable rapid heating.

1 is a perspective view showing an electric heater for a three-phase power supply having a plurality of arranged conductive pins according to the present invention,
2 is an exploded perspective view showing an electric heater for a three-phase power supply having a plurality of arranged conductive pins according to the present invention,
3 is a cross-sectional view of an electric heater for a three-phase power source having a plurality of arranged conductive pins according to the present invention.

Hereinafter, an electric heater for a three-phase power supply having a plurality of conductive pins arranged according to the present invention will be described in detail with reference to the accompanying drawings.

First of all, this electric heater for three-phase power supply has a configuration that can produce three times the amount of heating and hot water for industrial applications where △ wiring of three phases is applied by forming a first heating space, a second heating space, and a third heating space. Have.

As shown in Figs. 1 and 2, the three-phase electric heater is a first power supply plate 1, a second power supply plate 3, a third power supply plate 5, and a fourth power supply plate. (7), a first heating induction conductive pin (9), a second heat induction conductive pin (11), a third heat induction conductive pin (13), a fourth heating induction conductive pin (15), a convection hole (17), It consists of a coupling nut 19, an insulating rod 21 for maintaining the gap, and a power transmission coupling portion 23.

The first power supply plate 1 has a certain area and is located in the water, creates a first heating space formed on either side of both sides, and provides a number of mutually different from the three-phase power supply of AC power (commercial power). A first power source having a power source, a second power source, and a third power source is connected.

The second power supply plate 3 is provided at a position corresponding to the first power supply plate so that the first heating space is formed, and a second power supply among the three-phase power supplies is connected. In the first heating space, a first heat-inducing conductive pin (9) and a second heat-inducing conductive pin (11) are disposed so as to face each other on the first power supply plate (1) and the second power supply plate (3). Thus, the water in the first heating space is quickly heated.

The third power supply plate 5 is located at a predetermined distance from the other side of the second power supply plate 3 to form a second heating space, and a third power supply among the three-phase power sources is connected. In the second heating space, a second heating induction conductive pin 11 and a third heating induction conductive pin 13 are disposed so as to face each other on the second power supply plate 3 and the third power supply plate 5, respectively. Thus, the water in the second heating space is quickly heated.

The fourth power supply plate 7 is provided at a corresponding position to form a third heating space on the other side of the third heating space of the third power supply plate 5, and the second power supply plate 3 ) The 2nd power supply is connected to maximize water heating with industrial large capacity to which 3-phase △ wiring is applied. In the third heating space, a third heat-inducing conductive pin 13 and a fourth heat-inducing conductive pin 15 are disposed so as to face each other on the third power supply plate 5 and the fourth power supply plate 7 respectively. Thus, the water in the third heating space is quickly heated.

Here, the three-phase △ wiring method is a first power supply to the first power supply plate (1), a second power supply to the second power supply plate (3), and a third power supply to the third power supply plate (5). And, when the first power is applied to the fourth power supply plate 7, the same connection method can be provided.

The first heating induction conductive pins 9 are coupled toward the first heating space in a fixing hole through which a plurality of first power supply plates 1 pass, and the first power supply plate 1 It is for directly heating the water between the adjacent second heating induction conductive pins 11 electrically connected by a first power source.

The second heating induction conductive pins 11 are screwed together and fixed toward the first heating space on one side and the second heating space on the other side in a fixing hole through which a plurality of second power supply plates (3) are penetrated. The first heating induction conductive pin 9 and the third heating induction conductive pin 13 are connected to each other electrically by the second power source of the second power supply plate 3, respectively. And for directly heating water in the second heating space.

The third heating induction conductive pin 13 is screwed and fixed toward the second heating space on one side and the third heating space on the other side in a fixing hole through which a plurality of the third power supply plate 5 is penetrated. The second heating induction conductive pin 11 and the fourth heating induction conductive pin 15 are electrically connected to each other by the third power source of the third power supply plate 5 and are adjacent to each other. And for directly heating water in the third heating space.

The fourth heating induction conductive pin 15 is coupled toward the third heating space to a fixing hole through which a plurality of fourth power supply plates 7 penetrate, and the second power supply plate 3 It is for directly heating water in the third heating space on the third heating induction conductive pin 13 that is electrically connected by a second power source and is adjacent.

The first power supply of the first heating induction conductive pin 9, the second power supply of the second heating induction conductive pin 11, the third power supply of the third heating induction conductive pin 13, and the fourth The connection method of the second power supply of the heating induction conductive pin 15 is a three-phase △ connection method.

A plurality of convection holes 17 are spaced apart from each other in the first power supply plate 1, the second power supply plate 3, the third power supply plate 5, and the fourth power supply plate 7 It is formed, and circulates and convections the water heated in each of the first to fourth heating spaces to induce rapid mass heating.

That is, the first heat-inducing conductive pin (9) and the second heat-inducing conductive pin (11) are disposed on the second power supply plate (3) and the first power supply plate (1) to correspond to each other. The hot water heated by the first heating induction conductive pin 9 and the second heat induction conductive pin 11 is quickly moved through the convection hole 15 of the first heating space to induce a convection phenomenon, and at the same time, the second heating induction conductive pin 11 The heating induction conductive pin 11 and the third heating induction conductive pin 13 are disposed on the second power supply plate 3 and the third power supply plate 5 to correspond to each other, and the second heating induction conductive pin ( 11), the hot water heated by the third heating induction conductive pin 13 is quickly moved through the convection hole 15 of the second heating space to induce a convection phenomenon.

In addition, the third heat-inducing conductive pin 13 and the fourth heat-inducing conductive pin 15 are disposed on the third power supply plate 5 and the fourth power supply plate 7 that correspond to each other, The hot water heated by the heating induction conductive pin 13 and the fourth heating induction conductive pin 15 is quickly moved through the convection hole 15 of the third heating space to induce circulation and convection.

In addition, a circulation entrance is formed on each side of the first heating space to the third heating space in four directions, and the water heated through the entrances in the four directions causes convection, and during this operation, the first heating space or the Convection through the convection hole 15 of the third heating space produces a more synergistic effect, and the heating is repeated by replacing with new water that has not been heated by this mechanism.

This convection makes it possible to quickly heat up a larger amount of water.

The coupling nut 19 is fixed to the first heat-inducing conductive pin 9 and the fourth heat-inducing conductive pin 15 to the first heat-inducing conductive pin 9 and the fourth heat-inducing conductive pin 15 At the same time, the power supply is stably conducted through electrical contact. The power is equally applied by the power transfer coupling unit 23.

The insulating rod 21 for maintaining the gap is between the first power supply plate 1 and the second power supply plate 3, and between the second power supply plate 3 and the third power supply plate 5 And, the first power supply plate 1 and the third power supply plate 5 and the fourth power supply plate 7 so that the first heating space, the second heating space, and the third heating space are respectively formed. The second power supply plate 3, the third power supply plate 5, and the fourth power supply plate 7 are screw-coupled at a number of positions corresponding to the edges with nuts to insulate each other so that different power is applied to each other. do.

The power transmission coupling part 23 electrically connects the second power supply plate 3 and the fourth power supply plate 7 to provide a second power supply connected to the second power supply plate 3. Transferred to the fourth power supply plate (7), coupled to maintain the first to third heating spaces, the first power supply plate (1) only the first power, the third power supply plate (5) Make sure that only the third power is applied to the child. Here, a groove is formed in the third power supply plate 5 so that the power transmission coupling portion 23 does not make electrical contact.

In addition, at one edge of each of the second power supply plate 3 and the fourth power supply plate 7 and the first power supply plate 1 and the third power supply plate 5 from the outside. External supply terminals to which different power is applied are formed.

The operation of the electric heater for a three-phase power supply having a plurality of conductive pins according to the present invention as described above will be described as follows.

As shown in Fig. 3, the first power supply plate 1, the first power supply plate 1, and the third power supply having different polarities from any one of the three-phase commercial power supply through an external supply terminal, When applied to the second power supply plate 3 and the fourth power supply plate 7 and the third power supply plate 5, the first heating induction conductive pins are arranged parallel to the first heating space. (9) and the second heating induction conductive pin 11 is supplied with a first power and a second power, respectively, and the second heating induction conductive pin 11 and the third, which are arranged parallel to the second heating space. Second power and third power are supplied to the heating induction conductive pins 13, respectively, and the third heating induction conductive pins 13 and the fourth heating induction conductive pins 15 are arranged parallel to the third heating space. ) Is supplied with a second power source and a second power source, respectively.

Then, among the first heat-inducing conductive pins 9 and the second heat-inducing conductive pins 11 of the first heating space, the first heat-inducing conductive pins 9 and the second heat-inducing conductive pins are the closest to each other. (11) The water is quickly heated in the parallel region between.

In addition, among the second heat-inducing conductive pins 11 and the third heat-inducing conductive pins 13 of the second heating space, the second heat-inducing conductive pins 11 and the third heat-inducing conductive pins are the closest to each other. Water is rapidly heated in the parallel region between the conductive pins 13.

In addition, among the third heat-inducing conductive pins 13 and the fourth heat-inducing conductive pins 15 in the third heating space, the third heat-inducing conductive pins 13 and the fourth heat-inducing conductive pins are the closest to each other. Water is rapidly heated in the parallel region between the conductive pins 15.

A plurality of convection holes 9 formed in the first power supply plate 1, the second power supply plate 3, the third power supply plate 5, and the fourth power supply plate 7 respectively. ) Causes rapid circulation and convection with water in other areas with a temperature difference, thereby creating a heating mechanism.

That is, while simultaneously heating water in the first heating space to the second heating space, rapid heating is possible through circulation and convection through the convection hole 15 to generate hot or ultra-hot water.

In addition, the water heated through the circulation entrances formed on the four-way side surfaces of the first heating space to the third heating space causes purification and convection, and is circulated and convectively through the four-way entrances to generate a more synergistic effect. In this way, the heating is repeated by circulating and replacing with new water that has not been heated by this mechanism.

1: first power supply plate 3: second power supply plate
5: 3rd power supply plate 7: 4th power supply plate
9: first heating induction conductive pin 11: second heating induction conductive pin
13: third heating induction conductive pin 15: fourth heating induction conductive pin
17: convection hole 19: coupling nut
21: insulating rod for maintaining the gap 23: power transmission coupling part

Claims (2)

In the electric heater for a three-phase power supply having a plurality of arranged conductive pins for directly heating water;
A first power source disposed at one side of the first heating space and connected to the first power source among the first power source, the second power source, and the third power source having a plurality of mutually different power sources from a three-phase power source of an AC power source (commercial power source) Supply plate;
A second power supply plate provided at a position corresponding to the first power supply plate in the first heating space, and to which a second power supply among the three-phase power supplies is connected;
A third power supply plate positioned at a predetermined distance from the other side of the second power supply plate to form a second heating space, and to which a third power supply among the three-phase power supplies is connected;
A fourth power supply plate provided at a corresponding position to form a third heating space on the other side of the second heating space of the third power supply plate and to which a second power source of the second power supply plate is connected;
The first power supply plate is coupled toward the first heating space to a fixing hole through which a plurality of the first power supply plate is passed, and is electrically connected by the first power source of the first power supply plate to directly heat the water. 1 heating induction conductive pin;
The second power supply plate is coupled and fixed with screws toward the first heating space on one side and the second heating space on the other side in a fixing hole through which a plurality of the second power supply plates are penetrated, and is connected to the second power supply of the second power supply plate. A second heating induction conductive pin for directly heating water in the first and second heating spaces, which are electrically connected to each other;
The third power supply plate is coupled and fixed with screws toward the second heating space on one side and the third heating space on the other side in a fixing hole through which a plurality of the third power supply plate passes, and is connected to the third power supply of the third power supply plate. A third heating induction conductive pin for directly heating water in the second and third heating spaces and electrically connected thereto;
It is coupled toward the third heating space to a fixing hole through which a plurality of fourth power supply plates are penetrated, and is electrically connected by a second power source of the second power supply plate to directly supply water from the third heating space. A fourth heating induction conductive pin for heating;
Convection to the outside is formed by the first to fourth power supply plates corresponding to each of the ends of the first to fourth heating induction conductive pins and heated in each of the first to third heating spaces. And a plurality of convection holes for circulating and inducing rapid heating by the convection and circulation.
A coupling nut for screwing the first heat-inducing conductive pin and the fourth heat-inducing conductive pin to be fixed to the first power supply plate and the fourth power supply plate;
In a plurality of positions corresponding to the edges of the first power supply plate and the fourth power supply plate so that the first heating space to the third heating space are formed between each of the first power supply plate to the fourth power supply plate. An insulating rod for maintaining a gap, which is coupled by a nut and a screw method and maintains a gap between each of the first heating space to the third heating space;
The second power supply plate and the fourth power supply plate are electrically connected to supply a second power supply, and a plurality of power transmission coupling units comprising a power transmission coupling unit coupled to maintain the second and third heating spaces. Electric heater for three-phase power having the shape of conductive pins arranged.
The method of claim 1;
One of the first power supply plate and the fourth power supply plate, and an external supply terminal to which power is applied from the outside is formed at one edge of each of the second power supply plate and the third power supply plate. Electric heater in which a plurality of conductive pin shapes are arranged.

Images