KR102278356B1 - electric heater for pipe on currenting water - Google Patents

Abstract

The present invention provides a plurality of heating spaces in which water having a constant flow rate is instantaneously heated while passing through a predetermined section, so that it can be individually provided in one structure to suit different requirements at the same time. It is about a three-phase, four-wire electric heater for a single pipe. This three-phase, four-wire electric heater for a single pipe is an electric heater for a pipe that directly heats water; In the 3-phase 4-wire of the AC commercial power supply, the first power source, the second power source, the third power source, and the neutral power source having a plurality of different phase power sources are connected to each other, and a first water flow pipe is formed to form a predetermined power supply. a first cylindrical heating unit for transferring water having a flow rate; A first central heating part disposed inside the first water flow pipe of the first cylindrical heating part and spaced apart from the inner diameter surface is provided, and a first heating space for heating the water is provided between the first water flow pipe and the first central heating part. a first central cylindrical heating unit formed and connected to a second power source among the three-phase four wires to heat in the first heating space; A second water flow pipe is formed so as to be connectable in the flow direction of the first water flow pipe of the first cylindrical heating unit, and to form a second heating space, the second of the three phase and four wires is connected to a neutral power source. a cylindrical heating unit; A second central heating part disposed inside the second water flow pipe of the second cylindrical heating part and spaced apart from the inner diameter surface is provided, and a second heating space for heating the water is provided between the second water flow pipe and the second central heating part. a second central cylindrical heating unit formed and connected to a third power source among the three phase four wires to heat in the second heating space; a first water flow induction guide part sealingly coupled to one side of the first central heating part of the first central cylindrical heating part to guide water having a flow rate to the first heating space; a second water flow induction guide unit sealingly coupled to the other side of the second central heating unit of the second central cylindrical heating unit to guide water having a flow rate to the second heating space; A first cylindrical power supply unit which is formed in a bendable disk at each end adjacent to the first cylindrical heating unit, receives the first power from the outside, and delivers it to the first water flow pipe of the first cylindrical heating unit, respectively; ; The first central cylindrical heating part is formed in a bendable disk to be electrically integrally integrated with the outer diameter surface of the first central heating part, and is arranged side by side so as not to contact the first cylindrical power supply part, and the second power supply is applied. a first central cylindrical power supply unit which is applied from the outside and directly transmits to the first central heating unit of the first central cylindrical heating unit; a second cylindrical power supply unit formed in a bendable disk at each end adjacent to the second cylindrical heating unit, receiving the neutral power from the outside and transmitting the neutral power to the second water flow pipe of the second cylindrical heating unit; The second central cylindrical heating part is formed as a double disk so as to be electrically integrated and bendable on the outer diameter surface of the second central heating part terminal side, and is arranged side by side so as not to contact the second cylindrical power supply part, and the third power supply a second central cylindrical power supply unit that receives from the outside and directly transmits it to the second central heating unit of the second central cylindrical heating unit; It is disposed between the first cylindrical power supply unit, the first central cylindrical power supply unit, the second cylindrical power supply unit, and the second central cylindrical power supply unit, respectively, to prevent leakage of transferred water, and the first cylindrical power supply unit and a plurality of airtight insulating parts for insulating each other so that the power applied to each of the first central cylindrical power supply unit, the second cylindrical power supply unit, and the second central cylindrical power supply unit is independently maintained; A screw is formed on one side and the other side by a certain portion, and is screwed to the screw, and the first cylindrical power supply unit, the first central cylindrical power supply unit, the second cylindrical power supply unit, and the second central cylindrical power supply unit and airtight It includes a plurality of coupling members that are accommodated at the same time in the coupling holes formed at intervals having equal angles along the circumferential direction, respectively, in the insulating portion to integrally couple them in an airtight manner.

Description

3-phase 4-wire electric heater for a single pipe for water transfer {electric heater for pipe on currenting water}

The present invention relates to a three-phase, four-wire electric heater for a single pipe for water transport, and more particularly, a plurality of heating spaces in which water having a constant flow rate is heated instantaneously while passing through a predetermined section is made one at the same time. It relates to a three-phase, four-wire electric heater for a single pipe for conveying water that can be individually and individually tailored to different requirements in the structure of

In general, electric heaters for heating water are used in electric boilers, and 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 contact water, the heat loss is high, so it takes a considerable time to heat the water, and the electricity consumption is large due to the large amount of electricity loss. Since it is a method of heating indirectly by an element, there are problems in that efficiency is low and operation and management costs are high.

In addition, while heating water, foreign substances are gradually attached to the heater rod, thereby lowering the heat transfer rate and thus lowering the efficiency, or there is a problem in that it needs to be replaced, and there is a problem in that the maintenance cost according to the replacement is high.

In addition, when the heated water is transferred to a required place, heat loss occurs during the transfer, so it is difficult to meet the required temperature, or a tank containing the heated water is required, and the heated state must be maintained at all times. Therefore, there is a problem in that the operation and management cost is high.

The present invention was devised to solve the above problems, and a large-capacity water having a constant flow rate is instantaneously heated while passing through a section corresponding to a plurality of predetermined heating spaces, and is provided directly to a required industrial destination, and heating A three-phase, four-wire electric heater for a single pipe for water transfer that rapidly supplies water to a plurality of destinations that require it at the same time, and minimizes heat loss and minimizes maintenance costs because a container for hot water is unnecessary. provide, and that is the purpose.

In addition, the present invention performs a fast and stable high-temperature heating function with low power and lowers power consumption because water having a constant flow rate is instantaneously heated while passing through a section corresponding to a predetermined heating space and provided directly to a desired destination. It is an object to provide a three-phase, four-wire electric heater for a single pipe for water transfer to improve efficiency.

In addition, in the present invention, since the electric heater is embedded in the cylindrical pipe, it can be installed in a small place by maximizing the space utilization of the heater, and thus a single pipe for water transfer that maximizes the application and utilization range to improve added value We provide 3-phase 4-wire electric heater for use, and that is the purpose.

In accordance with the above object, the present invention provides an electric heater for piping that directly heats water; In the 3-phase 4-wire of the AC commercial power supply, the first power source, the second power source, the third power source, and the neutral power source having a plurality of different phase power sources are connected to each other, and a first water flow pipe is formed to form a predetermined power supply. a first cylindrical heating unit for transferring water having a flow rate; A first central heating part disposed inside the first water flow pipe of the first cylindrical heating part and spaced apart from the inner diameter surface is provided, and a first heating space for heating the water is provided between the first water flow pipe and the first central heating part. a first central cylindrical heating unit formed and connected to a second power source among the three-phase four wires to heat in the first heating space; A second water flow pipe is formed so as to be connectable in the flow direction of the first water flow pipe of the first cylindrical heating unit, and to form a second heating space, the second of the three phase and four wires is connected to a neutral power source. a cylindrical heating unit; A second central heating part disposed inside the second water flow pipe of the second cylindrical heating part and spaced apart from the inner diameter surface is provided, and a second heating space for heating the water is provided between the second water flow pipe and the second central heating part. a second central cylindrical heating unit formed and connected to a third power source among the three phase four wires to heat in the second heating space; a first water flow induction guide part sealingly coupled to one side of the first central heating part of the first central cylindrical heating part to guide water having a flow rate to the first heating space; a second water flow induction guide unit sealingly coupled to the other side of the second central heating unit of the second central cylindrical heating unit to guide water having a flow rate to the second heating space; A first cylindrical power supply unit which is formed in a bendable disk at each end adjacent to the first cylindrical heating unit, receives the first power from the outside, and delivers it to the first water flow pipe of the first cylindrical heating unit, respectively; ; The first central cylindrical heating part is formed in a bendable disk to be electrically integrally integrated with the outer diameter surface of the first central heating part, and is arranged side by side so as not to contact the first cylindrical power supply part, and the second power supply is applied. a first central cylindrical power supply unit which is applied from the outside and directly transmits to the first central heating unit of the first central cylindrical heating unit; a second cylindrical power supply unit formed in a bendable disk at each end adjacent to the second cylindrical heating unit, receiving the neutral power from the outside and transmitting the neutral power to the second water flow pipe of the second cylindrical heating unit; The second central cylindrical heating part is formed as a double disk so as to be electrically integrated and bendable on the outer diameter surface of the second central heating part terminal side, and is arranged side by side so as not to contact the second cylindrical power supply part, and the third power supply a second central cylindrical power supply unit that receives from the outside and directly transmits it to the second central heating unit of the second central cylindrical heating unit; It is disposed between the first cylindrical power supply unit, the first central cylindrical power supply unit, the second cylindrical power supply unit and the second central cylindrical power supply unit, respectively, to prevent leakage of the transferred water, and the first cylindrical power supply unit and a plurality of airtight insulating parts for insulating each other so that the power applied to each of the first central cylindrical power supply unit, the second cylindrical power supply unit, and the second central cylindrical power supply unit is independently maintained; A screw is formed by a certain portion on one side and the other side, and is screwed to the screw, and the first cylindrical power supply unit, the first central cylindrical power supply unit, the second cylindrical power supply unit, and the second central cylindrical power supply unit and airtight In a three-phase, four-wire electric heater for a single pipe for water transfer, which includes a plurality of coupling members that are accommodated at the same time in the coupling holes formed at intervals having an equal angle along the circumferential direction in the insulating part and combine them in an airtight manner integrally. achieved by

Here, a screw coupling part for airtightly connecting to another insulated pipe is formed at the other end of each of the first cylindrical heating part and the second cylindrical heating part, and the first heating space is the first central cylindrical heating part It is formed between the inner diameter surface of the first water flow pipe of the first cylindrical heating part spaced apart along the circumferential direction of the outer diameter surface of the first central heating part, and the second heating space is the circumference of the second central heating part outer diameter surface of the second central cylindrical heating part It is preferable that it is formed between the inner diameter surfaces of the second water flow pipe of the second cylindrical heating unit spaced apart along the direction.

In addition, it is preferable to further include an inner diameter of the first central heating part of the first central cylindrical heating part and a central inflow prevention part for preventing the inflow of water flowing into the inner diameter of the second central heating part of the second central cylindrical heating part.

According to the present invention, a large-capacity water having a constant flow rate is instantaneously heated while passing through a section corresponding to a plurality of predetermined heating spaces to provide it directly to a required industrial destination, and to quickly provide heated water to a plurality of destinations that require it at the same time. As a container for accommodating hot water is unnecessary, there is an effect of minimizing heat loss while minimizing maintenance costs and maximizing utilization for industrial purposes.

In addition, the present invention performs a fast and stable high-temperature heating function with low power and lowers power consumption because water having a constant flow rate is instantaneously heated while passing through a section corresponding to a predetermined heating space and provided directly to a desired destination. It has the effect of improving the efficiency.

In addition, the present invention has the effect of improving added value by maximizing the application and utilization range, thereby maximizing the space utilization of the heater and installing it in a small place because the electric heater is embedded in the cylindrical pipe.

1 is a perspective view showing a three-phase, four-wire electric heater for a single pipe for water transfer according to the present invention;
2 is an exploded perspective view showing a three-phase four-wire electric heater for a single pipe for water transfer according to the present invention;
3 is a cross-sectional view showing the operating state of a three-phase, four-wire electric heater for a single pipe for water transfer according to the present invention;
Figure 4 is a cross-sectional view showing the operating state of the three-phase four-wire electric heater for a single pipe for water transfer according to the present invention.

Hereinafter, a three-phase, four-wire electric heater for a single pipe for water transfer according to the present invention will be described in detail with reference to the accompanying drawings.

This 3-phase 4-wire electric heater for single pipe is to directly heat a large amount of water with a constant flow rate to produce fast and stable hot water for large-capacity industrial use. It is designed to form an electric heater in the form of a simple pipe because it can be integrated and fastened with a pipe.

As shown in Figs. 1 and 2, the electric heater for a single pipe is a first cylindrical heating unit (1), a second cylindrical heating unit (3), a first central cylindrical heating unit (5), and a second central cylinder. Heating unit 7, first water flow inducing guide 9, second water flow inducing guide 11, first cylindrical power supply 17, second cylindrical power supply 19, first central cylindrical power supply (20), the second central cylindrical power supply unit 21, the tight insulation portion 22, the center inflow prevention portion 23, it is composed of a coupling member (24).

The first cylindrical heating unit 1 is in contact with the inner diameter surface as water having a flow velocity moves, and in order to directly heat the contacted water, a plurality of mutually different A first power of the first power, the second power, the third power, and the neutral power having a phase power is connected. The inner diameter is composed of a pipe having a first water flow pipe 31 so that the first central heating part 25 of the first central cylindrical heating part 5 is spaced apart from the inner diameter along the circumferential direction, and these A first heating space is formed therebetween.

The second cylindrical heating part 3 has the first and second central cylindrical power supply parts 20 and 21 and a plurality of airtight insulating parts 22 therebetween, and a second water flow pipe 33 is connected to the first It is disposed to be spaced apart from the first water flow pipe 31 of the cylindrical heating unit 1 to continue the flow of water along the longitudinal direction, and extends from the first heating space to form a second heating space. The second central heating part 27 of the second central cylindrical heating part 7 is arranged to be spaced apart along the circumferential direction. In order to heat water in the second heating space, a neutral power source among the three-phase four wires is connected.

The first central cylindrical heating part 5 is insertable into the inner diameter of the first cylindrical heating part 1, is spaced evenly along the circumferential direction, and is arranged to form the first heating space, A second power source of the other side corresponding to the first power source is connected so that the water having the flow rate is directly heated quickly and evenly in the heating space. The first central heating part 25 of the first central cylindrical heating part 5 is provided with the first water flow induction guide part 9 and is airtightly coupled by force fitting.

The second central cylindrical heating part 7 is insertable into the inner diameter of the second cylindrical heating part 27 and is arranged to be equally spaced along the circumferential direction to form the second heating space, and A third power source of the other side corresponding to the neutral power source is connected so that the water having the flow rate is directly heated quickly and evenly in the heating space. The second central heating part 27 of the second central cylindrical heating part 7 is provided with the second water flow induction guide part 11, and is airtightly coupled by force fitting.

That is, a first heating space for heating the water is formed between the first water flow pipe 31 and the first central heating unit 25 , and between the second water flow pipe 33 and the second central heating unit 27 . A second heating space is formed to heat the water, and the first cylindrical heating unit 1 and the first central cylindrical heating unit 5 are respectively provided with a first power source and a second heating space for heating in the first heating space. Two power sources are connected, and a third power source and a neutral power source are connected to the second cylindrical heating unit 5 and the second central cylindrical heating unit 7 for heating in the second heating space.

The first heating space is between the inner diameter surface of the first water flow pipe 31 of the first cylindrical heating part 1 and the outer diameter surface of the first central heating part 25 of the first central cylindrical heating part 5. The second heating space is formed by a close spacing at which water with a can be directly heated, and the second heating space is the inner diameter surface of the second water pipe 33 of the second cylindrical heating part 3 and the second central cylindrical heating part. The second central heating part 27 of (7) is formed by a close spacing between the outer diameter surfaces where the water having the flow rate can be directly heated. Here, the adjacent spaced interval maintains a state capable of directly heating water to 7 mm or less.

The first water flow induction guide part 9 is coupled to one side of the first central heating part 25 of the first central cylindrical heating part 5 by sealingly press-fitting the water having a flow rate to the first heating space. to guide them equally.

The second water flow induction guide part 13 is coupled to one side of the second central heating part 27 of the second central cylindrical heating part 7 by sealingly press-fitting, so that the hot water formed in the third heating space is evenly distributed. It is guided to the second cylindrical heating unit 3 so as to be stably transported along the flow rate.

The first cylindrical power supply unit 17 is bent along the circumferential direction on the outer diameter surface of the longitudinal end of the position where the first water flow pipe 31 of the first cylindrical heating unit 1 abuts. The first power is supplied to the first water flow pipe 31 of the one-cylinder heating unit 1 to induce a state in which water can be heated in the first heating space.

The first cylindrical power supply unit 17 is formed in a disk shape in the first water flow pipe 31 of the first cylindrical heating unit 1, and the first cylindrical heating unit 1 and the second cylindrical heating unit ( 3) A plurality of coupling holes are formed at equal angular intervals along each circumferential direction of the disk shape so that the airtight insulating portion 22 and the first central cylindrical power supply unit 20 are fixed therebetween.

The first central cylindrical power supply unit 20 is electrically integrally formed on the outer diameter surface of the first central heating unit 25 of the first central cylindrical heating unit 5, and the first cylindrical power supply unit 17 It is disposed in an insulated state due to the hermetic insulation portion 22 between the and, the second power is applied from the outside and directly transmitted to the first central cylindrical heating unit 5 and the first central heating unit 25 . A plurality of coupling holes are formed at equal angular intervals along each circumferential direction of the disk shape in the circumferential region of the first central cylindrical power supply unit 20 .

In addition, in a plurality of regions adjacent to the outer diameter surface of the first central cylindrical heating unit 5, the hot water heated in the first heating space of the first cylindrical heating unit 1 can flow into the second heating space. A plurality of these disks are formed at equal angular intervals.

In this way, the first power and the second power are supplied by the first cylindrical power supply unit 17 and the first central cylindrical power supply unit 20, respectively, and the first water flow pipe 31 of the first cylindrical heating unit 1 is ) Instantly and rapidly heats the water in the first heating space formed between the inner diameter surface and the outer diameter surface of the first central heating part 25 of the first central cylindrical heating part 5 .

The water heated in this way is supplied with a third power and a neutral power by the second cylindrical power supply unit 19 and the second central cylindrical power supply unit 21, respectively, and the second water flow of the second cylindrical heating unit 3 . The water in the second heating space formed between the inner diameter surface of the tube 33 and the outer diameter surface of the second central heating part 27 of the second central cylindrical heating part 5 is instantaneously heated.

The hermetic insulating part 22 includes the first cylindrical power supply unit 17), the second cylindrical power supply unit 19, the first central cylindrical power supply unit 20 and the second central cylindrical power supply unit 21, respectively. It is disposed between to prevent water leakage, and the first cylindrical power supply unit 17, the second cylindrical power supply unit 19, the first central cylindrical power supply unit 20 and the second central cylindrical power supply unit 21 ) insulate the different power sources applied to each. The airtight insulating portion 22 has a radius in which flowing water can flow, and a plurality of coupling holes are formed at equal angular intervals along each circumferential direction of the disk shape.

Here, the plurality of coupling holes are formed at the same size and position to integrally form one through hole.

The center inflow prevention part 23 is the inner diameter of the first central cylindrical heating part 5, the first central heating part 25, and the inner diameter of the second central heating part 27 of the second central cylindrical heating part 5. Prevent water from entering the inside.

The coupling member 24 has a screw formed on one side and the other side by a certain portion, and is screwed to the screw to provide the first cylindrical power supply unit 17, the first central cylindrical power supply unit 20, and an airtight insulation part. (22) are accommodated at the same time in the coupling holes formed at intervals having an equal angle along the circumferential direction, respectively, and combine them in an airtight manner. This completely prevents leakage and completes the insulation.

In addition, the first cylindrical power supply unit 17 and the second cylindrical power supply unit 19 have terminal holes for applying external power, respectively, and the first cylindrical heating unit 1 and the second cylindrical power supply unit 19 are formed. At the distal end of each heating unit 3, a screw coupling unit 30 for airtightly connecting to another insulated pipe is formed to transport hot water to a desired place.

The operation of the electric heater for double pipe for transferring water according to the present invention as described above will be described as follows. First, the first power, the second power, the third power, and the neutral power having a plurality of different power sources are normally connected and supplied in the 3-phase 4-wire.

2, 3 and 4, when water having a flow velocity is introduced through the inlet of the first water flow pipe 31 of the first cylindrical heating unit 1, the water is directed to the first water flow guide Between the inner diameter surface of the first water flow pipe 31 of the first double cylindrical heating part 1 and the outer diameter surface of the first central heating part 25 of the first central double cylindrical heating part 5 by the part 9 It is evenly distributed and guided and guided toward the formed first heating space.

Then, the water in the first heating space is electrically energized by the first power source and the second power source to directly heat the water.

In addition, the water guided to the first heating space passes through the distribution hole of the first central heating unit 25 of the first cylindrical power supply unit 17 and the second water flow pipe 33 of the second cylindrical heating unit 3 . ) and flows into the second heating space.

Then, in the second heating space, the second central heating unit 27 and the second water flow pipe 33 are heated secondarily by the third power and the neutral power respectively applied to the second heating space to increase the flow rate, or to increase the flow rate of water in a large capacity. Even if it flows, it can heat more rapidly.

1: 1st cylindrical heating part 3: 2nd cylindrical heating part
5: first central cylindrical heating part 7: second central cylindrical heating part
9: first water flow guide guide 11: second water flow guide guide
17: first cylindrical power supply unit 19: second cylindrical power supply unit
20: first central cylindrical power supply 21: second central cylindrical power supply
22: tight insulation part 23: center inflow prevention part
24: coupling member

Claims (3)

An electric heater for piping that directly heats water;
In the 3-phase 4-wire of the AC commercial power supply, the first power source, the second power source, the third power source, and the neutral power source having a plurality of different phase power sources are connected, and a first water flow pipe is formed to provide a first cylindrical heating unit for transferring water having a flow rate;
A first central heating part disposed inside the first water flow pipe of the first cylindrical heating part and spaced apart from the inner diameter surface is provided, and a first heating space for heating the water is provided between the first water flow pipe and the first central heating part. a first central cylindrical heating unit which is formed and to which a second power source among the three-phase four wires is connected to heat in the first heating space;
A second water flow pipe is formed so as to be connectable in the flow direction of the first water flow pipe of the first cylindrical heating unit, and to form a second heating space, the second of the 3 phase 4 wires to which the neutral power is connected a cylindrical heating unit;
A second central heating part disposed inside the second water flow pipe of the second cylindrical heating part and spaced apart from the inner diameter surface is provided, and a second heating space for heating the water is provided between the second water flow pipe and the second central heating part. a second central cylindrical heating unit formed and connected to a third power source among the three phase four wires to heat in the second heating space;
a first water flow induction guide part sealingly coupled to one side of the first central heating part of the first central cylindrical heating part and guiding water having a flow rate to the first heating space;
a second water flow induction guide unit sealingly coupled to the other side of the second central heating unit of the second central cylindrical heating unit to guide water having a flow rate to the second heating space;
A first cylindrical power supply unit which is formed in a bendable disk at each end adjacent to the first cylindrical heating unit, receives the first power from the outside, and delivers it to the first water flow pipe of the first cylindrical heating unit, respectively; ;
The first central cylindrical heating part is formed in a bendable disk to be electrically integrally integrated with the outer diameter surface of the first central heating part, and is arranged side by side so as not to contact the first cylindrical power supply part, and the second power supply is applied. a first central cylindrical power supply unit that is applied from the outside and directly transmits to the first central heating unit of the first central cylindrical heating unit;
a second cylindrical power supply unit formed in a bendable disk at each end adjacent to the second cylindrical heating unit, receiving the neutral power from the outside and transmitting the neutral power to the second water flow pipe of the second cylindrical heating unit;
The second central cylindrical heating part is formed as a double disk so as to be electrically integrated and bendable on the outer diameter surface of the second central heating part terminal side, and is arranged side by side so as not to contact the second cylindrical power supply part, and the third power supply a second central cylindrical power supply unit that receives from the outside and directly transmits it to the second central heating unit of the second central cylindrical heating unit;
It is disposed between each of the first cylindrical power supply unit, the first central cylindrical power supply unit, the second cylindrical power supply unit and the second central cylindrical power supply unit to prevent leakage of transferred water, and the first cylindrical power supply unit and a plurality of airtight insulating parts for insulating each other so that the power applied to each of the first central cylindrical power supply unit, the second cylindrical power supply unit, and the second central cylindrical power supply unit is maintained independently;
A screw is formed on one side and the other side by a certain portion, and is screwed to the screw, and the first cylindrical power supply unit, the first central cylindrical power supply unit, the second cylindrical power supply unit, and the second central cylindrical power supply unit and airtight Three-phase four for a single pipe for water transport, characterized in that it includes a plurality of coupling members that are accommodated at the same time in the coupling holes formed at intervals having an equal angle along the circumferential direction in the insulating part and combine them in an airtight manner integrally line electric heater.
The method of claim 1 ;
A screw coupling part for airtightly connecting to another pipe that can be insulated is formed at the other end of each of the first cylindrical heating part and the second cylindrical heating part, and the first heating space is a first part of the first central cylindrical heating part. It is formed between the inner diameter surface of the first water flow pipe of the first cylindrical heating part spaced apart along the circumferential direction of the outer diameter surface of the central heating part, and the second heating space is the outer diameter surface of the second central heating part of the second central cylindrical heating part in the circumferential direction. A three-phase, four-wire electric heater for a single pipe for water transfer, characterized in that it is formed between the inner diameter surfaces of the second water flow pipe of the second cylindrical heating unit spaced apart along the way.
The method of claim 1 ;
Water transfer, characterized in that it further comprises a central inflow prevention part for preventing the inflow of water flowing into the inner diameter of the first central heating part of the first central cylindrical heating part and the inner diameter of the second central heating part of the second central cylindrical heating part 3-phase 4-wire electric heater for single piping for

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