KR100434592B1 - Boiler using short current of transformer - Google Patents

Abstract

The present invention relates to a boiler using a transformer short-circuit current to solve the problem that the heating water is not circulated smoothly by the heavy metal component is separated from the heating water in the pipe by the magnetic force generated by the iron core, the adsorption on the inner peripheral surface of the pipe. .

According to the present invention, a short circuit bar (54) for winding the pipe (52) on the secondary side of the transformer (50) and forcibly shorting the input end and the output end of the pipe (52), and the short circuit on the secondary side of the transformer (50) In the boiler using a transformer short-circuit current to heat the heating water in the pipe 52 by using a current, the adsorption portion 12 is installed on the input end side of the pipe 52 to adsorb the heavy metal 10 contained in the heating water. ), An electromagnet 14 installed on one side of the adsorption unit 12 to apply magnetic force to the adsorption unit 12, and heating water provided at the rear end of the adsorption unit 12 and passing through the adsorption unit 12. 52, a first solenoid valve 16 for opening and closing the flow in the short-circuit section, a discharge pipe 18 connected to one side of the adsorption part 12 to discharge the heavy metal 10, and one side of the discharge pipe 18. A second solenoid valve 20 installed to open and close the discharge pipe 18, the electromagnet 14 and the first solenoid The control unit 22 is connected to the bar 16 and the second solenoid valve 20 to control their driving, and the heavy metal 10 contained in the heating water by the electromagnet 14 is normally After being adsorbed by the adsorption unit 12, the control unit 22 blocks the first solenoid valve 16, opens the second solenoid valve 20, and releases the magnetic force of the electromagnet 14 to discharge the discharge pipe 18. Provided is a boiler using a transformer short-circuit current, characterized in that it is possible to discharge the heavy metal (10) through.

Description

Boiler using short current of transformer

The present invention relates to a boiler using a transformer short-circuit current, more specifically, the heavy metal component is separated from the heating water in the pipe by the magnetic force generated by the iron core, the heating water is not smoothly circulated due to the adsorption on the inner peripheral surface of the pipe. It relates to a boiler using a transformer short circuit current that can solve the problem.

In general, boilers are classified into various types such as gas boilers, oil boilers, and electric boilers according to what they use as energy sources. Among these, gas or oil boilers are mainly used, but since fuels such as gas and oil are depleted in one day, boilers using electricity, an intangible resource that is not depleted, are expected to increase. However, since a general electric boiler generates a solid resistor and heats the object to be heated by this heat, there is a problem that power consumption increases in the process of oxidizing the solid resistor or heating the solid resistor. It has not reached the stage of popularization.

On the other hand, in addition to the electric boiler of the heat generating solid resistance as described above, US Patent No. 1,999,446 discloses a boiler using a transformer short-circuit current. 1 shows a boiler using a transformer short-circuit current as described above, and a shorting bar 54 for winding a pipe 52 on the secondary side of the transformer 50 and forcibly shorting an input terminal and an output terminal of the pipe 52. It is provided with, a method of heating the pipe 52 by using a short-circuit current on the secondary side of the transformer (50). As described above, since the boiler using the transformer short-circuit current needs only the transformer 50 as a means for heating the heating water, the boiler system can be configured relatively simply, so that the production cost is low and the primary side of the transformer 50 is used. By adjusting the number of turns of the coils 56, the short-circuit current on the secondary side can be easily adjusted, so that the pipe can be heated with a small amount of power, and the power consumption is also significantly reduced.

However, due to the magnetic force generated by the iron core in the winding portion on the secondary side of the transformer 50, the heavy metal contained in the heating water in the pipe 52 is adsorbed to the inner circumferential surface of the pipe 52, so that the heating water is not circulated smoothly. Problems that can not occur. In addition, in order to remove the heavy metal components adsorbed on the inner peripheral surface of the pipe 52 as described above, it is troublesome to dismantle the pipe 52 and scrape off the heavy metal one by one.

The present invention is to solve the above problems, an object of the present invention is a heavy metal component is separated from the heating water in the pipe by the magnetic force generated by the iron core, the heating water is not smoothly circulated due to the adsorption on the inner peripheral surface of the pipe It is to provide a boiler using a transformer short-circuit current that can solve the problem.

1 is a conceptual diagram showing a boiler using a conventional transformer short-circuit current

2 is a conceptual diagram illustrating a boiler using a transformer short-circuit current according to the present invention.

3 is a conceptual diagram showing another embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

10. Heavy metals 12. Adsorption part

14. Electromagnet 16. First solenoid valve

18. Drain line 20. Second solenoid valve

22. Control part 24. Switch

26. Rapid heating tube 28. Third solenoid valve

50. Transformer 52. Pipe

54. Short circuit bar

According to the present invention, a short circuit bar 54 for winding the pipe 52 on the secondary side of the transformer 50 and forcibly shorting the input end and the output end of the e-pipe 52 has a short circuit on the secondary side of the transformer 50. In the boiler using a transformer short-circuit current to heat the heating water in the pipe 52 by using a current, the adsorption portion 12 is installed on the input end side of the pipe 52 to adsorb the heavy metal 10 contained in the heating water. ), An electromagnet 14 installed on one side of the adsorption unit 12 to apply magnetic force to the adsorption unit 12, and heating water provided at the rear end of the adsorption unit 12 and passing through the adsorption unit 12. 52, a first solenoid valve 16 for opening and closing the flow in the short-circuit section, a discharge pipe 18 connected to one side of the adsorption part 12 to discharge the heavy metal 10, and one side of the discharge pipe 18. A second solenoid valve 20 installed to open and close the discharge pipe 18, the electromagnet 14 and the first solenoid valve The control unit 22 is connected to the bar 16 and the second solenoid valve 20 to control their driving, and the heavy metal 10 contained in the heating water by the electromagnet 14 is normally After being adsorbed by the adsorption unit 12, the control unit 22 blocks the first solenoid valve 16, opens the second solenoid valve 20, and releases the magnetic force of the electromagnet 14 to discharge the discharge pipe 18. Provided is a boiler using a transformer short-circuit current, characterized in that it is possible to discharge the heavy metal (10) through.

According to another feature of the invention, the short circuit bar 54 is provided with a switch 24 connected to the control unit 22 to turn on or off the short circuit state of the short circuit bar 54, Between the input end and the output end, a spiral rapid heating tube 26 having a smaller diameter than the pipe 54 is connected in parallel with the shorting bar 54, and the rapid heating tube 26 is connected to the output end of the pipe 52. The solenoid valve 28 which is opened and closed by the control part 22 is installed in front of the), and the short circuit current is opened in the rapid heating tube 26 by opening the switch of the shorting bar 54 in the control part 22. Heats the heating water within a faster time in the relatively short diameter rapid heating tube 26, and adjusts the third solenoid valve 28 so that only the heating water passing through the metal heating tube 26 is output. Using a transformer short-circuit current, characterized in that A boiler is provided.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Figure 2 shows one embodiment of the present invention, Figure 3 shows another embodiment of the present invention.

Referring to this, a boiler using the transformer short-circuit current has a shorting bar 54 winding the pipe 52 on the secondary side of the transformer 50 and forcibly shorting the input and output ends of the pipe 52. It is the same as the boiler using the transformer short-circuit current.

However, the present invention is provided on the input end side of the pipe 52, the adsorption section 12 for separating the heavy metal 10 contained in the heating water, and the adsorption section 12 is installed on one side of the adsorption section 12 An electromagnet 14 which exerts a magnetic force on it, a first solenoid valve 16 installed between a short circuit section of the suction part 12 and the pipe 52, and a discharge pipe 18 connected to one side of the suction part 12. ), A second solenoid valve 20 for opening and closing the discharge pipe 18, and a control unit 22 for controlling the electromagnet 14, the first solenoid valve 16, and the second solenoid valve 20. It is further provided.

As shown in FIG. 2, the suction unit 12 is a portion bent in a U-shape at the input end side of the pipe 52, and the electromagnet 14, which is controlled by the control unit 22 at one side thereof, has a magnetic force. Is installed. The electromagnet 14 draws the heavy metal 10 component from the heating water passing through the adsorption unit 12, so that the heavy metal 10 component is adsorbed to the adsorption unit 12. As such, when the heavy metal 10 component is stored in the adsorption unit 12, the control unit 22 blocks the first solenoid valve 16, opens the second solenoid valve 20, and then uses an electromagnet ( The magnetic force of 14) is released so that the heavy metal 10 component is discharged through the discharge pipe 18. When the heavy metal 10 component is discharged through the discharge pipe 18, the control unit 22 applies the magnetic force to the electromagnet 14 again, blocks the second solenoid valve 20, and then the first solenoid valve 16. Open the boiler to operate the boiler normally. In this case, the driving of the control unit 22 may be periodically performed at a time when the boiler is not operated. In some cases, the user may arbitrarily operate the switch or the like.

In this way, before the heating water reaches the winding portion on the secondary side of the transformer 50, the magnetic force generated by the iron core of the transformer 50 is provided by the adsorption part 12 and separating the heavy metal 10 component from the heating water in advance. By the heavy metal 10 is adsorbed on the inner peripheral surface of the pipe 52 in the secondary winding portion it is possible to solve the problem that the heating water is not circulated smoothly.

On the other hand, the boiler using the transformer short-circuit current has a switch 24 for turning on and off the short-circuit state of the short-circuit bar 54, a rapid heating tube 26 capable of heating the heating water rapidly, and rapid heating on one side of the output stage A third solenoid valve 28 may be installed in front of the pipe 26. FIG. 3 illustrates a state in which the rapid heating tube 26 is installed, and a short circuit is formed between the input end and the output end of the pipe 52. It is connected in parallel with the bar 54. The rapid heating tube 26 is formed in a spiral shape and serves as an inductor to have a higher resistance than the shorting bar 54. Therefore, the short-circuit current flows only in the shorting bar 54 normally. Then, when the switch 24 provided in the short circuit bar 54 is turned off in the control unit 22 to release the short circuit state of the short circuit bar 54, a short circuit section is formed through the rapid heating tube 26. The short circuit current flows through the rapid heating tube 26. At this time, the rapid heating tube 26 is made of a smaller diameter than the pipe 52, a higher short circuit current flows, it is possible to heat the heating water quickly. In addition, the control unit 22 blocks the third solenoid valve 28 to output only the heating water via the rapid heating tube 26, thereby allowing the heating water to be heated more quickly. The driving of the control unit 22 may be performed by the user selecting a hot water supply button or a hot water button, or may be performed at the initial startup of the boiler.

As described above, the boiler using the transformer short-circuit current separates the heavy metal 10 component from the adsorption part 12 before the heating water passes the winding part of the secondary side of the transformer 50, and the control part 22. By controlling the first solenoid valve 16, the second solenoid valve 20, the electromagnet 14 to discharge the separated heavy metal 10 component through the discharge pipe 18 to the magnetic force of the iron core of the transformer 50 As a result, the heavy metal 10 may be prevented from being adsorbed on the inner circumferential surface of the pipe 52, and the boiler may be more easily managed. In addition, the short-circuit bar 54 is opened, and a short-circuit section is formed through the quick-heating tube 26, and a short-circuit current flows through the quick-heating tube 26 having a relatively small diameter, whereby the quick-heating tube 26 There is an advantage that the heating water via) can be heated faster.

In the drawings, reference numerals 30 and 32 denote solenoid valves on the input side and output side of the pipe, and 34 denote a circuit breaker for controlling the AC input.

As described above, according to the present invention, by separating the heavy metal components contained in the heating water in the adsorption unit, and discharge the heavy metal components separated by the control of the control unit through the discharge pipe, the heavy metal components on the inner peripheral surface of the pipe passing through the transformer secondary side It is possible to solve the problem of the adsorption, it is possible to provide a boiler using a transformer short-circuit current to heat the heating water faster through the rapid heating tube.

Claims (2)

A pipe 52 is wound around the secondary side of the transformer 50, and a shorting bar 54 for forcibly shorting the input end and the output end of the pipe 52 is provided to provide a pipe using a short circuit current on the secondary side of the transformer 50. In the boiler using the transformer short-circuit current which heats the heating water in (52), The adsorption part (12) which is provided in the input end side of the said pipe (52), and adsorb | sucks the heavy metal (10) contained in heating water, The said adsorption | suction The electromagnet 14 installed on one side of the unit 12 to apply magnetic force to the adsorption unit 12 and the heating water provided at the rear end of the adsorption unit 12 and passing through the adsorption unit 12 are short-circuited sections of the pipe 52. A first solenoid valve 16 which opens and closes an inflow to the outlet, a discharge pipe 18 connected to one side of the adsorption part 12 to discharge the heavy metal 10, and a discharge pipe 18 installed at one side of the discharge pipe 18. ), The second solenoid valve 20 for opening and closing the electromagnet 14, the first solenoid valve 16 and the second solenoid It comprises a control unit 22 is connected to the id valve 20 to control their driving, the heavy metal 10 contained in the heating water by the electromagnet 14 is usually adsorbed to the adsorption unit 12. Then, the first solenoid valve 16 is blocked from the control unit 22, the second solenoid valve 20 is opened, and the magnetic force of the electromagnet 14 is released to release the heavy metal 10 through the discharge pipe 18. A boiler using a transformer short-circuit current, characterized in that it can be discharged. According to claim 1, wherein the shorting bar (54) is provided with a switch (24) connected to the control unit (22) to turn on or off the short circuit state of the shorting bar (54), and the input end of the pipe (52) and Between the output ends, a spiral rapid heating tube 26 having a smaller diameter than the pipe 54 is connected in parallel with the shorting bar 54, and at the output end of the pipe 52, the rapid heating tube 26 is connected. A third solenoid valve 28, which is opened and closed by the control unit 22, is installed at the front end, and the short circuit current flows to the rapid heating tube 26 by opening the switch of the shorting bar 54 in the control unit 22. Thus, the heating water is heated within a faster time in the rapid heating tube 26 having a smaller diameter, and the third solenoid valve 28 is adjusted to output only the heating water via the metal heating tube 26. Boiler using a transformer short-circuit current, characterized in that.