KR20130058095A - Electric boiler for installing two-way heating pipes - Google Patents

Abstract

PURPOSE: An electric boiler with heater rods installed on both sides is provided to firstly discharge high temperature water inside a boiler tank and to prevent scale piled in the heater rod from being generated. CONSTITUTION: An electric boiler with heater rods installed on both sides comprises a boiler tank(100), a plurality of first group heater rods(200), a plurality of second group heater rods(300), an inlet pipe(400), a discharge pipe(500), and a drain pipe(600). The first group heater rod is inserted into the inside of the boiler tank by penetrating through one side of the boiler tank and generates heat according to voltage approval. The second group heater rod is inserted into the inside of the boiler tank by penetrating through the other side of the boiler tank to be symmetrical with the first group heater rods and generates the heat according to voltage approval.

Description

ELECTRIC BOILER FOR INSTALLING TWO-WAY HEATING PIPES}

The present invention relates to an electric boiler in which a heater rod is installed by electric resistance in order to heat water obtained by a boiler tank to a temperature suitable for use as hot or heated water.

In general, heating appliances are classified into electric, gas, or petroleum according to the type of heat source, and are classified into a heater pump type or a heater heating type according to the heating method.

The heater pump type is a method of heating the heat medium through heat exchange with the heat generating part (condenser) of the refrigeration cycle, the heater heating type is a method in which the heating element directly heats the heat medium.

The heater heating element includes a size heater, a PTC, a kind of semiconductor element, and a lamp heater. Among them, the siege heater is made by enclosing a heating wire together with an insulator in a pipe such as stainless steel to obtain high heat and have a long life, and are widely used for directly heating water in an electric boiler.

The heating element of the heater-heated electric boiler as described above is called a heater rod. The heater is used to generate heat according to electrical resistance by flowing a current through a heating wire installed inside the heater rod to use water as hot water or heating water.

In the case of the electric boiler is installed such a heater rod can be classified into a vertical or horizontal type according to the installation method of the boiler tank for receiving water, it can be classified into a large capacity or a small capacity according to the water capacity. Small capacity electric boilers are usually installed vertically and the number of heater rods installed in the boiler tank is small.

However, in the case of a large-scale electric boiler is installed horizontally, a large number of heater rods are installed in the boiler tank to heat a large amount of water flowing into and out of the boiler tank at once.

1 is a perspective view showing an electric boiler with a heater rod according to the prior art, Figure 2 is a side cross-sectional view of the embodiment of Figure 1,

As shown in FIG. 1, an electric boiler having a heater rod according to the related art is installed horizontally through a cylindrical boiler tank 10 and one side surface of the boiler tank 10 to the inside of the boiler tank 10. Inserted and installed, a plurality of heater rods 20 for generating heat in accordance with the application of voltage, inlet pipe 30 is connected to the upper portion of the boiler tank 10, the low-temperature water flows, and the boiler tank It is connected to the other lower portion of the 10 is made of a water discharge pipe 40 for discharging the high temperature water heated by the heater rod 20. The inlet pipe 30 and the outlet pipe 40 are respectively connected to a heating tube (not shown) for transporting and recovering the heating water.

  In addition, a boiler pump 50 is provided on the pipeline of the inlet pipe 30 so that the low temperature water passing through the heating tube flows into the boiler tank 10, and the inlet pipe 30 for assembling, transporting and installing the electric boiler. Inlet and out valve 60 for opening and closing the pipe of the) is provided. Also in the case of the water outlet pipe 40, the water discharge opening and closing valve 70 is also provided on the pipeline, and the reason why the water outlet pipe 40 is connected to the other lower portion of the boiler tank 10 is because of the replacement and repair of the heater rod 20. When removing the water in the boiler tank 10 when opening the water discharge opening and closing valve 70 of the discharge pipe 40 to discharge the water.

On the other hand, the outlet pipe 40 is provided with a temperature sensor 80 to control the operation of the heater rod 20 by detecting whether the hot water discharged from the outlet pipe 40 is overheated. That is, the heater rod 20 is operated until the hot water discharged to the water outlet pipe 40 reaches the set superheat temperature, but when the superheat temperature set from the temperature sensor 80 is reached, the heater rod 20 is operated. It is to maintain the temperature of the water discharged to the outlet pipe 40 to stop appropriately.

However, in the case of the electric boiler equipped with a heater rod according to the prior art configured as described above, the connection position of the outlet pipe 40 for removing the water in the boiler tank 10 is installed in the lower side of the other side of the boiler tank 10 Therefore, as shown in FIG. 2, when water is introduced into the boiler tank 10 from the water inlet pipe 30, the hot water of the other upper portion is stagnant and is not discharged to the water outlet pipe 40. There is a risk that the inside of the tank 10 is overheated and broken.

In addition, the heater rod 20 is excessively installed only on one side of the boiler tank 10 so that the cross-sectional area of the boiler tank 10 is increased, the water contained in the heater rod 20 by the water passing through the heater rod 20 As the scale of iron, mineral or glass is accumulated, the heat transfer efficiency of the heater rod 20 gradually decreases, and the temperature gradient is deepened up and down by the density difference according to the temperature of the water. There is a problem that cannot be supported.

In particular, even if the temperature of the water discharged from the boiler tank 10 is overheated by the temperature sensor 80 installed in the outlet pipe 40, the temperature of the water stagnated at the upper portion of the other side in the boiler tank 10 is an overheating temperature. Is far past the state, even if the operation of the heater rod 20 stops the high temperature water far exceeding the overheating temperature is discharged into the outlet pipe 40, there is a problem that it is difficult to properly maintain the temperature of the water supplied to the heating tube.

An object of the present invention devised to solve the above problems, eliminating the temperature gradient of the water formed in the boiler tank, so that the temperature of the water discharged to discharge the hot water first in the boiler tank, the heater rod The present invention provides an electric boiler in which a heater rod is installed in both directions to suppress the occurrence of scale accumulated in the tank while maintaining the temperature of the discharged water more accurately.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments with reference to the accompanying drawings.

In order to achieve the above object, an electric boiler having a heater rod installed in both directions according to the present invention includes a boiler tank horizontally installed in a long cylindrical shape from one side to the other side, and penetrates one side surface of the boiler tank. Is inserted into the interior, the plurality of first group heater rods to generate heat in accordance with the application of the voltage, and installed through the other side of the boiler tank so as to be symmetrical to the plurality of first group heater rods inserted into the boiler tank And a plurality of second group heater rods generating heat according to the application of a voltage, an inlet pipe connected to one upper portion of the boiler tank, into which low temperature water flows, and an upper portion of the first boiler tank connected to the other upper portion of the boiler tank. A water outlet pipe through which hot water heated by a group heater rod or a second group heater rod is discharged, and a lower portion of the boiler tank; Comprising one equipped with a drain-off valve for opening and closing the drain pipe.

In addition, the inlet opening and closing valve for opening and closing the water inlet pipe, the boiler pump is installed on the inlet pipe of the low temperature water flows into the boiler tank, and the water outlet opening and closing to open and close the pipe of the outlet pipe It further comprises a valve.

The first group heater rod and the second group heater receive signals from the boiler temperature sensor provided at the center of the boiler tank, the water discharge temperature sensor provided in the water discharge pipe, the boiler temperature sensor and the water discharge temperature sensor. It further comprises a control unit for controlling the operation of each rod.

The control unit may stop the operation of the second group heater rod when the signal received from the boiler temperature sensor reaches a preset overheat temperature, and when the signal received from the water extraction temperature sensor reaches a preset overheat temperature, The operation of the first group heater rod is characterized in that to stop.

The electric boiler is installed in the heater rod in both directions according to the present invention, the connection direction to the boiler tank of the water inlet pipe and the water outlet pipe on the upper side and the other side, respectively, the length of the boiler tank is formed long in a small cross-sectional area and one side and the other side By installing the first group heater rods and the second group heater rods symmetrically in both directions, the temperature gradient of the water formed in the boiler tank is eliminated, and the hot water can be discharged first even in the boiler tank. It is possible to suppress the generation of scale accumulated on the heater rod.

In particular, the controller receiving the signals sensed from the boiler temperature sensor and the water extraction temperature sensor controls the operation of each of the first group heater rods and the second group heater rods, thereby maintaining the temperature of the discharged water more accurately.

1 is a perspective view showing an electric boiler with a heater rod according to the prior art,
Figure 2 is a side cross-sectional view of the embodiment of Figure 1,
3 is a perspective view showing an embodiment of an electric boiler in which a heater rod is installed in both directions according to the present invention;
Figure 4 is a side cross-sectional view of the embodiment of Figure 3,
Figure 5 is a side cross-sectional view showing a state in which the drain pipe is opened and closed in the embodiment of FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the electric boiler is installed in both directions in accordance with the present invention.

Electric boiler is installed in the heater rod in both directions according to the invention, the boiler tank 100, the first group heater rod 200, the second group heater rod 300, inlet pipe (as shown in Figure 3 to 5) 400), the discharge pipe 500 and the drain pipe 600 is made. In addition, the boiler temperature sensor 110, the inlet opening and closing valve 410, the boiler pump 420, the outlet opening and closing valve 510, the outlet temperature sensor 520 and the drain opening and closing valve 610 may be further included.

Boiler tank 100 is horizontally installed in a long cylindrical shape from one side to the other side as shown in Figures 3 to 5. Compared with the prior art of Figs. 1 and 2, the boiler tank 100 of the electric boiler with heater rods installed in both directions according to the present invention on the basis of the same capacity is 1/2 of the cross-sectional area, twice the length.

The first group heater rod 200 is provided with a plurality of penetrating through one side of the boiler tank 100 is inserted into the boiler tank 100, and generates heat in accordance with the application of voltage. In addition, a plurality of second group heater rods 300 are also provided to penetrate the other side of the boiler tank 100 so as to be symmetrical with the plurality of first group heater rods 300 to the inside of the boiler tank 100. It is inserted and installed to generate heat according to the application of voltage.

Inlet pipe 400 is connected to the upper portion of the boiler tank 100, the low-temperature water is introduced, the outlet pipe 500 is connected to the other upper portion of the boiler tank 100 is the first group heater rod ( 200 or the hot water heated by the second group heater rod 300 is discharged.

The drain pipe 600 is provided to remove water in the boiler tank 100 for repair or replacement of the first group heater rod 200 or the second group heater rod 300, and the boiler tank 100 Is connected to the lower portion of, the drain opening and closing valve 610 for opening and closing the pipe is provided. In addition, the inlet opening and closing valve 410 provided on the pipeline of the inlet pipe 400 and the pipeline of the inlet pipe 400 to open and close the pipeline of the inlet pipe 400 of the boiler tank 100 It may include a boiler pump 420 for introducing a low temperature water into the inside, and further comprises a water outlet opening and closing valve 510 is installed on the pipeline of the outlet pipe 500 to open and close the pipeline of the outlet pipe 500 can do.

In the case of the electric boiler is installed in both directions according to the present invention configured as described above, inlet and outlet valve 410 of the inlet and outlet pipe 400, the outlet opening and closing valve 510 and the drainage pipe (500) The drain opening and closing valve 610 of 600 is all locked, and connects a heating tube (not shown), an inlet pipe 400, and an outlet pipe 500 for heating. Thereafter, after filling the water in the boiler tank 100, the inlet / outlet valve 410 of the inlet pipe 400 and the outlet valve 510 of the outlet pipe 500 are opened, as shown in FIG. As described above, the boiler pump 420 is operated to circulate while the low temperature water is introduced and discharged into the boiler tank 100. Next, when the heating is to operate the first group heater rods 200 and the second group heater rods 300 by heating the low-temperature water entering the boiler tank 100 to discharge the high-temperature water, The hot water discharged is used as hot water or heating water.

At this time, as shown in Figure 4 by placing the connection direction for the boiler tank 100 of the water inlet pipe 400 and the water outlet pipe 500, respectively, on the upper side and the other side, it is formed in the boiler tank 100 Removing the temperature gradient of the water, the temperature of the discharged water can be so that the hot water is discharged first even in the boiler tank (100).

In addition, the boiler tank 100 by forming a long length in a small cross-sectional area by installing the first group heater rods 200 and the second group heater rods 300 symmetrically in both directions on one side and the other side, boiler tank 100 The flow rate of the water flowing through the inside is increased and mixed up and down evenly, the heating efficiency of the water is increased, it is possible to suppress the generation of scale accumulated in each heater rod (200, 300).

When disassembling from the boiler tank 100 for repair or replacement of the first group heater rod 200 or the second group heater rod 300, and to transport or disassemble the entire electric boiler, the boiler tank 100 ) It is necessary to remove the water inside. To this end, as shown in FIG. 5, after the inlet / outlet valve 410 of the inlet pipe 400 and the outlet outlet valve 510 of the outlet pipe 500 are locked, the drain opening / closing valve 610 of the drain pipe 600 is closed. Open it will be easy to drain the water in the boiler tank (100).

On the other hand, since the first group heater rods 200 and the second group heater rods 300 are installed in the boiler tank 100 in both directions symmetrically to each other, the temperature difference in one side and the other direction inside the boiler tank 100 The distinction between the low-temperature water obtained from the inlet pipe 400 and the high-temperature water discharged into the outlet pipe 500 is assured. Therefore, in order to more appropriately control the temperature of the hot water discharged to the water outlet pipe 500, the boiler temperature sensor 110 provided at the center of the boiler tank 100, and the water outlet pipe 500 It may further include a water extraction temperature sensor 520, wherein the control unit (not shown) receives a signal from the boiler temperature sensor 110 and the water extraction temperature sensor 520, the first group heater rod 200 and the second The operation of the group heater rod 300 may be controlled respectively.

That is, if the signal detected from the boiler temperature sensor 110 before the water extraction temperature sensor 520 reaches a preset overheat temperature, the signal detected by the water extraction temperature sensor 520 is a much higher temperature from the superheat temperature. Because of this, the temperature control for heating fails. Therefore, the control unit stops the operation of the second group heater rod 300 when the signal received from the boiler temperature sensor 110 reaches a preset overheating temperature. Accordingly, water in one direction of the boiler tank 100 that has already reached the overheating temperature by the first group heater rod 200 may be discharged through the outlet pipe 500 without being overheated while passing through the other direction. . If the signal detected by the water extraction temperature sensor 520 reaches the overheating temperature, the signal received from the boiler temperature sensor 110 also reaches the overheating temperature. Therefore, in this case, the controller stops the operation of the first group heater rod 200 when the signal received from the water extraction temperature sensor 520 reaches a preset overheating temperature. Accordingly, the operation stop of the first group heater rod 200 is a case where the operation stop of the second group heater rod 300 occurs first and lowers the temperature of the water in the boiler tank 100 to be discharged to the outlet pipe 500. The temperature of the water can be properly controlled.

As described above, the operation of the first group heater rod 200 and the second group heater rod 300 can be controlled through the control of the controller, so that the step of heating can be adjusted more precisely, even during maximum heating. High temperature water discharged to the water outlet pipe 500 can be more accurately controlled so as not to overheat.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

100: boiler tank 110: boiler temperature sensor
200: first group heater rod
300: second group heater rod
400: inlet pipe
410: inlet and outlet valve 420: boiler pump
500: water outlet
510: water outlet valve 520: water outlet temperature sensor
600: drain pipe 610: drain opening and closing valve

Claims (4)

A boiler tank horizontally installed in a long cylindrical shape from one side to the other side,
A plurality of first group heater rods inserted into the boiler tank through one side of the boiler tank and generating heat according to the application of a voltage;
A plurality of second group heater rods inserted through the other side of the boiler tank so as to be symmetrical with the plurality of first group heater rods and inserted into the boiler tank, and generating heat according to application of a voltage;
An inlet pipe connected to an upper portion of one side of the boiler tank and into which low temperature water is introduced;
A water outlet pipe connected to the other upper portion of the boiler tank to discharge hot water heated by the first group heater rod or the second group heater rod;
An electric boiler connected to the lower portion of the boiler tank, the heater rod is installed in both directions comprising a drain pipe having a drain opening and closing valve for opening and closing the pipe.
The method of claim 1,
An inlet opening and closing valve for opening and closing a pipe of the inlet pipe,
A boiler pump installed on a conduit of the water inlet pipe and introducing low temperature water into the boiler tank;
The electric boiler is installed in the heating rod in both directions, characterized in that it further comprises a water outlet opening and closing valve for opening and closing the pipe of the water outlet.
The method of claim 1,
A boiler temperature sensor provided at the center of the boiler tank;
Withdrawal temperature sensor provided in the outlet pipe,
Receiving a signal from the boiler temperature sensor and the water discharge temperature sensor further comprises a control unit for controlling the operation of the first group heater rods and the second group heater rods, the electric heater rod is installed in both directions.
The method of claim 3,
The control unit,
When the signal received from the boiler temperature sensor reaches a preset overheating temperature, the operation of the second group heater rod is stopped,
When the signal received from the water extraction temperature sensor reaches a predetermined overheating temperature, the electric heater rod is installed in both directions, characterized in that the operation of the first group heater rod is stopped.

Images