KR101249433B1 - Electric boiler - Google Patents

Abstract

PURPOSE: An electric boiler is provided to detect malfunction using a temperature sensor in each heater installed in a water tank and to be remotely controlled. CONSTITUTION: An electric boiler comprises a water tank(100), a supply tube(200), a discharging pipe(300), a controller(400), and a partition(500). The controller comprises a sensor, a display unit, a heater controller, and a remote controller. The heater controller controls output temperature of each heater according to temperature values of the heaters which is sensed through the sensor. The remote controller transmits the temperature value of each heater and a data output signal of the existence of a malfunction to a separate external terminal, receives a remote control signal from the outside, and transmits to the heater controller.

Description

Electric boiler

The present invention relates to an electric boiler, and more particularly, to an electric boiler for heating water in a water tank with an electric heater and maintaining water discharged from the water tank at a constant temperature.

In general, an electric boiler heats water by using an electric heater as a heat source, and is heated by circulating the heated water, but hot water is used in a home, a factory, or a concentrated farmhouse.

Here, the electric boiler is to heat the water stored in the water storage tank through the water supply pipe to the high temperature through the electric heater installed in the water storage tank to discharge to the discharge pipe, wherein the low temperature water stored in the water storage tank by the electric heater It is gradually heated and heated while circulating the inside of the reservoir tank by the temperature difference, so that the water stored in the reservoir tank is heated over time.

In particular, the electric boiler used in the farmhouse's plastic house is equipped with a large storage tank containing water of about 5 to 10 tons and heats water by a large electric heater. Even though the water heated by the electric heater is naturally circulated to the periphery with the temperature difference, the temperature difference between the installation part of the electric heater and the periphery thereof is large even when the heated water is spread out in the large space of the large reservoir tank. Compared with the water temperature of the electric heater installation portion, the water discharged through the outlet pipe is supplied to the hot water pipe at an extremely low temperature, thereby failing to efficiently use the heating temperature of the electric heater, resulting in a poor thermal efficiency.

In order to solve the problems described above, Korean Patent Publication No. 10-2010-0042712 electric boiler has been proposed.

The conventional electric boiler as described above has a water tank having a heat insulation layer built-in between the inner cylinder and the outer cylinder, and the water stored in the water tank through the water supply unit is heated to a high temperature through an electric heater installed in the water tank to the outlet pipe. In the electric boiler to discharge,

The inner and outer cylinders are formed of reinforced plastics (FRP), and are formed to be separated from each other by the upper and lower bodies, and the water tank formed by jointly joining the opposite ends of the two sides integrally with the forced circulation of water in the water tank. Stirring device and the water discharge pipe for discharging the water tank is installed on the lower side, the inlet pipe is installed on the upper side is characterized in that the water is circulated supply from the water tank bottom to the hot water pipe through the circulation pump. .

Conventional electric boilers configured as described above have a problem that the use of the electric boiler is inconvenient because there is no function to control all the functions in the boiler, such as automatic failure diagnosis.

In addition, the conventional electric boiler can not operate the boiler remotely from a long distance, there is a cumbersome problem that the user must press the operation button directly attached to the electric boiler to operate.

Thus, the present invention was devised to solve the above problems, inserting an electric heater into each predetermined space formed of a plurality of horizontal plates and vertical plates in the water tank, and the horizontal plate and the vertical plate of Depending on the position of the through-hole formed on one side, the flow of water is circulated in a horizontal direction and a vertical direction in a meandering manner (a serpentine, a serpentine flows like a snake), and the temperature of the water discharged from the water tank is constant. It maintains the temperature and rotates the high pressure water supplied from the pump to the water tank by screw method to increase the heating efficiency of the water tank by reducing the flow rate of the water supplied and to prevent malfunction by using the temperature sensor of each heater installed in the water tank. The object is to provide an electric boiler that can be sensed and controlled remotely.

Electric boiler according to the present invention for achieving the above object is a water tank made of a predetermined shape of the enclosure; A supply pipe connected to a lower end of the water tank and made of a pipe for supplying water into the water tank; A discharge pipe connected to an upper end of the water tank and made of a pipe for discharging water in the water tank; A controller for sensing and controlling a temperature value and a malfunction in the water tank; A plurality of horizontal plates and vertical plates are installed in the water tank and at the same time, the diaphragm is installed.

As described above, the electric boiler according to the present invention has the following effects.

First, the present invention has the effect of maintaining the water in the water tank at a constant temperature while heating the water in the water tank with an electric heater.

Second, the present invention by flowing the water supplied to the water tank through the screw, it is effective to reduce the flow rate of the water to increase the heating efficiency.

Third, the present invention has the effect of detecting a malfunction of the heater by using a temperature sensor installed in each heater of the water tank, and remotely controlling.

1 is an exemplary view showing an electric boiler according to the present invention,
Figure 2 is an exemplary view through the interior of the electric boiler according to the invention,
3 is an exploded perspective view illustrating an electric boiler according to the present invention;
4 is an exemplary view showing an operating state of the electric boiler according to the present invention;
5 is an enlarged view showing a screw of a supply pipe of an electric boiler according to the present invention;
6 is an exemplary view showing a discharge pipe of the electric boiler according to the present invention;
7 is a block diagram showing a controller of the electric boiler according to the present invention;
8 is an exemplary view showing a horizontal plate of the electric boiler according to the present invention;
9 is an exemplary view showing a vertical plate of the electric boiler according to the present invention.

Hereinafter, the present invention will be described in detail with reference to exemplary drawings attached hereto.

1 is an exemplary view showing an electric boiler according to the present invention, Figure 2 is an illustration showing a perspective view of the interior of the electric boiler according to the present invention, Figure 3 is a perspective view showing an exploded view of the electric boiler according to the present invention, 4 is an exemplary view showing an operating state of the electric boiler according to the present invention.

As shown in these drawings, the electric boiler according to the present invention includes a water tank 100 formed of a housing having a predetermined shape; A supply pipe 200 connected to a lower end of the water tank 100 and made of a pipe for supplying water into the water tank 100; A discharge pipe 300 connected to an upper end of the water tank 100 and made of a pipe for discharging water in the water tank 100; A controller 400 for sensing and controlling a temperature value and a malfunction in the water tank 100; The plate 500 is built in the water tank 100 and a plurality of horizontal plates and vertical plates are assembled.

That is, the electric boiler according to the present invention is an apparatus in which the water tank 100, the supply pipe 200, the discharge pipe 300, the controller 400 and the diaphragm 500 are organically coupled.

The water tank 100, as shown in Figure 2, is a cube-shaped enclosure. Here, the water tank 100 has a diaphragm 500 structure therein, and the water tank heaters 120 are respectively accommodated in a predetermined plurality of accommodation spaces formed by the diaphragm 500.

At this time, the water tank heater 120 was set to 5kv, length 600mm, 24 as a flanged heater (Flanged Immersion Heater). For reference, since the Hurenji heater is a liquid or air heating heater, the heating element can be used by directly inputting the heating object to the heated object, and thus, the thermal heater has a high thermal efficiency compared to the indirect heat, and is easy to attach even in a narrow place. And it is designed to attach the temperature controller, there is no fear of damage to the container due to the overheating condition or shorten the life of the heating element.

In addition, the supply pipe 200 is connected to the water inlet 101 of the lower end of the water tank 100, as shown in Figure 5 to deliver the water supplied from the outside to the water tank 100, to rotate the water Screw 210 is installed inside the pipe.

And, the discharge pipe 300 is connected to the outlet 102 formed in the upper end of the water tank 100, as shown in Figure 6, to accommodate the discharge pipe heater for maintaining the temperature of the water discharged to the outside in the pipe It is a constitution.

In particular, the discharge pipe 300 is connected to the outlet formed in the upper end of the water tank 100, as shown in Figure 6, the heater 310 is built in the inside of the pipe to maintain the temperature of the water discharged to the outside It consists of a connecting pipe 320 for connecting a predetermined number of pipes for heating the water.

In addition, the controller 400 detects a malfunction of each heater installed in the water tank 100 and the discharge pipe 300 as a temperature sensing sensor as shown in FIG. 7, and displays the position of the detected malfunction heater. Function to control each heater remotely.

The controller 400 is connected to each heater installed in the water tank 100 and the discharge pipe 300, the sensing unit 410 for detecting by the temperature sensor, and the water tank heater detected through the sensing unit 410 And output a data output signal for each temperature value and malfunction of the discharge pipe heater, the display unit 420 for displaying the arrangement position and the water temperature of the discharge pipe 300 detected by the detection unit 410 Heater control unit 430 for controlling the output temperature of the discharge pipe heater 310, and a data output signal for the temperature value and malfunction of each heater that is the output of the detection unit to a separate external terminal to transmit a remote control signal from the outside It is composed of a remote control unit 440 to receive and transfer to the heater control unit.

That is, the controller 400 is a configuration in which the sensing unit 410, the display unit 420, the heater control unit 430, and the remote control unit 440 are organically coupled.

Here, the detection unit 410 is connected to each heater installed in the water tank 100 and the discharge pipe 300 is configured to detect with a temperature sensor.

In addition, the display unit 420 outputs a data output signal for each temperature value and malfunction of the water tank heater and the discharge pipe heater detected by the sensing unit 410, and displays the respective arrangement positions.

In addition, the heater control unit 430 controls the output temperature of the discharge tube heater 310 according to the water temperature of the discharge pipe 300 detected by the detection unit 410. At this time, the heater control unit 430 is set to control the output temperature of the discharge pipe heater 310, the water according to the data output signal for each temperature value, malfunction of the water tank heater detected by the detection unit 410 Of course, the output temperature of the tank heater 120 can also be controlled.

In addition, the remote controller 440 transmits a data output signal of a temperature value and malfunction of each heater, which is the output of the detector 410, to a separate external terminal, and receives a remote control signal from the outside to the heater controller. It is a configuration to convey.

Here, the remote control unit 440 automatically discharges the discharge pipe 300 according to the data output signal for each temperature value and malfunction of the water tank heater 120 and the discharge pipe heater 310 received through the detection unit 410. The remote control signal may be transmitted to the heater control unit 430 to maintain the proper temperature of the hot water discharged through.

In addition, the controller 400 may determine the arrangement position of the malfunctioning water tank heater 120 and the discharge pipe heater 310 in real time through the display, and remotely control the discharge pipe heater 310 to the appropriate temperature It has a sustainable effect.

Meanwhile, as shown in FIGS. 8 to 10, the diaphragm 500 has a shape in which a horizontal plate 510 is filled in a space spaced apart in the vertical direction of the vertical plate 520 in the water tank 100. Combined to form a predetermined space, as shown in Figure 8, heated by the water tank heater 120 accommodated in the predetermined space, as shown in Figures 9 and 10, the penetration of the horizontal plate 510 According to the position of the through-hole of the hole and the vertical plate 520 is a structure that circulates in the form of a meandering (flowing twisted, serpentine flows like a serpentine) in the horizontal and vertical directions.

Here, the horizontal plate 510 is made of a rectangular plate-like body, as shown in Figure 9, a through hole 511 is formed on one side, spaced apart at predetermined intervals in the vertical direction, the through hole According to the position of 511, the water flows in the longitudinal direction (蛇行, tortuous, serpentine flows through the serpentine flow path) characterized in that the guide to circulate.

In addition, the vertical plate 520 is a structure that is spaced apart at predetermined intervals in the vertical direction in a state in which the rectangular plate-like body in which the through-hole 521 is formed on one side is vertically erected as shown in FIG. The structures are spaced apart at regular intervals in the horizontal direction. At this time, according to the position of the through-hole 521 of the vertical plate 520, the water flow in the horizontal direction meandering (蛇行, meandering, serpentine flows like a serpentine flow) characterized in that the guide to circulate.

The water tank heater 120 accommodated in the plate structure as described above meanders the serpentine (蛇行, meandering, serpentine, serpentine, etc.) in the horizontal and vertical directions of the water flow due to the horizontal plate and the vertical plate structure formed with the through-holes. By circulating the flow path), there is an effect of providing hot water quickly.

Hereinafter, the operation of the electric boiler according to the present invention having the configuration as described above will be described.

First, the electric boiler according to the present invention supplies water into the water tank 100 through the supply pipe 200, heats the water with a heater in the water tank 100, and discharges the heated water into the discharge pipe 300. Discharge through.

Here, the operation of supplying water into the water tank 100 through the supply pipe 200 will be described.

There is an effect of increasing the heating efficiency by reducing the flow rate of the water flowing from the water supplied from the external pump (not shown) to the screw 210 installed in the pipe of the supply pipe 200.

In addition, the operation of heating the water with a heater in the water tank 100 will be described as follows.

As shown in FIG. 4, the water in the transverse direction and the longitudinal direction depends on the position of each through hole 511 and 521 formed at one side of the horizontal plate 510 and the vertical plate 520 installed inside the water tank 100. Let the flow circulate meandering (flowing serpentine flow like snakes).

Simultaneously with the water circulation, water is heated by each water tank heater 120 accommodated in a plurality of predetermined spaces including the horizontal plate 510 and the vertical plate 520, and electrically connected to the respective water tank heaters 120. The controller 400 detects a temperature value, a malfunction, and the like of the water tank heater 120, displays the positions for each position arranged in the accommodation space, and controls the temperature value of each heater. At this time, the arrangement position of the malfunctioning water tank heater 120 in the display unit 420 configuration, there is an effect that can be easily replaced only the malfunction heater.

Then, the operation of discharging the water heated by the water tank 100 through the discharge pipe 300 will be described.

The discharge pipe heater in the controller 400 electrically connected to the discharge pipe heater 310 accommodated in the discharge pipe 300 at the same time to discharge the water passing through the diaphragm 500 of the water tank 100 through the discharge pipe 300 Detects and displays a temperature value, malfunction, etc. of the 310, and controls the temperature value of the discharge pipe heater 310. By connecting one or more discharge pipe 310 to accommodate the discharge pipe heater 310 to the connection pipe 320 to lower the temperature change caused by the malfunction of any one of the discharge pipe heater 310, and to facilitate replacement and repair It works.

On the other hand, the controller 400 transmits a data output signal of the temperature value of each heater (water tank heater, discharge pipe heater), malfunction or not to a separate external terminal, and receives a remote control signal from the outside to the heater control unit ( 430) there is an effect that can be remotely controlled to deliver.

The electric boiler according to the present invention having the above-described configuration maintains the water in the water tank at a constant temperature while heating the water in the water tank with the electric heater, and screwing the high pressure water supplied from the pump to the water tank. To increase the heating efficiency by reducing the speed of the supplied water, and detect the malfunction by using the temperature sensor of each heater installed in the water tank, and display the temperature and malfunction status by the arranged heaters, and remotely the water tank heater And the effect of controlling the discharge pipe heaters.

100: water tank 110: receiving space
120: water tank heater 200: supply pipe
210: screw 300: discharge pipe
310: discharge pipe heater 320: connector
400: controller 410: detector
420: display unit 430: heater control unit
440: remote control unit 500: diaphragm
510: horizontal plate 520: vertical plate
511,521: through hole

Claims (6)

A water tank 100 formed of a housing having a predetermined shape; A supply pipe 200 connected to a lower end of the water tank 100 and made of a pipe for supplying water into the water tank 100; A discharge pipe 300 connected to an upper end of the water tank 100 and made of a pipe for discharging water in the water tank 100; A controller 400 for sensing and controlling a temperature value and a malfunction in the water tank 100; The plate 500 is built in the water tank 100 and a plurality of horizontal plate 510 and vertical plate 520 is assembled and installed,
The horizontal plate 510 and the vertical plate 520 is a rectangular plate-shaped body with through holes 511 and 521 formed at one side thereof, and the vertical plate 520 is spaced apart in the vertical direction in the water tank 100. The horizontal plate 510 is coupled to the space to form a predetermined space, and the heater 120 is built in the predetermined space, and the water flows in the horizontal or vertical direction depending on the positions of the through holes 511 and 521. Configured to circulate meandering,
The supply pipe 200 delivers the water supplied from the outside to the water tank 100, a screw 210 for rotating the water is installed inside the pipe,
The discharge pipe 300 has a heater 310 for maintaining the temperature of the water discharged to the outside in the pipe, the connection pipe 320 for connecting the predetermined number of pipes in which the heater 310 is built is connected installation ,
The controller 400 is connected to each of the heaters 120 and 310 embedded in the water tank 100 and the discharge pipe 300, and detects the sensing unit 410 and the sensing unit 410 by a temperature sensor. The display unit 420 for displaying a data output signal sensed through the temperature value, malfunction or not by each arrangement position of the heaters 120 and 310, and each heater according to the heater temperature value sensed by the detection unit 410 Heater control unit 430 for controlling the output temperature of the sensor, and outputs a data output signal of the temperature value, malfunction of each heater that is the output of the detection unit 410 to a separate external terminal, and transmits a remote control signal from the outside An electric boiler, characterized in that consisting of a remote control unit 440 for receiving and transmitting to the heater control unit. delete delete delete delete delete

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