KR20160075460A - Hot water heating apparatus having a ceramic heater - Google Patents

Abstract

Disclosed is a water heating device that can be controlled in various manners and has heating efficiency increased by allowing the whole heating surface of a heater to be in contact with water. The water heating device according to the present invention comprises: a ceramic heater; and a housing accommodating the ceramic heater and having a water inlet and a water outlet formed therein. The ceramic heater includes: a plate-shaped ceramic plate having multiple heating wires arranged therein; multiple terminals for supplying power to the multiple heating wires respectively; and a control part having the multiple terminal connected thereto and controlling the power supplied to the multiple heating wires. The multiple heating wires include a first heating wire and a second heating wire. The first heating wire and the second heating wire are arranged above and below the ceramic plate respectively or are arranged on one side surface and the other side surface of the ceramic plate respectively. The multiple terminals include a first terminal for supplying power to the first heating wire and a second terminal for supplying power to the second heating wire. The control part supplies first set power and second set power, which are different from each other, to the first heating wire and the second heating wire respectively. The first heating wire is arranged above the ceramic plate, and the second heating wire, the water inlet and the water outlet are arranged below the ceramic plate, or the first heating wire and the water inlet are arranged on one side surface of the ceramic plate, and the second heating wire and the water outlet are arranged on the other side surface of the ceramic plate. The first set power may be higher than the second set power.

Description

[0001] HOT WATER HEATING APPARATUS HAVING A CERAMIC HEATER [0002]

The present invention relates to a hot water heating apparatus having a ceramic heater.

1 is a cross-sectional view of a conventional hot water heating apparatus having a ceramic heater.

1, a hot water heating apparatus 1 includes a housing 10, a ceramic heater 20 mounted in the housing 10, and a fixing member 30 for fixing the ceramic heater 20 to the housing 10, .

The housing 10 and the ceramic heater 20 are formed in a cylindrical shape, and are usually disposed coaxially. The fixing member 30 is provided with an inlet port communicating with the inside of the ceramic heater 20, and a housing 10 has a outlet port. Therefore, the water that has entered the inlet port flows through the inside of the ceramic heater 20, flows along the outside of the ceramic heater 20, and is discharged through the outlet port. When the water flows inside the ceramic heater 20, it contacts the inner wall of the ceramic heater 20 and is heated. When the water flows outside the ceramic heater 20, the water contacts the outer wall of the ceramic heater 20, This heated water is discharged to the outlet.

However, since the water flowing through the heater does not sufficiently contact the heating surface of the heater, and only one heating wire is disposed in the heater, efficient control can not be performed, and heat is wasted there is a problem.

The present invention has been devised to solve the problems of the related art, and it is an object of the present invention to provide a heater capable of diverging different amounts of heat depending on a part of a heater, And an object of the present invention is to provide a hot water heating device provided with the hot water heating device.

According to an aspect of the present invention, there is provided a ceramic heater including a ceramic heater, and a housing having an inlet and an outlet, wherein the ceramic heater has a plate-like ceramic And a control unit for controlling power supplied to the plurality of heating wires, the plurality of heating wires being connected to the plurality of heating wires, the plurality of heating wires being connected to the plurality of heating wires, Wherein the first and second heat lines are respectively disposed on the upper and lower portions of the ceramic plate or on one side and the other side of the ceramic plate respectively, And a second terminal for supplying electric power to the second hot wire, wherein the control unit controls the first heating wire and the second heat wire Wherein the first heating line and the second heating line are disposed on the ceramic plate, respectively, and the second heating line, the inlet and the outlet are disposed on the lower portion of the ceramic plate, The hot wire and the inlet port are disposed on one side of the ceramic plate, the second hot line and the outlet port are disposed on the other side of the ceramic plate, and the first set power may be higher than the second set power.

A flow path forming plate may be installed in the housing so as to form zigzag flow paths on both side surfaces of the ceramic heater.

According to the present invention, by arranging a plurality of heat lines in a heater and applying different electric power to a plurality of heat lines, it is possible to divert different amounts of heat depending on the portions of the heaters, and various controls can be performed, and a zigzag flow path is formed on the heat- So that water is brought into contact with the entire surface of the heater, thereby improving the heating efficiency.

1 is a cross-sectional view of a conventional hot water heating apparatus having a ceramic heater.
2 is a side view of a ceramic heater 100 according to an embodiment of the present invention.
3 is an exploded perspective view of the hot water heating apparatus 200. As shown in Fig.
4 is a sectional view of the housing 180. Fig.
5A is a cross-sectional view of the hot water heater 200, and FIG. 5B is a cross-sectional view taken along the line AA of FIG. 5A.
6 is a plan view of a ceramic heater 100 according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a side view of a ceramic heater 100 according to an embodiment of the present invention. 2, the ceramic heater 100 includes a ceramic plate 120, a terminal 140, and a fixing member 160.

The ceramic plate 120 is formed in a plate shape, and a plurality of heat lines 130 are disposed therein. 2, the plurality of heat lines 130 includes a first heat line 132 disposed on an upper portion of the ceramic plate 120 and a second heat line 134 disposed on a lower portion of the ceramic plate 120.

A plurality of terminals 140 for supplying electric power to the plurality of heat lines 130 are installed on one side of the ceramic plate 120. 2, the plurality of terminals 140 includes a first terminal 142 for supplying power to the first heating wire 132 and a second terminal 144 for supplying power to the second heating wire 134. [ The plurality of terminals 140 are respectively connected to a control unit (not shown) so that power supplied thereto can be controlled.

The ceramic plate 120 and the terminal 140 are attached to the fixing member 160. When the fixing member 160 is mounted on the housing 180 described later, the ceramic plate 120 can be received inside the housing 180.

3 is an exploded perspective view of the hot water heating device 200 including the ceramic heater 100 and the housing 180. As shown in Fig. As shown in FIG. 3, the inlet 182 and the outlet 184 are disposed below the housing 180. A plurality of flow path forming plates 186 are formed in the housing 180. The flow path forming plates 186 are arranged at regular intervals in pairs at intervals of the thickness of the ceramic plate 120. Therefore, when the ceramic plate 120 is inserted into the housing 180, the flow path plate 186 is disposed on both sides of the ceramic plate 120.

Fig. 4 shows a cross-sectional view of the housing 180. Fig. 4, the flow path forming plate 186 provided inside the housing 180 is formed by alternately arranging a partition plate 186a extending from one end and a partition plate 186b extending from the other end, The diaphragm 186a is disposed apart from the other end, and the diaphragm 186b extending from the other end is disposed apart from one end.

5A is a cross-sectional view of a hot water heating apparatus 200 in which a ceramic heater 100 is mounted on a housing 180. FIG. As shown in FIG. 5A, the water flowing into the lower inlet 182 flows upward along the zigzag flow path formed by the flow path forming plate 186. Because water moves zigzag on one side of the ceramic plate 120, water can be heated while contacting the entire surface of one side of the ceramic plate 120. 5B is a cross-sectional view taken along line A-A of FIG. 5A. Referring to FIG. 5B, the water moved upward from one side of the ceramic plate 120 moves to the other side of the ceramic plate 120. Since the zigzag flow path is formed on the other side surface of the ceramic plate 120 by the flow path forming plate 186 like the one side surface of the ceramic plate 120, water contacts the entire surface of the other side surface of the ceramic plate 120 Heated, and then discharged to the outlet 184.

On the other hand, different power is supplied to the first heat line 132 disposed on the upper portion of the ceramic plate 120 and the second heat line 134 disposed on the lower portion of the ceramic plate 120. The electric power applied to the first heat line 132 on the upper portion of the ceramic plate 120 is lower than the electric power applied to the second heat line 134 below the ceramic plate 120 on which the inlet 182 and the outlet 184 are disposed Can be greatly increased. For example, a power of 300 W may be applied to the second heat line 134 below the ceramic plate 120, and a power of 500 W may be applied to the first heat line 132 above the ceramic plate 120. By applying the electric power as described above, the water is heated to a certain temperature with a relatively low heat quantity in the vicinity of the inlet 182, and then heated to a high temperature close to the set temperature while flowing on the upper part of the ceramic plate 120, It may be heated to a set temperature at a low calorie quantity in the vicinity of the outlet 184 and then allowed to exit at the outlet 184.

That is, a plurality of heat lines 130 are disposed on one ceramic plate 120, and different power is supplied to each ceramic plate 120, thereby efficiently transmitting heat and reducing power consumption.

On the other hand, it is necessary to control so that the sum of the power applied to the first heating line 132 and the power applied to the second heating line 134 does not exceed the maximum power consumption. For example, in the European CE certification test, the EMI test items include flicker test and harmonic test. This test tests the influence of the surrounding environment by power consumption. To pass the test, a product using a heater for hot water heating The capacity of the heater is limited. For example, in an instantaneous hot water heater, a heater exceeding 800 W can not be used to satisfy the performance. Therefore, a condition satisfying the test can be obtained by setting the sum of the powers applied to the plurality of heat lines 130 not to exceed 800 W.

6 is a plan view of a ceramic heater 100 according to another embodiment of the present invention. 6, a plurality of heat lines 130 disposed inside the ceramic plate 120 are divided into a first heat line 132 disposed on one side of the ceramic plate 120 and a second heat line 132 disposed on the other side of the ceramic plate 120. [ And a second heat line 134 disposed on the side surface. A plurality of terminals 140 for supplying electric power to the plurality of heat lines 130 are installed on one side of the ceramic plate 120. The plurality of terminals 140 includes the first terminal 142 for supplying electric power to the first hot wire 132 and the second terminal 144 for supplying electric power to the second hot wire 134. This is because, .

In the same manner as in the above-described embodiment, the power to be applied to the first heat line 132 and the second heat line 134 is controlled differently, thereby efficiently transmitting heat and reducing power consumption. The second heating line 134 on the other side of the ceramic plate 120 on which the outlet 184 is disposed is higher than the power applied to the first heating line 132 on one side of the ceramic plate 120 on which the inlet 182 is disposed. Can be increased. By applying the electric power as described above, the water is heated to a certain temperature at a relatively low heat quantity in the vicinity of the water inlet 182, heated to a set temperature at a high heat quantity in the vicinity of the water outlet 184 and then exited to the water outlet 184 can do.

In addition, as in the above-described embodiment, thermal efficiency can be increased by being heated while being in contact with all the surfaces of both sides of the ceramic plate 120 while flowing zigzag along the flow path formed by the flow path forming plate 186 of the housing 180.

However, the present invention is not limited to this, and it is possible to arrange three or more heat wires so as to radiate different amounts of heat for each of the heaters to perform various controls to increase the thermal efficiency .

100 Ceramic Heater 120 Ceramic Plate
130 heat line 140 terminal
160 fastening member 180 housing
182 Inlet 184 Outlet
186 Euro forming plate

Claims (2)

Ceramic heater, and
And a housing accommodating the ceramic heater, the housing having an inlet and an outlet,
The ceramic heater includes: a plate-shaped ceramic plate having a plurality of heat lines arranged therein; a plurality of terminals for supplying electric power to the plurality of heat lines; and a control unit for controlling the electric power supplied to the plurality of heat lines And a controller,
The plurality of heat lines may include a first heat line and a second heat line, and the first heat line and the second heat line may be disposed on upper and lower portions of the ceramic plate, respectively, ,
The plurality of terminals having a first terminal for supplying electric power to the first hot wire and a second terminal for supplying electric power to the second hot wire,
The control unit supplies a first set power and a second set power, which are different from each other, to the first heat line and the second heat line,
Wherein the first heat line is disposed on an upper portion of the ceramic plate and the second heat line and the inlet and outlet are disposed on a lower portion of the ceramic plate, the first heat line and the inlet are disposed on one side of the ceramic plate, The hot wire and the outlet are disposed on the other side of the ceramic plate,
Wherein the first set power is higher than the second set power. The method according to claim 1,
Wherein a flow path forming plate is installed inside the housing to form zigzag flow paths on both side surfaces of the ceramic heater.

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