KR20210058009A - heater assembly for an electic boiler - Google Patents

Abstract

According to the present invention, a heater assembly for an electric boiler comprises: a heating coil unit bent at a predetermined shape and heating or heating hot water; electric heaters installed to come in contact with an outer circumferential surface of the heating coil unit; a heat storage housing surrounding the heating coil unit and the electric heater to be fixated and made of a metal material; a supply pipe connected to the heating coil unit to supply water for heating; a discharge pipe connected to the heating coil unit to discharge the water heated by the electric heater; a fixing member installed in the discharge pipe to measure temperature of the heated water and installed in the discharge pipe to connect a leakage pipe; and a temperature detection sensor supported by the fixing member and measuring the temperature of the water discharged from the discharge pipe to the leakage pipe.

Description

Heater assembly for an electic boiler

The present invention relates to an electric boiler, and more particularly, to a heater assembly for an electric boiler for heating water to supply heating or hot water.

In general, a boiler is a device that generates heat energy using fuel and electricity such as oil and gas as an energy source, and generates heating water or hot water by heat exchange between heat energy and water. Is divided.

The combustion-type boiler using fuel such as oil and gas as an energy source generates heat energy by burning fuel by a burner, and heat exchanges water circulating through a pipe by heat energy and operation of a pump to generate heating water. . However, the combustion-type boiler has a disadvantage that productivity is greatly reduced due to its high cost because many components are used for storage, supply, combustion, and exhaust of fuel, and its structure is complicated.

In addition, in order to supply air required for combustion of the burner and to prevent gas poisoning accidents due to leakage of exhaust gas, a separate boiler room that is isolated from the heating area must be provided and installed. The length of the pipe installed between the and the heating area is complicated and lengthened, resulting in a large loss of heat energy and a problem that the workability is greatly reduced.

And, in the case of gas boilers, gas poisoning and explosion accidents due to gas leakage cause enormous loss of life and property, and thus there is a disadvantage in that operation is cumbersome and inconvenient, such as requiring periodic inspection of burners and pipes.

On the other hand, since electric boilers use electricity, which is clean energy, as an energy source, they are more convenient to install and operate than combustion-type boilers, and thus their spread is expanding.

Republic of Korea Utility Model Registration No. 019534 discloses an instantaneous heating type electric boiler heater. The posted electric boiler heater has an inlet through which water flows in, an outlet after heating, and a direct water inlet, and is composed of a rectangular body with a partition wall formed in the center, and a housing attached opposite the inner wall and the partition wall of the body. A PTC thermistor is installed in the housing through a heat sink, and a plurality of radiating fins are attached to the outside of the housing.

Since the heater as described above is installed with a PTC element in which a heat sink is installed in a housing attached to the body, it is difficult to expect heating efficiency.

In addition, the electric boiler published in Korean Patent Registration No. 10-1167631 is formed by stacking metal plates processed with a metal material, but each metal plate has a plurality of burring-processed holes or non-burring-processed holes, and the metal plate During lamination, the burring height portion of the burring-processed hole of the lower plate is brazed to be bound to the laminated upper plate to form a structure in which the heating water line and hot water lines circulate in zigzag, and these metal plates are the heating water plate, the heating water plate, and the hot water plate. And the heating plate, the heating plate, and the hot water plate are connected to a heat exchanger in which two or more heat exchangers are sequentially stacked and a primary conduction path to heat the heat exchanger.

Conventional boilers have a structure in which a heating line and a hot water line are installed on a metal plate and transfer heat to the heating line and hot water line through the metal plate, so the heat storage capacity is relatively small, and the heating efficiency of the cooling line and the hot water line is relatively low. There is a problem.

In addition, since the conventional boiler as described above cannot accurately measure the temperature of heated water, it is difficult to control the temperature of water. Therefore, there is a problem in that the internal pressure increases due to evaporation of water.

Republic of Korea Utility Model Registration No. 019534 Korean Patent Registration No. 10-1167631

The present invention is to solve the above-described problems, and by accurately measuring the temperature of water for heating or hot water using a heater, the water is steamed by overheating, thereby preventing an increase in pressure in the heating or hot water pipe. An object thereof is to provide a heater assembly for a boiler.

Another object of the present invention is to provide a heater assembly for an electric boiler capable of continuously heating water for heating or hot water by increasing a heat storage capacity, and improving a holding power according to fixing the heater and the heating tube.

The heater assembly for an electric boiler of the present invention for solving the above technical problem

Heat transfer heaters that are bent in a predetermined shape and are installed to contact the heating coil part and the outer circumferential surface of the heating coil part for heating or hot water, and the heating coil part and the heat transfer heater wrapped around and fixed to heat storage made of metal The housing, a supply pipe connected to the heating coil part to supply water for heating, a discharge pipe connected to the heating coil part to discharge water heated by an electric heater, and the heated water installed in the discharge pipe. It is for measuring the temperature, characterized by comprising a fixing member installed in the discharge pipe to connect the outlet pipe, and a temperature detection sensor supported by the fixing member to measure the temperature of water discharged from the discharge pipe to the outlet pipe. do.

In the present invention, the heating coil part is buried in the heat storage housing, and includes a heating part that is bent along a spiral trajectory so that the metal tube has a vertical internal space, and the electric heater includes the vertical internal space It is inserted into the heat storage housing, both sides of the electric heater are in contact with the metal tubes forming the heating unit, the terminal is exposed to the outside of the heat storage housing.

Since the heater assembly for an electric boiler according to the present invention can accurately measure the temperature of heated water, it is easy to control the electric heater and prevent the heating water for heating or hot water from being overheated. Alternatively, it is easy to install and maintain a temperature sensor for measuring the temperature of water of the present invention.

1 is a partially cut-away perspective view of a heater assembly for an electric boiler according to the present invention,
FIG. 2 is a perspective view showing an extract of a heating coil part of the heater assembly for an electric boiler shown in FIG. 1;
3 is a cross-sectional view showing another embodiment of the heating coil part shown in FIG. 1;
Figure 4 is a cross-sectional view showing the installed state of the temperature detection sensor according to the present invention,
5 is a perspective view showing another embodiment of a state in which a temperature detection sensor is installed.

An embodiment of a heater assembly for an electric boiler according to the present invention is shown in FIGS. 1 to 4.

Referring to the drawings, the heater assembly 10 for an electric boiler according to the present invention is mounted on an electric boiler to heat heating water or hot water, and is bent in a predetermined shape, and the heating coil unit 20 is used for heating or heating hot water. And electric heaters 30 installed so as to be in contact with the outer circumferential surface of the heating coil part, and a heat storage housing 40 made of metal and wrapped around and fixed to the heating coil part 20 and the heat transfer heater 30. .

The heating coil part 20 is buried in the heat storage housing 40, and a metal tube 21 made of aluminum, copper, copper alloy, etc. may have an internal space in which the electric heater 30 is mounted. It is coiled (banded) so that the heating unit 22 is configured. The heating part 22 may be bent in a plate shape as shown in FIG. 2 to be maintained in parallel with a predetermined distance from each other, and as shown in FIG. 3, the corresponding surface may be bent in a parallel shape. have. In this case, the width W between the corresponding parallel pipes is preferably formed to be substantially the same as the outer diameter of the electric heater 30.

One side of the metal pipe forming the heating part 22 protrudes from the heat storage housing 40 to form the supply pipe 23, and the other side of the metal pipe protrudes from the heat storage housing 40 to form the discharge pipe 24. In addition, a supply pump 50 for supplying water for heating or hot water is installed in the supply pipe 24.

The electric heater 30 is installed in the inner space of the heating unit 22, and is formed by bending a wave shape to relatively increase the contact area with the heating unit 22. The electric heater is not limited by the above-described embodiment, and may be bent in various forms for contact with the heating unit. A plurality of the electric heaters 30 may be installed, and it is preferable that both terminals of each electric heater may protrude in one direction of the outer circumferential surface of the heat storage housing 40 to supply power.

The heat storage housing 40 in which the heating part 22 is embedded is made of aluminum. The heat storage housing 40 may be manufactured by aluminum die casting. And the heat storage housing 40 is preferably manufactured in a plate shape as much as possible.

Meanwhile, a temperature detection sensor unit 60 for measuring the temperature of heated water is installed in the discharge pipe 24. In the temperature detection sensor unit 60, a fixing member 61 is formed at an end of the discharge pipe 24, and a connection passage 62 is formed in the fixing member 61 in a direction perpendicular to the discharge pipe 24, An outlet pipe 63 is installed in the fixing member 61 to communicate with the connection passage 62. And the fixing member 61 is provided with a temperature detection sensor 65 capable of detecting the temperature of the heating water discharged to the outlet pipe 63 through the discharge pipe 24, the temperature detection sensor 65 It is supported by the support cap 64 to which the fixing member 61 is coupled, and is extended and installed into the outlet pipe 64 through the connection passage 62. The temperature detection sensor 65 may be formed in a rod shape. This temperature detection sensor 65 may be made of a conventional thermocouple.

On the other hand, it is preferable to install a vortex generator 70 on the outer circumferential surface of the temperature detection sensor 65 made of a rod shape on the outer circumferential surface as shown in FIG. 5 to increase the contact force with the heated moth water. The eddy current generator 70 may be formed of a thin plate installed in a longitudinal direction or forming a spiral protrusion on the outer circumferential surface of the temperature detection sensor 65. The protrusion and the thin plate may be made of a metal having a relatively high heat transfer rate.

However, the present invention is not limited thereto, and any structure capable of sufficiently transmitting the temperature to the temperature detection sensor 65 may be used. The temperature information detected from the temperature detection sensor 65 is provided to a control unit for controlling the electric boiler and for controlling the power supply of the electric heater 30 of the heating coil unit 20 to be controlled by the electric heater 30 do.

The heater assembly for an electric boiler according to the present invention configured as described above supplies power to the electric heater 30 of the heating coil part 20 to heat and heat the heating water, and a pump installed in the supply pipe 23 As 50 is driven, heating water for heating is supplied to the supply pipe 23.

Accordingly, the electric heater 30 installed inside the heat storage housing 40 is heated, and the metal pipe 21 and the heating water passing through the inside thereof are heated by the heat generated from the electric heat heater 30. In this process, the heat storage housing 40 is heat-generated by the heat generated by the heat transfer eater.

In addition, the heating water supplied through the supply pipe 23 is heated while passing through the metal pipe 21 constituting the heating unit 22, and then through the discharge pipe 24 and the outlet pipe 63, it is not shown in the drawing. It is discharged through the heating or hot water discharge pipe. In this process, since a temperature detection sensor 65 is installed in the fixing member 61 connecting the discharge pipe 23 and the outlet pipe 63, the temperature of the heated heating water, that is, the discharged hot water or the heating water for heating. You can accurately measure the temperature of.

Since the electric heater 30 is controlled based on the measured temperature of the heating water, the temperature of the heating water can be accurately controlled, and it is overheated and vaporized by being installed in the heating unit of the heating coil unit 20 as in the prior art. Or, it is possible to fundamentally prevent a problem caused by an increase in internal pressure.

In particular, since the eddy current generation unit 70 is formed on the outer circumferential surface of the temperature detection sensor 65, the heat transfer efficiency between the heating water and the temperature detection sensor 65 can be improved, thereby increasing the reliability according to temperature detection.

As described above, since the heater assembly for an electric boiler according to the present invention can accurately control the temperature of the heating water heated by the electric heater, it is possible to fundamentally prevent trouble due to overheating of the heating water when the electric boiler is operated. .

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical idea of the appended registration claims.

Claims (3)

Heat transfer heaters that are bent in a predetermined shape and are installed to contact the heating coil part and the outer circumferential surface of the heating coil part for heating or hot water, and the heating coil part and the heat transfer heater wrapped around and fixed to heat storage made of metal The housing, a supply pipe connected to the heating coil part to supply water for heating, a discharge pipe connected to the heating coil part to discharge water heated by an electric heater, and the heated water installed in the discharge pipe. Electricity characterized in that it comprises a fixing member installed in the discharge pipe to connect the discharge pipe, and a temperature detection sensor for measuring the temperature of water discharged from the discharge pipe from the discharge pipe and supported by the fixing member for measuring the temperature. Boiler heater assembly. The method of claim 1,
The heating coil part is buried inside the heat storage housing, and has a heating part that is bent along a spiral trajectory so that the metal tube has a vertical internal space, and the electric heater is inserted into the vertical internal space to be an electric heater. The heater assembly for an electric boiler, characterized in that both sides of the heater are in contact with the metal tubes forming the heating part, and the terminals are exposed to the outside of the heat storage housing. The method of claim 1,
Heater assembly for an electric boiler, characterized in that the vortex generator is formed on the outer circumferential surface of the temperature detection sensor.

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