KR20000019843A - Rapid heater for electric boiler - Google Patents

Abstract

The present invention relates to an electric boiler, and more particularly, to a rapid heating apparatus of an electric boiler that allows hot water to be heated and circulated quickly.

The present invention is a known electric boiler in which the hot water outlet pipe (3) and the cold water inlet pipe (4) is provided at the upper and lower portions of the water tank (2), and the electric heater (5) is installed at the bottom of the water tank (2). The cylinder 11 is installed outside the heat generating rod 5a of the electric heater 5 to form the rapid heating chamber 12 inside the cylinder 11 and to form the inlet 13 below the cylinder 11. The upper end of the tube 11 is connected to the lower end of the water supply pipe 14 and the upper end of the water supply pipe 14 is configured to be installed close to the inlet side of the hot water outlet pipe 3, in the rapid heating chamber 12 Since the heated hot water is moved to the upper portion and circulated to the hot water outlet pipe (3), it is possible to supply hot water quickly in heating or hot water supply, and it is an advantageous invention that can be simply installed and used in an existing electric boiler.

Description

Rapid heating device for electric boiler

The present invention relates to an electric boiler that heats water contained in a water tank by an electric heater, and more particularly, to a rapid heating apparatus of an electric boiler that allows hot water to be rapidly circulated while allowing water close to the electric heater to be heated.

In general, boilers used for home or industrial use are divided into oil boilers, gas boilers, and electric boilers according to the way in which the heat source is supplied.

The oil boiler and the gas boiler have a large thermal power, but the heating of the water contained in the tank is easy, whereas the electric boiler takes a lot of time to heat the water.

The electric boiler is widely used because there is no danger of explosion or toxic gas and noise and odor are not generated. In particular, in recent years, a heat storage method is used by circulating hot water when needed after heating water using low-cost electric power at night. This is the preferred situation.

The heat storage type electric boiler is a hot water outlet pipe and a cold water inlet pipe connected to the upper and lower portions of the tank in which the water is contained, and the electric heater is installed at the lower side of the tank, and the water in the tank according to the operation of the electric heater. Is heated and converted into hot water.

Since the electric boiler is to be thermally stored by heating the water at the time of not using hot water by using a midnight electricity, the capacity of the tank should be secured large. Therefore, a lot of time has been consumed in order to heat the whole water in the tank by the electric heater to about 70 ° C., which is a temperature suitable for hot water circulation.

In other words, when the boiler is operated in a state where the water in the tank is cooled, it takes a certain time until the hot water is heated, and thus, a lot of time is delayed until the heating of the room is achieved by the circulation of the hot water.

The present invention has been researched and developed in order to solve the above problems, in the heat storage type electric boiler, the technical problem to be achieved by the invention to maximize the heating effect by the circulation of hot water in a short time when the boiler is operated. There was.

1 is a perspective view of a part of the present invention cut out;

2 is a side cross-sectional view of the present invention.

Figure 3 is a side cross-sectional view showing an embodiment of the present invention.

Figure 4 is a side cross-sectional view showing another embodiment of the present invention.

Figure 5 is a side cross-sectional view showing another embodiment of the present invention.

* Explanation of symbols on the main parts of the drawings

2: water tank 3: hot water outlet pipe

4: cold water inlet pipe 5: electric heater

5a: auxiliary electric heater 11: cylinder

12: rapid heating chamber 12a: induction part

13: inlet hole 14: water supply pipe

P: bulkhead H: rapid heating member

The present invention, in order to achieve the above technical problem, the hot water outlet pipe and the cold water inlet pipe is installed in the upper and lower portions of the tank containing water, respectively, in the known electric boiler equipped with an electric heater in the lower part of the tank, A rapid heating chamber is formed at an adjacent position, and a lower end portion of the upper and lower length water pipes is connected to the rapid heating chamber so that the upper end portion of the water supply pipe is installed at a position close to the inlet side of the hot water outlet pipe.

The rapid heating member is composed of a cylinder of a certain size so that the outside of the electric heater is blocked, and the inlet hole is formed at the lower end of the cylinder to allow the water in the tank to flow into the rapid heating chamber through the inlet hole.

The size of the rapid heating member may be added or reduced in proportion to the capacity of the tank, the shape may be configured in various forms, such as rectangular cylinder or cylindrical.

The inlet hole is formed below the cylinder to induce the inflow of cold water, the size and number of the present invention, the water in the rapid heating chamber starts to be heated as the electric heater is operated, the water in the heated heating chamber The hot water is circulated through the water supply pipe to reach the upper shaft of the water tank and the hot water outflow is started through the hot water outlet pipe. The entire water is heated to a constant temperature during the convection action, which flows into the feedwater and into the rapid heating chamber through the inlet hole.

Hereinafter, the constitution of the present invention and the effects thereof will be described.

1 is a perspective view in which part of the present invention is cut away, and FIG. 2 is a side cross-sectional view of the present invention.

1 and 2, the water tank 2 is formed inside the gas 1 to connect the hot water outlet pipe 3 to the water tank 2 through the water tank 2 so as to penetrate the gas (1). The cold water inlet pipe 4 is connected to the water tank 2 through the lower part of 1), and the heating rod 5a of the electric heater 5 is installed by installing the electric heater 5 at the center of the lower side of the base 1. It is installed to be located in this water tank 2.

The cylinder 11 is attached to the outer portion of the heat generating portion 5a and the rapid heating chamber 12 is formed inside the cylinder 11 to generate heat of the electric heater 5 inside the rapid heating chamber 12. By locating the rod (5a) constitutes a rapid heating member (H).

An inflow hole 13 is formed below the cylinder 11 so that the water tank 2 and the rapid heating chamber 12 penetrate.

In addition, by connecting the lower end of the water supply pipe 14 to the upper end of the tube 11 to connect the rapid heating chamber 12 and the water supply pipe 14 to penetrate, and extends the water supply pipe 14 to the upper end of the hot water It is installed to be located at the inlet side of the outlet pipe (3), that is, the upper side of the water tank (2).

The electric heater 5 installed in the rapid heating chamber 12 can be installed in the case where the capacity of the water tank 2 acts, and two can be installed in the case where the capacity of the water tank 2 is large. You can add or subtract accordingly.

The upper end of the water supply pipe 14 is preferably formed to be inclined toward the inlet side of the hot water outlet pipe 3 so that the hot water raised through the water supply pipe 13 is moved to the hot water outlet pipe 3 side.

Reference numeral 6 denotes a thermal insulation material provided on the outer wall of the water tank 2, 7a is cold water of low temperature as the water contained in the water tank 2, and 7b is hot water of high temperature as the water contained in the water tank 2.

Referring to the effects of the present invention configured as described above are as follows.

In the state before operating the electric boiler of the present invention, since the water contained in the water tank 2 is in a low temperature state, the electric heater 5 is operated to heat the water. The operation of the electric heater 5 is performed by a switch operation of a user or in accordance with a signal of a temperature sensor (not shown) which measures the temperature of water.

As the electric heater 5 is operated, the water inside the rapid heating chamber 12 which is partitioned from the water in the water supply 2 by the cylinder 11 starts to heat primarily.

Since hot water heated to a high temperature in the rapid heating chamber 12 is moved to the upper side by the convection phenomenon, the hot water is moved to the upper side through the water supply pipe 14 and then flows out to the upper side of the water tank 2, and FIG. It is in the same state.

That is, since hot water heated to a high temperature in the rapid heating chamber 12 is located on the upper side of the water tank 2 through the water supply pipe 14, the hot water stays on the upper side of the water tank 2, where the hot water outlet pipe 3 Hot water close to the inlet side is discharged for heating.

Therefore, since the hot water flowing out through the hot water outlet pipe 3 is heated in the small rapid heating chamber 12, it is possible to quickly maintain an appropriate temperature of 60 to 70 ° C before the water of the entire tank is heated above a predetermined temperature. Can be.

More specifically look at the effects of the present invention are shown in Table 1.

Table 1

As shown in Table 1, the time for heating the water at the upper side of the water tank to 60 to 70 ° C. under the same conditions of the capacity of the water tank and the heater, that is, the required time in the conventional electric boiler is 100 to 150 min. It takes 10 to 15 min.

In addition, the present invention, since the hot water is collected on the upper side of the water tank 2 and the circulation of the hot water continues to operate, the electric heater 5 continues to operate so that the water in the rapid heating chamber 12 is continuously heated to supply the air supply pipe ( 14) The water of the entire tank is heated to an appropriate temperature of 60 to 70 ° C. while the upper portion of the tank is moved to the upper portion and the cold water in the tank 2 is repeatedly introduced into the rapid heating chamber b through the inlet 13. do.

In order to heat and accumulate the water in the tank, the temperature of the water is heated to 90 ° C. by the continuous operation of the electric heater, and then the electric heater is stopped by the signal of the temperature sensor.

As an embodiment of the present invention, as shown in Figure 3, the inlet side of the hot water outlet pipe 3 is extended to the inside of the water tank 2 to form a transverse pipe (3a) so that the lower end portion in the rapid heating chamber 12 The upper end of the connected water supply pipe 14 is configured by connecting to the cross pipe 3a.

In this embodiment, since the water supply pipe 14 is directly connected to the hot water outlet pipe 3, hot water moved from the rapid heating chamber 12 is circulated through the hot water outlet pipe 3, so that hot water can be circulated more quickly. It works.

In addition, as another embodiment of the present invention, as shown in Figure 4, the upper portion of the upper portion of the rapid heating chamber 12 is formed in the lower portion and the wider induction portion 12a and the air supply pipe at the upper end of the induction portion 12a (14) connecting, and the partition wall (P) is installed at a predetermined interval to face the inlet side of the hot water outlet pipe (3) so that the upper end of the water supply pipe (14) and the inlet side of the hot water outlet pipe (3) (P) To be positioned between

In such an embodiment, the hot water heated in the rapid heating chamber 12 is smoothly moved upward by the induction part 12a, and the hot water flowing out of the water supply pipe 14 is moved by the partition P. Since the delayed and the cold water in the water tank (2) is separated, the hot water delayed in the partition (P) is circulated through the hot water discharge pipe (3) is effective to circulate the hot water quickly.

In addition, as another embodiment of the present invention, as shown in Figure 5, the auxiliary electric heater (5a) is installed in the proximity of the hot water discharge pipe (3), this embodiment is an auxiliary electric heater (5a) By primarily operating the water in the upper portion of the water tank 2 by the operation of), there is an effect that can quickly circulate the hot water.

As described above, the present invention by installing a rapid heating chamber in the existing water tank, by primarily heating the water of the rapid heating chamber by the electric heater and to move the heated hot water to the upper side of the water tank through the hot water circulation pipe The effect is that the hot water can be circulated in a short time.

In addition, the present invention is an advantageous invention that completely solves the problem of delay of the initial heating time of the heat storage type electric boiler by simply installing the state without changing the existing electric boiler structure.

Claims (4)

In a well-known electric boiler in which the hot water outlet pipe 3 and the cold water inlet pipe 4 are respectively installed in the upper and lower parts of the water tank 2, and the electric heater 5 is installed in the lower part of the water tank 2, the electric heater ( The cylinder 11 is installed outside the heat generating rod 5a to form the rapid heating chamber 12 inside the cylinder 11, and the inlet 13 is formed below the cylinder 11, and the cylinder (11) connected to the lower end of the water supply pipe (14) and the upper end of the water supply pipe (14), characterized in that the heating device for electric boilers characterized in that the installation is installed close to the inlet side of the hot water outlet pipe (3). The water supply pipe (14) is a rapid heating device for an electric boiler, characterized in that configured by connecting the upper end to the hot water discharge pipe (3). The method of claim 1, The induction part 12a is formed on the upper side of the rapid heating chamber 12, and the upper end of the water supply pipe 14 is positioned between the inlet side of the hot water outlet pipe 3 and the partition wall P. Rapid heating device. The method of claim 1, An auxiliary electric heater (5a) is installed in the position close to the inlet side of the hot water outlet pipe (3), the rapid heating device for an electric boiler.