KR200179647Y1 - Electric boiler - Google Patents

Abstract

The present invention relates to a late-night electric boiler that has a sufficient amount of heat storage and its size is significantly reduced so that it can be efficiently installed in a narrow space.

According to the present invention, the storage tank 10 is stored in the heat medium oil, the heat transfer means 11 is installed in the storage tank 10 to heat the heat medium oil, and the circulation path 31 connected to the storage tank 10 The heat medium pump 33 is installed in the heat medium oil circulation part 30 for circulating the heated heat medium oil, the heat exchanger 20 provided in the heat medium oil circulation part 30, and the heat exchanger 20. And a heating part 40 provided with a heating pump 43 on the circulation path 41 arranged along the heating section, and a hot water supply part arranged to pass through the heat exchanger 20 to heat and discharge water of tap water ( 50 and a midnight electric boiler, characterized in that the control unit 60 is connected to the heat transfer means 11 and the heat medium pump 33 and the heating pump 43 to control the operation thereof.

Description

Electric boiler

The present invention relates to an electric boiler, and more particularly, to a late-night electric boiler that can be installed efficiently even in a narrow space because the size is significantly reduced while having a sufficient amount of heat storage.

In general, the late-night electric boiler heats the heating medium by using electricity supplied to the late-night (22:00 to the next day 08:00), which has relatively low electricity consumption, and uses the heat accumulated in the heating medium to heat the next day. It is a boiler that can be used safely because it can reduce the heating cost by using the midnight electricity, and can prevent the explosion and gas poisoning such as gas or oil boiler.

However, since the conventional late-night electric boiler usually uses water as its heat medium, its temperature is difficult to rise above 100 ° C., so that the storage tank capacity of the boiler must be large enough to meet the heat requirements for the next day's heating. . In fact, a 35-square-foot house required a storage tank of about 2700 liters (13.5 drums).

Therefore, the late-night electric boiler requires a large area boiler room for installing a storage tank of 2700ℓ, there is a difficulty in construction because a lot of effort and manpower is consumed to construct such a large boiler. In addition, in order to manufacture a large storage tank, there are various problems such as waste of such materials.

The present invention is to solve the above problems, the object of the present invention is to reduce the size of the storage tank can be regenerated enough heat to heat the next day even with a small amount of heat medium oil, thereby reducing the material and It is to provide an electric boiler that can be easily installed and efficiently installed in a narrow space.

1 is a cross-sectional view of a late-night electric boiler according to the present invention

2 is a conceptual diagram of a late-night electric boiler according to the present invention

3 is a conceptual diagram according to the heating mode of the late-night electric boiler according to the present invention

4 is a conceptual diagram according to the hot water mode of the late-night electric boiler according to the present invention

<Explanation of symbols for main parts of the drawings>

10: storage tank 11: heat transfer means

15: first sensor 20: heat exchanger

22: heating unit 25: third sensor

30: heat medium oil circulation part 33: heat medium pump

40: heating part 43: heating pump

45: second sensor 50: hot water supply unit

According to the present invention, the storage tank 10 is stored in the heat medium oil, the heat transfer means 11 is installed in the storage tank 10 to heat the heat medium oil, and the circulation path 31 connected to the storage tank 10 The heat medium pump 33 is installed in the heat medium oil circulation part 30 for circulating the heated heat medium oil, the heat exchanger 20 provided in the heat medium oil circulation part 30, and the heat exchanger 20. And a heating part 40 provided with a heating pump 43 on the circulation path 41 arranged along the heating section, and a hot water supply part arranged to pass through the heat exchanger 20 to heat and discharge water of tap water ( 50 and an electric boiler is provided, which is connected to the heat transfer means 11, the heat medium pump 33, and the heating pump 43, and the control unit 60 controls the operation thereof.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

2 is a conceptual diagram of a late-night electric boiler according to the present invention. Referring to this, the late-night electric boiler heats the heat medium oil in the storage tank 10 by the heat transfer means 11, and passes the heat medium oil to the heat exchanger 20 while heating unit 40 and the hot water supply unit 50. ) To heat the water.

The storage tank 10 is different depending on the heating capacity and the hot water supply capacity, but in the case of a 35-bed house, about 1000 L is required, and the heat medium oil, which can be heated to approximately 280 ° C, is stored in the storage tank 10. In addition, the storage tank 10 is provided with a heat transfer means 11 and a first sensor 15 for sensing the temperature of the heat medium oil, respectively, operated by a late-night electricity.

The heat transfer means 11 is connected to the first sensor 15 and the control unit 60 of the storage tank 10, respectively, and powered only during the late night (22:00 to next day 08:00) time by the timer of the control unit 60. It is supplied and operated to heat the heat medium oil so that the temperature of the heat medium oil detected from the first sensor 15 of the storage tank 10 is maintained between the set maximum temperature and the set minimum temperature.

The heat medium oil circulation part 30 includes a circulation path 31 for returning the heat medium oil of the storage tank 10 back to the storage tank 10 through the heat exchanger 20, and a heat medium installed in the circulation path 31. It consists of a pump 33. At this time, the heat medium pump 33 is connected to the second sensor 45 installed in the heating section and the third sensor 25 installed in the heat exchanger 20 are operated while being controlled in accordance with the signal.

The heat exchanger 20 is provided with a coil-type heating part 22 connected to the heat medium oil circulation path 31 in a rectangular or cylindrical container 21, and a hot water supply path 51 inside the coil-type heating part 22. Coil 23 having a small diameter connected to the () is provided to thereby heat the water in the hot water mode. In addition, the water circulating in the heating path 41 is heated by the coil-type heating part 22 while passing through the inside of the container 21 of the heat exchanger 20. In addition, the heat exchanger 20 is provided with a third sensor 25 for sensing the temperature inside the vessel (21).

Therefore, the electric boiler heats the heat medium oil in the storage tank 10 by operating the heat transfer means 11 at a late night (22:00 to next day 08:00) time zone by the timer of the controller 60. , And is heated until the temperature of the heat medium oil detected by the first sensor 15 installed in the storage tank 10 reaches the set maximum temperature. Even during such a late night, when the temperature of the heat medium oil becomes lower than the set minimum temperature by heating and hot water supply, the heat transfer means 11 is operated again to heat the heat medium oil. Thus heated heating oil is heated and hot water for the daytime through the heat exchanger (20).

In addition, in the heating mode, the midnight electric boiler, as shown in FIG. 3, when the room temperature detected from the second sensor 45 installed in the heating section is lower than the set minimum temperature, the heat medium pump 33 and the heating pump ( 43) is operated at the same time, the heat transfer oil of the storage tank 10 and the water of the heating path 41 passes through the heat exchanger 20 to heat exchange with each other to warm the heating section. In this process, when the room temperature detected by the second sensor 45 reaches a set maximum temperature, the heat medium pump 33 and the heating pump 43 are stopped to stop heating.

Therefore, the electric boiler heats the water circulating in the heating unit 40 while the heat medium oil heated to a high temperature passes through the heat exchanger 20 from the storage tank 10, so only the heated water circulates in the heating unit 40. It can be used safely.

As shown in FIG. 4, the midnight electric boiler in the hot water mode is heated and discharged while the water supplied from the tap water passes through the heat exchanger 20, and at this time, the third sensor 25 installed in the heat exchanger 20. When the internal temperature of the heat exchanger 20 detected from the temperature becomes lower than the set minimum temperature, the heat medium pump 33 is operated to pass the heated heat medium oil to the heat exchanger 20 to heat the water of tap water. In this state, when the temperature detected from the third sensor 25 reaches the set maximum temperature again, the heat medium pump 33 is stopped to stop the circulation of the heat medium oil supplying heat to the heat exchanger 20. By repeating this cycle, hot water within a predetermined temperature range is continuously supplied.

As described above, according to the present invention, the electric boiler can accumulate enough heat required for heating the next day even with a small amount of heat medium oil, so that the size of the storage tank 10 is significantly reduced, thereby saving material and construction. This convenient and narrow space can be efficiently installed.

Claims (1)

The heat medium pump 33 is installed on the storage tank 10 in which the heat medium oil is stored, the heat transfer means 11 installed in the storage tank 10 to heat the heat medium oil, and the circulation path 31 connected to the storage tank 10. ) Is installed and passes through the heat medium oil circulation part 30 for circulating the heated heat medium oil, the heat exchanger 20 installed in the heat medium oil circulation part 30, and the heat exchanger 20 and along the heating section. A heating part 40 provided with a heating pump 43 on the circulation path 41 arranged thereon, a hot water supply part 50 arranged to pass through the heat exchanger 20 to heat-discharge water of tap water, and the An electric boiler, characterized in that consisting of a control unit (60) connected to the heat transfer means (11) and the heat medium pump (33) and the heating pump (43) to control its operation.