KR101236905B1 - Electric boiler - Google Patents

Abstract

The present invention relates to an electric boiler of a novel structure that is simple in structure and capable of increasing thermal efficiency.
In the electric boiler according to the present invention, the inner space of the housing 10 is divided into a heat medium storage part 11 in which a heat medium is stored, and a water storage part 12 in which water is stored, and the housing 10 has a water storage part ( A water supply port 14a connected to the lower side of 12) and a drain port 14b connected to an upper side of the water storage unit 12 are formed, and a lower side of the water storage unit 12 through the water supply port 14a. When the water supplied to is heated to the upper side by the specific gravity difference is discharged to the hot water tank (B) through the drain pipe (22).
Therefore, the structure is not only very simple, there is no risk of leakage, there is an advantage that can be heat exchanged with the heat medium sufficiently to improve the thermal efficiency as the water is slowly circulated.

Description

Electric boiler

The present invention relates to an electric boiler of a novel structure that is simple in structure and capable of increasing thermal efficiency.

In general, the electric boiler is configured to heat the heat medium by using an electric heater and heat the water by heating the heat medium and the water using a heat exchange coil wound in a coil form.

The detailed configuration of the electric boiler is shown in detail in a number of prior documents, including the Utility Model Registration No. 20-0385858, detailed description thereof will be omitted.

On the other hand, the electric boiler is heat-exchanged while the water or the heat medium passes through the heat exchange coil having a small diameter, and the structure is not only complicated, but water or the heat medium passes through the heat exchange coil having a small diameter, so that a lot of resistance is generated and leakage may occur. There was this high issue.

In particular, since water and the heat medium pass through the heat exchange coil at a high speed, it is difficult to secure time for sufficient heat exchange between the water and the heat medium, resulting in a problem of low thermal efficiency.

Therefore, there is a need for a new method to solve this problem.

The present invention has been made to solve the above problems, and an object thereof is to provide an electric boiler having a new structure with a simple structure and high thermal efficiency.

The present invention for achieving the above object, the housing 10 is divided into a heat medium storage unit 11 and a water storage unit 12 for storing the heat medium and the heat medium, the heat medium storage unit 11 Boiler body (A) provided in the) and including an electric heater (15) for heating the heat medium; Including a hot water tank (B) connected to the water storage unit 12 through the circulation pipes (21, 22), the heat medium heated by the electric heater (15) to heat the water to heat the water The housing 10 has a water supply port 14a connected to the lower side of the water storage unit 12 and a drain hole 14b connected to an upper side of the water storage unit 12, and the circulation Pipes 21 and 22 are connected to the hot water tank (B) and the water supply port (14a) so that the water in the hot water tank (B) is supplied to the water storage unit 12, and the drain hole 14b and the hot water tank (B) by including a drain pipe 22 for discharging the water in the water storage unit 12 to the hot water tank (B), the water storage unit through the water supply pipe 21 The water supplied to the lower side of (12) is heated in the water storage unit 12 is raised to the upper side by the specific gravity difference and then discharged to the hot water tank (B) through the drain pipe (22). An electric boiler is provided.

According to another feature of the invention, the housing 10 has a lower case 13, the heat medium storage unit 11 is formed therein, and the water storage unit 12 is formed therein and the lower case 13 And an upper portion 14b positioned at an upper portion of the lower case 13, and an extended portion 13b extending through the lower surface of the upper case 14 and extending into the upper case 14. Is formed, the extension portion 13b is provided with a plurality of heat exchange tubes (13c) penetrating both sides, water stored in the water storage unit 12 passes through the heat exchange tube (13c) heat medium storage unit 11 There is provided an electric boiler, characterized in that heated by heat exchange with the heat medium stored in).

According to another feature of the invention, the boiler body (A) is composed of a plurality, each boiler body (A) is interconnected by a connecting pipe (18), the connecting pipe (18) is disposed in front An electric boiler is provided, which connects the drain port 14b of the boiler body A to the water supply port 14a of the boiler body A disposed behind.

According to another feature of the invention, further comprises a vent pipe 16 connected to the heat medium storage unit 11, the vent pipe 16 is any one of the plurality of boiler body (A) boiler body (A) And a plurality of vertical pipes 16a connected to the heat medium storage part 11 of the c) and branch branches 16b connected to each of the heat medium storage parts 11 of the remaining boiler body A by being branched into a plurality of vertical pipes 16a. An electric boiler is provided.

In the electric boiler according to the present invention, the inner space of the housing 10 is divided into a heat medium storage part 11 in which a heat medium is stored, and a water storage part 12 in which water is stored, and the housing 10 has a water storage part ( A water supply port 14a connected to the lower side of 12) and a drain port 14b connected to an upper side of the water storage unit 12 are formed, and a lower side of the water storage unit 12 through the water supply port 14a. When the water supplied to is heated to the upper side by the specific gravity difference is discharged to the hot water tank (B) through the drain pipe (22).

Therefore, the structure is not only very simple, there is no risk of leakage, there is an advantage that can be heat exchanged with the heat medium sufficiently to improve the thermal efficiency as the water is slowly circulated.

1 is a block diagram showing an electric boiler according to the present invention,
2 is a configuration diagram showing a second embodiment of the electric boiler according to the present invention.

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

Figure 1 shows an electric boiler according to the present invention, the electric boiler of the present invention is a boiler body (A) for heating water using an electric heater (15), and a hot water tank connected to the boiler body (A) B) consists of.

The boiler body (A) comprises a housing 10 and the electric heater 15, the housing 10 is an inner space of the heat medium storage unit 11 and the water storage unit 12 to store the heat medium is stored water The heater 15 is provided in the heat medium storage unit 11 to heat the heat medium.

In detail, the housing 10 has a lower case 13 in which the heat medium storage unit 11 is formed therein, and a water storage unit 12 formed therein, and is located on an upper portion of the lower case 13. It consists of an upper case 14 located.

The lower case 13 is formed in a cylindrical shape having a long front and rear and a cover 13a on the front side. The cover 13a is provided with the electric heater 15. When the power is applied to the heater, the heater generates heat and heat transfers. It is comprised so that the heat medium stored in the storage part 11 can be heated.

The upper case 14 is configured in the form of a rectangular box long forward and backward, the circumferential surface of the water inlet 14a connected to the lower side of the water storage portion 12 and the upper side of the water storage portion 12 A drain port 14b to be connected is formed.

At this time, the upper portion of the lower case 13 is formed with an extension portion 13b extending through the lower surface of the upper case 14 to the inside of the upper case 14, both sides of the extension portion (13b). A plurality of heat exchange tubes (13c) penetrating the through is provided.

Therefore, in the state in which the heat medium stored in the heat medium storage unit 11 is heated by the electric heater 15, the water stored in the water storage unit 12 exchanges heat with the heat medium while passing through the heat exchange tube 13c. Heated.

The vent medium 16 is connected to the heat medium storage part 11 to discharge steam generated while the heat medium is heated.

The vent pipe 16 penetrates the upper surface of the upper case 14 and is connected to the heat medium storage part 11 through the upper surface of the extension part 13b, and has an expansion tank 17 having a large diameter at an upper end thereof. When the heat medium stored in the heat medium storage unit 11 is heated and thermally expanded, the heat medium in the expanded amount is stored in the expansion tank 17, and steam generated in the heat medium is discharged to the outside through the vent pipe 16. .

At this time, when the level of the heat medium stored in the heat medium storage unit 11 is lowered, the heat medium may be replenished in the heat medium storage unit 11 through the vent pipe 16.

The electric heater 15 is fixed to the cover 13a of the lower case 13, and after discharging all the heat medium stored in the lower case 13 to open the cover 13a to maintain the electric heater 15 It can be repaired.

The hot water tank (B) is configured separately from the housing (10), and is connected to the water storage unit (12) through circulation pipes (21, 22).

The circulation pipes 21 and 22 are connected to the hot water tank (B) and the water supply port (14a) so that the water in the hot water tank (B) is supplied to the water storage unit 12 and, The drain pipe 14b is connected to the hot water tank B so that the water inside the water storage 12 is discharged to the hot water tank B.

In addition, the water supply pipe 21 or the drain pipe 22 is provided with a circulation pump 23, the water stored in the hot water tank (B) is supplied to the water storage unit 12 and heated in the water storage unit 12 Allow water to circulate into the hot water tank (B).

Therefore, when the circulation pump 23 and the electric heater 15 are operated, the heat medium stored in the heat medium storage unit 11 is heated by the electric heater 15, and the water stored in the hot water tank B is a water supply pipe. After being supplied to the water storage unit 12 through 21, the heat is passed while passing through the heat exchange tube 13c to raise the temperature, and then circulated to the hot water tank B through the drain pipe 22.

The electric boiler configured as described above is divided into a heat medium storage part 11 in which a heat medium is stored and a water storage part 12 in which water is stored, and an inner space of the housing 10 is disposed in the housing 10. The water supply port 14a connected to the lower side of the) and the drain port 14b connected to the upper side of the water storage unit 12 is formed, and through the water supply port 14a to the lower side of the water storage unit 12 When the supplied water is heated up by the specific gravity difference is discharged to the hot water tank (B) through the drain pipe (22).

Therefore, the structure is not only very simple, there is no risk of leakage, there is an advantage that can be heat exchanged with the heat medium sufficiently to improve the thermal efficiency as the water is slowly circulated.

In particular, the housing 10 has a lower case 13 in which the heat medium storage unit 11 is formed therein, and an upper portion of the lower case 13 in which the water storage unit 12 is formed therein. Including a case 14, the upper side of the lower case 13 is formed with an extension portion 13b extending through the lower surface of the upper case 14 into the upper case 14, the upper portion The extension part 13b extending into the case 14 is provided with a plurality of heat exchange tubes 13c penetrating both sides of the extension part 13b.

Therefore, not only the structural strength is very high, but also water is more effectively exchanged with the heat medium while passing through the heat exchange tube 13c, thereby improving thermal efficiency.

Figure 2 shows another embodiment according to the present invention, the boiler body (A) is composed of a plurality, each boiler body (A) is interconnected by a connecting pipe 18, the heating capacity of the boiler It is configured to increase.

The connecting pipe 18 is disposed to connect the water supply port 14a of the boiler body A disposed at the rear with the drain port 14b of the boiler body A disposed at the front.

At this time, the above-mentioned front does not indicate the front-back direction on a physical arrangement, but shows the side from which the water supplied from the hot water tank B is supplied first.

In addition, the water supply pipe 21 is connected to the water supply port 14a of the boiler body A disposed at the frontmost side, and the drain pipe 22 is connected to the drain port 14b of the boiler disposed at the rearmost side.

In addition, the vent pipe 16 is connected to the heat medium storage part 11 of the boiler body (A).

The vent pipe 16 is composed of a vertical pipe (16a) and a plurality of branch pipes (16b) branched to correspond to the number of the boiler body (A) at the lower end of the vertical pipe (16a), the branch pipe The lower end of 16b penetrates the upper surface of the upper case 14 and the extension part 13b and is connected to the heat medium storage unit 11 of the boiler body A, respectively.

In addition, an expansion tank 17 is provided at an upper end of the vertical pipe 16a.

Therefore, the water stored in the hot water tank (B) is supplied to the bottom of the water storage unit 12 of the boiler body (A) provided in the front is heated and discharged to the upper side of the water storage unit 12 is discharged to the rear It is supplied to the bottom of the water storage unit 12 of the boiler body (A).

Then, the water passed through the water storage unit 12 of all the boiler body (A) by repeating this process is circulated to the hot water tank (B) and stored.

And, the number of the boiler body (A) to be interconnected is appropriately adjusted according to the heating capacity of the electric boiler required.

In the electric boiler configured as described above, a plurality of boiler bodies A may be connected to each other to heat water in several stages, thereby increasing the heating capacity of the entire electric boiler.

Therefore, the heating capacity of the entire electric boiler can be adjusted by connecting a plurality of boiler bodies A without producing different electric boilers according to the heating capacity of the electric boiler required, so that the product can be standardized. As each separate electric boiler is manufactured, there is an advantage of minimizing the increase in manufacturing cost.

In addition, the connection pipe 18 connecting the water storage unit 12 of the boiler body (A) is the water supply of the drain port 14b of the boiler body (A) disposed in front and the boiler body (A) disposed in the rear Since it is configured to connect the sphere 14a, the water heated in the water storage unit 12 of each boiler body (A) is raised and then supplied to the water storage unit 12 of the boiler body (A) next time after Then, it is raised again and then supplied to the bottom of the water storage unit 12 of the boiler body (A) is repeated.

Therefore, the convection phenomenon according to the specific gravity of the water can be appropriately used to not only improve the flow of water, but also the hot water heated to the upper side of the water storage unit 12 and the water storage unit of the next boiler body (A). By repeating the supply to (12) and heating again, there is an advantage not only that the temperature of the water can be quickly increased, but also the thermal efficiency can be improved.

In addition, since the vent pipe 16 is connected to the heat medium storage unit 11 of the boiler body A which is divided into a plurality of lower ends, the boiler body A consists of a plurality of vent pipes of the respective bead degrees ( Compared with 16), the structure is simple.

In particular, since the heat medium storage unit 11 of each boiler body A is interconnected by the vent pipe 16, the heat medium stored in the heat medium storage unit 11 of each boiler body A is interchanged with each other. It is possible to uniformly control the water level of the heat medium stored in the heat medium storage unit 11 of each boiler body (A), and if the heat medium is supplied through the vent pipe 16, all the heat medium storage unit 11 at the same time inside the heat medium Since is supplemented, there is an advantage that the management of the heat medium is easy.

It will be appreciated by those skilled in the art that changes may be made to the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

A. Boiler body B. Hot water tank
10. Housing 20. Electric heater
21,22. Circulation pipe

Claims (4)

An electric heater (15) provided in the housing (10) partitioned into a heat medium storage part (11) in which a heat medium is stored and a water storage part (12) in which water is stored, and the heat medium storage part (11) to heat the heat medium. Boiler body (A) comprising; And
Including; hot water tank (B) connected to the water storage unit 12 through the circulation pipe (21, 22),
The heat medium heated by the electric heater 15 is configured to heat the water to heat the water,
The housing 10 is
A water supply port 14a connected to a lower side of the water storage unit 12,
A drain port 14b is formed to be connected to the upper side of the water storage unit 12,
The circulation pipes 21 and 22
A water supply pipe 21 connecting the hot water tank B and the water inlet 14a so that water in the hot water tank B is supplied to the water storage 12;
Including a drain pipe 22 to connect the drain port 14b and the hot water tank (B) to discharge the water in the water storage unit 12 to the hot water tank (B),
The water supplied to the lower side of the water storage unit 12 through the water supply pipe 21 is heated in the water storage unit 12 to rise to the upper side by the specific gravity difference, and then the hot water tank B through the drain pipe 22. ),
The housing 10 is
A lower case 13 in which the heat medium storage part 11 is formed;
The water storage unit 12 is formed therein and includes an upper case 14 positioned on an upper portion of the lower case 13,
An upper portion of the lower case 13 is formed with an extension part 13b extending through the lower surface of the upper case 14 and extending into the upper case 14.
The extension part 13b is provided with a plurality of heat exchange tubes 13c penetrating both sides, so that water stored in the water storage unit 12 passes through the heat exchange tube 13c and is stored in the heat medium storage unit 11. An electric boiler, characterized in that heated by heat exchange with.
delete The method of claim 1,
The boiler body (A) is composed of a plurality,
Each boiler body (A) is interconnected by a connecting pipe (18),
The connecting pipe (18) is an electric boiler, characterized in that connecting the water supply port (14a) of the boiler body (A) disposed in the rear and the drain port (14b) of the boiler body (A) disposed in the front.
The method of claim 3, wherein
Further comprising a vent pipe 16 connected to the heat medium storage unit 11,
The vent pipe 16 is branched into a plurality of vertical pipes 16a and the vertical pipes 16a connected to the heat medium storage unit 11 of any one of the boiler bodies A of the plurality of boiler bodies A. Electric boiler characterized in that it comprises a branch pipe (16b) connected to each of the heat medium storage portion (11) of the boiler body (A).

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