KR20090002513U - Boiler - Google Patents

Abstract

The present invention relates to a small electric boiler, and more particularly to a small electric boiler that is easy to handle the bubbles generated from the heater as well as no noise.

 In order to achieve the purpose is composed as follows.

Heater 4 capable of heating water in the reservoir 3, hot water heated by the heater 4 is discharged to the discharge port 5 and the discharge port 5 discharged to the hot water pipe (100) In the electric boiler comprising a water tank (10) for replenishing the water in the recovery hole (6) and the reservoir (3) where the hot water is recovered,

A sieve net 7, which serves to temporarily raise and raise bubbles due to water heating by the heater 4 or to form a large bubble by attaching several small bubbles to each other, is applied to the heater 4. It is a configuration located like wrapping the heater (4).

Description

 Small Electric Boiler {Boiler}

The present invention relates to a small electric boiler, and more particularly to a small electric boiler that is easy to handle the bubbles generated from the heater as well as no noise.

In general, an electric boiler supplies electric energy to a heater that is an electric resistor, heats water with heat generated while electricity is supplied, and then heats or heats the heat source by heat exchange while allowing the heated water to circulate the heat source. It is well known that hot water can be used directly.

Therefore, in the related art, a coil in which a resistor is built in a copper pipe or stainless steel pipe while filling an insulating magnesia is used to be bent into a desired shape. The heater is mounted in a heating chamber that heats heating water, and is mainly an input type. It is common to use.

 However, bubbles are generated in the heating water during heating of the heater. In other words, when air is generated in the pipe and the low casting, and the generated air is not discharged to the outside, the hot water does not circulate in the pipe due to the air layer, which hinders heating. Therefore, conventionally, after installing an air valve capable of discharging air in a pipe, the user periodically discharges the air using the air valve.

In addition, the heating water circulation is circulated using a forced circulation pump that generates noise. If the air layer that obstructs the circulation of the heating water is solved, that is, no air layer is generated, a small boiler does not require a circulation pump depending on the installation location. .

Reference here is the application of a small boiler (omit forced circulation pump) to the hot water pipe 100 system as shown in the city and repeated the research and experiments, as a result, when the water is blocked to prevent the flow into the heating hose pipe heating water is I learned that there is no problem in circulation.

 In addition, in the conventional coal-fired boiler, the hot water boiled in the boiler is circulated only by its own vapor pressure as a hot water circulation method by a level difference without using a forced circulation pump. Therefore, when bubbles enter the heating pipe, the bubbles impede the hot water circulation.

 An object of the present invention is to allow the bubbles generated by the heater during the hot water heating to be easily discharged to the outside of the boiler by using a strainer.

In order to achieve the purpose, it is configured as follows.

Heater 4 capable of heating water in the reservoir 3, hot water heated by the heater 4 is discharged to the discharge port 5 and the discharge port 5 discharged to the hot water pipe (100) In the electric boiler comprising a water tank (10) for replenishing the water in the recovery hole (6) and the reservoir (3) where the hot water is recovered,

A sieve net 7, which serves to temporarily raise and raise bubbles due to water heating by the heater 4 or to form a large bubble by attaching several small bubbles to each other, is applied to the heater 4. It is a configuration located like wrapping the heater (4).

According to the present invention, air is not introduced into the pipe by simply and effectively discharging bubbles generated by heating the heater to the outside simply and effectively. Therefore, there is an advantage to increase the heating efficiency because the hot water is circulated by removing the air.

 Therefore, it is a very profitable design.

1 is a perspective view of a small electric boiler of the present invention

Figure 2 is an exploded perspective view of applying a heating system to the small electric boiler of the present application to explain the small electric boiler of the present invention

3 is a cross-sectional perspective view of a side of a small electric boiler of the present invention connected to a known pipe sheared

4 is a side cross-sectional view of a small electric boiler of the present invention connecting a known pipe sheared

FIG. 5 is an explanatory view of a small electric boiler of the present invention applied to a small electric boiler according to the present disclosure to explain a small electric boiler according to the present invention.

6 is a plan view of applying a heating system to the small electric boiler of the present application to explain the small electric boiler of the present invention

7 is a perspective view for showing the front of the small electric boiler of the present application by applying a heating system to the small electric boiler of the present invention.

<Description of the symbols for the main parts of the drawings>

     3; Reservoir 4: Heater

     5; Outlet 6; Recovery

     7; Strainer 8; Secondary sieve

     10; Bucket 11; Air outlet

     12; Air outlet

The attached figure is a small electric boiler 1 of the present application, Figure 1 is a perspective view, Figure 2 is an exploded perspective view of applying a heating system to the small electric boiler of the present application to explain the small electric boiler,

3 is a cross-sectional perspective view of the side of a small electric boiler connected to a known pipe sheared, and

Figure 4 is a side cross-sectional view of a small electric boiler connected to a known pipe sheared,

FIG. 5 is an explanatory view in which a heating system is applied to a small electric boiler of the present application to explain a small electric boiler,

6 is a plan view applying a heating system to a small electric boiler to explain a small electric boiler.

In addition, Figure 7 is a perspective view for showing the front of the small electric boiler of the present application by applying a heating system to a small electric boiler.

Referring to the drawings shown in this manner is as follows.

A heater 4 capable of heating water in the reservoir 3, a discharge port 5 for discharging hot water heated by the heater 4 to be discharged to the hot water pipe 100, and the discharge port 5. In the electric boiler including a recovery hole (6) in which the discharged hot water is collected, and a bucket (10) for replenishing the water reservoir (3),

A sieve net 7, which serves to temporarily raise and raise bubbles due to water heating by the heater 4 or to form a large bubble by attaching several small bubbles to each other, is applied to the heater 4. The heater 4 is positioned to surround it.

By placing the sieve 7, the small bubbles generated by the heater 4 temporarily stagnate in the sieve 7 as shown in the enlarged part of FIG. 4, and then rise to open the air outlet 11 communicating with the reservoir 3. Through the outside.

In addition, during the stagnation process, several bubbles stick together to form large bubbles.

As a result, the rising speed is increased so that the bubbles are directed to the air outlet 11 without moving to the outlet 5 located in the horizontal direction.

If some bubbles generated in the heater 4 passes through the strainer 7 and goes to the discharge port 7, the secondary filter net 8 for blocking the bubble blocks the discharge hole 5 and the recovery hole ( 6) characterized in that installed between.

It characterized in that it has an air outlet 11 between the secondary sieve (8) and the discharge port (5) or the air generated in the bubble or hot water pipe 100 passed through the secondary sieve net.

Reference here, the electric boiler of the present application applies to the electric hot water mat. Therefore, when the mat is pressured by the user's weight, the hose is pressed, thereby forming an air layer on the hot water pipe 100. Of course, the air layer may be formed by other factors. The air layer is removed through the air outlet 12.

When the description is omitted here and briefly described, the sensing sensor for detecting the temperature of the hot water is omitted, and the control unit for supplying or controlling the current to the heater 4 is omitted.

In addition, as shown, the piping system has been applied to more easily understand the electric boiler of the present application.

In addition, the air outlet 12 which has not been described is connected to the bucket 10 so that the air is discharged to the air outlet 11 of the bucket via the bucket.

Example

As shown, the embodiment is connected to, for example, the discharge port 5 and the recovery hole 6 in the hot water pipe of the hot water mat. At this time, it is desirable to remove the residual air remaining in the pipe before the connection. Of course, residual air may be removed after the connection.

Then, after filling the reservoir and the bucket 10 with water and applying a current to the heater 4 via a control unit (not shown), the heater 4 heats the water and bubbles are generated in the heating process. However, as described above, the bubble is temporarily stagnated in the strainer as shown in the enlarged part of FIG. 4 and then rises and is discharged to the outside through the air outlet 11 via the water tank.

Also, during the stagnation process, several bubbles stick together to form large air bubbles.

As a result, the rising speed is increased so that the bubbles do not move to the discharge port 5 located in the horizontal direction.

However, even if some bubbles generated from the heater 4 pass through the sieve (7), the secondary sieve is installed between the discharge port (5) and the recovery hole (6), the bubble is turned as shown in FIG. It is discharged to the outside via 11).

In addition, even when passing through the secondary sieve (8), bubbles are discharged to the outside through the air discharge port 12 formed between the secondary sieve (8) and the discharge port (5).

As described above, the hot water heated by the heater 4 by completely filtering the bubbles passes through the strainer 7 and the secondary strainer 8, passes through the discharge port 5, and passes back through the pipe. Leads to

And the replenishment water of the reservoir 3 is supplied from the bucket (10).

In addition, as shown in Fig. 7 can be used not only connected to the pipe of the floor requiring heating, but also connected to the hot water pipes such as electric mats or blankets.

Finally, the pipe shown connects multiple strands of pipe with the boiler. The city is not related to the electric boiler and its rights, so a description thereof is omitted.

Claims (2)

Heater 4 capable of heating water in the reservoir 3, hot water heated by the heater 4 is discharged to the discharge port 5 and the discharge port 5 discharged to the hot water pipe (100) In the electric boiler comprising a water tank (10) for replenishing the water in the recovery hole (6) and the reservoir (3) where the hot water is recovered, A sieve net 7, which serves to temporarily raise and raise bubbles due to water heating by the heater 4 or to form a large bubble by attaching several small bubbles to each other, is applied to the heater 4. Small electric boiler, characterized in that positioned as surrounding the heater (4). The method of claim 1 If some bubbles generated in the heater 4 passes through the strainer 7 and goes to the discharge port 7, the secondary filter net 8 for blocking the bubble blocks the discharge hole 5 and the recovery hole ( 6) Small electric boiler, characterized in that installed between.