KR101175757B1 - A vortex flow type steam boiler - Google Patents

Abstract

The present invention is to provide a vortex-type steam boiler (1) to increase the pressure at the top of the water inside the boiler to vaporize the water at a high temperature to supply a high temperature steam.
That is, according to the present invention, in constructing a conventional steam boiler 1 in which several electrothermal heaters 5 are installed at the lower part of the main body 4 in which water is quantitatively stored, the main body 4 of the steam boiler 1 The steam boiler 1 is configured to swirl the steam in the upper water space of the inner side, and the vortex inducing piece 9 or / and the upwardly curved pair of vortices induced in a spiral form on the inner upper side of the main body 4. According to the present invention as described above, the blade 10 is fixed, and the structure is simple, but the inside of the steam boiler (1) causes the steam to swirl in the longitudinal and transverse three-dimensionally the internal pressure of the steam boiler (1) It is possible to continuously supply the steam of high temperature by the high pressure inside the main body 4, and the water molecules of the steam reduce frictional heat in the vortex induction piece 9 and / or the vortex induction blade 10. Heat efficiency It maximizes, greatly reduces the manufacturing cost and maintenance costs, and can be expected to have a number of effects, such as easy to transport and storage.

Description

A vortex flow type steam boiler

The present invention relates to a vortex type steam boiler, and more particularly, to a vortex type steam boiler capable of supplying high temperature steam by vaporizing water at a high temperature by increasing the pressure in the upper portion of the boiler.

A conventional electric steam boiler heats water stored in the main body by a heat transfer heater installed in the lower part of the main body to vaporize the water with steam at about 100 ° C., and discharges the vaporized steam to the steam supply pipe through the discharge port. After the transfer to the heat exchanger to supply the warm air to the place of use by a blower, etc., since the steam temperature at the steam boiler discharge port is approximately 100 ℃, the temperature of the steam after transferring to the heat exchanger along the steam supply pipe 100 There is a problem that the thermal efficiency drops sharply because the heat transfer temperature in the heat exchanger is much lower than ℃ ℃, in order to solve this problem, install a heat transfer heater that can heat the water at a rapid acceleration or the steam supply pipe is composed of a dual structure In order to maximize thermal efficiency by improving the insulation function, In the case of a conventional steam boiler, the heat transfer heater has to be provided for rapid acceleration heating, which leads to a disadvantage in manufacturing cost. The labor cost is high due to the material purchase cost and the complicated production of the steam supply pipe. In addition, there were a number of problems such as a significant additional cost for maintenance.

In the present invention, to solve the above-mentioned problems of the prior art, a new technology has been invented, and it is structurally complicated with the cost and high maintenance cost of the conventional steam boiler to increase the load of the device and to solve the hassle of transportation and storage. In the present invention, it is possible to continuously supply a high temperature steam from the steam boiler structurally simple, maximize the thermal efficiency, significantly reduce the manufacturing cost and maintenance costs by a simple structure, easy to transport and storage The present invention completes the problem to be solved by providing a vortex type steam boiler to be made.

As a specific means for solving the above problems of the present invention, in the present invention, the vortex type steam boiler is configured, but water is stored in the main body by a level sensor, and a plurality of electric heaters protrude inwardly under the main body. And a discharge port configured to be connected to a heat exchanger installed separately from the steam boiler at the upper part of the main body, and configured to connect the steam discharge end of the steam supply pipe for supplying steam generated from the steam boiler, wherein the steam discharged to the discharge hole is exchanged through the steam supply pipe. After the heat exchange is performed in the air conditioner, the recovery port connected to the steam recovery end of the steam supply pipe is installed to be recovered to the steam supply pipe again, and the water supply pipe having an opening / closing valve is installed so as to supply water to the inside of the main body. In a conventional steam boiler, the steam boiler The upper side of which is provided with a spiral vortex induction piece whose one end is fixed to the upper part of the main body so as to swirl the steam generated in the water upper space inside the main body of the main body, or the pair is fixed to face the upper both sides of the inner side of the main body It is characterized in that it is provided with a curved vortex induction blade, or the vortex induction piece and the vortex induction blade at the same time.

According to the specific means for solving the above problems, by installing a spiral vortex guide piece and a pair of vortex guide blades upwardly curved in the upper water space inside the conventional steam boiler, the steam inside the steam boiler is structurally simple. The internal pressure of the steam boiler can be increased by vortexing in the longitudinal and transverse three-dimensional directions, and the high pressure inside the main body can continuously supply steam at a higher temperature than the conventional steam boiler. When the water molecules are raised, they are hit by the vortex induction piece and / or the vortex induction blade to generate frictional heat, thereby maximizing the overall thermal efficiency by doubling the heat of steam, and drastically reducing the cost of manufacturing cost and maintenance. To facilitate transportation, storage and storage. The effect of the invention.

Figure 1 is a schematic view showing a cross-sectional view showing a preferred example of the present invention using a heat exchanger schematically connected to the steam supply pipe
2 is a side cross-sectional view of the present invention
3 is a plan cross-sectional view of the present invention.
Figure 4 is an enlarged perspective view of the vortex induction piece of the present invention
Figure 5 is an enlarged perspective view of the vortex induction wing of the present invention

Referring to the present invention in more detail with reference to the drawings as follows.

The present invention relates to a steam boiler (1) connected to the steam supply pipe (2) for supplying steam to use the heat of steam in the heat exchanger (3) as shown in Figure 1, the steam boiler ( 1) is a main body 4 in which water is stored in a predetermined amount by the water level sensor 4a installed in the upper part, and several electric heaters protruding inward so that heat is generated when power is supplied to the lower part of the main body 4 ( 5) and a discharge port 6 installed to connect the steam discharge end of the steam supply pipe 2 to supply the steam generated therein to the heat exchanger 3 through the steam supply pipe 2 above the main body 4; In order to be connected to the steam recovery end of the steam supply pipe 2, steam is discharged to the discharge port 6 under the main body 4 and is recovered to the main body 4 after heat exchange in the heat exchanger 3 through the steam supply pipe 2. Water inside the main body 4 in the recovery port 7 provided and the main body 4 side. It is configured to be in communication so as to supply water when it is reduced and consists of a water supply pipe (8) provided with an on-off valve (8a).

The present invention is configured to be fixed to one end of the vortex induction piece (9) on the upper portion of the main body 4 in the upper space of the inner water of the steam boiler (1) body 4 made as described above, the vortex induction piece (9) 4 is formed in a spiral shape gradually narrowing like a pig's tail as shown in FIG. 4, and when the steam generated while the water is vaporized by the heat transfer heater 5 rises, it forms a vortex in the vortex induction piece 9. And a pair of vortex induction blades 10 opposed to the upper both sides of the inner side of the main body 4 are fixed, but the vortex induction blade 10 is formed in a substantially right triangle as shown in FIG. It is configured to be bent upward and fixed to the inner surface of the main body 4, such as welding, when the steam generated while the water is vaporized by the heat transfer heater (5) rises a part of the steam is the vortex induction blade (10) Inside of Swirl in the longitudinal direction on the curved surface of the upper and lower, and the other part of the steam swirls in the transverse direction of the wide inner surface of the left side from the narrow inner surface of the right side of the vortex induction wing 10 so that the steam swirls three-dimensionally in the upper space of the water It can lead to better steam vortex.

When the vortex induction piece 9 and the vortex induction blade 1 are installed together inside the main body 4 as described above, the vortex of the steam can be best induced, but in some cases the vortex inside the main body 4 Only the guide piece 9 may be installed, or only the vortex guide vane 10 may be installed in consideration of manufacturing convenience and cost reduction.

As described in more detail the operation of the vortex type steam boiler 1 of the present invention configured as described above to increase the pressure in the steam boiler 1 to increase the vaporization temperature of the water to be steam and the temperature of the vaporized steam In the present invention, one end of the spiral vortex induction piece 9 in the form of a spiral on the water upper space inside the main body 4 of the steam boiler 1 is fixed to the upper part of the main body 4 or the upward curved vortex induction wing ( 10) is fixed to the inside of the main body (4) or the vortex induction piece (9) and the vortex induction blade (10) is fixed to the inside of the main body (4), and then the heat transfer configured to project inward to the lower body (4) While supplying power to the heater (5) to generate electric heat to vaporize the water, while the vaporization temperature of the conventional steam boiler (1) is about 100 ℃ in the present invention, the steam generated by the vaporization of the water is vortex induction piece (9) ) And / or by vortex induction vanes (10) By the swirling in the upper portion of the main body 4, the pressure inside the main body 4 is increased by the vortex of the steam, the water is 100 ℃ when the pressure inside the main body 4 of the steam boiler 1 rises It is not vaporized at about 120 ~ 130 ℃, the temperature of the steam discharged to the discharge opening 6 when the vaporization temperature rises to 120 ℃ is about 120 ~ 130 ℃ elevated 20 ~ 30 ℃ from the existing 100 ℃ higher temperature Steam is supplied to the heat exchanger (3) through the discharge port (6) and the steam supply pipe (2), and together with the water molecules containing steam as the steam rises vortex induction piece (9) and / or vortex Since the friction force is generated by hitting the induction blade 10 to generate friction heat, the temperature of the steam inside the main body 4 is further improved to supply the heat exchanger 3 through the discharge port 6 and the steam supply pipe 2. Inside the heat exchanger (3) 2) This heat dissipates high, which maximizes thermal efficiency.

The principle of raising the vaporization temperature by raising the internal pressure of the steam boiler 1 by the vortex induction piece 9 or / and the vortex induction blade 10 is thermodynamically in accordance with Boyle-Charles's law. Is a combination of Boyle's law that the gas pressure is inversely proportional to the volume at a constant temperature and Charles' law that the volume of the gas is proportional to the increase in temperature at a constant pressure. When changing at the same time, it shows the relationship between them. When the volume of gas is V, the pressure of gas is P, and the temperature of gas is T, the formula is expressed as "PV / T = k (constant gas constant)". In the above formula, since the pressure P and the temperature T are proportional to each other, the internal volume of the main body 4 of the steam boiler 1 is constant, so that the temperature increases when the pressure increases, and the present invention is based on the natural law. In the inside of the steam boiler (1) is provided with a vortex induction piece (9) and / and vortex induction blade (10) to swirl the steam so that the conventional vaporized steam is discharged to the discharge port (6) as a vortex Due to the increase in the internal pressure of the steam boiler (1) to increase the vaporization temperature required to vaporize the water to the steam, the water is vaporized at a higher temperature to generate hot steam, thereby maximizing thermal efficiency, In order to maximize the thermal efficiency, the steam boiler 1 is not significantly improved, or the steam supply pipe 2 is constituted by a double pipe structure, or the steam heater is not provided with an expensive heat transfer heater 5 which is rapidly heated. Only the vortex induction piece 9 or / and the vortex induction blade 10 to induce steam to swirl inside the body 1 is fixed to the inside of the main body 4 However, it is possible to eliminate the cost, trouble and difficulty of manufacturing and repairing.

Detailed description of the present invention has been described with respect to specific embodiments, it is possible to appropriate changes within the scope without departing from the technical scope of the present invention. Therefore, the protection scope of the present invention is not limited to the embodiments described in the detailed description above, it will be said that the protection scope also extends to the equivalent means associated with the claims to be described later.

1: Steam boiler 2: Steam supply pipe
3: heat exchanger 4: body
4a: Water level sensor 5: Electric heater
6: Discharge outlet 7: Collection hole
8: Water supply line 8a: Opening and closing valve
9: vortex induction flight 10: vortex induction wing

Claims (3)

In a conventional steam boiler (1) in which several electrothermal heaters (5) are provided in a lower part of a main body (4) in which water is quantitatively stored therein;
The steam boiler 1 is configured to swirl the steam on the upper water space inside the main body 4 of the steam boiler 1,
Vortex type steam boiler, characterized in that one end of the vortex induction piece (9) formed in a spiral form on the main body (4) is fixed.
In a conventional steam boiler (1) in which several electrothermal heaters (5) are provided in a lower part of a main body (4) in which water is quantitatively stored therein;
The steam boiler 1 is configured to swirl the steam on the upper water space inside the main body 4 of the steam boiler 1,
Vortex type steam boiler, characterized in that the pair of vortex induction blades (10) consisting of a right triangle that is upwardly curved on both upper sides of the inner body (4) is configured to face opposite.
In a conventional steam boiler (1) in which several electrothermal heaters (5) are provided in a lower part of a main body (4) in which water is quantitatively stored therein;
The steam boiler 1 is configured to swirl the steam on the upper water space inside the main body 4 of the steam boiler 1,
One end of the vortex induction piece 9 formed in a spiral form on the main body 4 is fixed,
Vortex type steam boiler, characterized in that the pair of vortex induction blades (10) consisting of a right triangle that is upwardly curved on both upper sides of the inner body (4) is configured to face opposite.

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