KR101485400B1 - Heat and open generating steam device and method - Google Patents

Abstract

The present invention relates to a method and apparatus for an open heating steam generation system, and more specifically, to a steam generation method and apparatus thereof, which saves energy, enables simple installation, reduces explosion risk, does not need fossil fuels by using electricity, and secures safety by controlling the amount of steam, as the open heating steam generation chamber uses a pipe with a heater inside. The present invention can be applied to places using steam such as a boiler, steam generator, steam cleaner, dry sauna, etc.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a method and apparatus for generating a heated open type steam. More particularly, the present invention relates to a method and apparatus for generating steam by using a pipe equipped with a heating device inside, And to a method and an apparatus for generating a heated open steam.

Generally, steam generated by heating water in a tank has been used for boiler steam generation, heating supply of a large building, steam cleaner, steam high pressure washer, steam cooking, steam room, greenhouse warming, and laundry. In the conventional steam generating apparatus for generating steam, a certain amount of steam is discharged depending on the size of the steam generating apparatus, so that energy efficiency is inferior when steam is required to a small extent.

In the prior art, Patent Publication No. 10-0971176 (Natural Gas Supply Steam Generator, Registered on Jul. 13, 2010) is related to a steam generator, and includes a steam generator (20); A water supply device (30) for supplying water to the steam device (20); A water supply start end 41 at one end is located at the bottom of the water supply device 30 and a water supply end 42 at the other end is located inside the steam supply device 20, A water supply pipe (40) for allowing water inside the steam generator (30) to be supplied into the steam generator (20); The steam supply start end 51 at one end is positioned inside the steam device 20 and the steam supply end 52 at the other end is positioned at the upper part inside the water supply device 30, A steam circulation supply pipe 50 for supplying the steam inside the water supply device 30 to the upper side of the water supply device 30 and a discharge pressure shutoff valve 80 at the end of the steam discharge pipe 21 . In addition, a check valve is provided in the water supply pipe and the steam circulation supply pipe so that the water supply pipe and the steam circulation supply pipe are opened only when pressure is applied. A pressure is set so as to perform an organic operation at a pressure equal to the difference, and the wall surface is always maintained at a high temperature by the heating medium and the generated steam is not condensed.

Such a conventional steam generating apparatus mainly fills a predetermined amount of water supplied from the outside and is directly heated by a firearm in a pressure tank, which not only increases the pressure during heating but also causes explosion and fire due to the pressure tank, .

In addition, a conventional steam generating apparatus requires a filtering device for preventing the water from being discharged in the latter half, thereby causing additional cost and safety problems.

In addition, the conventional steam generating apparatus takes time to vaporize the water in the pressure tank, and at the same time, the efficiency of heat dissipation is lowered and energy efficiency is lowered at the time of driving.

In order to solve the above-mentioned conventional problems, there has been proposed a heating-open type steam generating chamber using a pipe having a heating device mounted therein and water supplied to the steam generating chamber under the control of proper water supply, And it is not necessary to use a pressure tank by using the heated open type steam producing chamber so that it is possible to provide a safe heated open type steam which does not require the handling of explosive dangerous materials as the pressure increases during heating And a steam generator for generating a steam in the tank, and a filtering device for preventing the water from being released in the rear part is not required, so that the installation can be simplified. In the steam generator using the pressure tank, The start time is shortened only by the preheating time of the heating device in the pipe The present invention relates to an efficient steam generating method and apparatus for generating steam.

Accordingly, the present invention provides a method for generating steam by heating water supplied from the outside in order to achieve the object to be solved by the invention, the method comprising the steps of: And water is heated while flowing through pipes connected to each other to generate steam, and the amount of water supplied from the outside to the steam production chamber is controlled, and the amount of water supplied to the steam generation chamber So that the area of contact of the water with the heating part is increased.

Further, preheating is performed by using a heating device before water is supplied from the outside to the steam generating chamber.

As described above, according to the present invention,

As described above, water supplied to the steam generating chamber by the heating open type steam generating chamber using a pipe equipped with a heating device therein and control of proper water supply flows to increase the contact area with the heating device to generate efficient steam Therefore, it is possible to effectively apply the steam to the required work, and there is no need to use the pressure tank, and there is no need to handle dangerous materials, and there is no pressure accompanying the heating.

In addition, since the steam generated in the steam generating chamber is discharged, a filtering device is not required in the rear part of the steam generating chamber, so that the installation is simple and no additional stabilizing device is required.

Further, in the steam generator using the pressure tank, the time for starting the water in the tank to be converted into steam is shortened by only the preheating time of the heating device in the pipe, and steam is produced, thereby improving energy efficiency.

1 is a schematic perspective view of a heat-open steam generating chamber according to the present invention;
Fig. 2 is an example of application of a heat-open type steam generator according to the present invention; Fig.
3 is a schematic view of a radiator and a vacuum pipe of a heat-open type steam generator according to the present invention.
4 is a view illustrating an example of a socket and a heating device of a heat-open type steam generator according to the present invention.
FIG. 5 is a view illustrating an example of a combination of a pipe and a barrel control device of a heated open type steam generating method and apparatus according to the present invention; FIG.
FIG. 6 is a view showing an example of the individual engagement of the image quality control device of the heat-open type steam generator according to the present invention; FIG.
7 is a block diagram of a steam generating method using a heat-open type steam generator according to the present invention.
8 is a block diagram of a steam generator of a circulating and non-circulating device in a method and apparatus for generating heat-open steam according to the present invention.

The present invention relates to a method and apparatus for generating a heated open type steam, and more particularly, to a method and apparatus for heating open type steam generation using a pipe having a heating device installed therein, The present invention relates to a method and apparatus for generating steam that ensures energy saving and safety such as the elimination of fossil fuel using electricity, and can be efficiently applied to steam boilers, steam cleaners, and steam rooms.

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

1 is a schematic perspective view of a heat-open steam generating chamber according to the present invention,

In the steam generating chamber (S) according to the present invention, the heating device constructed in the inside of the heated open type steam producing chamber using the pipe in which the heating device is mounted is heated by the power supply, It is possible to apply the present invention to a method in which the steam is completely converted into steam by contact with the heating device while flowing to the outlet,

That is, according to the present invention, the amount of water flowing into the inlet is controlled, and at the same time, the amount of the adjusted water is supplied by the control device (1) through which the water flows and then flows through the pipe All of the ends of the steam generating chamber S are converted into steam as they come in contact with the heating device 2 mounted inside the pipe.

Therefore, the flow control device 1 for spraying water while being adjusted according to the desired amount of steam production is constituted integrally with the inflow valve 12 for supplying water and the circulation socket 13, The cylindrical pipe 4 is integrally formed with a socket 3 connecting the pipe 4 and the pipe 4 when the pipe 4 is composed of a plurality of pipes.

At this time, the electric heating device 2 is coupled to one side of the socket 3 connected to the pipe 4, and the heating device 2 is positioned inside the pipe 4, 2) is not subjected to the finishing treatment.

On the other hand, the number of the pipes 4 is not limited, but the number of the pipes 4 can be changed flexibly according to the desired steam generation amount. Further, the direction and shape of the socket 3 connecting the pipes 4 and the pipes 4 are not limited.

The discharge socket 14 is connected to the non-circulating valve 10 for discharging heated water in the heating device 2 into steam and the discharge socket 14 is connected to the pipe 4.

And a temperature sensor 5 for cutting off power to the steam generating chamber S when the temperature of the steam is higher than a predetermined temperature at one end of the cylindrical pipe 4 connected to the discharge socket 14, The length of the temperature sensor 5 can be adjusted according to the situation.

On the other hand, after the heating device 2 has been preheated, the water supplied by the material handling control device 1 is brought into contact with the preheated heating device 2, and as the water is steamed and thermally expanded, It is preferable that the distance between the device and the device 2 is 1 to 2 mm (see FIG. 6).

7 is a block diagram of a steam generating method using the steam generating chamber S according to the present invention. Referring to a steam generating method using the steam generating chamber S,

A heating device preheating step in which an electric heating device 2 mounted inside the pipe 4 is preheated;

A water supply step of supplying an amount of water corresponding to a desired amount of steam generation by an image quality control device (1) coupled to a pipe (4) equipped with the preheated heating device (2);

A steam generating step in which the supplied water is in contact with the surface of the preheated heating device 2 and is converted into steam simultaneously with expansion;

And discharging the generated steam to the discharge socket (14) to apply steam to the steam.

FIG. 2 is a diagram illustrating an application example of a heat-open type steam generator according to the present invention,

A circulation inlet valve 9 is formed at one side of the discharge socket 14 of the steam generating chamber S and is transferred to the radiator 7 through the circulation inlet valve 9.

The heat radiator 7 radiates the heat of the introduced steam to the outside. The radiator 7 is a dual tube composed of an inner tube and an outer tube. The radiator 7 generates heat in the pipe 4 of the steam generating chamber S Thereby forming a passage through which the steam is passed.

Further, between the inner tube and the outer tube, air is removed to form a vacuum, and between the inner tube and the outer tube in which the vacuum is formed is filled with an intermediate material capable of dissipating heat such as acetone and hydrogen (see FIG. 3).

And a vacuum pipe 8 connected to one side of the outer surface of the radiator 7 is integrally formed so that a heat dissipation medium between the inner pipe and the outer pipe of the radiator 7 is connected Respectively. (See Fig. 3)

At this time, it is preferable that the number of the vacuum pipe 8 connected to the radiator 7 is plural, and the number of the vacuum pipe 8 is increased or decreased according to the heat capacity of the radiator 7.

On the other hand, the inner pipe of the radiator 7 has a radiator water reservoir 6 for dissipating heat from steam to generate water and storing the generated water. At this time, a water tank steam discharge pipe (15) for a radiator for discharging steam generated additionally or remaining in addition to the water stored in the radiator water tank (6) to the outside, and an easy check of the amount of water in the water storage pipe And the water level gauge pipe 16 is configured to allow water to be replenished.

The water in the water tank 6 for the radiator is circulated through the discharge valve 11 so as to be connected to the circulation socket 13 so that the water in the water tank 6 for the radiator is re- .

In order to increase the efficiency of steam generation at this time, it is preferable that the steam generator, the radiator water reservoir 6, and the radiator 7 are sequentially positioned in order from below.

Meanwhile, the circulation inlet valve 9, the non-circulation discharge valve 10, the water tank discharge valve 11, and the inlet valve 12 can be manually operated, but can be automatically controlled.

The raw water valve 19 and the raw water reservoir 20 are added to the front end of the inflow valve 12 into which the water flows and the raw water or the pine needle And a raw water including a flavor and aroma, and the selected one raw water causes the functional steam to be generated through the steam generating chamber (S).

At this time, the present invention is not limited to the above-mentioned examples, and it is possible to change the raw water that generates various steam according to the steam desired by a typical user.

FIG. 4 is a view illustrating an example of a socket and a heating device of a heat-open type steam generator according to the present invention,

The socket 3 and the heating device 2 to be connected are connected by a female thread of the socket 3 and a male thread of the heating device 2.

FIG. 5 is a view illustrating an example of a combination of a pipe and a barrel control device of a heat-open type steam generator according to the present invention,

The pipe 4 and the grain inspection control device 1 are connected by the combination of the female thread of the pipe 4 and the male thread of the grain inspection control device 1.

FIG. 6 is a view showing an example of the individual engagement of the barrel control device of the heat-open type steam generator according to the present invention, in which the barrel control device 1 includes the male thread of the nozzle- Threaded connection.

The tip end portion of the nozzle coupling device 17 is configured to be round so as to prevent the steam from being pushed back due to additional pressure generated during production.

In addition, the nozzle coupling device 17 can be manufactured as a commercially available off-the-shelf product, which is advantageous in that it does not hinder the determination of the aperture, saves the unit cost, and easily purchases the material.

FIG. 8 is a block diagram of a steam generator of a circulation and non-circulation device in the method and apparatus for generating a heated open type steam according to the present invention.

According to the use of the heat-open type steam generator according to the present invention,

Circulation type steam generation method, non-circulation type steam generation method and non-circulation type functional steam generation method.

1) In the circulating type steam generating method, the quantity of water passing through the inflow valve 12 for supplying water and the circulating sockets 13 is regulated, and simultaneously the supply control device 1 and the cylindrical pipe 4 into the steam generating chamber S constituted by the heating device 2 contained in the socket 3 connecting the pipe 4 and the other pipe 4 and is converted into steam,

When the steam is installed at one end of the cylindrical pipe 4 connected to the discharge socket 14 of the steam generating chamber S and the temperature of the steam is higher than the temperature determined by the temperature sensor 5, And,

In the case of the steam of the appropriate temperature by the temperature sensor 5, the non-circulation discharge valve 10 coupled to the discharge socket 14 is shut off and flows through the circulation inlet valve 9, After radiating the heat of the steam in the radiator 7 including the vacuum pipe 8 for discharging the heat of the steam to the outside, it is converted into water and stored in the water container 6 for the radiator,

The water stored in the radiator water container 6 is circulated through the discharge valve 11 to the circulation socket 13 to generate steam.

2) In the non-circulating type steam generating method, an oil control device 1 for controlling and supplying the amount of water passing through the inflow valve 12 for supplying water and the circulating sockets 13, and a cylindrical pipe 4 into the steam generating chamber S constituted by the heating device 2 contained in the socket 3 connecting the other pipe 4 and converted into steam,

Circulating discharge valve 10 and the inlet valve 12 are opened and the circulation inlet valve 9 and the bucket discharge valve 10 connected to the discharge socket 14 are opened, (11) is cut off and steam is discharged to the outside of the non-circulation discharge valve (10) to generate steam.

3) In the non-circulating functional steam generating method , when the inlet valve 12, the bucket discharge valve 11, and the circulation inlet valve 9 are blocked

A raw water control device 1 for controlling and supplying the raw water contained in the raw water tank 20 containing the functional material to the circulating sockets 13 while the raw water inflow valve 19 is opened, Is introduced into the steam generating chamber S constituted by the heating device 2 contained in the socket 3 connected to the cylindrical pipe 4 to generate steam,

Is discharged to the outside of the non-circulating discharge valve (10) connected to the discharge socket (14) to generate a desired steam by the user,

A method of generating circulating steam, 2) a method of generating a non-circulating steam, and 3) a method of generating a non-circulating functional steam.

S: Steam generating room
1:
2: Heating device
3: Socket
4: Cylindrical pipe
5: Temperature sensor
6: Bucket for radiator
7: Radiator
8: Vacuum pipe
9: Flow valve for circulation
10: Non-circulating discharge valve
11: Water bottle discharge valve
12: Inflow valve
13: Inflow and circulation sockets
14: Emission and circulation sockets
15: Bucket steam discharge pipe
16: Bucket gauge tube
17: Nozzle coupling device
18: Middle socket
19: raw water inlet valve
20: The raw water bucket

Claims (5)

(1) for controlling the amount of water flowing through the inlet valve (12) for supplying water and the circulating sockets (13) and supplying the amount of regulated water;
A heating device 2 contained in a socket 3 connected to a cylindrical pipe 4 which is a passage of water supplied by the above-mentioned control device 1;
A discharge socket (14) connected to a discharge valve (10) for non-circulation for discharging heated water in the heating device (2) inside the cylindrical pipe (4)
A temperature sensor 5 installed at one end of the cylindrical pipe 4 connected to the discharge socket 14 to cut off power to the steam generating chamber S when the temperature of the steam is higher than a predetermined temperature;
A radiator (7) including a vacuum pipe (8) for introducing steam through the circulation inlet valve (9) in the discharge socket (14) and discharging the heat of the introduced steam to the outside;
A water tank steam discharge pipe 15 for discharging steam remaining outside the water generated when the heat of the steam is radiated to the outside from the radiator 7, and a water supply pipe 15 for checking the amount of water to display the height of the water, A water tank 6 for a heat radiator including a water tank gauge pipe 16 for radiators;
And the water stored in the water tank (6) for the heat radiator is connected to the circulation socket (13) through the discharge valve (11)
The method according to claim 1,
The heating device (2) contained in the socket (3) connected to the cylindrical pipe (4) is characterized in that the interval between the cylindrical pipe (4) and the heating device (2) .
The method according to claim 1,
The radiator 7 is a double tube filled with acetone or hydrogen, which is an intermediate material through which steam is passed, a vacuum is formed by removing air between the inner tube and the outer tube, and the heat is dissipated,
Characterized in that a vacuum pipe (8) is integrally provided on one side of the outer tube so that an intermediate material between the inner tube and the outer tube of the radiator (7) is connected.
delete The generation of steam generated by the steam generator includes 1) a circulating type steam generating method, 2) a non-circulating type steam generating method, and 3) a non-recirculating functional steam generating method,

In the circulating type steam generating method described above, the process control device 1 for controlling and supplying the amount of water passing through the inflow valve 12 for supplying water and the circulating sockets 13, the cylindrical pipe 4 The steam generated by the steam generator S is supplied to the steam generator S. The steam generator S includes a heating device 2 included in the socket 3 connected to the steam generator S,
The power supply of the steam generator is cut off when the temperature of the steam is higher than the temperature determined by the temperature sensor 5 provided at one end of the cylindrical pipe 4 connected to the discharge socket 14,
When the steam is at a proper temperature by the temperature sensor 5, the discharge through the discharge socket 14 is blocked by the non-circulation discharge valve 10, so that the steam is introduced into the circulation inlet valve 9, After radiating the heat of the steam in the radiator 7 including the vacuum pipe 8 for discharging the heat to the outside, it is converted into water and stored in the water container 6 for the radiator,
A method of circulating water stored in the radiator water tank 6 to the circulation socket 13 through the valve 11 to generate steam,

2) In the non-circulating type steam generating method, an oil control device 1 for controlling and supplying the amount of water passing through the inflow valve 12 for supplying water and the circulating socket 13, and a cylindrical pipe 4 (S) composed of a heating device (2) contained in the socket (3) to be transformed into steam,
Circulating discharge valve 10 and the inflow valve 12 are opened and the circulating inflow valve 9 and the bucket discharge valve 10 connected to the discharge socket 14 are opened, 11) is cut off to discharge steam to the outside of the non-circulation discharge valve (10) to generate steam,

3) In the non-circulating functional steam generating method, when the inlet valve 12, the bucket discharge valve 11, and the circulation inlet valve 9 are blocked
A raw water control device 1 for controlling and supplying the raw water contained in the raw water tank 20 containing the functional material to the circulating sockets 13 while the raw water inflow valve 19 is opened, Is introduced into a steam generator (S) constituted by a heating device (2) contained in a socket (3) connected to a cylindrical pipe (4)
Is discharged to the outside of the non-circulating discharge valve (10) connected to the discharge socket (14) to generate steam,

The method for producing a heated open type steam according to any one of the above 1) the circulating type steam generating method, 2) the non-circulating type steam generating method, and 3) the non-circulating functional steam generating method

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