KR20220151433A - Steam generating device with water lifting device - Google Patents

Abstract

The present invention relates to a steam generating apparatus equipped with a water pumping device, comprising: a hot water tank accommodating a first high-temperature fluid; a steam generating tank including a fluid accommodating chamber accommodating a second high-temperature fluid and a steam concentration chamber in which steam generated from the second high-temperature fluid is concentrated; a heating device generating the steam by heating the second high-temperature fluid; a communication unit communicating the hot water tank and the steam generating tank; and a low-temperature fluid supply unit supplying or stopping a low-temperature fluid to the steam generating tank. An objective of the present invention is to replenish a water by pumping the same up.

Description

Steam generating device with pumping device {STEAM GENERATING DEVICE WITH WATER LIFTING DEVICE}

The present invention relates to a steam generating device equipped with a water pumping device.

A cooking device that heats water and ingredients using steam as a heat source includes a steam generating device that generates steam by heating water with an electric heater. In the steam generating room equipped with an electric heater and water, when water is heated and evaporated by the electric heater to generate steam, the amount of water decreases, so water must be supplemented. At this time, when the replenished water is cold water or normal temperature water, it takes a certain time (= preheating time) to change the phase to steam after raising the temperature of the water to 100 ℃. Since steam cannot be generated during the preheating time, if the preheating time is prolonged, steam cannot be continuously generated but intermittently generated. If steam is not continuously produced in a cooking device that cooks with steam as a heat source, food ingredients cannot be continuously cooked, and thus the cooking productivity of the cooking device is reduced.

In order to continuously produce steam, steam may be generated after accommodating a large amount of water in a large steam generating chamber.

When the diameter and height of the electric heater for heating water are the same, as the diameter of the steam generating chamber increases, the volume of the space (idle space) in which steam cannot be generated increases. This is because water accommodated in a volume equal to the height of the electric heater in the steam generating chamber serves only to prevent overheating by immersing the electric heater in water, but is not used for steam generation. That is, the volume corresponding to the height of the electric heater is an idle space.

Assuming that a heater with a height of 50 mm is provided in a steam generating chamber with a diameter of 100 mm and a steam generating chamber with a diameter of 200, the idle space of the steam generating chamber with a diameter of 100 is about 390 cm ³ , but the idle space of the steam generating chamber with a diameter of 200 is about 1,570 cm ³ .

Korean Registered Patent Publication No. 10-1741553 (May 24, 2017)

The present invention has been made to solve the above problems, and an object of the present invention is to replenish water by raising water when water is insufficient in a steam generating chamber in which steam is generated by heating water with an electric heater.

At this time, when the temperature of the replenished water is hot water close to the boiling point, the internal temperature of the steam generating chamber immediately reaches 100° C. after replenishing the water, so that steam is continuously produced.

In addition, an object of the present invention is to minimize the diameter of the steam generating chamber by separately providing a hot water chamber for generating and supplying hot water to be replenished in the steam generating chamber. By minimizing the diameter of the steam generating chamber, the idle space in the steam generating chamber can be minimized and the steam generating efficiency can be increased.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

A steam generating device with a pumping device according to an embodiment of the present invention includes a hot water tank accommodating a first high-temperature fluid; a steam generating tank including a fluid accommodating chamber accommodating a second high-temperature fluid and a steam concentration chamber in which steam generated from the second high-temperature fluid is concentrated; a heating device generating steam by heating the second high-temperature fluid; a communication unit communicating the hot water tank and the steam generating tank; and a low-temperature fluid supply unit for supplying or stopping the supply of low-temperature fluid to the steam generating tank, wherein when the low-temperature fluid supply unit supplies the low-temperature fluid to the steam generating tank, the steam concentrated in the steam generating tank is condensed by the low-temperature fluid. , As negative pressure is formed in the steam generating tank due to condensation of the steam, the first high-temperature fluid accommodated in the hot water tank is supplied to the steam generating tank through the communication part, and the low-temperature fluid supply unit supplies the low-temperature fluid to the steam generating tank. When the supply of the fluid is stopped, the steam generated in the steam generating tank may be supplied to the hot water tank through the communication part as positive pressure is formed in the steam generating tank due to the generation of the steam.

A steam generating device with a pumping device according to another embodiment of the present invention includes a hot water tank accommodating a first high-temperature fluid; a steam generating tank including a fluid accommodating chamber accommodating the second high-temperature fluid and a steam concentration chamber in which steam generated from the second high-temperature fluid is collected; a heating device generating steam by heating the second high-temperature fluid; a communication unit communicating the hot water tank and the steam generating tank; and a cooling unit which cools or stops cooling the steam generated in the steam generating tank, wherein when the cooling unit cools the steam generated in the steam generating tank, the steam concentrated in the steam dense chamber of the steam generating tank is condensed, thereby reducing the temperature of the steam. As negative pressure is formed by condensation, the first high-temperature fluid accommodated in the hot water tank is supplied to the steam generating tank through the communication part, and when the cooling unit stops cooling the steam concentrated in the steam generating tank, the steam generating tank As the positive pressure is formed by the generation of the steam, the steam generated in the steam generating tank may be supplied to the hot water tank through the communication part.

A steam generating device with a pumping device according to another embodiment of the present invention includes a hot water tank accommodating a first high-temperature fluid; a steam generating tank accommodating the second high-temperature fluid; a heating device generating steam by heating the second high-temperature fluid; and a communication part communicating between the hot water tank and the steam generating tank.

In addition, the communication unit may include a communication cover covering the top and side walls of the steam generating tank; and a communication passage formed between the communication cover and the steam generating tank, wherein one side of the communication passage communicates with the hot water tank and the other side of the communication passage communicates with the steam generating tank.

In addition, a slit provided at a lower end of the communication cover may be further included.

In addition, the communication unit may include a communication tube communicating the hot water tank and the steam generating tank.

The communication unit may include: a first communication pipe passing through a lower end of the communication cover and coupled to the steam generating tank or simultaneously penetrated and coupled to the steam generating tank and the communication cover to communicate with the hot water tank; and a second communication tube communicating the first communication tube and the steam dense chamber of the steam generating tank.

In addition, at least one of the communication part and the steam generating tank may be partially exposed from the hot water tank.

In addition, at least one of the communication cover and the steam generating tank may be disposed to be submerged in the first high-temperature fluid.

In addition, the low-temperature fluid supply unit includes a low-temperature fluid storage unit in which the low-temperature fluid is stored; and an injection pipe communicating with the low-temperature fluid storage unit and the steam dense chamber of the steam generating tank, wherein the low-temperature fluid stored in the low-temperature fluid storage unit may be injected into the steam dense chamber via the injection pipe.

In addition, the low-temperature fluid supply unit includes a low-temperature fluid storage unit in which the low-temperature fluid is stored; an injection pipe communicating with the low-temperature fluid storage unit and the fluid accommodating chamber of the steam generating tank; And the low-temperature fluid stored in the low-temperature fluid storage unit may flow into the fluid accommodation chamber via the injection pipe.

In addition, the distal end of the injection pipe may pass through the steam generating tank and be disposed inside the steam generating tank.

In addition, a separation wall provided between the hot water tank and the steam generating tank may be further included.

In addition, a first check valve provided on the separating wall to supply the steam generated in the steam generating tank to the hot water tank and prevent the first high-temperature fluid from the hot water tank from flowing into the steam generating tank; and a second check valve provided on the separating wall to supply the first high-temperature fluid accommodated in the hot water tank to the steam generating tank and to prevent steam from the steam generating tank from flowing into the hot water tank.

A steam generating device with a pumping device according to another embodiment of the present invention includes a hot water tank accommodating a first high-temperature fluid or a low-temperature fluid; a steam generating tank including a fluid accommodating chamber accommodating a second high-temperature fluid and a steam concentration chamber in which steam generated from the second high-temperature fluid is concentrated; a heating device generating steam by heating the second high-temperature fluid; a communication cover covering upper and side walls of the steam generating tank; a communication passage formed between the communication cover and the steam generating tank, one side communicating with the hot water tank and the other communicating with the steam generating tank; and a first microhole provided on the communication cover to communicate the communication passage and the hot water tank.

In addition, when the amount of energy of the steam generated in the steam generating tank is less than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid accommodated in the communication passage, the steam concentrated in the steam generating tank is condensed, As negative pressure is formed in the steam generating tank due to condensation of the steam, the first high-temperature fluid or low-temperature fluid accommodated in the hot water tank is supplied to the steam generating tank through the first micropores and the communication passage, and the steam generating tank When the amount of energy of the steam generated in the tank is greater than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid accommodated in the communication passage, a positive pressure is formed in the steam generating tank due to the generation of steam, The steam generated in the steam generating tank may be supplied to the hot water tank through the first microhole and the communication passage.

In addition, the first microhole may further include a check valve for supplying the steam generated in the steam generating tank to the hot water tank and preventing the first high-temperature fluid contained in the hot water tank from flowing into the steam generating tank. .

A steam generating device with a pumping device according to another embodiment of the present invention includes a hot water tank accommodating a first high-temperature fluid or a low-temperature fluid; a steam generating tank including a fluid accommodating chamber accommodating a second high-temperature fluid and a steam concentration chamber in which steam generated from the second high-temperature fluid is concentrated; a heating device generating steam by heating the second high-temperature fluid; and a second fine hole provided on the steam generating tank to communicate the steam dense chamber and the hot water tank.

In addition, when the amount of energy of the steam generated in the steam generating tank is less than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid accommodated in the hot water tank, the steam concentrated in the steam generating tank is condensed, and the steam As negative pressure is formed in the generating tank by the condensation of the steam, the first high-temperature fluid or the low-temperature fluid accommodated in the hot water tank is supplied to the steam generating tank through the second micropores, and the generated steam in the steam generating tank When the amount of energy of the steam is greater than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid in the hot water tank, a positive pressure is formed in the steam generating tank due to the generation of steam, so that in the steam generating tank The generated steam may be supplied to the hot water tank through the second microholes.

The second microhole may further include a check valve for supplying the steam generated in the steam generating tank to the hot water tank and preventing the first high-temperature fluid contained in the hot water tank from flowing into the steam generating tank. have.

In addition, a first communication pipe penetrated through the steam generating tank and communicates with the hot water tank; and a second communication tube communicating the first communication tube and the steam dense chamber of the steam generating tank.

In addition, an inlet provided in the hot water tank to allow fluid to flow in from the outside of the hot water tank; and an outlet provided in the hot water tank through which the fluid contained in the hot water tank is discharged.

Also, the heating device may be a coil heater.

In addition, it may further include; forming a communication hole communicating with the hot water tank, and accommodating the heating object and the fluid.

The communication hole may further include a check valve provided in the communication hole to supply the steam collected in the hot water tank to the heating tank and to prevent fluid in the heating tank from flowing into the hot water tank.

In addition, the steam supplied to the heating bath may emit heat of liquefaction to heat the object to be heated and the fluid accommodated in the heating bath.

In addition, a temperature sensor for measuring the temperature of the second high-temperature fluid; and a control unit operating the low-temperature fluid supply unit or outputting a warning signal when the temperature data measured by the temperature sensor is equal to or greater than a reference value.

Other specific details of the invention are included in the detailed description and drawings.

The steam generating device equipped with a pumping device according to an embodiment of the present invention can replenish water by pumping water when water is insufficient in the steam generating chamber, continuously produce steam, and minimize idle space in the steam generating chamber. The size of the steam generating tank can be minimized and the steam generating efficiency can be increased.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

1 is a schematic diagram showing a steam generating device equipped with a pumping device according to a first embodiment of the present invention.
2 is a schematic diagram showing a steam generating device equipped with a pumping device according to a second embodiment of the present invention.
3 is a schematic diagram showing a steam generating device equipped with a pumping device according to a third embodiment of the present invention.
4 is a schematic diagram showing a steam generating device equipped with a pumping device according to a fourth embodiment of the present invention.
5 is a schematic diagram showing a steam generating device equipped with a pumping device according to a fifth embodiment of the present invention.
6 is a schematic diagram showing a steam generating device equipped with a pumping device according to a sixth embodiment of the present invention.
7 is a schematic diagram showing a steam generating device equipped with a pumping device according to a seventh embodiment of the present invention.
8 is a schematic diagram showing a steam generating device equipped with a pumping device according to an eighth embodiment of the present invention.
9 is a schematic diagram showing a steam generating device equipped with a pumping device according to a ninth embodiment of the present invention.
10 is a schematic diagram showing a steam generating device equipped with a pumping device according to a tenth embodiment of the present invention.
11 is a schematic diagram showing a steam generating device equipped with a pumping device according to an eleventh embodiment of the present invention.
12 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twelfth embodiment of the present invention.
13 is a schematic diagram showing a steam generating device equipped with a pumping device according to a thirteenth embodiment of the present invention.
14 is a schematic diagram showing a steam generating device equipped with a pumping device according to a 14th embodiment of the present invention.
15 is a schematic diagram showing a steam generating device equipped with a pumping device according to a fifteenth embodiment of the present invention.
16 is a schematic diagram showing a steam generating device equipped with a pumping device according to a sixteenth embodiment of the present invention.
17 is a schematic diagram showing a steam generating device equipped with a pumping device according to a seventeenth embodiment of the present invention.
18 is a schematic diagram showing a steam generating device equipped with a pumping device according to an eighteenth embodiment of the present invention.
19 is a schematic diagram showing a steam generating device equipped with a pumping device according to a 19th embodiment of the present invention.
20 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twentieth embodiment of the present invention.
21 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-first embodiment of the present invention.
22 is a schematic diagram showing a steam generating device equipped with a pumping device according to a 22nd embodiment of the present invention.
23 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-third embodiment of the present invention.
24 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-fourth embodiment of the present invention.
25 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-fifth embodiment of the present invention.
26 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-sixth embodiment of the present invention.
27 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-seventh embodiment of the present invention.
28 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-eighth embodiment of the present invention.
29 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-ninth embodiment of the present invention.
30 is a schematic diagram showing a steam generating device equipped with a water pumping device according to a third embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, only these embodiments are intended to complete the disclosure of the present invention, and are common in the art to which the present invention belongs. It is provided to fully inform the person skilled in the art of the scope of the invention, and the invention is only defined by the scope of the claims.

Terminology used herein is for describing the embodiments and is not intended to limit the present invention. In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. As used herein, "comprises" and/or "comprising" does not exclude the presence or addition of one or more other elements other than the recited elements. Like reference numerals throughout the specification refer to like elements, and “and/or” includes each and every combination of one or more of the recited elements. Although "first", "second", etc. are used to describe various components, these components are not limited by these terms, of course. These terms are only used to distinguish one component from another. Accordingly, it goes without saying that the first element mentioned below may also be the second element within the technical spirit of the present invention.

The spatially relative terms "below", "beneath", "lower", "above", "upper", etc. It can be used to easily describe a component's correlation with other components. Spatially relative terms should be understood as including different orientations of elements in use or operation in addition to the orientations shown in the drawings. For example, if you flip a component that is shown in a drawing, a component described as "below" or "beneath" another component will be placed "above" the other component. can Thus, the exemplary term “below” may include directions of both below and above. Components may also be oriented in other orientations, and thus spatially relative terms may be interpreted according to orientation.

Prior to the description of the present invention, the first high-temperature fluid means a state in which the room-temperature fluid accommodated in the hot water tank is heated by the heating device and the temperature is increased, and the second high-temperature fluid is the room-temperature fluid heated by the heating device and the temperature is increased. It means an elevated state, and the low-temperature fluid is a fluid having a relatively lower temperature than the first and second high-temperature fluids, and may be a fluid at room temperature, but is not limited thereto.

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

1 is a schematic diagram showing a steam generating device equipped with a pumping device according to a first embodiment of the present invention.

As shown in FIG. 1, the steam generating device equipped with a pumping device according to the first embodiment of the present invention includes a hot water tank 10, a steam generating tank 20, a heating device 30, and a communication unit 40. and a low-temperature fluid supply unit 50.

The hot water tank 10 stores the first high-temperature fluid or low-temperature fluid. In this embodiment, the hot water tank 10 may be formed in a form surrounding the steam generating tank 20 to be described later. Here, the low-temperature fluid may be water having a relatively lower temperature than the first high-temperature fluid.

The hot water tank 10 may have a hollow cylinder shape with an open top, and a cavity for storing the first high-temperature fluid may be provided therein. Steam generated in the steam generating tank 20 to be described later may be supplied to the cavity.

The steam generating tank 20 includes a fluid accommodation chamber 21 accommodating the second high-temperature fluid and a steam concentration chamber 22 in which steam generated from the second high-temperature fluid is concentrated. Here, the second high-temperature fluid may be a low-temperature fluid heated by a heating device 30 to be described later.

For example, the steam generating tank 20 may have a hollow cylinder shape with an upper opening, a fluid accommodation chamber 21 may be provided at a lower part of the inside, and a steam dense chamber 22 at an upper part of the inside. ) can be provided.

The heating device 30 generates steam by heating the second high-temperature fluid. The heating device 30 may be provided inside the steam generating tank 20 to heat the second high-temperature fluid. For example, the heating device 30 may be an electric heater, a coil heater, or a boiler, but is not particularly limited thereto.

The communication unit 40 serves to communicate the hot water tank 10 and the steam generating tank 20 .

In this embodiment, the communication unit 40 may include a communication cover 41 and a communication passage 42 .

The communication cover 41 may cover the top and side walls of the steam generating tank 20 . A plurality of fine holes (not shown) through which steam flows may be formed in the communication cover 41 . For example, the plurality of micropores may have a diameter of 0.1 mm to 2 mm, but it is preferable that the pores are 1 mm or less. When the diameter of the micropores is 1 mm or less, steam can be finely divided while passing through the micropores, and the heat transfer area of the steam is maximized.

For example, the communication cover 41 may have a hollow cylinder shape with an open bottom, and the steam generating tank 20 may be accommodated therein.

A slit 43 may be formed at a lower end of the communication cover 41 . The steam generated in the steam generating tank 20 is supplied to the lower part of the hot water tank 10 through the slit 43 formed at the bottom of the communication cover 41 to heat the first high-temperature fluid accommodated in the lower part of the hot water tank 10. In addition, the slit 43 blocks impurities that may exist in the hot water tank 10 from flowing into the communication passage 42 via the communication cover 41 .

In this embodiment, the communication cover 41 and the steam generating tank 20 may be disposed to be submerged in the first high-temperature fluid.

The communication passage 42 is formed between the communication cover 41 and the steam generating tank 20 . One side of the communication passage 42 may communicate with the hot water tank 10 and the other side of the communication passage 42 may communicate with the steam generating tank 20 . The communication passage 42 is a passage through which the steam generated in the steam generating tank 20 moves to the hot water tank 10 and a passage through which the first high-temperature fluid accommodated in the hot water tank 10 moves into the steam generating tank 20. play a role

The low-temperature fluid supply unit 50 serves to supply or stop supplying the low-temperature fluid to the steam generating tank 20 . Here, the low-temperature fluid may be room temperature water or room temperature air, but is not particularly limited thereto. Meanwhile, the low-temperature fluid supply unit 50 may operate as a pumping device.

When the low-temperature fluid supply unit 50 supplies the low-temperature fluid to the steam generating tank 20, the steam concentrated in the steam dense chamber 22 of the steam generating tank 20 is condensed by the low-temperature fluid, and the steam generating tank 20 As negative pressure is formed in ) due to condensation of steam, the first high-temperature fluid accommodated in the hot water tank 10 is supplied to the steam generating tank 20 through the communication part 40. At this time, the first high-temperature fluid accommodated in the lower part of the hot water tank 10 goes up along the communication part 40 and is supplied to the steam generating tank 20.

Thereafter, when the low-temperature fluid supply unit 50 stops supplying the low-temperature fluid to the steam generating tank 20, as a positive pressure is formed in the steam generating tank 20 by generating steam, the steam generating tank 20 generates The steam is supplied to the hot water tank 10 through the communication part 40 to heat the first high-temperature fluid accommodated in the hot water tank 10.

The low-temperature fluid supply unit 50 may include a low-temperature fluid storage unit 51, an injection pipe 52, and a pump 53.

The low-temperature fluid storage unit 51 stores low-temperature fluid. The low-temperature fluid storage unit 51 may be a storage tank in which low-temperature fluid is stored, and a pump 53 may be provided in the storage tank.

The injection pipe 52 serves to communicate the low-temperature fluid storage unit 51 and the steam dense chamber 22 of the steam generating tank 20 to each other. Specifically, one end of the injection pipe 52 may be connected to the low-temperature fluid storage unit 51, and the other end of the injection pipe 52 penetrates the hot water tank 10 and the communication cover 41 to form a steam dense room ( 22) can be linked.

The pump 53 pumps the low-temperature fluid stored in the low-temperature fluid storage unit 51 so that the low-temperature fluid stored in the low-temperature fluid storage unit 51 is injected into the steam dense chamber 22 via the injection pipe 52.

Meanwhile, the steam generating device with the pumping device according to the first embodiment of the present invention may further include a temperature sensor 60 and a controller (not shown).

The temperature sensor 60 measures the temperature of the second high-temperature fluid accommodated in the fluid accommodation chamber 21 .

The control unit may operate the low-temperature fluid supply unit 50 or output a warning signal when the temperature data measured by the temperature sensor 60 is equal to or greater than a reference value.

For example, the control unit may operate the low-temperature fluid supply unit 50 when the temperature data measured by the temperature sensor 60 is 100 °C or higher. At this time, when the temperature data measured by the temperature sensor 60 is 100 ° C or higher, the temperature sensor 60 is exposed to the air by evaporation of the second high-temperature fluid accommodated in the fluid accommodation chamber 21, and the temperature sensor 60 ) is the state in which the temperature of the steam is measured.

As another example, if the temperature data measured by the temperature sensor 60 is 100° C. or higher, the controller may emit a lighting signal or a voice signal to the user through a lighting device or an audio device provided in the steam generating tank 20. At this time, the user may manually operate the low-temperature fluid supply unit 50 .

As another example, the control unit may stop the low-temperature fluid supply unit 50 when the temperature data measured by the temperature sensor 60 is 100 ° C or less.

Meanwhile, when the temperature sensor 60 is not provided, the user calculates the capacity of the heating device 30 and the amount of the second high-temperature fluid in the fluid accommodation chamber 21, and manually operates the low-temperature fluid supply unit 50. can do it That is, when the heating device 30 is operated for a certain period of time, the amount of the second high-temperature fluid in the fluid accommodation chamber 21 is calculated, and when a certain amount or more of the second high-temperature fluid evaporates, the user manually lowers the temperature. The fluid supply unit 50 may be operated.

In addition, when the amount of the first high-temperature fluid stored in the hot water tank 10 is equal to or less than the reference value, the first high-temperature fluid may be replenished through a (fluid) inlet (not shown) provided in the hot water tank 10 .

2 is a schematic diagram showing a steam generating device equipped with a pumping device according to a second embodiment of the present invention.

As shown in FIG. 2, unlike the first embodiment, the steam generating device with pumping device according to the second embodiment of the present invention further includes a heating tank 70 and a check valve 80. can do.

The heating tank 70 forms a communication hole communicating with the hot water tank 10 and may accommodate a heating object and a fluid. Here, the object to be heated may be a food material, and the fluid may be water, but is not particularly limited thereto. Here, the heating bath 70 may have a hollow tubular shape with an open top.

A partition plate 90 may be provided between the heating tank 70 and the hot water tank 10 , and a communication hole may be formed in the partition plate 90 .

The check valve 80 is provided in the communication hole to supply the steam collected in the hot water tank 10 to the heating tank 70 and at the same time to prevent the fluid in the heating tank 70 from flowing into the hot water tank 10. . Opening and closing of the check valve 80 may be controlled by a controller (not shown).

In this case, the steam supplied to the heating bath 70 may emit heat of liquefaction and heat the heating object and the fluid accommodated in the heating bath 70.

Hereinafter, an operation example of a steam generating device equipped with a pumping device according to a second embodiment of the present invention will be described.

First, a heating object and a fluid are put into the heating bath 70 .

Next, when the heating device 30 heats the second high-temperature fluid accommodated in the fluid accommodating chamber 21 of the steam generating tank 20 to a temperature equal to or higher than the vaporization point temperature, the second high-temperature fluid phase changes to steam and the steam generating tank It is concentrated in the steam dense chamber 22 of (20), and the pressure in the steam dense chamber 22 rises.

Subsequently, steam concentrated in the steam dense chamber 22 moves to the hot water tank 10 through the communication part 40 due to a pressure difference between the steam dense chamber 22 and the hot water tank 10 .

The steam supplied to the hot water tank 10 heats the fluid contained in the hot water tank. The heated fluid becomes a first high-temperature fluid, and the steam generated by heating the first high-temperature fluid raises the pressure in the hot water tank 10 above the set pressure of the check valve to open the check valve 80. As the check valve 80 is opened, steam in the hot water tank 10 is supplied to the heating tank 70, and the steam releases heat of liquefaction (539 cal/g) and heats the water accommodated in the heating tank 70.

On the other hand, when the temperature sensor 60 is exposed to the air by evaporation of the second high-temperature fluid accommodated in the fluid receiving chamber 21 of the steam generating tank 20, a temperature of 100 ° C. or more is measured by the temperature sensor 60. When the controller detects this and operates the low-temperature fluid supply unit 50, the low-temperature fluid of the low-temperature fluid supply unit 50 is supplied to the steam generating tank 20.

At this time, as the steam concentrated in the steam dense chamber 22 of the steam generating tank 20 is condensed by the low-temperature fluid supplied to the steam generating tank 20, the negative pressure due to the condensation of the steam is generated in the steam generating tank 20. As it is formed, the first high-temperature fluid accommodated in the hot water tank 10 is supplied to the steam generating tank 20 through the communication part 40 . At this time, the first high-temperature fluid accommodated in the lower part of the hot water tank 10 goes up along the communication part 40 and is supplied to the steam generating tank 20 . On the other hand, when the water level of the second high-temperature fluid accommodated in the fluid receiving chamber 21 of the steam generating tank 20 rises due to the supply of the first high-temperature fluid accommodated in the hot water tank, and the temperature sensor 60 is submerged in the second high-temperature fluid, A temperature of 100 °C or less is measured by the temperature sensor 60, and the control unit that detects this stops the low-temperature fluid supply unit 50.

At this time, as positive pressure is formed in the steam generating tank 20 due to the generation of phase-changed steam in the second high-temperature fluid due to the heating of the heating device 30, the steam generated in the steam generating tank 20 is communicated. It may be supplied to the hot water tank 10 through the unit 40.

3 is a schematic diagram showing a steam generating device equipped with a pumping device according to a third embodiment of the present invention.

As shown in FIG. 3 , unlike the first embodiment, in the steam generating device equipped with a pumping device according to the third embodiment of the present invention, the communication cover 41 and the steam generating tank 20 are heated. It may be partially exposed from the water tank 10.

Here, a specific portion of the communication cover 41 partially exposed from the hot water tank 10 may be insulated to prevent heat loss due to radiant heat.

For example, a specific portion of the communication cover 41 partially exposed from the hot water tank 10 may be insulated in the form of a double wall or may include an insulator.

4 is a schematic diagram showing a steam generating device equipped with a pumping device according to a fourth embodiment of the present invention.

As shown in FIG. 4 , unlike the third embodiment of the present invention, the steam generator equipped with a pumping device according to the fourth embodiment of the present invention further includes a heating tank 70 and a check valve 80. can do.

The heating tank 70 forms a communication hole communicating with the hot water tank 10 and may accommodate a heating object and a fluid.

A partition plate 90 may be provided between the heating tank 70 and the hot water tank 10 , and a communication hole may be formed in the partition plate 90 .

The check valve 80 is provided in the communication hole to supply the steam collected in the hot water tank 10 to the heating tank 70 and prevent the fluid in the heating tank 70 from flowing into the hot water tank 10. . Opening and closing of the check valve 80 may be controlled by a control unit.

5 is a schematic diagram showing a steam generating device equipped with a pumping device according to a fifth embodiment of the present invention.

As shown in FIG. 5 , in the steam generating device equipped with a pumping device according to the fifth embodiment of the present invention, the communication part 40 of the first embodiment of the present invention can be replaced with communication pipes 110 and 120. .

The communication tubes 110 and 120 communicate the hot water tank 10 and the steam generating tank 20 . The communication tube may include a first communication tube 110 and a second communication tube 120 .

The first communication pipe 110 passes through the lower end of the communication cover 40 and is penetrated and coupled to the steam generating tank 20 to communicate with the hot water tank 10 .

The second communication pipe 120 communicates the first communication pipe 110 and the steam dense chamber 22 of the steam generating tank 20 .

Here, the first communication tube 110 and the second communication tube 120 may be vertically connected to each other. The communicating pipes 110 and 120 serve as passages through which steam generated in the steam generating tank 20 moves to the hot water tank 10 and at the same time serves as a passage through which the first high-temperature fluid accommodated in the hot water tank 10 moves into the steam generating tank 20. do

In this embodiment, when the low-temperature fluid supply unit 50 supplies the low-temperature fluid to the steam generating tank 20, the steam concentrated in the steam dense chamber 22 of the steam generating tank 20 is condensed by the low-temperature fluid, As negative pressure is formed in the generating tank 20 due to condensation of steam, the first high-temperature fluid accommodated in the hot water tank 10 is supplied to the steam generating tank 20 through the communication pipe. At this time, the first high-temperature fluid accommodated in the lower portion of the hot water tank 10 goes up along the communication tubes 110 and 120 and is supplied to the steam generating tank 20 .

Thereafter, when the low-temperature fluid supply unit 50 stops supplying the low-temperature fluid to the steam generating tank 20, as a positive pressure is formed in the steam generating tank 20 by generating steam, the steam generating tank 20 generates The steam is supplied to the hot water tank 10 through the communication pipes 110 and 120.

6 is a schematic diagram showing a steam generating device equipped with a pumping device according to a sixth embodiment of the present invention.

As shown in FIG. 6, unlike the fifth embodiment, the steam generating device equipped with a water pumping device according to the sixth embodiment of the present invention has an injection pipe 52 connected to the steam generating tank 20. It passes through the first communication tube 110 and the second communication tube 120 sequentially. Here, one side of the injection pipe 52 may be connected to the low-temperature fluid storage unit 51, and the other side of the injection pipe 52 may be connected to the steam dense chamber 22.

7 is a schematic diagram showing a steam generating device equipped with a pumping device according to a seventh embodiment of the present invention.

As shown in FIG. 7 , unlike the fifth embodiment, the steam generating device equipped with a pumping device according to the seventh embodiment of the present invention further includes a heating tank 70 and a check valve 80. can do.

The heating tank 70 forms a communication hole communicating with the hot water tank 10 and may accommodate a heating object and a fluid.

A partition plate 90 may be provided between the heating tank 70 and the hot water tank 10 , and a communication hole may be formed in the partition plate 90 .

The check valve 80 is provided in the communication hole to supply the steam collected in the hot water tank 10 to the heating tank 70 and prevent the fluid in the heating tank 70 from flowing into the hot water tank 10. . Opening and closing of the check valve 80 may be controlled by a control unit.

8 is a schematic diagram showing a steam generating device equipped with a pumping device according to an eighth embodiment of the present invention.

As shown in FIG. 8, unlike the seventh embodiment, in the steam generating device equipped with a water pumping device according to the eighth embodiment of the present invention, the steam generating tank 20 is partially removed from the hot water tank 10. may be exposed.

Here, a specific portion of the steam generating tank 20 partially exposed from the hot water tank 10 may be insulated to prevent heat loss due to radiant heat.

For example, a specific portion of the steam generating tank 20 partially exposed from the hot water tank 10 may be insulated in the form of a double wall or may include an insulating material.

9 is a schematic diagram showing a steam generating device equipped with a pumping device according to a ninth embodiment of the present invention.

As shown in FIG. 9 , unlike the first embodiment of the present invention, the steam generating device equipped with a pumping device according to the ninth embodiment of the present invention includes a low-temperature fluid storage unit 51 and an injection pipe 52 The fluid accommodating chamber 21 of the steam generating tank 20 communicates with it.

Specifically, one end of the injection pipe 52 may be connected to the low-temperature fluid storage unit 51, and the other end of the injection pipe 52 penetrates the bottom surface of the steam generating tank 20 to form a fluid receiving chamber 21. can be connected with

The pump 53 may pump the low-temperature fluid stored in the low-temperature fluid storage unit 51 so that the low-temperature fluid stored in the low-temperature fluid storage unit 51 flows into the fluid accommodation chamber 21 via the injection pipe 52. have.

10 is a schematic diagram showing a steam generating device equipped with a pumping device according to a tenth embodiment of the present invention.

As shown in FIG. 10, unlike the ninth embodiment of the present invention, in the steam generating device equipped with a pumping device according to the tenth embodiment of the present invention, the communication cover 41 is partially exposed from the hot water tank 10. It can be.

Here, a specific portion of the communication cover 41 partially exposed from the hot water tank 10 may be insulated to prevent heat loss due to radiant heat.

For example, a specific portion of the communication cover 41 partially exposed from the hot water tank 10 may be insulated in the form of a double wall or may include an insulator.

In addition, the steam generating device equipped with a pumping device according to the tenth embodiment of the present invention may include a heating tank 70 , a partition plate 90 and a check valve 80 .

The heating tank 70 forms a communication hole communicating with the hot water tank 10 and may accommodate a heating object and a fluid.

A partition plate 90 may be provided between the heating tank 70 and the hot water tank 10 , and a communication hole may be formed in the partition plate 90 .

The check valve 80 is provided in the communication hole to supply the steam collected in the hot water tank 10 to the heating tank 70 and at the same time to prevent the fluid in the heating tank 70 from flowing into the hot water tank 10. . Opening and closing of the check valve 80 may be controlled by a control unit.

11 is a schematic diagram showing a steam generating device equipped with a pumping device according to an eleventh embodiment of the present invention.

As shown in FIG. 11, unlike the seventh embodiment of the present invention, the steam generating device equipped with a water pumping device according to the eleventh embodiment of the present invention includes a low-temperature fluid storage unit 51 and an injection pipe 52. The fluid accommodating chamber 21 of the steam generating tank 20 communicates with it. Here, one side of the injection pipe 52 may be connected to the low-temperature fluid storage unit 51 and the other side of the injection pipe 52 may be connected to the fluid accommodation chamber 21 .

12 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twelfth embodiment of the present invention.

As shown in FIG. 12, unlike the eighth embodiment of the present invention, the steam generating device equipped with a water pumping device according to the twelfth embodiment of the present invention includes a low-temperature fluid storage unit 51 and an injection pipe 52. The fluid accommodating chamber 21 communicates with it. Here, one side of the injection pipe 52 may be connected to the low-temperature fluid storage unit 51, and the other side of the injection pipe 52 penetrates the steam generating tank 20 and the first communication pipe 110 to the fluid receiving chamber ( 21) can be linked.

13 is a schematic diagram showing a steam generating device equipped with a pumping device according to a thirteenth embodiment of the present invention.

As shown in FIG. 13, unlike the fourth embodiment of the present invention, the steam generating device equipped with a pumping device according to the thirteenth embodiment of the present invention has a low-temperature fluid supply unit 50 of the fourth embodiment of the present invention. It is replaced by the cooling unit 100.

The cooling unit 100 cools or stops cooling the steam generated in the steam generating tank 20 . Meanwhile, the cooling unit 100 may operate as a pumping device.

As the steam concentrated inside the steam generating tank is condensed by the cooling unit 100 and a negative pressure is formed due to the condensation of the steam, the first high-temperature fluid accommodated in the hot water tank 10 passes through the communication unit 40 to the steam generating tank. (20) is supplied. At this time, the first high-temperature fluid accommodated in the lower part of the hot water tank 10 goes up along the communication part 40 and is supplied to the steam generating tank 20 .

When the cooling unit 100 stops cooling the steam concentrated in the steam generating tank 20, a positive pressure is formed in the steam generating tank 20 due to the generation of steam, so that the steam generated in the steam generating tank 20 It may be supplied to the hot water tank 10 through the communication part 40 .

In this embodiment, the cooling unit 100 is a cooling water tank provided at a specific portion of the communication cover 41 partially exposed from the hot water tank 10 or a specific portion of the communication cover 41 partially exposed from the hot water tank 10. It can be a water towel wrapped around the body.

14 is a schematic diagram showing a steam generating device equipped with a pumping device according to a 14th embodiment of the present invention.

As shown in FIG. 14, unlike the eighth embodiment of the present invention, the steam generating device equipped with a pumping device according to the 14th embodiment of the present invention has the low-temperature fluid supply unit 50 of the 8th embodiment of the present invention. It is replaced by the cooling unit 100.

The cooling unit 100 cools or stops cooling the steam generated in the steam generating tank 20 . Meanwhile, the cooling unit 100 may operate as a pumping device.

In this embodiment, the cooling unit 100 is a cooling water tank provided at a specific part of the steam generating tank 20 partially exposed from the hot water tank 10 or a part of the steam generating tank 20 partially exposed from the hot water tank 10. It can be a wet towel wrapped around a specific area.

15 is a schematic diagram showing a steam generating device equipped with a pumping device according to a fifteenth embodiment of the present invention.

As shown in FIG. 15, the steam generating device equipped with a water pumping device according to a fifteenth embodiment of the present invention includes a hot water tank 10, a steam generating tank 20, a heating device 30, and a communication cover 41 , a communication passage 42 and a first fine hole 41a.

The hot water tank 10 stores the first high-temperature fluid or low-temperature fluid. Here, the first high-temperature fluid may be water liquefied in steam. In this embodiment, the hot water tank 10 may be formed in a form surrounding the steam generating tank 20 to be described later. Here, the low-temperature fluid may be water having a relatively lower temperature than the first high-temperature fluid.

The hot water tank 10 may have a hollow cylinder shape with an open top, and a cavity for storing the first high-temperature fluid may be provided therein. Steam generated in the steam generating tank 20 to be described later may be supplied to the cavity.

The steam generating tank 20 includes a fluid accommodation chamber 21 accommodating the second high-temperature fluid and a steam concentration chamber 22 in which steam generated from the second high-temperature fluid is concentrated. Here, the second high-temperature fluid may be a low-temperature fluid heated by a heating device 30 to be described later.

For example, the steam generating tank 20 may have a hollow barrel shape, a fluid accommodation chamber 21 may be provided at a lower part of the inside, and a steam dense chamber 22 may be provided at an upper part of the inside. can

The heating device 30 generates steam by heating the second high-temperature fluid. The heating device 30 may be provided inside the steam generating tank 20 to heat the second high-temperature fluid. For example, the heating device 30 may be an electric heater, a coil heater, or a boiler, but is not particularly limited thereto.

The communication cover 41 may cover the top and side walls of the steam generating tank 20 .

For example, the communication cover 41 may have a hollow cylinder shape with an open bottom, and the steam generating tank 20 may be accommodated therein.

A slit 43 may be formed at a lower end of the communication cover 41 . The steam generated in the steam generating tank 20 is supplied to the lower part of the hot water tank 10 through the slit 43 formed at the bottom of the communication cover 41 to heat the first high-temperature fluid accommodated in the lower part of the hot water tank 10. In addition, the slit 43 blocks impurities that may exist in the hot water tank 10 from flowing into the communication passage 42 via the communication cover 41 .

In this embodiment, the communication cover 41 and the steam generating tank 20 may be disposed to be submerged in the first high-temperature fluid.

The communication passage 42 is formed between the communication cover 41 and the steam generating tank 20 . One side of the communication passage 42 may communicate with the hot water tank 10 and the other side of the communication passage 42 may communicate with the steam generating tank 20 . The communication passage 42 is a passage through which the steam generated in the steam generating tank 20 moves to the hot water tank 10 and a passage through which the first high-temperature fluid accommodated in the hot water tank 10 moves into the steam generating tank 20. play a role

The first fine holes 41a are provided on the communication cover 41 to communicate the communication flow passage 42 or the steam generating tank 20 and the hot water tank 10 . A plurality of first microholes 41a may be provided on the communication cover 41 .

Meanwhile, steam generated in the steam generating tank 20 is supplied to the hot water tank 10 through the first microholes 41a, and the first high-temperature fluid accommodated in the hot water tank 10 is transferred to the steam generating tank 10. A check valve (not shown) to prevent inflow may be provided.

In this embodiment, when the amount of energy of the steam generated in the steam dense chamber 22 of the steam generating tank 20 is less than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid accommodated in the hot water tank 10 As the steam concentrated in the steam dense chamber 22 of the steam generating tank 20 is condensed, negative pressure is formed in the steam generating tank 20 due to the condensation of the steam, so that the first high-temperature fluid accommodated in the hot water tank 10 or The low-temperature fluid is supplied to the steam generating tank 20 through the first fine holes 41a and the communication passage 42 .

In addition, if the amount of energy of the steam generated in the steam dense chamber 22 of the steam generating tank 20 is greater than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid accommodated in the hot water tank 10, the steam generating tank As positive pressure is formed by the generation of steam in (20), the steam generated in the steam generating tank 20 is supplied to the hot water tank 10 through the first microholes 41a and the communication passage 42 to generate heat. The first high-temperature fluid or the low-temperature fluid accommodated in the water tank 10 is heated. In addition, when the operation of the heating device 30 is stopped, the first high-temperature fluid stored in the hot water tank 10 may flow into the steam generating tank 20 through the first microholes 41a.

Meanwhile, the hot water tank 10 may be provided with an inlet 11 through which fluid may flow from the outside of the hot water tank 10 and an outlet 12 through which the fluid contained in the hot water tank 10 may be discharged. . Here, the fluid flowing into the inlet may be a fluid having a lower temperature than the first high-temperature fluid accommodated in the hot water tank 10 or a high-temperature fluid having a higher temperature than the first high-temperature fluid.

When a fluid lower in temperature than the first high-temperature fluid is injected into the hot water tank 10 through the inlet 11, the steam concentrated in the steam dense chamber 22 of the steam generating tank 20 is condensed, and the steam generating tank 20 In the steam dense chamber 22 of ), negative pressure is formed due to condensation of steam, and the first high-temperature fluid accommodated in the hot water tank 10 is supplied to the steam generating tank 20 through the first fine holes 41a.

At this time, the low-temperature fluid that was not supplied to the communication passage 42 through the first fine hole 41a and the second high-temperature fluid heated by the steam injected from the first fine hole 41a of the communication cover 41 It can be discharged through the outlet (12).

16 is a schematic diagram showing a steam generating device equipped with a pumping device according to a sixteenth embodiment of the present invention.

As shown in FIG. 16, unlike the 15th embodiment, in the steam generating device equipped with a water pumping device according to the 16th embodiment of the present invention, the communication cover 41 completely covers the steam generating tank 20. can cover

17 is a schematic diagram showing a steam generating device equipped with a pumping device according to a seventeenth embodiment of the present invention.

As shown in FIG. 17, the steam generating device equipped with a pumping device according to the 17th embodiment of the present invention includes the hot water tank 10, the steam generating tank 20, and the heating device 30 of the 15th embodiment of the present invention. ), and second fine holes 22a may be provided in the steam generating tank 20.

The second fine holes 22a are provided on the steam generating tank 20 so that the steam dense chamber 22 and the hot water tank 10 can communicate with each other. A plurality of second microholes 22a may be provided on the steam generating tank 20 .

Meanwhile, steam generated in the steam generating tank 20 is supplied to the hot water tank 10 through the second microholes 22a, and the first high-temperature fluid accommodated in the hot water tank 10 is transferred to the steam generating tank 10. A check valve (not shown) to prevent inflow may be provided.

In this embodiment, when the amount of energy of the steam generated in the steam dense chamber 22 is less than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid accommodated in the hot water tank 10, the steam dense chamber 22 As the dense steam is condensed, negative pressure is formed in the steam generating tank 20 due to the condensation of the steam, so that the first high-temperature fluid or the low-temperature fluid accommodated in the hot water tank 10 passes through the second fine holes 22a to the steam generating tank. (20) is supplied.

In addition, if the amount of energy of the steam generated in the steam dense chamber 22 is greater than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid accommodated in the hot water tank 10, the steam generating tank 20 is required to generate steam. As the positive pressure is formed, the steam generated in the steam generating tank 20 may be supplied to the hot water tank 10 through the second microholes 22a.

18 is a schematic diagram showing a steam generating device equipped with a pumping device according to an eighteenth embodiment of the present invention.

As shown in FIG. 18, unlike the 17th embodiment, the steam generating device equipped with a pumping device according to the 18th embodiment of the present invention includes a first communication pipe 110 and a second communication pipe 120. can include

The first communication pipe 110 is coupled through the steam generating tank 20 and communicates with the hot water tank 10 .

The second communication pipe 120 may communicate the first communication pipe 110 and the steam dense chamber 22 of the steam generating tank 20 .

Here, the first communication tube 110 and the second communication tube 120 may be vertically connected to each other.

19 is a schematic diagram showing a steam generating device equipped with a pumping device according to a 19th embodiment of the present invention.

As shown in FIG. 19, unlike the first embodiment of the present invention, the steam generating device equipped with a pumping device according to the 19th embodiment of the present invention includes a first communication pipe 110 and a second communication pipe 120. can include

The first communication pipe 110 passes through the lower end of the communication cover 40 and is coupled through the steam generating tank 20 to communicate with the hot water tank 10 .

The second communication pipe 120 may communicate the first communication pipe 110 and the steam dense chamber 22 of the steam generating tank 20 .

Here, the first communication tube 110 and the second communication tube 120 may be vertically connected to each other. Furthermore, the first communication pipe 110 passes through the lower end of the communication cover 41 and is coupled to the steam generation tank 20 to communicate with the hot water tank 10 or to communicate with the steam generation tank 20 and the communication cover 41. It can be through-coupled at the same time to communicate with the hot water tank 10.

In this embodiment, the low-temperature fluid supply unit 50 serves to supply or stop supplying the low-temperature fluid to the fluid storage chamber 21 of the steam generating tank 20 .

In this embodiment, the communication cover 41 and the steam generating tank 20 may be partially exposed from the hot water tank 10 .

Here, cooling units (not shown) may be provided at partially exposed portions of the communication cover 41 and the steam generating tank 20 .

20 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twentieth embodiment of the present invention.

As shown in FIG. 20, the steam generating device equipped with a pumping device according to the twentieth embodiment of the present invention includes a hot water tank 10, a steam generating tank 20, a heating device 30, and a communication unit 40. includes

The first high-temperature fluid or low-temperature fluid is stored in the hot water tank 10 . In this embodiment, the hot water tank 10 may be formed in a form surrounding the steam generating tank 20 to be described later. Here, the low-temperature fluid may be water having a relatively lower temperature than the first high-temperature fluid.

The hot water tank 10 may have a hollow cylinder shape with an upper opening, and a cavity for storing the first high-temperature fluid or the low-temperature fluid may be provided therein. Steam generated in the steam generating tank 20 to be described later may be supplied to the cavity.

The steam generating tank 20 includes a fluid accommodation chamber 21 accommodating the second high-temperature fluid and a steam concentration chamber 22 in which steam generated from the second high-temperature fluid is concentrated. Here, the second high-temperature fluid may be a low-temperature fluid heated by a heating device 30 to be described later.

For example, the steam generating tank 20 may have a hollow cylinder shape with an upper opening, a fluid accommodation chamber 21 may be provided at a lower part of the inside, and a steam dense chamber 22 at an upper part of the inside. ) can be provided.

The heating device 30 generates steam by heating the second high-temperature fluid. The heating device 30 may be provided inside the steam generating tank 20 to heat the second high-temperature fluid. For example, the heating device 30 may be an electric heater, a coil heater, or a boiler, but is not particularly limited thereto.

The communication unit 40 serves to communicate the hot water tank 10 and the steam generating tank 20 .

In this embodiment, the communication unit 40 may include a communication cover 41 and a communication passage 42 .

The communication cover 41 may cover the top and side walls of the steam generating tank 20 . A plurality of fine holes (not shown) through which steam flows may be formed in the communication cover 41 . For example, the plurality of micropores may have a diameter of 0.1 mm to 2 mm, but it is preferable that the pores are 1 mm or less. When the diameter of the micropores is 1 mm or less, steam can be finely divided while passing through the micropores, and the heat transfer area of the steam is maximized.

As another example, the communication cover 41 may have a hollow cylinder shape with an open bottom, and the steam generating tank 20 may be accommodated therein.

A slit 43 may be formed at a lower end of the communication cover 41 . The steam generated in the steam generating tank 20 is supplied to the lower part of the hot water tank 10 through the slit 43 formed at the bottom of the communication cover 41 to heat the first high-temperature fluid accommodated in the lower part of the hot water tank 10. In addition, the slit 43 blocks impurities that may exist in the hot water tank 10 from flowing into the communication passage 42 via the communication cover 41 .

In this embodiment, the communication cover 41 and the steam generating tank 20 may be disposed to be submerged in the first high-temperature fluid.

The communication passage 42 is formed between the communication cover 41 and the steam generating tank 20 . One side of the communication passage 42 may communicate with the hot water tank 10 and the other side of the communication passage 42 may communicate with the steam generating tank 20 . The communication passage 42 is a passage through which the steam generated in the steam generating tank 20 moves to the hot water tank 10 and a passage through which the first high-temperature fluid accommodated in the hot water tank 10 moves into the steam generating tank 20. play a role

A heating bath 70 and a check valve 80 may be further included.

The heating tank 70 forms a communication hole communicating with the hot water tank 10 and may accommodate a heating object and a fluid. Here, the object to be heated may be a food material, and the fluid may be water, but is not particularly limited thereto. Here, the heating bath 70 may have a hollow tubular shape with an open top.

A partition plate 90 may be provided between the heating tank 70 and the hot water tank 10 , and a communication hole may be formed in the partition plate 90 .

The check valve 80 is provided in the communication hole to supply the steam collected in the hot water tank 10 to the heating tank 70 and at the same time to prevent the fluid in the heating tank 70 from flowing into the hot water tank 10. . Opening and closing of the check valve 80 may be controlled by a control unit.

21 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-first embodiment of the present invention.

As shown in FIG. 21, unlike the 20th embodiment of the present invention, in the steam generating device equipped with a pumping device according to the 21st embodiment of the present invention, the communication cover 41 is partially exposed from the hot water tank 10 It can be.

Here, a specific portion of the communication cover 41 partially exposed from the hot water tank 10 may be insulated to prevent heat loss due to radiant heat.

For example, a specific portion of the communication cover 41 partially exposed from the hot water tank 10 may be insulated in the form of a double wall or may include an insulator.

22 is a schematic diagram showing a steam generating device equipped with a pumping device according to a 22nd embodiment of the present invention.

As shown in FIG. 22, unlike the 19th embodiment of the present invention, the communication cover and the low-temperature fluid supply unit can be omitted in the steam generating device equipped with a pumping device according to the 21st embodiment of the present invention.

23 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-third embodiment of the present invention.

As shown in FIG. 23, unlike the 21st embodiment of the present invention, the steam generating device equipped with a pumping device according to the 23rd embodiment of the present invention includes a first communication pipe 110 and a second communication pipe 120. can include

The first communication pipe 110 is coupled through the steam generating tank 20 and communicates with the hot water tank 10 .

The second communication pipe 120 may communicate the first communication pipe 110 and the steam dense chamber 22 of the steam generating tank 20 .

Here, the first communication tube 110 and the second communication tube 120 may be vertically connected to each other.

24 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-fourth embodiment of the present invention.

As shown in FIG. 24 , unlike the 22nd embodiment of the present invention, the steam generating device equipped with a pumping device according to the 24th embodiment of the present invention may further include a communication cover 41 .

The communication cover 41 completely surrounds the steam generating tank 20, and a lower end of the communication cover 41 may be coupled to the first communication pipe 110.

Therefore, an external steam passage through which steam of a steam density flows is provided between the communication cover 41 and the steam generating tank 20, and the first communication pipe 110 and the second communication pipe 120 have a steam dense room An internal steam movement passage through which steam of 22) flows may be provided.

25 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-fifth embodiment of the present invention.

As shown in FIG. 25 , unlike the 23rd embodiment of the present invention, the steam generating device equipped with a pumping device according to the 25th embodiment of the present invention may further include a communication cover 41 .

The communication cover 41 may completely surround a specific portion of the steam generating tank 20 that is partially exposed from the hot water tank 10 .

Therefore, an external steam passage through which steam of a steam density flows is provided between the communication cover 41 and the steam generating tank 20, and the first communication pipe 110 and the second communication pipe 120 have a steam dense room An internal steam movement passage through which steam of 22) flows may be provided.

26 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-sixth embodiment of the present invention.

As shown in FIG. 26 , unlike the second embodiment of the present invention, the steam generating device equipped with a pumping device according to the 26th embodiment of the present invention may further include a partition wall 130 .

The partition wall 130 may be provided between the hot water tank 10 and the steam generating tank 20. In this embodiment, the partition wall 130 is provided between the hot water tank 10 and the communication cover 41. It can be.

The partition wall 130 covers the sidewall of the communication cover 41, and a passage hole 131 may be provided between the lower end of the partition wall 130 and the bottom surface of the hot water tank 10.

Steam and the first high-temperature fluid may pass through the passage hole 131 .

Meanwhile, some of the steam concentrated between the partition wall 130 and the communication cover 41 flows into the heating tank 70 through the communication hole and the check valve 80, and the rest flows through the passage hole 131 into the hot water tank ( 10) or the communication passage 42.

An auxiliary check valve 140 may be provided in the hot water tank 10 . When negative pressure is formed in the steam dense chamber 22 of the steam generating tank 20 and the pressure in the hot water tank 10 is lowered, the auxiliary check valve 140 is opened, and the external atmospheric pressure is increased between the hot water tank 10 and the steam. It can be supplied to the dense room (22).

27 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-seventh embodiment of the present invention.

As shown in FIG. 27, unlike the seventh embodiment, the steam generating device with a pumping device according to the 27th embodiment of the present invention omits the communication cover and further includes a partition wall 130. can do.

The partition wall 130 may be provided between the hot water tank 10 and the steam generating tank 20. In this embodiment, the partition wall 130 is provided between the hot water tank 10 and the communication cover 41. It can be.

The partition wall 130 covers the sidewall of the communication cover 41, and a passage hole 131 may be provided between the lower end of the partition wall 130 and the bottom surface of the hot water tank 10.

Steam and the first high-temperature fluid may pass through the passage hole 131 .

Meanwhile, some of the steam concentrated between the partition wall 130 and the communication cover 41 flows into the heating tank 70 through the communication hole and the check valve 80, and the rest flows through the passage hole 131 into the hot water tank ( 10) or may flow through the first communication pipe 110.

An auxiliary check valve 140 may be provided in the hot water tank 10 . When negative pressure is formed in the steam dense chamber 22 of the steam generating tank 20 and the pressure in the hot water tank 10 is lowered, the auxiliary check valve 140 is opened, and the external atmospheric pressure is increased between the hot water tank 10 and the steam. It can be supplied to the dense room (22).

28 is a schematic diagram showing a steam generating device equipped with a pumping device according to a twenty-eighth embodiment of the present invention.

As shown in FIG. 28 , unlike the third embodiment of the present invention, the steam generating device equipped with a water pumping device according to the twenty-eighth embodiment of the present invention may further include a partition wall 130 .

The partition wall 130 may be provided between the hot water tank 10 and the steam generating tank 20. In this embodiment, the partition wall 130 is provided between the hot water tank 10 and the communication cover 41. It can be.

The partition wall 130 covers the sidewall of the communication cover 41, and a passage hole 131 may be provided between the lower end of the partition wall 130 and the bottom surface of the hot water tank 10.

Steam and the first high-temperature fluid may pass through the passage hole 131 .

In addition, an auxiliary passage hole 132 may be provided on the upper part of the partition wall 130, and steam may pass through the auxiliary passage hole 132.

On the other hand, some of the steam concentrated between the partition wall 130 and the communication cover 41 flows into the heating tank 70 through the communication hole and the check valve 80, and the rest flows through the passage hole 131 and the auxiliary passage hole ( 132 may flow into the hot water tank 10 or the communication passage 42 .

An auxiliary check valve 140 may be provided in the hot water tank 10 . When negative pressure is formed in the steam dense chamber 22 of the steam generating tank 20 and the pressure in the hot water tank 10 is lowered, the auxiliary check valve 140 is opened, and the external atmospheric pressure is increased between the hot water tank 10 and the steam. It can be supplied to the dense room (22).

29 is a schematic diagram showing a steam generating device equipped with a water pumping device according to a 29th embodiment of the present invention, and FIG. 30 is a schematic diagram showing a steam generating device equipped with a water pumping device according to a 30th embodiment of the present invention.

As shown in FIG. 29, unlike the 26th embodiment of the present invention, in the steam generating device equipped with a pumping device according to the 29th embodiment of the present invention, the passage hole 131 in the partition wall 130 is removed. 30, and includes a first check valve 150 and a second check valve 160, and as shown in FIG. Unlike the thirtieth embodiment, the passage hole 131 in the partition wall 130 is removed, and the first check valve 150 and the second check valve 160 are included.

The first check valve 150 is provided on the partition wall 140 to supply steam concentrated in the steam generating tank 20 to the hot water tank 10, and at the same time, the first solid fluid in the hot water tank 10 enters the steam generating tank ( 20) to prevent inflow.

The second check valve 160 is provided on the partition wall 140 to supply the first high-temperature fluid accommodated in the hot water tank 10 to the steam generating tank 20, and at the same time, the steam in the steam generating tank 20 is discharged from the hot water tank. (10) to prevent inflow.

According to the present invention, the steam generating device equipped with a pumping device according to an embodiment of the present invention can replenish water by pumping water when water in the steam generating tank 20 becomes insufficient, and the steam generating tank 20 By heating and evaporating the stored water, the time for phase change into steam can be shortened, and the steam generating tank 20 can be miniaturized.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. you will be able to understand Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

10: hot water tank
11: inlet
12: outlet
20: steam generating tank
21: fluid accommodation chamber
22: steam dense room
22a: second fine hole
30: heating device
40: communication part
41: flue cover
41a: first fine hole
42: communication euro
50: low-temperature fluid supply unit
51: low-temperature fluid storage unit
52: injection pipe
53: pump
60: temperature sensor
70: heating bath
80: check valve
90: partition plate
100: cooling unit
110: first communicating pipe
120: second communicating pipe
130: dividing wall
131: through hole
132: auxiliary through hole
140: auxiliary check valve
150: first check valve
160: second check valve

Claims (27)

a hot water tank accommodating the first high-temperature fluid;
a steam generating tank including a fluid accommodating chamber accommodating a second high-temperature fluid and a steam concentration chamber in which steam generated from the second high-temperature fluid is concentrated;
a heating device generating steam by heating the second high-temperature fluid;
a communication unit communicating the hot water tank and the steam generating tank; and
And a low-temperature fluid supply unit for supplying or stopping the supply of low-temperature fluid to the steam generating tank,
When the low-temperature fluid supply unit supplies the low-temperature fluid to the steam generating tank, the steam concentrated in the steam generating tank is condensed by the low-temperature fluid and a negative pressure is formed in the steam generating tank due to the condensation of the steam. The first high-temperature fluid accommodated in the tank is supplied to the steam generating tank through the communication part;
When the low-temperature fluid supply unit stops supplying the low-temperature fluid to the steam generating tank, positive pressure is formed in the steam generating tank due to the generation of the steam, so that the steam generated in the steam generating tank passes through the communication unit. A steam generating device equipped with a pumping device, characterized in that supplied to the hot water tank.
a hot water tank accommodating the first high-temperature fluid;
a steam generating tank including a fluid accommodating chamber accommodating the second high-temperature fluid and a steam concentration chamber in which steam generated from the second high-temperature fluid is collected;
a heating device generating steam by heating the second high-temperature fluid;
a communication unit communicating the hot water tank and the steam generating tank; and
And a cooling unit for cooling or stopping cooling the steam generated in the steam generating tank,
When the cooling unit cools the steam concentrated in the steam generating tank, the steam concentrated in the steam dense chamber of the steam generating tank is condensed and a negative pressure is formed due to the condensation of the steam, so that the first high-temperature fluid accommodated in the hot water tank It is supplied to the steam generating tank through the communication part,
When the cooling unit stops cooling the steam concentrated in the steam generating tank, the steam generated in the steam generating tank is supplied to the hot water tank through the communication part as positive pressure is formed in the steam generating tank due to the generation of the steam. A steam generating device equipped with a pumping device, characterized in that.
a hot water tank accommodating the first high-temperature fluid;
a steam generating tank accommodating the second high-temperature fluid;
a heating device generating steam by heating the second high-temperature fluid; and
The steam generating device with a pumping device, characterized in that it comprises a communication part communicating between the hot water tank and the steam generating tank.
According to one selected from claims 1 to 3,
The communication part,
a communication cover covering upper and side walls of the steam generating tank; and
A communication passage formed between the communication cover and the steam generating tank;
One side of the communication passage communicates with the hot water tank,
The steam generating device with a pumping device, characterized in that the other side of the communication passage communicates with the steam generating tank.
According to claim 4,
The steam generating device with a water pumping device further comprising a slit provided at a lower end of the communication cover.
According to one selected from claims 1 to 3,
The communication part,
A steam generating device with a water pumping device comprising a communication pipe communicating between the hot water tank and the steam generating tank.
According to claim 4,
The communication part,
a first communication pipe passing through a lower end of the communication cover and coupled to the steam generating tank or simultaneously penetrated and coupled to the steam generating tank and the communication cover to communicate with the hot water tank; and
and a second communication pipe communicating with the first communication pipe and the steam dense chamber of the steam generating tank. According to one selected from claims 1 to 3,
At least one of the communication unit and the steam generating tank,
A steam generating device with a pumping device, characterized in that partially exposed from the hot water tank.
According to one selected from claims 1 to 3,
At least one of the communication unit and the steam generating tank,
A steam generating device with a pumping device, characterized in that disposed to be submerged in the first high-temperature fluid.
According to claim 1,
The low-temperature fluid supply unit,
a low-temperature fluid storage unit in which low-temperature fluid is stored; and
An injection pipe communicating with the low-temperature fluid storage unit and the steam dense chamber of the steam generating tank;
The low-temperature fluid stored in the low-temperature fluid storage unit is injected into the steam dense chamber via the injection pipe.
According to claim 1,
The low-temperature fluid supply unit,
a low-temperature fluid storage unit in which low-temperature fluid is stored; and
And an injection pipe communicating with the low-temperature fluid storage unit and the fluid receiving chamber of the steam generating tank,
The steam generating device with a pumping device, characterized in that the low-temperature fluid stored in the low-temperature fluid storage unit flows into the fluid receiving chamber via the injection pipe.
According to claim 10 or 11,
The distal end of the injection pipe
The steam generating device with a water pumping device, characterized in that it penetrates the steam generating tank and is disposed inside the steam generating tank.
According to one selected from claims 1 to 3,
The steam generating device with a water pumping device further comprising a partition wall provided between the hot water tank and the steam generating tank.
According to claim 13,
a first check valve provided on the partition wall to supply steam generated in the steam generating tank to the hot water tank and to prevent the first high-temperature fluid from the hot water tank from flowing into the steam generating tank; and
and a second check valve provided on the separating wall to supply the first high-temperature fluid contained in the hot water tank to the steam generating tank and to prevent steam from the steam generating tank from flowing into the hot water tank. Steam generating device equipped with a device.
a hot water tank accommodating the first high-temperature fluid or low-temperature fluid;
a steam generating tank including a fluid accommodating chamber accommodating a second high-temperature fluid and a steam concentration chamber in which steam generated from the second high-temperature fluid is concentrated;
a heating device generating steam by heating the second high-temperature fluid;
a communication cover covering upper and side walls of the steam generating tank;
a communication passage formed between the communication cover and the steam generating tank, one side communicating with the hot water tank and the other communicating with the steam generating tank; and
and a first fine hole provided on the communication cover to communicate the communication passage or the steam generating tank and the hot water tank.
According to claim 15,
When the amount of energy of the steam generated in the steam generating tank is less than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid contained in the hot water tank, the steam concentrated in the steam generating tank is condensed, and As negative pressure is formed by the condensation of the steam, the first high-temperature fluid or low-temperature fluid accommodated in the hot water tank is supplied to the steam generating tank through the first micropores and the communication passage,
When the amount of energy of the steam generated in the steam generating tank is greater than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid contained in the hot water tank, a positive pressure due to the generation of steam is formed in the steam generating tank. , The steam generating device with a pumping device, characterized in that the steam generated in the steam generating tank is supplied to the hot water tank through the first fine holes and the communication passage.
According to claim 15,
The first fine hole further includes a check valve for supplying the steam generated in the steam generating tank to the hot water tank and preventing the first high-temperature fluid contained in the hot water tank from flowing into the steam generating tank. Steam generating device with pumping device.
a hot water tank accommodating the first high-temperature fluid or low-temperature fluid;
a steam generating tank including a fluid accommodating chamber accommodating a second high-temperature fluid and a steam concentration chamber in which steam generated from the second high-temperature fluid is concentrated;
a heating device generating steam by heating the second high-temperature fluid; and
and a second fine hole provided on the steam generating tank to communicate the steam dense chamber and the hot water tank.
According to claim 18,
When the amount of energy of the steam generated in the steam generating tank is less than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid contained in the hot water tank, the steam concentrated in the steam generating tank is condensed, and the steam generating tank As negative pressure is formed by the condensation of the steam, the first high-temperature fluid or the low-temperature fluid accommodated in the hot water tank is supplied to the steam generating tank through the second micropores,
When the amount of energy of the steam generated in the steam dense chamber is greater than the amount of energy lost by the temperature of the first high-temperature fluid or the low-temperature fluid on the hot water tank, a positive pressure is formed in the steam generating tank due to the generation of the steam. Accordingly, the steam generating device with a pumping device, characterized in that the steam generated in the steam generating tank is supplied to the hot water tank through the second microhole.
According to claim 18,
The second fine hole further includes a check valve for supplying the steam generated in the steam generating tank to the hot water tank and preventing the first high-temperature fluid contained in the hot water tank from flowing into the steam generating tank. A steam generating device equipped with a pumping device that does.

According to claim 18,
a first communication pipe coupled to the steam generating tank and communicating with the hot water tank; and
and a second communication pipe communicating with the first communication pipe and the steam dense chamber of the steam generating tank.
The method of claim 15 or 18,
an inlet provided in the hot water tank through which fluid flows from the outside of the hot water tank; and
The steam generating device with a water pumping device according to claim 1 , further comprising an outlet provided in the hot water tank through which the fluid contained in the hot water tank is discharged.
According to one selected from claims 1, 2, 3, 13, 15, 18,
The heating device,
A steam generating device with a pumping device, characterized in that it is a coil heater.
According to one selected from claims 1, 2, 3, 13, 15, 18,
The steam generating device with a water pumping device further comprising a heating tank forming a communication hole communicating with the hot water tank and accommodating a heating object and a fluid.
According to claim 24,
and a check valve provided in the communication hole to supply the steam collected in the steam generating tank to the heating tank and to prevent the fluid in the heating tank from flowing into the hot water tank. Device.
According to claim 24,
The steam supplied to the heating tank emits liquefaction heat and heats the fluid and the object to be heated accommodated in the heating tank.
According to one selected from claims 1, 2, 3, 13, 15, 17,
a temperature sensor for measuring the temperature of the second high-temperature fluid; and
and a controller for operating the low-temperature fluid supply unit or outputting a warning signal when the temperature data measured by the temperature sensor is equal to or greater than a reference value.

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