KR100981798B1 - A steam generator - Google Patents

Abstract

The present invention relates to a steam generator.

The present invention is provided with a water tank in which water is accommodated, and a heating unit provided at one side of the water tank and heating water introduced from the water tank using a heater to generate steam, and steam for discharging steam generated in the heating unit to the outside. It includes a discharge portion, the heater is a heating element formed of a ceramic element that generates heat by receiving power through a conductive plate, a first insulating layer formed by winding an insulating sheet to surround the heating element, and the first insulation And a case surrounding the layered heating element, and a second insulating layer formed by filling a magnesium oxide or slurry-like insulator between the case and the heating element. According to the present invention having such a configuration, the thickness and weight of the heater is reduced by the first insulating layer, and the heat generating resistance is reduced by the second insulating layer, so that the weight of the steam generator is light and the thermal efficiency is improved. .

Heating element, heater, steam, cleaner, insulation

Description

Steam generator {A steam generator}

The present invention relates to a steam generator.

In general, the steam cleaner is to remove foreign substances by spraying the steam generated by heating the water on the cleaning surface, for this purpose, the nozzle of the steam cleaner is provided with a steam generator for generating steam, the heater inside the steam generator Is provided to allow the water to be converted to steam using high temperature heat.

On the other hand, the heater is generally used as a heater (Sheath heater), since the part in contact with the water (Ground) is not ground (Ground) usually by cleaning the surface using a Teflon coating or ceramic coating, by using a steam cleaner This prevents the occurrence of safety accidents such as electric shock accidents.

However, the above conventional technologies have the following problems.

The heater according to the prior art may peel off the coated portion due to impact or friction during the use of the Teflon coating or ceramic coating formed on the surface there is a possibility that the user may be subjected to an electric shock in the above case.

On the other hand, due to the above problems, the double insulation is required to improve the safety of the heater installed and used in the steam cleaner.

However, when double insulation is performed to secure the safety of the heater as described above, since the insulation layer reduces the heat generated by the heater, there is a problem that the heat generation performance of the heater is reduced.

An object of the present invention, which was devised to solve the problems of the prior art as described above, is to provide a steam generator that improves the heat generation performance by reducing the weight and reducing the internal thermal resistance by improving the insulation structure of the heater.

The present invention is provided with a water tank in which water is accommodated, and a heating unit provided at one side of the water tank and heating water introduced from the water tank using a heater to generate steam, and steam for discharging steam generated in the heating unit to the outside. It includes a discharge portion, the heater is a heating element formed of a ceramic element that generates heat by receiving power through a conductive plate, a first insulating layer formed by winding an insulating sheet to surround the heating element, and the first insulation And a case surrounding the layered heating element, and a second insulating layer formed by filling a magnesium oxide or slurry-like insulator between the case and the heating element.

In the steam generator according to the present invention, a heater is formed by combining ceramic with a heating element, an insulating layer formed by winding an insulating sheet on the heating element, and an insulating layer using a slurry-like insulating material or magnesium oxide (MGO). .

In addition, since the insulating layer using the slurry-like insulating material is formed by Liquid Injection Molding (LIM) using a magnesium hydroxide slurry, the thermal conductivity together with the insulating layer using the magnesium oxide material of the conventional insulating layer It is improved than Teflon coating layer or ceramic coating layer used as.
Therefore, since the heating element is insulated through the insulating layer having excellent thermal conductivity as described above, the internal heat resistance of the heating element is reduced, and the thickness and weight of the heater is reduced by the insulating layer formed by the insulating sheet, thereby generating steam. Reduced weight and improved heat generation has the advantage of smooth operation and steam generation of the steam cleaner.

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Hereinafter, with reference to the drawings will be described a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention can easily suggest other embodiments within the scope of the same idea.

Figure 1 is a perspective view of the inside of the nozzle of the cleaner employing a steam generator according to an embodiment of the present invention.

In the nozzle 1 of the cleaner employing the present invention, a nozzle main body 10 having an external appearance of a nozzle and having a seating part 11 formed thereon, and a nozzle main body 10 provided above the nozzle main body 10, are provided. The nozzle cover 20 to shield the inside of the) and the connection portion 30 is provided on one side of the nozzle body 10 so that the air sucked by the nozzle is moved to the main body (not shown) of the cleaner.

The nozzle body 10 includes an air suction unit 12 through which air containing dust is sucked from the surface to be cleaned, and an air suction unit through which the air sucked through the air suction unit 12 moves toward the connection unit 30. A flow path 13 is provided.

The suction passage 13 may extend backward from the air suction portion 12.

In addition, the nozzle body 10 is provided with a steam generator 100 to change the supplied water to steam. The steam generator 100 may be disposed above and on one side of the suction passage 13.

The steam generating device 100, a water tank 110, the supplied water is stored, and a reservoir provided on one side of the water tank 110, the predetermined amount of water flows from the water tank 110 ( 130 and a heating unit 150 provided on one side of the reservoir 130 to heat the water flowing from the reservoir 130.

Hereinafter, the structure of the steam generator 100 will be described with reference to the drawings.

Figure 2 is a cross-sectional view showing the configuration of a steam generator is built in an embodiment of the present invention.

The steam generating device 100, a water tank 110, the supplied water is stored, and a reservoir provided on one side of the water tank 110, the predetermined amount of water flows from the water tank 110 ( 130 and a heating unit 150 provided at one side of the reservoir 130 to allow the water flowing from the reservoir 130 to be heated and steam generated by the heating unit 150 to be discharged to the outside. The discharge unit 160 is included.

The heating part 150 is formed in a substantially rectangular parallelepiped shape, and a heater 200 is provided therein to heat water to generate steam. The heater 200 is formed in a flat plate shape using a ceramic, and the heater 200 will be described in more detail below with reference to the accompanying drawings.

3 is a view showing a structure of a heater according to an embodiment of the present invention, Figure 4 to 9 is a cross-sectional view showing an insulating structure of a heater according to various embodiments of the present invention.

As shown in these drawings, the heater 200 according to an embodiment of the present invention is provided with a heat source to generate heat through the ceramic element 600 by receiving power through the conductive plate 700.

The outer circumferential surface of the heating element is provided with a case 400 for forming an exterior to fix the shape of the insulating material formed on the outer side of the heating element.

The case 400 is formed of an aluminum material and is formed to have a predetermined space therein in a state in which the heating element is accommodated.

In addition, by forming a plurality of protrusions on the outer circumferential surface of the case 400, it will be possible to increase the external divergence area of heat generated through the heating element.

On the other hand, the plurality of insulating layers formed between the heating element and the case 400 is a first insulating layer formed using any one of magnesium oxide (MGO, 900), slurry-like insulator 800, insulating sheet 500. And one of magnesium oxide (MGO, 900), slurry-like insulator 800, and insulating sheet 500 to have a different material from that of forming the first insulating layer on the outside of the first insulating layer. It consists of a 2nd insulating layer formed using.

Here, the slurry-like insulator 800 is a stable particle size slurry of magnesium hydroxide, which is formed by pulverizing magnesium oxide (MGO, 900) to a particle size to form a powder, stirring the formed powder with water, and then adding a dispersant. do.

Hereinafter, a structure of forming the first insulating layer and the second insulating layer will be described in more detail with reference to the accompanying drawings.

In the embodiment illustrated in FIG. 4, the first insulating layer is formed of the insulating sheet 500, and the second insulating layer is formed of the slurry-like insulator 800.

In more detail, the insulating sheet 500 is wound around a heating element formed of the ceramic element 600 and the conductive plate 700 to form a first insulating layer, and the first insulating layer, that is, the insulating sheet 500 is The wound heating element injects the slurry-like insulator 800 between the inside of the case 400 and the first insulating layer while being accommodated in the case 400 having a corresponding shape. After the slurry insulator 800 is injected as described above, the second insulating layer is formed by drying the slurry insulator 800.

In FIG. 5, the first insulating layer is formed of a slurry insulator 800, and the second insulating layer is formed of an insulating sheet 500.

That is, the heating element formed of the ceramic element 600 and the conductive plate 700 is accommodated in a tube 420 having a corresponding shape, and a slurry-like insulator 800 is injected into a space between the tube 420 and the heating element. The first insulating layer is formed by drying, and the second insulating layer is formed by winding the insulating sheet 500 on the outer side of the first insulating layer formed as described above.

On the other hand, when the insulating sheet 500 to form a second insulating layer as described above, the case 400 is selectively formed according to the heating method of the heater 200 to be manufactured.

That is, the heater 200 may be classified into a through heating method of directly contacting the fluid according to a heating method and an indirect heating method of heating the fluid using a separate heat conducting member without directly contacting the fluid. Since the insulating sheet 500 does not come into contact with the fluid, there is no risk of damage, and thus the heat conductive member connected to the insulating sheet 500 may be in contact with the fluid without forming a separate case 400.

In FIG. 6, the first insulating layer is formed by winding the heating element with the insulating sheet 500, and the heating element with the first insulating layer wound is accommodated in the case 400. Magnesium oxide (900) powder in the space between the 400 is charged after the charge to form a second insulating layer.

In FIG. 7, the first insulating layer and the second insulating layer are formed of a combination of the magnesium oxide 900 and the insulating sheet 500.

That is, the first insulating layer is accommodated in the tube 420 that houses the heating element formed of the ceramic element 600 and the conductive plate 700, and between the received heating element and the inner space of the tube 420. After the magnesium oxide (900) powder is charged in to press to form a first insulating layer.

The second insulating layer is formed by winding the insulating sheet 500 on the outer circumferential surface of the case 400, and a separate case 400 is formed outside the second insulating layer as in the embodiment of FIG. 5. It doesn't work.

Meanwhile, in FIG. 8, the first insulating layer and the second insulating layer are formed of a combination of magnesium oxide 900 and slurry-like insulator 800.

That is, the first insulating layer is accommodated in a tube 420 in which a heating element composed of the ceramic element 600 and the conductive plate 700 is accommodated therein, and a slurry-like insulator between the tube 420 and the heating element ( 800 is then dried and formed.

The second insulating layer is formed by pressurizing the magnesium oxide 900 in the inner space of the tube 420 and the case 400 in the case 400 in which the tube 420 is accommodated. do.

9, the first insulating layer is formed of magnesium oxide 900, and the second insulating layer is formed of a slurry-like insulator 800.

That is, magnesium oxide 900 is pressurized after charging to form a first insulating layer between the heating element and the tube 420 accommodating the same, and the slurry-like insulator is disposed between the tube 420 and the case 400 accommodating the magnesium oxide 900. 800 is dried after implantation to form a second insulating layer.

1 is a perspective view of the inside of the nozzle of the cleaner employing a steam generator according to an embodiment of the present invention.

Figure 2 is a cross-sectional view showing the configuration of an embodiment of the steam generating apparatus according to the present invention.

3 is a view showing an embodiment of a heater that is a main component of the present invention.

4 to 9 are cross-sectional views showing various embodiments of a heater which is a main component of the present invention.

Explanation of symbols on the main parts of the drawings

100 ... steam generator 200 ... heater

400 ..... Case 500 ..... Insulation sheet

600 ..... Ceramic element 700 ..... Conductive plate

800 ..... slurry insulator 900 ..... magnesium oxide

Claims (9)

A reservoir in which water is accommodated; It is provided on one side of the reservoir, the heating unit for generating steam by heating the water flowing from the reservoir using a heater and Includes; steam discharge unit for discharging the steam generated in the heating unit to the outside In the heater, Heating element is formed of a ceramic element that generates heat by receiving power through the conductive plate, A first insulating layer formed by winding an insulating sheet to surround the heating element; A case surrounding the heating element on which the first insulating layer is formed; A steam generator comprising a second insulating layer formed by filling the magnesium oxide or slurry-like insulator between the case and the heating element. delete delete delete delete delete delete delete The method of claim 1, The case is formed of an aluminum material, the steam generator is formed with a plurality of projections on the outer surface.

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