KR101405850B1 - Control Device of Steam Temperature by Radiation Heat Transfer - Google Patents

Abstract

The present invention relates to a steam temperature control apparatus used in a steam heating apparatus and a sterilization treatment system of a fabric, and it is an object of the present invention to provide a temperature control apparatus for a steam steam boiler, And the auxiliary heat is supplied through the panel to uniformly adjust the temperature of the steam and to improve the heat transfer characteristic. Since the steam temperature control apparatus using the far-infrared ray panel of the present invention has a wide heat transfer area and heat is supplied by radiant heat, it is possible to easily and uniformly control the temperature of the steam and the temperature of the target material in a given space, .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a steam temperature control device,

The present invention relates to a steam temperature control apparatus for use in a steam heating apparatus and a sterilization treatment system, and more particularly, to a steam temperature control apparatus for steam, The present invention relates to a steam temperature control apparatus for uniformly controlling the temperature of steam and improving heat transfer characteristics by supplying auxiliary heat through a (circle) infrared panel provided on a seal wall surface. Since the steam temperature control apparatus using the far-infrared ray panel of the present invention has a wide heat transfer area and heat is supplied by radiant heat, it is possible to easily and uniformly control the temperature of the steam and the temperature of the target material in a given space, .

The temperature of the steam is very important in the steam process of printed fabrics, sterilization system using steam, and so on. At present, high-temperature and high-pressure steam used in industry is produced using electricity, but in most cases, steam boilers using fossil fuels are produced.

As shown in FIG. 1, since the temperature of the saturated steam increases as the pressure of the steam increases, the outlet pressure of the steam boiler must be increased to use the steam at a high temperature. However, since the high-pressure boiler needs to be made so that the heat transfer pipe installed therein can withstand the pressure, the production cost is low, It will be higher than the boiler.

Therefore, in a place where a large amount of steam is used, the steam produced through a common boiler is reheated through a heat exchanger and used. However, if the capacity is reduced, the cost required to control the temperature is relatively high, It is not used yet.

On the other hand, the temperature control of the steam is very important because the temperature of the steam determines the quality of the printing fabric so that the printed fabric can not be discolored even after a long period of use. In particular, when it is necessary to keep the temperature of the steam room at a little higher than 100, if the condensed water is generated on the inner wall of the steam heat exchanger, the quality of the product deteriorates. Therefore, a double wall is used to prevent moisture condensation. If steam is supplied to the space between the outside and the steam room by installing a double wall, the condensation of the inner wall surface of the steam room can be prevented because condensation of water vapor occurs only on the outer wall surface. However, the construction of such a device as a heat device complicates the structure and increases the manufacturing cost of the device.

In the present invention, a far infrared ray panel is installed on a wall surface of a vapor chamber to adjust the temperature of steam by supplying heat, and at the same time, the temperature of the wall surface is maintained at a temperature higher than the steam condensation temperature, A control device was developed. The control device of the present invention can supply the heat required by the product uniformly and constantly by providing a far infrared ray panel on the wall surface and supplying the heat required by the steam room by the infrared radiation heat transfer method, The utilization efficiency can be increased.

Open Patent Publication No. 2012-0032761 (2012.04.06. Disclosed)

It is an object of the present invention to provide a method and a device for controlling the temperature of steam in a steam room by uniformly and constantly controlling the temperature of the steam in the steam room by supplying heat required for temperature control of steam to the steam room, So that the quality of the product can be improved and the energy utilization efficiency can be increased.

Another object of the present invention is to provide a steam temperature control apparatus capable of preventing the condensation of water vapor on the wall surface by maintaining the temperature of the wall surface in the steam chamber above the steam condensation temperature without using the double wall structure.

In order to achieve the above object, the present invention relates to an apparatus for controlling steam temperature by radiative heat transfer used in a steam boiler or a sterilizing system of a fabric, wherein a far infrared ray panel is installed on the steam chamber wall, It is possible to prevent water vapor condensation due to heat loss on the wall surface of the steam chamber.

The far-infrared ray panel may include: i) a metal plate, ii) a far-infrared radiation material coated on one surface of the metal plate, iii) an electrothermal resistance wire attached to the other surface of the metal sheet, and iv) a heat insulating material covering the electrothermal resistance wire Wherein the far infrared ray emitting material is at least one selected from the group consisting of silica (SiO ₂ ), alumina (Al ₂ O ₃ ), zirconia (ZrO ₂ ), and zirconia titania (TiO _2), and the like mullite _{(3Al 2 O 3 · SiO 2} ), co-tier fluoride _{(2MgO · Al 2 O 3 ·} SiO 2) titanate, alumina _{(Al 2 O 3 · TiO 2} ) may be used.

Further, the far-infrared ray panel may include a catalytic burner, wherein the catalytic combustion burner comprises: i) a burner body; ii) a gas supply pipe for supplying gas into the burner body; iii) A low-temperature combustion catalyst in the form of a mat for burning the gas injected from the injection nozzle in a flame-free state and deflating far-infrared rays, v) a carrier for supporting the low-temperature combustion catalyst, and And vi) an electric heater for heating the low temperature combustion catalyst.

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By controlling the temperature of the steam room by the wall heating method using the far-infrared panel of the present invention, the steam temperature can be uniformly controlled without using the steam circulation system for controlling the temperature of the steam room. The rapid transfer of heat to the processed product can improve the quality of the product and increase the efficiency of energy use.

Further, according to the present invention, the temperature of the wall surface in the steam chamber is maintained at the steam condensation temperature or higher without using the double wall structure, thereby preventing condensation of water vapor on the wall surface.

FIG. 1 is a graph showing a correlation between temperature and pressure of water vapor.
Fig. 2 is a conceptual view of a steam chamber for heating a conventional printing fabric.
3 is a structure of the wall surface of the steam chamber for supplying far infrared rays.
Fig. 4 shows a structure of a mat catalytic burner for discharging combustion heat in a far infrared ray form.

The steam temperature control apparatus for radiative heat transfer according to the present invention will now be described in detail with reference to the drawings.

Generally, as shown in FIG. 2, the steam room is continuously supplied with steam whose temperature and pressure are constantly regulated from the external steam generator through the piping line. The water vapor supplied to the steam chamber is retained in the steam chamber for a certain period of time and then discharged to the outside. It is preferable that all of the supplied water vapor is discharged for a predetermined time. However, since a large amount of steam required for maintaining the temperature is exhausted, the operation cost is increased. Therefore, in the conventional apparatus, a part of the steam discharged out of the apparatus is heated by using an electric heater and then supplied to the steam room again. Thus, the heat loss through the steam chamber wall is compensated and the problem of uneven temperature inside the steam chamber due to the movement of the fabric is solved.

However, if the steam is circulated in order to reduce the temperature variation in the steam chamber, the possibility of contamination of the product increases and the structure of the system becomes complicated. When a large amount of steam is supplied and discharged, There is a problem that the size of the steam generator is increased.

Accordingly, in the present invention, a panel for discharging far-infrared rays can be installed on the wall surface of the steam chamber, thereby reducing the temperature variation within the steam chamber and preventing steam condensation due to heat loss through the wall without installing a steam circulation system. In addition, by supplying heat by the infrared radiation method, the penetration depth of the heat becomes longer, and the temperature variation inside the steam chamber becomes smaller than that of the steam circulation method.

As shown in FIG. 3, the far-infrared ray panel is formed of a metal plate such as silica (SiO ₂ ), alumina (Al ₂ O ₃ ), zirconia (ZrO ₂ ) titania (TiO _2), mullite _{(3Al 2 O 3 · SiO 2} ), coated with a far infrared radiation material such as co-tier fluoride _{(2MgO · Al 2 O 3 ·} SiO 2) titanate, alumina _{(Al 2 O 3 · TiO 2} ) And attaching a heat-resistant resistance wire coated with an insulating coating on the other side and attaching a heat insulating material. At this time, the electric resistance wire should be coated with an anti-leak coating so that electricity does not flow even if it is attached to the metal plate. When electric energy is supplied to the heating resistance wire, the metal plate is heated, and far-infrared radiation heat transfer occurs in the far-infrared radiation material coated on the metal plate.

On the other hand, the far infrared ray panel may be constructed using a catalytic combustion burner. 4, the catalytic combustion burner may include: i) a burner body, ii) a gas supply pipe for supplying gas into the burner body, iii) gas supplied from the gas supply pipe to the inside of the burner body A low-temperature combustion catalyst in the form of a mat for burning the gas injected from the injection nozzle in a flame-free state and deflating far infrared rays, v) a support for supporting the low-temperature combustion catalyst, and vi) An electric heater for heating the low temperature combustion catalyst may be constituted.

Catalytic combustion burners using low-temperature combustion catalysts are capable of burning flame-like fuels such as LPG at low temperatures, and are capable of achieving high thermal efficiency due to non-flammable near-heating, It is possible. In addition, far-infrared rays emitted from the low-temperature combustion catalyst can quickly and uniformly supply heat by radiant heat transfer, so that the temperature of the target material can be efficiently controlled.

At this time, the low-temperature combustion catalyst is preferably in the form of a mat, and the gas supplied from the gas supply pipe may be a fuel gas, air, or a mixed gas of fuel gas and oxygen. Preferably, the injection nozzle is uniformly formed in the burner body so that the mixed gas can be uniformly injected into the catalyst layer. In addition, an electric heater may be used to preheat the combustion catalyst to the catalyst reaction initiation temperature, and the temperature of the electric heater may be adjusted through temperature measurement through a thermocouple.

The steam temperature control apparatus using the far-infrared ray panel described in the present invention can be used in various industrial fields requiring high-temperature steam such as a steam boiler or a sterilization system of a fabric.

The present invention is not limited to the above-described specific embodiments and descriptions, and various modifications can be made to those skilled in the art without departing from the gist of the present invention claimed in the claims. And such modifications are within the scope of protection of the present invention.

Claims (6)

1. A vapor temperature control apparatus by radiant heat transfer used in a steam heating or sterilization system of a fabric,
Infrared panel is installed on the wall surface of the steam chamber to prevent steam condensation due to heat loss on the wall surface of the steam room by controlling the steam temperature in the steam room uniformly and constantly without a circulation system,
The far-infrared ray panel includes i) a metal plate, ii) far-infrared radiation material coated on one surface of the metal plate, iii) an electrothermal coating electrothermal resistance wire attached to the other surface of the metal sheet, and iv) Panel,
The far-infrared radiation material is silica (SiO _2), alumina (Al ₂ O _3)), zirconate thiazole (ZrO _2), titania (TiO _2), mullite _{(3Al 2 O 3 · SiO 2} ), co-tier fluoride ( _{2MgO · Al 2 O 3 · SiO} 2) titanate, alumina _{(Al 2 O 3 · TiO 2} ) of the steam temperature control system according to any radiative heat transfer, characterized in that it comprises one or more.
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