KR100935445B1 - Drying apparatus using irradiation facility of radiant heat - Google Patents

Abstract

The present invention relates to a drying apparatus using a radiant heat irradiation apparatus, which is capable of irradiating one or more radiant heat generators (10) and electromagnetic waves in the radiant heat region generated by the radiant heat generator (10) to the irradiated object (30). Wave guide 20 is connected between the radiant heat generating device 10 and the irradiated object 30 to increase the irradiation distance, thereby greatly extending the irradiation distance of the electromagnetic wave in the radiant heat region, and the irradiation direction and irradiation intensity are not limited. It can be changed without being concentrated so that only the irradiated object 30 is intensively irradiated, thereby improving energy efficiency while reducing power consumption.

Description

Drying apparatus using radiation facility {Drying apparatus using irradiation facility of radiant heat}

The present invention relates to a drying apparatus using a radiant heat irradiation apparatus which can induce radiant heat to improve the heating or drying efficiency of a dried object, and in particular, greatly extends the irradiation distance of electromagnetic waves in the radiant heat region, The intensity is also not limited and can be changed so that it is irradiated intensively only to the irradiated object, reducing the power consumption while improving the energy efficiency, and relates to a radiant heat irradiation apparatus that can improve the quality of the irradiated and dried product.

In a conventional heating apparatus or drying equipment using radiant heat, radiant heat is directly irradiated onto the article or by using a reflector.

However, in the apparatus using the radiant heat as described above, the irradiation distance of the radiant heat is relatively short within 70 cm (far infrared region) to 1 m (near infrared region), and thus heating or drying of a large structure cannot be efficiently performed. In addition, the conventional apparatus using the radiant heat has a restriction that the irradiation direction and the irradiation intensity can not be changed, and furthermore, the structure has a problem that the loss of radiant heat through the wall, window, door, air hole, etc. is large.

Accordingly, the present invention has been made to solve the above problems, significantly increasing the irradiation distance of the electromagnetic wave in the radiant heat region, and the irradiation direction and irradiation intensity is also not limited, so that it can be intensively irradiated only to the irradiated object, power consumption It is an object of the present invention to provide a drying apparatus using a radiant heat irradiation apparatus which can further improve heating or drying of an object while reducing energy efficiency.

In order to achieve the above object, the drying apparatus using the irradiating apparatus according to the present invention is one or more radiant heat generating apparatus, and the irradiation distance so as to irradiate the electromagnetic radiation of the radiant heat region generated by the at least one radiant heat generating apparatus to the irradiated object It consists of a waveguide connecting the radiant heat generating device and the object to be enlarged.

The waveguide according to the present invention is a device capable of inducing electromagnetic waves in the radiant heat region generated in the radiant heat generating apparatus to a long distance, and a wave guide known in the art may be used. The waveguide material is a metal having high efficiency of reflecting electromagnetic waves, and preferably silver, copper, aluminum, stainless steel, or a plated product thereof may be used.

In the form of wave guides, there are straight pipes having a constant diameter or gradually increasing diameter to extend the irradiation distance, and curved pipes bent in a predetermined direction. It consists of a tube and a square tube. These straight pipes and curved pipes serve as means for expanding the irradiation distance.

In addition, the wave guide may be a collecting tube that collects radiant heat generated by the radiant heat generating device and reflected by the reflector, and a branching tube that divides the radiant heat. Works. Of course, an electron trumpet may be attached to the end of the waveguide to further extend the irradiation direction.

In addition, the drying apparatus using the irradiation apparatus according to the present invention may be provided with a ventilation wave guide, adhesive wave guide or pleated curtain wave guide, matte diffuse reflection wave guide, bottom wave guide and the like. Here, the adhesive wave guide is referred to collectively as a thin wave guide provided with an adhesive layer to adhere to the wall or ceiling in the drying facility.

According to the present invention as described above, by applying the wave guide to the heating or drying using the radiant heat, it is possible to extend the short distance irradiation distance to several tens of meters to achieve a large, large capacity, high efficiency work. In addition, while significantly reducing power consumption, the energy efficiency is greatly improved, and the heating or drying of the irradiated object is further improved.

Hereinafter, a drying apparatus using an irradiation apparatus according to an embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 is a conceptual diagram schematically showing a first embodiment using a drying apparatus using a radiant heat irradiation apparatus according to the present invention, wherein the drying apparatus using an irradiation apparatus according to this embodiment includes one or more radiant heat generating apparatuses 10, The radiant heat generating device 10 is connected between the irradiated object 30 and the irradiated object 30 so as to extend the irradiation distance so that the electromagnetic radiation of the radiant heat region generated by the at least one radiant heat generating device 10 can be irradiated to the irradiated object 30. It consists of a wave guide (20). Here, the irradiated object 30 may be, for example, a block of a ship requiring a drying process of the inner coating, or a plurality of compartment structures that require heating.

A reflecting mirror or an electron trumpet (not shown in detail) is provided around the radiant heat generating device 10 to prevent radiant heat from spreading in any direction and to guide the wave guide 20. Moreover, it is also preferable to insulate the circumference | surroundings of the radiant heat generating apparatus 10 with a heat insulating material in order to improve safety and thermal efficiency.

In addition, preferably the radiant heat generating device 10 should be installed to generate radiant heat toward the vertical downward.

The waveguide 20 according to the present invention is a device capable of inducing electromagnetic waves in the radiant heat region generated by the radiant heat generating apparatus 10 to a long distance, and a wave guide known in the art may be used. The waveguide material is a metal having high efficiency of reflecting electromagnetic waves, and preferably, any one of silver, copper, aluminum, stainless steel, or a plated product thereof may be used.

The wave guide 20 may be a plurality of straight pipes 21 having a constant diameter or gradually expanding the diameter so as to extend the irradiation distance, and a plurality of curved pipes 22 bent in a predetermined direction. The cross section of the straight pipe 21 and the curved pipe 22 consists of a circular pipe and a square pipe. The straight pipe 21 and the curved pipe 22 acts as a means for expanding the irradiation distance.

In addition, the wave guide 20 may be a collecting tube 23 collecting the radiant heat generated by the radiant heat generating device 10 and reflected by the reflector, and a branch tube 24 dividing the radiant heat. (23) and branch pipes 24 serve as means for changing the irradiation direction and the irradiation intensity.

For example, the irradiation direction of the radiant heat generated by the radiant heat generating device 10 is changed to the right through the collecting pipe 23, as shown in FIG. 1, and then converted upward by the curved pipe 22 that meets the branch pipe. Radiation heat is divided by 24 to guide the inside of the irradiated object 30. In addition, the irradiation intensity of the radiant heat can be different from the irradiation intensity in the upstream branch pipe 24 and the downstream branch pipe 24 by making the cross-sectional area of the branch pipe 24 different, and of course, the same in cross-sectional area. You can do the same.

Subsequently, an electron trumpet 25 may be mounted at the end of the wave guide 20 inserted into the irradiated object 30 to further expand the radiant heat irradiation direction.

In the drying apparatus using the radiant heat irradiation apparatus configured as described above, the electromagnetic wave of the radiant heat region generated by the at least one radiant heat generating apparatus 10 is used as the wave guide 20, that is, the collecting tube 23, the plurality of straight tubes 21, and the plurality of curved tubes. (22) Through the branch pipe 24, the irradiated object 30 can be irradiated to a remarkably long distance as compared with the prior art.

2 is a conceptual diagram schematically showing a second embodiment using a drying apparatus using a radiant heat irradiation apparatus according to the present invention, wherein the drying apparatus using an irradiation apparatus according to this embodiment also includes at least one radiant heat generating apparatus 10; The radiant heat generating device 10 is connected between the irradiated object 30 and the irradiated object 30 so as to extend the irradiation distance so that the electromagnetic radiation of the radiant heat region generated by the at least one radiant heat generating device 10 can be irradiated to the irradiated object 30. It consists of a wave guide (20). Here, the irradiated object 30 may be, for example, a drying chamber in which a separate product 31 is required, which requires a drying process therein. In FIG. 2, the product 30 is schematically illustrated as an automobile. Doing.

The drying apparatus using the radiant heat irradiation apparatus according to this embodiment is provided with an air vent wave guide 26, an adhesive wave guide 27, a bottom wave guide 28, and the like. Since it is different from the first embodiment and the other parts are similar, similar parts are denoted by the same reference numerals as in the first embodiment, and detailed description thereof is omitted.

The vent wave guide 26 has a zigzag channel (see enlarged portion of FIG. 2, dotted lines indicate passage of air) therein, and the air pipe 33 is opened from a blower and a filter 32 which will be described later. The air entering the irradiated object 30 through the irradiated object 30 can freely enter and exit, but the electromagnetic wave in the radiant heat region introduced into the irradiated object 30 through the branch pipe 24 escapes the vent wave guide 26 due to the nature of the electromagnetic wave. You will not be able to go out.

The adhesive waveguide 27 is, for example, a thin wave guide provided with an adhesive layer to adhere to the wall or ceiling in the irradiated body 30 of the drying chamber, and the adhesive wave guide 27 is provided on both the front side and the back side of the drying chamber. Or it is installed on at least one side to form a space for maintaining a high temperature, thus inducing radiant heat to be irradiated away, and significantly improve the thermal efficiency of the drying chamber itself. On the other hand, on the wall surface of the material, form or structure that the adhesive layer of the adhesive wave guide 27 is hard to adhere, a pleated curtain wave guide (not shown) extending downward and gathering up may be provided.

The bottom wave guide 28 is installed to surround the bottom surface of the irradiated body 30 of the drying chamber except for the ventilation grid 29.

In addition, when the worker is working inside the drying apparatus using the radiant heat irradiation apparatus, a wave guide of a matte diffuse reflection material may be used to protect the eyesight of the operator.

The air circulation system consists of a blower and a filter 32 provided in the periphery of the irradiated body 30, and an air pipe 33 which connects the blower and the filter 32 and the irradiated object 30 to each other. In Figure 2 we can see the flow of air indicated by arrows.

In the drying apparatus using the radiant heat irradiation apparatus configured as described above, the electromagnetic wave of the radiant heat region generated by the at least one radiant heat generating apparatus 10 is used as the wave guide 20, that is, the collecting tube 23, the plurality of straight tubes 21, and the plurality of Through the curved pipe 22 and the branch pipe 24, the irradiated object 30 can be irradiated over a long distance, and furthermore, the ventilation wave guide 26, the adhesive wave guide 27 or the pleated curtain wave guide, and the bottom wave. By the guide 28 or the like, electromagnetic waves in the radiant heat region are not absorbed by the wall or easily lost through the air circulation system, so that the thermal efficiency can be significantly increased.

1 is a conceptual diagram schematically showing a first embodiment using a drying apparatus using a radiant heat irradiation apparatus according to the present invention.

2 is a conceptual diagram schematically showing a second embodiment of a drying apparatus using a radiant heat irradiation apparatus according to the present invention.

Claims (5)

delete delete delete One or more radiant heat generators (10) arranged to generate radiant heat vertically downward, and the irradiation distance so as to irradiate the electromagnetic radiation of the radiant heat region generated by the at least one radiant heat generator (10) to the irradiated object (30) It comprises a wave guide 20 made of any one of silver, copper, aluminum, stainless steel, or a plated product thereof, which is connected between the radiant heat generating device 10 and the irradiated object 30 so as to enlarge, The inside of the irradiated body 30 is provided with a ventilation wave guide 26 having a zigzag channel, the wall surface is provided with an adhesive wave guide 27 having an adhesive layer or a pleated curtain wave guide installed up and down on the wall surface. Drying apparatus using a radiant heat irradiation device to prevent the loss of radiant heat. 5. The drying apparatus according to claim 4, wherein each wave guide provided in the inside of the irradiated body (30) is made of a matte diffuse reflection material.

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