JP2005283081A - Reforming drying furnace using heat radiation body amplifier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To install a heat radiation body amplifier in a moving route of a heating medium in an inside in any of various kinds of drying treating furnaces for smoke heat, smoking, steam and the like to amplify a heat radiation body, so as to prepare a strong energy band for enhancing quality of an objective material. <P>SOLUTION: This heat radiation body amplifier 1 of the present invention is constituted of an active element 2 for strong energy oscillation, and a resonance catalyst 3 for the strong energy oscillation, and is constituted to pass or stay the heating medium (smoke, air, steam or the like). The heat radiation body is amplified thereby and the heating medium is made clean thereby. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

Detailed Description of the Invention

Industrial application fields

  In the present invention, a heat radiator amplifying apparatus is installed in various processing furnaces such as smoke heat, smoke, steam, etc., and a heat medium is allowed to pass through. The radiation energy of the heat radiator (also necessary for heat radiators using smoke, air, water vapor, etc.) is amplified, and the target desiccant is warped, bent, and twisted. It is possible to make high-quality dry materials (wood, etc.) by reducing internal stress that causes cracking. In addition, by increasing the reducing power of heat medium component molecules, the thermal conductivity of the target dry material (wood, etc.) is improved in efficiency (shortening the conduction time, making the heat conduction balance uniform), and ion conversion is repeated to improve the quality of the target material. This is related to a drying furnace that uses a heat radiator amplifier to improve the quality of finished products and improve the quality of finished products, improve yield, shorten drying time, and reduce costs. .

  There are a direct heating method and an indirect heating method in the conventional methods of artificial drying. Examples of the direct heating type drying include a smoke heat treatment furnace or a smoke treatment furnace. There are currently two types of soot-heat treatment methods for wood, the Ujiya-style heat treatment method, the EDS (Ecology Dry System) based on it, and the ancient human style of Mr. Sasaoka, which was inspired by Ondol technology. , There is a result of research based on the analysis. However, each has its own innovations in the conduction and convection of heat by smoke, but it seems that the current situation depends on the structure of the furnace for radiation. In other words, it is only effective use of electromagnetic waves radiated from carbon contained in smoke and black body radiant heat that is thickly attached inside the furnace.

Problems to be solved by the invention

  In various drying furnaces such as smoke heat, smoke, steam, etc., reducing the moisture content of the target material (wood, etc.) and removing residual stress greatly affect the quality of the finished product, yield improvement, and cost reduction. The present invention improves the thermal conductivity (shortening the conduction time) of the target material (wood for drying, etc.) by enhancing the heat radiator contained in the heat medium and reducing the heat medium component molecules. By reducing the moisture content of the target material and improving the removal rate of residual stress by making the heat transfer balance uniform, the amount of warping, bending, twisting, cracking, corrosion, etc. of the target material (wood, etc.) can be reduced. The present invention provides a drying furnace that uses the present thermal radiator amplifier for the purpose of reducing the yield, improving the yield, improving the material, and shortening the drying time.

Means for solving the problem

In the case of claim 1, a heat medium (smoke, air, steam, etc.) flowing in the furnace is applied to the heat radiator amplifier, and the heat radiator contained in the heat medium component is amplified. This is a method characterized by this.
In the case of claim 2, the amplified thermal spreader that has passed through the thermal radiator amplification device acts on the target material in the furnace to remove residual stress, improve the material structure, This is a method characterized by improving the transmission rate.
In the case of claim 3, the system is characterized in that claims 1 and 2 are used for a wood drying treatment furnace.

Action

  The thermal radiator amplification device includes a main body 1, an active element 2, and a resonance catalyst 3, and forms a strong energy band 7 by the radiation action of the active element 2 and the resonance catalyst 3. In other words, the strong energy band 7 is formed as an aggregate of the magnetic lines of force 5 radially through the active element 2 around the main body 1. This apparatus is installed in the flow path of the heat medium 4a including the heat radiator 4, and when the heat medium 4a passes through the strong energy band 7, it is amplified by the magnetic lines 5 to become the amplified fluid 6, and strong heat radiation is generated. Realize. In addition, the strong energy band 7 acts on the heat medium molecules passing therethrough, and has the effect of not only amplifying the heat radiator but also neutralizing positive charges as impurity molecules and further promoting ionization. Therefore, the amplified thermal fluid that has passed through the strong energy band 7 finely decomposes the molecular population. The inside of the furnace is convected as a clean amplified thermal fluid 6 having strong energy and purified. The fine and clean molecules of the amplified thermal fluid 6 repeat radiation of radiant heat to the target object as heat conduction efficiency up, powerful thermal fluid, and electromagnetic waves. Also, ionization and miniaturization will be promoted while performing ion exchange on the vapor and gas molecules released from the object in the drying process. As a result, the temperature difference in the furnace is reduced. Impurities of the object are neutralized and shifted to a reduced state, and a high-quality drying furnace is created.

In a wood smoke heat reforming and drying furnace, a thermal radiation amplifier is installed in the vicinity of a smoke discharge window for sending smoke discharged from the combustion chamber into the smoke heat furnace and in the smoke introduction pipe. Change in situation after installation (compared with before installation)
1 Since the logs can be dried, the cost after drying can be greatly reduced.
2 Since logs can be dried, small-diameter trees, thinned timber, or trees that could not be used as timber can now be used.
3 Insect and antiseptic effects can be obtained by polyphenols contained in smoke.
4 There is no odor caused by conventional smoke drying, and it is now possible to alleviate the color (core / edge) of wood.
5 Warpage, bending, twisting and cracking were alleviated and dimensional stability was excellent.
6 The smoke in the furnace became soft and fine.
7 The smell of smoke squeezes out and it is refreshing.
8 The quality of wood vinegar improved.
9 The time to reach the wood core during treatment heating was greatly shortened.
10 The heat retention in the furnace was improved.

The invention's effect

1. By using it in a soot processing furnace and a smoke heat drying processing furnace, the yield of dry wood was improved and the drying time was shortened, and it became possible to provide products with improved quality.
2. In dry log logs, it became possible to provide products with improved machinability and less warpage during processing, and less bending, twisting, cracking, etc.
3 After the heat treatment, it was possible to provide a favorable working environment by reducing the malodor of smoke when the furnace was released.
4. Regardless of the size of the wood logs, it has become possible to provide uniform drying even for large-scale treatment by improving the thermal conductivity.

  Overall sketch of the present invention

Explanation of symbols

Reference numeral 1 denotes a heat radiator amplifier main body 2, an active element 3, a resonance catalyst 4, a smoke heat radiator molecule 4a, a heat medium (smoke, steam, etc.)
5 is a magnetic force line 6 is amplified smoke heat fluid 7 is a strong energy band 8 is a heat medium (smoke heat, smoke heat, steam, etc.), material 9 for reforming and drying is water vapor, and gas 10 is a heat medium (smoke, steam, etc.) ) Outlet

Claims (3)

    Rare earths (including 1 to 3%) for amplifying the radiation energy of each radiator in the heat medium holding area, heat radiator moving passage and residence area in various drying treatment furnaces such as smoke heat, smoke and steam ) A drying furnace characterized in that it uses a thermal radiator amplifier equipped with an active element made of a material and a far infrared ray generating material.     The various components contained in the heat medium such as smoke are formed with an active element made of a rare earth-containing material and a far-infrared ray generating material, and a resonant catalyst in which a rare earth-containing (1 to 3%) special paint is applied to a highly conductive material. A drying treatment furnace using a thermal radiation amplification device, which is converted into a molecular group having ionizing and reducing power by passing and staying in a strong energy band.     A wood drying treatment furnace using claim 1 or claim 2.

Images