Electric heating – Microwave heating – Tunnel furnace
Reexamination Certificate
2002-11-26
2004-12-14
Leung, Philip H. (Department: 3742)
Electric heating
Microwave heating
Tunnel furnace
C219S696000, C219S701000, C219S746000, C219S748000, C219S750000, C156S379600
Reexamination Certificate
active
06831259
ABSTRACT:
BACKGROUND
The present invention relates to an apparatus for the heating of pressed stock in the manufacture of boards of material or wood-based material or in the manufacture of veneer panels. One form of the apparatus from which the present invention sets out includes a microwave preheating device emitting microwave energy. The pressed stock, being preheatable by means of such a device, is capable of being pressed and cured after transfer into a single-platen or multi-platen press or into a continuously operating press with the application of pressure and heat.
Examples of such an apparatus for the manufacture of boards of wood-based material are the subject of U.S. Pat. No. 6,176,951, filed May 4, 1998; U.S. Pat. No. 6,290,809, filed Jul. 1, 1999; and U.S. Pat. No. 6,402,877, filed Aug. 9, 1999, which are hearby incorporated by reference. Examples of such an apparatus for the manufacture of veneer panels are the subject of U.S. Pat. No. 5,895,546, filed Apr. 9, 1997, and U.S. Pat. No. 5,942,079, filed Aug. 19, 1998, which are hereby incorporated by reference. Such apparatuses have already been used successfully in the industry for a considerable time for the preheating of the pressed stock (in mat or extruded form) by means of microwaves.
This technology has proven its value, in particular, in methods for the manufacture of very thick boards of wood-based material, as for example, in the manufacture of wood veneer panels, which are today manufactured in thicknesses of up to 150 mm and which could not be manufactured economically without a preheating device. The microwave preheating units used in such cases are, for the most part, industrially produced microwave heaters of conventional design, which are configured as continuous ovens. Since, in the manufacture of boards of wood-based material, the board width is many times greater than the board thickness, the microwaves are emitted perpendicularly to the plane of the board of wood-based material. The board widths are customarily between 1200 and 3900 mm and the board thicknesses in the region of from 30 to 150 mm. The microwaves are generated in what are known as microwave generators in which the high-frequency modulation and the magnetron tubes are accommodated. Because of the high microwave output required, a large number of generators are necessary for one preheating device, most of them possessing an output of 75-100 kW and being accommodated in enclosed electrical switch rooms adjacent to the production plant. From there, the microwaves generated are guided by means of hollow waveguides to the actual heating cell in the production plant, one hollow waveguide being necessary for each generator. In order to achieve the most uniform possible distribution of heat in the pressed stock passing through, the microwaves guided in the hollow waveguides, coming from the individual generators, are further branched, and the number of energy-conducting hollow waveguides is thus multiplied, so that a dense grid of introduction points can be achieved below and above the heating cell. The customary branching ratio today is 1 to 2 or 1 to 4, meaning that energy arriving from four generators, which is initially conducted in four hollow waveguides, is subdivided over up to 16 hollow waveguides, which lead to 16 introduction points. The microwaves are introduced into the heating cell by means of circular hollow waveguides, which are attached in a vertical standing position below and above the heating cell. Instrumentation whereby the phase relation of the microwave is tuned is necessary for every introduction point. Depending on the breadth of production of the plant for the manufacture of boards of wood-based material, between 12 and 36 introduction points are necessary to achieve a distribution of energy that is sufficiently homogeneous.
The capital outlay for such a microwave preheating device is very high, and the device has therefore hitherto become established only in plants for the manufacture of wood veneer panels.
One object of the present invention is to provide an apparatus for the heating, especially the preheating, of pressed stock by means of microwave energy whereby the capital costs of an equivalent plant can be reduced, plant availability can be increased, and the control expense can be reduced.
SUMMARY OF THE INVENTION
According to the present invention, one solution to the problem includes a microwave preheating device that consists of a heating cell configured as a continuous oven in which the introduction of the microwaves into the pressed stock takes place via rod antennae disposed in series and having reflection shields. The rod antennae are attached to lie horizontally and transversely to the direction of production above and/or below the pressed stock within the heating cell, and reflective surfaces are assigned to the rod antennae on, in each case, the opposite surfaces of the pressed stock.
The solution according to the present invention has resulted in a microwave preheating device of fundamentally different design, whereby the capital costs for an equivalent apparatus can be reduced by approximately 30-50%. Further advantages include minimization of the control expense and, consequently, less fault-prone components and increased plant availability.
According to one embodiment of the present invention, a heating cell is provided in which the introduction of the microwaves takes place, not via connected hollow waveguides which stand perpendicularly to the product plane, but via rod-shaped conductors (antennae), which are attached to lie horizontally and transversely to the direction of production, respectively, above and below the pressed stock in mat or extruded form within the heating cell. The introduction of the microwaves can also take place by means of hollow waveguides from the generators to the heating cell, the radiation characteristic of the rod antenna generally meaning that no additional branching of the hollow waveguides coming from the generators is necessary. In other words, the number of introduction points is equal to the number of generators. Purpose-developed hollow waveguide transitions are used for the transition from hollow waveguide to rod antenna.
Radiation takes place radially in all directions. There is a linear decline in output over the length of the rod antenna, the gradient of which is dependent upon the loss factor of the pressed stock to be preheated and the distance between the antenna and the product. In order to compensate for the resulting non-uniform heating over the width of the mat of pressed stock, it is one subject of the invention that two rod antennae, or a multiple of two, are disposed in series, introduction taking place alternately from the left and from the right. This makes it possible, as a result of the superposition of the heating profiles of the individual rod antennae, which heating profiles decline in a linear manner over the width, for uniform heating to be achieved in sum over the width of the pressed stock. Furthermore, it is also possible to make a connection to the rod antenna on both sides, meaning that both the left-hand and the right-hand side of each rod antenna are connected to a hollow waveguide. As long as the two connections are not fed from a single source, no interference arises here that might have a disruptive effect.
Reflective surfaces lying in opposite positions below the mat of pressed stock are assigned to the rod antennae that lie above it. The microwaves remaining after the first passage through the mat of pressed stock are reflected thereby and pass through the mat of pressed stock for a second time. Because the positioning of the reflective surface is matched to the position of the mat of pressed stock by the wavelength, it is possible, as a result, in connection with a selective adaptation of the phase relation of the microwave introduced, to bring about phase superposition and hence the formation of a standing wave, which stands vertically and perpendicularly to the plane of the pressed stock, the maxima of the standing wave lying
Baumgärtner Klaus Martin
Graf Matthias
Könekamp Ulf
Muegge Horst
Dieffenbacher GmbH + Co. KG
Leung Philip H.
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