Electric heating – Inductive heating – With heat exchange
Reexamination Certificate
2001-04-25
2002-09-03
Leung, Philip H. (Department: 3742)
Electric heating
Inductive heating
With heat exchange
C219S730000, C219S759000, C219S678000
Reexamination Certificate
active
06444962
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a heating arrangement or system employing electromagnetic radiation.
BACKGROUND
A method and device for changing the temperature of a discrete material is already known (EP 0 777 524 B1) and can in particular be used to increase the temperature of a discrete material, i.e. for heating purposes.
The method for increasing the temperature of the discrete material uses a large surface area transmitting antenna by means of which electromagnetic radiation of a frequency in the same order of magnitude as the natural molecular frequency of the discrete material to be heated is emitted, without this frequency being a modulated carrier frequency. The discrete material to be heated is placed in the emission field of the transmitting antenna whereby a natural molecular frequency resonance is created in the discrete material leading to a heating of that material. By locating the device in a closed space that besides the discrete material is also filled with a medium, this medium can also be included in the mutual resonance interaction for the purpose of heating by selecting a suitable emission spectrum.
A suitable device for implementing the above method comprises a large surface area transmitting antenna that is limited on one side by a first supply line and on the other side by a second supply line made from a good electrically conductive material. The supply lines are connected to a generator for the production of radiation energy and the discrete material to be heated is brought into the emission field of the transmitting antenna. The frequency emitted by the transmitting antenna lies in the range of the natural molecular frequency of the discrete material and/or of the liquid or gaseous medium located in the defined space.
Through the mutual interaction of the large surface area transmitting antenna serving as emitter and the material in the range of the resonance frequency, a high efficiency in the heating system is achieved in particular as a result of band resonances.
It is object of the invention to create a heating arrangement that utilizes the above method for the most part and enhances the device in such a way that an easily constructed and economically viable arrangement, with further gains in the effectiveness of the heating system, is obtained.
SUMMARY OF THE INVENTION
This problem mentioned above is solved by the features of the invention. According to the invention the heating arrangement consists of a combination of the following features:
The heating arrangement consists of at least one heating element in the form of a flat element with two opposite-lying electric conductors and a coating therebetween comprising a coating material for radiation surfaces to produce electromagnetic waves, composed of binding agent, insulating agent, dispersing agent, water and graphite, characterized in that the coating material has the following composition:
a. 55 to 65% amount of substance (mole fraction) of a base material comprising:
39 to 49% amount of substance binding agent,
18 to 23% amount of substance insulating agent,
18 to 24% amount of substance dispersing agent,
12 to 16% amount of substance distilled water.
b. 35 to 45% amount of substance graphite, the composition of the binding agent being:
64 to 79% amount of substance distilled water,
4 to 6% amount of substance sulfated oil,
0.16 to 0.24% amount of substance phenols or
0.05 to 0.5% amount of substance benzoisothiazolinon,
15 to 19% amount of substance casein,
0.8 to 1.2% amount of substance urea,
2 to 3% amount of substance alkali diluent,
2.5 to 3.5% amount of substance caprolactam; and,
whereby by means of the coating material from the insulating agent, the graphite and the binding agent electromagnetic waves can be emitted. This can be attributed to the formation of dipoles within the coating material. By using the specified coating made of the special coating material a heating arrangement of particularly high efficiency is obtained.
DESCRIPTION OF THE INVENTION
The binding agent contains distilled water as the main component to ensure, dependent on the quantity added, an at least viscous consistency of the binding agent. In this way the individual components of the binding material can be mixed together well.
The sulfated oil, and a flow-control agent if present, act as a solvent intermediary and bring about a uniform and stable distribution of the individual substances in the binding agent as well as good film formation of the coating material on the substrate.
The phenols or benzoisothiazolinon contained in the binding agent, even in small quantities, promote the addition of particles.
Casein can be regarded as the binding agent in the binding agent and enables the individual components to be taken up within the binding agent.
Urea, too, is used as a solvent intermediary in the binding agent i.e. it promotes an even distribution of the individual components in the binding agent.
The binding agent also contains a diluent functioning as an homogenizer as well as caprolactam as a structural component.
The main component of the base material is the binding agent in which the particles of the insulating agent, as one part of the electric dipole, accumulate. The dispersing agent aids the dispersion process and thereby an even distribution of the binding agent, including the insulator particles, within the base material. The distilled water mixed into the base material serves to liquefy the base material.
The graphite and its individual particles added during mixing of the coating material also deposit themselves in the binding agent, to which the insulator is already bound, and in conjunction with the insulating agent form a large number of microscopic electric dipoles, evenly distributed within the coating material. The graphite can be added in a milled state with very small particle size. This further promotes an even distribution of the graphite in the coating material and therefore the creation of a large number of electric dipoles. A high degree of radiation with regard to the generation and emission of electromagnetic radiation can thereby be achieved with this coating material. In particular this enables a frequency emission in the range of the natural molecular frequency of the material to be heated, as well as a correspondingly suitable frequency for a liquid or gaseous medium also located in the room, to be emitted.
For this high frequency excitation we propose a harmonic generator containing an electrical component which when driven with a driving frequency displays a rapid rate of current rise corresponding to a steep leading edge and is therefore suitable for producing a high harmonic content, for example up to the fiftieth harmonic oscillation.
The harmonic generator is coupled to both electric conductors of the heating element to excite the heating element in order to emit a spectrum of vibrations in natural molecular frequency ranges, preferably as band resonance ranges in the terahertz range.
The sulfated oil can for example be sulfated olive oil, sulfated sesame oil or sulfated palm oil. According to one aspect of the invention, the sulfonate oil of preference is however sulfated ricinus oil, commonly known as sulforicinate or Turkey red oil. This sulfated ricinus oil is especially well suited on account of its interlace-active properties.
According to another aspect of the invention, the phenols of preference are carbonized phenols, produced by cracking, which demonstrate particular suitability with respect to the addition of particles. The preferred alternative to phenols is benzoisothiazolinon.
According to another aspect of the invention, the diluent is a solvent based on aromatics and/or alcohol and/or ester and/or ketone, e.g. terpene.
A large variety of common insulators can be used as insulating agent. According to yet another aspect of the insulating agent of preference is however an insulating soot. It is advantageous if the soot is added in the milled state with a very small particle size. This promotes an even distribution of the soot in the
Leung Philip H.
McNair Law Firm, P.A.
Molekulare Energietechnik AG
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