TWM491141U - Superconducting heater without oxygen consumption - Google Patents

Description

Superconducting heater without oxygen consumption

This creation relates to the field of superconducting heating.

Nowadays, due to the impact of energy shortages and rising prices, coupled with the rise of environmental awareness, the industry is striving towards energy conservation and environmental protection. Among them, a medium conveying tool with fast conduction and transmission, that is, a supercatheter (heat pipe), and a combination of a supercatheter (heat pipe) and a heating device are applied to a device having a heat source, such as water for livelihood, animal husbandry, etc. Wait. Thereby, the electrothermal conversion efficiency is improved, the efficiency is higher than that in the conventional manner, and various environmental pollution problems are eliminated.

In view of this, the creator has accumulated many years of experience in this industry, and has carefully studied and repeatedly tested and improved. Now, he has finally created a new type of superconducting heater that does not consume oxygen, which can eliminate the disadvantages of conventional products and enhance the efficacy. .

The reason is that the main purpose of this creation is to provide a superconducting heater that does not consume oxygen. It is mainly a low-energy consumption heating device. In addition to no combustion, the machine will not generate harmful gases and pollution, but also reduce the greenhouse effect. It protects the earth's ecology and is suitable for all kinds of environments.

The purpose of this creation is to provide a superconducting heater that does not consume oxygen.

The second purpose of this creation is a superconducting heater with high electrical energy thermal energy conversion rate.

Another object of the present invention is to provide a superconducting heater that can be heated quickly without causing contamination.

A non-oxygen-consuming superconducting heater capable of achieving the above-mentioned purpose, comprising: a stainless steel structure, a ruthenium colloid, a quartz tube, a conductive ring; wherein the quartz tube is connected to the stainless steel structure by a ruthenium colloid, and the quartz tube upper ring is provided Conductive ring and covered with superconducting powder on the surface of the quartz tube.

In addition, the superconducting heat-generating device that does not consume oxygen can be further disposed in a tube body, and the conductive heat is generated by the supply of the power source, and then the heat of the quartz tube is transmitted to the superconducting powder to rapidly heat the surrounding area. The molecules are used to achieve rapid heating without the purpose of pollution such as air and waste.

1‧‧‧ A superconducting heater that does not consume oxygen

2‧‧‧ tube body

11‧‧‧Stainless steel structure

12‧‧‧矽 colloid

13‧‧‧Quartz tube

14‧‧‧ Conductive ring

Figure 1 is a schematic diagram of an example of this creation.

Figure 2 is a state diagram of one of the implementations of this creation.

Figure 3 is another implementation state diagram of the creation.

Figure 3 is another implementation state diagram of the creation.

In order to enable the review board to further understand the structure, features and other objects of the present invention, the preferred embodiments are shown in the following detailed description. The examples described in the drawings are for illustrative purposes only and are not intended to limit the scope of the invention. Referring to FIG. 1 , the present invention is a superconducting heater 1 that does not consume oxygen, and includes: a stainless steel structure 11 , a tantalum body 12 , a quartz tube 13 , a conductive ring 14 , wherein the quartz tube 13 is made of a colloidal gel. 12 is connected to the stainless steel structure 11, and the quartz tube 13 is provided with a conductive ring 14 on the ring, and is covered with superconducting powder on the surface of the quartz tube.

When the power is supplied to the conductive ring 14, the heat can be transmitted through the conductive ring 14, and the thermal energy can be transmitted to the surface of the superconducting powder through the quartz tube 13, and the thermal energy can be further amplified by the superconducting powder to rapidly heat the surrounding molecules. . Referring to FIG. 2, a state diagram is used for one of the creations, and a non-oxygen-consuming superconducting heater 1 of the present invention is disposed in a tube body 2, when the power is supplied to the conductive ring 14, by the above The action can be driven to rapidly heat up the molecules surrounding the superconducting heater that does not consume oxygen for 1 week. In addition, referring to FIG. 3 and FIG. 4, when a non-oxygen-consuming superconducting heater 1 is disposed in the tube body 2, the possible configuration manner is not limited to the two configurations, and any The configuration methods applicable to this creative purpose are within the scope of this creation.

Among them, the molecules in the tube contain water, air, and other molecules that can conduct heat.

The material of the conductive ring comprises gold, silver, copper, iron, and other materials suitable for conductive heat generation, and silver is preferably used as the material of the conductive ring.

The size of a superconducting heater that does not consume oxygen in this creation can be bounded by 25 Between cm and 45 cm; among them, 30 cm is preferred. The size of the stainless steel structure may be between 1 cm and 5 cm; preferably 2 cm. The sizes of the colloidal bodies on both sides may be between 5 cm and 15 cm, respectively, and 8 cm is preferred. The size of the quartz tube can be between 5cm and 15cm; preferably 8cm. The size of the conductive ring may be between 0.5 cm and 3 cm; preferably 1 cm.

The non-oxygen-consuming superconducting heater of the present invention can be applied to various fields of people's livelihood, industry and commerce, among which, for example, it can be used by farmers to raise livestock for raising animals and plants. For example, the present invention is placed in a water pipe to rapidly warm the water in the water pipe, that is, to be used for plants and animals that require hot water.

The detailed description above is a detailed description of one of the possible implementations of the present invention, but the embodiment is not intended to limit the scope of the patents of the present invention, and equivalent implementations or modifications that are not departing from the spirit of the present invention should be included in The patent scope of this case.

In summary, the technical features disclosed in this case have fully met the statutory patent requirements for novelty, advancement and industrial applicability. If you apply in accordance with the law, you are requested to approve the new patent application for your invention. Will.

1‧‧‧ A superconducting heater that does not consume oxygen

11‧‧‧Stainless steel structure

12‧‧‧矽 colloid

13‧‧‧Quartz tube

14‧‧‧ Conductive ring

Claims (4)

A superconducting heater that does not consume oxygen, comprising: a stainless steel structure, a ruthenium colloid, a quartz tube, a conductive ring; wherein the quartz tube is connected to the stainless steel structure by a ruthenium colloid, and a conductive ring is arranged on the ring of the quartz tube, and The powder is covered on the surface of the quartz tube. A superconducting heater that does not consume oxygen, as described in claim 1, wherein the conductive ring is made of a material that conducts heat. A superconducting heater that does not consume oxygen, as described in claim 2, wherein the conductive ring is made of gold, silver, copper or iron. A non-oxygen-consuming superconducting heater according to the first aspect of the patent application can be further disposed in a tube body, and after conducting the power supply to the conductive ring, conductive heat is generated, and the thermal energy is transmitted through the quartz tube. Superconducting powder to the surface of the quartz tube, whereby the superconducting powder can rapidly amplify the heat to rapidly heat the surrounding molecules.