The present invention relates to a supplying type partial gas pressure structure, and more particularly to an unlimited supplying type partial gas pressure structure.
It is known that many manufacturing processes require reliable sources of gas in order to meet the requirement of wide applications. Such kind of gas often is stored in steel cylinder or container before sending into the manufacturing process under controlled conditions. For example, many special purpose gases such as hydrogen phosphate, tri-hydrogen arsenate, or boron tri-phosphate are used during thin film deposition in the semiconductor industry. Due to the highly toxic and auto-combustion nature, said gases are all highly controversial in terms of safety and environment. In addition to toxicity, these gases mostly are compressed and liquefy for storage in cylinder in highly pressurized form.
For convenience, someone generates said gas on site using electrochemical method. As generating said gas poses difficulty, there are many new technologies using low-pressure storage and transporting system to absorb such gas on solid as carrier. However, such storage and transporting system is not without its problem. Said system could encounter insufficient capacity and restriction in transportation, as well as poor heat conduction problem and is indeed a major drawback.
In view of this, in terms of the above problems of prior arts, this invention proposes a kind of unlimited replenishing type gas partial pressure structure in order to resolve these said drawbacks existing in the prior arts.
The main purpose of this invention is to propose a kind of unlimited supply type partial gas pressure structure, wherein through the internal turbine absorption device it could be connected in parallel with the cylinder rack and the supplying cylinder; when the gas inside the supplying cylinder is exhausted the turbine absorption device can be used to suck in the air in the nature for the conversion action in order to achieve the function of saving energy which is very suitable for large volume production.
The main purpose of this invention is in providing a kind of unlimited supplying partial gas pressure structure, through a heat conversion device the heat generated by the pressure compartment at one end is released through the output of supplying cylinder to achieve thermal equilibrium in order to effectively reduce the temperature of the pressure compartment and attain the purpose of reducing temperature.
To achieve the above objects, this invention relate to a kind of gas supplying partial pressure structure, in particular about a kind of unlimited supplying partial gas pressure structure including a cylinder rack, a multiple of supplying cylinder is installed on the cylinder rack in series; a transporting pipe, a multiple of supplying cylinders is connected on one end and a mixing processing cylinder and a converter is connected on the other end in parallel; and another transportation pipe is connected from said mixing processing cylinder to the inside of said converter respectively; an output pipe with one end connected from the converter and the other end to output the gas from the converter to the top of the cylinder for the storage of the gas; a multiple of control output pipe to be connected to the first cylinder, said second cylinder, said third cylinder, said fourth cylinder, and said fifth cylinder; and a pressure compartment connected to the control output pipe at the bottom of the cylinders responsible for compressing the gas outputted from the control output pipe and convert and output, which is a simple structure with high stability.
Below is a detailed description of the embodiment through attached diagrams for better understanding of the object of this invention, the content and features of the technology, and the performance it attempts to achieve.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein
Again, a multiplicity of cylinders 24, 26, 28, 30, and 32 and said control output pipe 36 can be additionally installed to said output pipe 22 and connected to the pressure compartment 34, and can be extended in parallel to additional cylinders.
In summary, this invention has indeed achieved the intended performance through structural breakthrough of prior arts, which is not easy to ascertain by people mastering said arts. Furthermore, this invention has not been published prior to the patent application and its advancement and practicality can indeed meet the requirement of innovative patent application.
The embodiments stated above are for the description of the technical thoughts and features of this invention. The purpose is for the people mastering this art to understand the content of this invention for his implementation and is in no way restricted to the range of this patent. All equalization variation of modification based on the spirit revealed by this invention should still be covered within the range of the patent of this invention.