JPS61209065A - Washing nozzle - Google Patents

Abstract

PURPOSE:To double washing effect, by mounting a ceramic heating filter in a nozzle for performing washing by spraying gas such as air. CONSTITUTION:A ceramic powder 11 such as a magnesia powder is mounted in the outer shell tube body 2 of a heating filter 1 and current supply heat generating wires 3 are embedded in said powder 11. Pores 12 with a small pore size are formed to the filter 1 in a pierced state and communicated with fine pores 13 with a minute pore size in a stepped form. When this filter is mounted in a nozzle in the vicinity of the leading end part thereof and the current supply heat generating wires 3 are heated, gas entering from the small pores 12 is heated to 300-800 deg.C before exhausted from the fine pores 13 and the dust and foreign matter in the gas can be almost incinerated and, therefore, purified gas is sent out from the nozzle leading end part 4.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a cleaning instrument used for medical sterilization, microprocessing, optical fiber bonding, and the like. The cleaning equipment is a necessary item that is maintained in a state of excellent cleanliness at all times, and uses the cleaning gas to spray the gas and clean the surface onto which it is sprayed. (Conventional technology) In the conventional technology, the cleaning method is for the purpose of maintaining cleanliness, and in order to maintain the cleanliness, a simple gas such as air is sprayed to remove dust and foreign substances. It was just a matter of blowing it away.

(Problems to be Solved by the Invention) The problems to be solved by the present invention are investigated from a different perspective from the conventional approach to cleaning. That is, the conventional idea is to spray air or the like (hereinafter simply referred to as gas) onto the surface to be cleaned.
The main effect of the gas force is to blow off surface dust, foreign matter, etc., and blowing away does not necessarily clean the surface. There is no special gas prepared for blowing it out, and the gas itself is not clean.

This will further blow the dust and foreign matter contained in the gas itself onto the surface.The present invention focuses on this point and creates a filter for cleaning the gas to be blown with a filter structure that meets this purpose. This is intended to solve one problem. That is, among the conventional filters, there is still no filter that utilizes thermal effects such as heat generation or heating. Therefore, there is still no technical method for spraying cleaning gas using such a nozzle with a built-in filter.

(Means for Solving the Problems, Actions, Examples, and Effects) A method of spraying clean gas with a nozzle to clean the surface, and doubling the cleaning effect by passing the gas through the filter of the present invention. It is what makes it possible. By adding heat to clean gas, it is possible to make the filter effect unprecedented and excellent, so how can such a filter structure be made to meet the purpose? What is shown in the drawing is a shape diagram of one embodiment according to the present invention, and FIG. FIG. 3 is a cross-sectional diagram showing the structure of a related heating filter. FIG. 2 is a diagram showing the shape of the tip of the cleaning nozzle according to the present invention. 1 is a heating filter according to the present invention. Reference numeral 11 indicates powder of ceramic material, and in this embodiment, magnesia powder is used. 12 is the diameter of the small hole passing through it. The 12 small pore diameters are linked to the 13 micropore diameters. Therefore, the small diameter of the penetrating hole is a stepped shape in the inner hole. 2 is the outer shell tube. Reference numeral 3 denotes a current-carrying heating wire, which is embedded in the magnesia powder 11 in one embodiment of the present invention. This 3
By heating with an energized heating wire, from 12 small hole diameters,
The gas that enters is heated until it is discharged from the 13 micropores. This temperature ranges from 300℃ to 80℃
It can be kept at around 0°C. At this temperature, it is possible to incinerate most of the dust and foreign matter.The zero-stage shape is a shape that can add many opportunities for heating.

FIG. 2 is a diagram showing the shape of a nozzle according to the present invention.

4 is the tip of the ejection port of the nozzle. When the gas ejected from the direction 5 passes through the fill 1, it is strongly heated and the gas can be purified. This gas is already above the sterilization temperature, causing viruses such as viruses.
It is possible to incinerate even the smallest foreign matter. If the gas emitted from the nozzle of the present invention is to be cooled before use, it can be brought to an appropriate temperature by passing it through a cooling filter. In particular, it can be used as the most suitable cleaning nozzle for cleaning the joint surfaces of optical fibers, etc., which are currently being used.

The cleaning nozzle of the present invention is for medical use, food use, sterilization use, and requires cleanliness. The applications of microfabrication devices, instruments, etc. are extremely wide-ranging.

[Brief explanation of drawings]

FIG. 1 is a shape diagram showing the structure of a heating filter according to the present invention. FIG. 2 is a diagram showing the shape of a cleaning nozzle according to the present invention. 1. Ceramic filter, 11. Ceramic powder, 12. Small pore size, 13. Micro pore size, 2.
Number: outer shell pipe, 3... energized heating wire. 4...Tip. Da Negative 1... -Cerami...-7ηo%i□Fill 9-11
't! Lamilik Yuu Table 1'2--・+4L9j 13---・Tengi・1・Fist L4 2 Gekirai Hitomi 3・・Aouki Hatsuayu Ebisu

Claims (1)

[Claims] (1) A nozzle used as an instrument for cleaning contaminated surfaces by spraying gas onto the surface to be cleaned is equipped with a built-in filter that allows the gas to blow out and pass through. The filter is made of ceramic material and has a small pore diameter, and the small pore diameter has a stepped shape and constitutes a part with a difference in inner diameter, and a heating wire that is heated by electricity is arranged around the small diameter part. A cleaning nozzle having a built-in heating filter.