KR20070071818A - Uv lamp and conclude structure for washing system using fluorine resin - Google Patents

Abstract

A UV(Ultraviolet) lamp and a combination structure using fluorine resin for a washing device are provided to prevent breakage of the UV lamp by a buffer unit and to restrain the decrease of a UV sterilization function. The UV lamp combination structure using fluorine resin for a washing device is composed of a UV lamp(100) for emitting UV rays in receiving power through an electric wire; a cylinder member(101) having an inner diameter enough to receive the UV lamp, and securing transmissivity, durability, and heat resistance property over a predetermined value; a cover(102) press-fitted to the cylinder member to seal up one side of the cylinder member; and a UV lamp driving housing(104) installed at the side of the UV lamp, connected to the outside through the electric wire, and provided with a driving unit for driving the UV lamp.

Description

UV lamp and conclude structure for washing system using fluorine resin

1 is an exemplary view for explaining a UV lamp and a fastening structure using a fluorine resin according to the present invention

<Explanation of symbols for the main parts of the drawings>

100: UV lamp 101: cylindrical member

102: cover 103: groove

104: UV lamp drive housing

The present invention is provided with an ultraviolet (UV) lamp in the cleaning tank to solve the problem of sterilization caused by applying only the ultrasonic cleaning method in the ultrasonic cleaner, but the buffer to prevent the ultraviolet lamp from being damaged by the movement of the object in the cleaning process. The present invention relates to a UV lamp and a fastening structure using a fluorine resin for a washing machine for suppressing a decrease in ultraviolet sterilization function while having a means.

Generally, material abundance may have been obtained through high industrialization and industrialization, but most modern people accumulate pollutants directly or indirectly by various environmental pollutions. Can be.

Changes in the living environment through environmental pollution are large and small living diseases (respiratory diseases, hypertension, heart disease, arteriosclerosis, digestive diseases, insomnia, cancer, muscle diseases, atopy, asthma, etc.) are unclear. There is a lot of people, and because of this, the main interests of modern people are focused on "how to eat well and live well," and well-being is being created.

As a result, more and more people are turning to meat-based diets or eating more organic (pest-free, cultivated) foods. Technology.

That is, the ultrasonic cleaning is to wash various kinds of objects by using the sound pressure effect and the cavitation effect of the ultrasonic wave, and the cavitation is caused by the micro-agitation generated by the vibration of the bubble and the destruction of the bubble. It is accompanied by chemical and thermal action, and the complex and repetition of such reactions increases the acceleration and dispersal of the chemical reaction in the washing solution and removes foreign substances adhering to the object to be washed precisely.

The ultrasonic cleaning technique is a technique to remove and remove foreign substances attached to the surface of fruits, vegetables, and tableware, etc. Typically, the above-mentioned ultrasonic cleaners perform functions such as removing foreign substances, but bacteria There is no bactericidal function such as bacteria, and a complementary technology for this has recently been proposed. A representative example is a technique for increasing sterilization power using UV lamps.

However, most of the products that apply UV lamps are products with very low probability of damaging the UV lamps such as water purifiers or sterilizers (tableware, shoes, etc.). Vortex phenomenon is essential and accordingly the UV lamp provided in the cleaning tank is a problem that the damage of the UV lamp may occur as the collision phenomenon with the moving object is inevitably generated by the vortex phenomenon of the wash water.

An object of the present invention for solving the above problems relates to an ultrasonic cleaner, in particular, provided with an ultraviolet (UV) lamp in the cleaning tank in order to solve the sterilization problem occurred when only the ultrasonic cleaning method is applied, The present invention provides a UV lamp and a fastening structure using a fluorine resin for a washing machine for suppressing the degradation of the UV sterilization function while providing a buffer means for preventing the UV lamp from being damaged by movement.

Features of the UV lamp and fastening structure using a fluorine resin for the washing machine according to the present invention for achieving the above object, UV lamp for emitting ultraviolet light when the power is supplied through the wire; A cylindrical member having an inner diameter into which the UV lamp can be inserted and having a permeability, durability, and heat resistance of a predetermined value or more; A cover for press-fitting one side of the cylindrical member; It is provided on one side of the UV lamp and is connected to the outside and a wire, and includes a UV lamp drive housing containing a drive unit for driving the UV lamp.

Additional features of the UV lamp and fastening structure using the fluorine resin for the washing machine according to the present invention for achieving the above object, the cylindrical member is Tedra fluoroethylene-hexafluoropropylene copolymer (FEP)

To use as a material.

Additional features of the UV lamp and fastening structure using the fluorine resin for the washing machine according to the present invention for achieving the above object, when the UV lamp is inserted into the cylindrical member in the UV lamp drive housing the cylindrical member An annular groove into which one end is pressed is formed to face the direction in which the UV lamp is inserted into the cylindrical member.

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

First, briefly looking at the technical idea applied to the present invention, the requirement for solving the problems of the prior art is generated from the UV lamp while suppressing the damage of the UV lamp from the external impact while high permeability of the ultraviolet light irradiated from the UV lamp It is necessary to be heat resistant against heat.

Therefore, when searching for a material with good permeability among the materials having durability and heat resistance, applying the Tedra fluoroethylene-hexafluoropropylene copolymer (FEP)

It is conceived that it will be possible to meet the requirements for solving the problems of the prior art.

In general, the fluorine resin is a bond such as a polyolefin consisting of C-C bonds, a synthetic resin having a structure in which part or all of the hydrogen of the polyolefin is replaced by a fluorine atom. Commercially available eight kinds of fluorine resins are polytetrafluoroethylene (PTFE) which is 70% of them.

PTFE is a crystalline resin known under the brand name Teflon. It is a plastic that has heat resistance, long-term resistance at 260 ℃, chemical resistance, electrical insulation, high frequency characteristics, non-adhesiveness, low friction coefficient, and flame retardancy. As the crystalline polymer, the continuous use temperature is 260 ° C and it can be used stably from low temperature (-268 ° C) to high temperature. Its chemical resistance is the best among organic materials. It is not invaded by acids, alkalis and various solvents at all, and it is invaded only under severe conditions by special chemicals such as fluorine gas, molten alkali metal and trifluorochlorine. have.

The biggest feature of the mechanical properties is that the friction coefficient is small and is reinforced with various fillers and is used for bearings of oil-free sliding materials. In addition, its non-adhesiveness is also great, making it ideal for coating frying pans and various steel pipes. On the other hand, there is a drawback that an adhesive cannot be used even if it is welded.

The electrical properties, especially the dielectric properties, are the best, and wide frequencies are stable over the temperature range and exhibit low permittivity and dielectric loss tangent. Corona resistance is inferior, but other insulation characteristics are excellent, and it is used as parts of communication computer electronic devices as electric and electronic parts.

In addition, the Tedra Fluoroethylene-hexafluoropropylene copolymer (FEP) has a melting point of 250 ° C to 295 ° C, a continuous use temperature of 200 ° C, and is capable of injection molding and extrusion molding. This is excellent

In addition, the Tedra fluoroethylene-perfluoroalkyl vinyl ether copolymer (PFA) has a melting point of 302-301 ° C, a continuous use temperature of 260 ° C, and other properties such as injection molding or extrusion molding are possible. Applications include packing, valves, wafer baskets, bearings, wires, printed boards, and the like.

In addition, polyvinylidene fluoride (PVDF) has a melting point of 170-185 ° C and a continuous use temperature of 120 ° C, which is the lowest among the resins. . In addition to valves, pumps, and pipes, there are piezoelectric films and weatherproof paints (20 year warranty).

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary view for explaining a UV lamp and a fastening structure using a fluorine resin for a washing machine according to the present invention, the UV lamp 100 to emit ultraviolet light when the power is supplied through a wire (not shown), and UV lamp 100 has an internal diameter that can be inserted and the Tedra Fluoroethylene-hexafluoropropylene copolymer (FEP)

A cylindrical member 101 made of a material, a cover 102 for sealing and closing one side of the cylindrical member 101, and a wire (not shown) provided at one side of the UV lamp 100 is connected to the UV UV lamp driving housing 104 is built in the drive unit for driving the lamp 100.

In this case, when the UV lamp 100 is inserted into the cylindrical member 101, the UV lamp driving housing 104 is formed with an annular groove 103 into which the cylindrical member 101 is press-fitted due to waterproofing. have.

Therefore, the UV lamp 100 is inserted into the cylindrical member 101, but one end of the cylindrical member 101 is press-fitted into the groove 103 formed in the UV lamp driving housing 104.

Thereafter, a cup-shaped cover 102 is placed on the other end of the cylindrical member 101, one end of which is pressed into the groove 103 of the UV lamp driving housing 104, wherein the other end of the cylindrical member 101 is It is pressed into the cup-shaped cover 102.

When the fastening is completed through this process, the cylindrical member 101 may be molded using an epoxy to a portion into which the cylindrical member 101 is press-fitted.

While the invention has been shown and described in connection with specific embodiments thereof, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

When providing a UV lamp and a fastening structure using the fluorine resin for the washing machine according to the present invention as described above to clean the UV (UV) lamp in the washing tank to solve the sterilization problem occurred when only ultrasonic cleaning method is applied The UV lamp can be prevented from being damaged by the movement of the object in the process and the sterilization function according to the UV irradiation can be maintained.

Claims (4)

UV lamp that emits ultraviolet rays when the power is supplied through the wire; A cylindrical member having an inner diameter into which the UV lamp can be inserted and having a permeability, durability, and heat resistance of a predetermined value or more; A cover for press-fitting one side of the cylindrical member; UV lamp and fastening structure using a fluorine resin for the washing machine, characterized in that it is provided on one side of the UV lamp and connected to the outside and a wire, the UV lamp drive housing containing a drive unit for driving the UV lamp. The method of claim 1, The cylindrical member is a UV lamp and fastening structure using a fluorine resin for the washing machine, characterized in that using a fluorine resin. The method of claim 1, The cylindrical member is Tedra fluoroethylene-hexafluoropropylene copolymer (FEP) UV lamp and fastening structure using a fluorine resin for the washing machine, characterized in that the use as a material. The method of claim 1, The UV lamp drive housing is characterized in that an annular groove in which one end of the cylindrical member is press-fitted when the UV lamp is inserted into the cylindrical member is formed to face the direction in which the UV lamp is inserted into the cylindrical member. UV lamp and fastening structure using fluorine resin for washing machine.

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