JP3215457U - Mini welder - Google Patents

Abstract

A mini welder capable of controlling the size and temperature of a flame is provided. At least a first tubular body (1) and a second tubular body (2) are provided, one end of the second tubular body (2) is provided so as to communicate with the first tubular body (1), and a passage is formed in the first tubular body (1). The second tube 2 that is provided so as to gradually expand in diameter from one end away from the other end of the adjacent first tube 1 to the second tube 2 away from one end of the first tube 1 At least two through holes 25 are provided to communicate with the passage, and hydrogen is mixed with oxygen in the passage through the through holes 25 and quickly flows into the quartz tube. When the hydrogen and oxygen come into contact with the air due to the flowing force, the flame size and temperature will be just a little away from the quartz tube outlet. Adjusted by quantity. [Selection] Figure 3

Description

  The present invention relates to a welding facility, and more particularly to a mini welder used for quartz tube fusing.

  As shown in FIG. 6, the conventional welder 100 ′ includes a gas supply unit 200 ′ that communicates with the connection pipe 1 ′. The connection pipe 1 ′ is provided with a passage 2 ′, and the gas supply unit 200 ′ and the connection pipe are connected. 1 ′ is connected by screw tightening, and the passage 2 ′ is provided in a Y shape, that is, the V-shaped portion 21 ′ and the I-shaped portion 22 ′ are connected to each other. The oxygen is directly supplied to the I-type part 22 ′ by “and the hydrogen is mixed with oxygen in the I-type part 22 ′ via the V-type part 21 ′.

  The gas supply device 200 ′ and the connecting pipe 1 ′ are connected by screw tightening, and the spatial distance between the V-shaped portion 21 ′ and the I-shaped portion 22 ′ is temporarily fixed. If the screws are loosened or tightened after a long period of use, the spatial distance will be too small or too large, making it difficult to provide hydrogen and oxygen stably. Since stable control becomes difficult and there is a high possibility of explosion, the safety of workers is threatened.

  In view of the above, the inventor improved the problems in the prior art and created the present invention with many years of experience in this industry.

  In view of the above-mentioned problems, the present invention, which is the result of research and development by the inventor, is that hydrogen and oxygen mixed in the passage quickly flow into the quartz tube, and the flowing force causes hydrogen and oxygen to enter the air. When touched, a flame comes out just a little away from the exit of the quartz tube. By adjusting the amount of hydrogen and oxygen supplied by the gas supply unit, the size and temperature of the flame can be controlled. The purpose is to provide.

  In order to achieve the above-described object, the present invention includes at least a first tubular body and a second tubular body, one end of the second tubular body is provided to communicate with the first tubular body, and the passage is The second pipe body, which is provided so as to gradually increase in diameter from one end away from the first pipe body toward the other end of the adjacent first pipe body, The mini welder is characterized in that at least two through holes are provided in the radial direction, and the through holes are provided so as to communicate with the passage.

  In some embodiments, the second tube is provided with a first section, a second section, a third section, and a fourth section in sequence, the first section being more than the second section. The second section is provided with a smaller radius than the third section, and the fourth section is provided with a smaller radius than the first section, and the through hole is provided in the fourth section. And the first tubular body is provided to communicate with each other.

  In some embodiments, the fourth section is provided with a first ring groove for installation of the first seal ring, and the through hole is provided between the first ring groove and the third section. It is provided.

  In some embodiments, the first tubular body is provided with a large diameter portion and a small diameter portion that communicate with each other, and the small diameter portion is provided so that the first section of the second tubular body is inserted and connected. A male screw portion is provided on an outer surface of one end of the annular wall in the large diameter portion.

  The mini welder is further provided with a plurality of gap rings and a plurality of fourth seal rings, each of the gap rings and the fourth seal rings being spaced apart from each other, in the large diameter portion or It is provided between the annular wall and the small diameter portion.

  The mini welder further comprises a first threaded socket and a second threaded socket, the first threaded socket being fitted outside the third section of the second tube, the second section One end of the first threaded socket adjacent to the second section is abutted against one end of the third section adjacent to the second section, and the second threaded socket is connected to the large diameter portion of the first tubular body. And a third seal ring between the one end of the second threaded socket and the inner end surface of the second threaded socket. It is characterized by being fitted.

  When in use, the gas supply device is screwed into the first threaded socket and connected to the passage of the second tube, oxygen is supplied from the gas supply device to the passage, and the oxygen supply pressure is 5 kg to 8 kg. At the same time, hydrogen is supplied to the two through holes from the gas supplier, the hydrogen supply pressure is set at 3 kg, the two through holes and the passage are connected, and the oxygen supply pressure is larger than the hydrogen supply pressure. Since oxygen is provided in the passage, the flow velocity is faster and the outside of the through hole becomes negative pressure, so that hydrogen is sucked into the passage through the two through holes and mixed with oxygen. In addition, since the position of the two through holes is fixed and the distance from the gas supply device is also fixed, the supply amounts of oxygen and hydrogen are fixed, and the respective supply amounts cannot be supplied stably. Avoid explosions It is possible.

  The above objects and advantages of the present invention will be more fully understood from the detailed description and drawings of the following embodiments.

  Of course, other embodiments of the present invention, or the arrangement and use of other embodiments, may be different, but with respect to the embodiments taken up, they will be described in detail herein and their structures are also shown in the drawings.

It is an exploded image of the mini welder of the present invention. It is a three-dimensional image of the mini welder of the present invention. It is a cross-sectional image of the mini welder of this invention. It is a cross-sectional image through which the gas of the mini welder of the present invention flows. It is a three-dimensional image formed by connecting the mini welder of the present invention, a gas supply device, and a quartz tube. It is a cross-sectional image of a conventional welder.

  In order to achieve the above object, the technical means of the present invention is described in detail in the following embodiments in conjunction with the drawings, and it will be understood and appreciated in detail.

  The present invention shown in FIGS. 1 to 3 is a mini welder 100 including a first tubular body 1 and a second tubular body 2.

  The first tubular body 1 is provided with a large-diameter portion 11 and a small-diameter portion 12 that communicate with each other, and the small-diameter portion 12 is provided so that the second tubular body 2 is inserted and connected (although it may be fixed by welding) The male screw portion 13 is provided on the outer surface of one end of the annular wall in the large diameter portion 11.

  One end of the second tubular body 2 is provided so as to communicate with the first tubular body 1, and a passage 20 is provided in the second tubular body 2, and the passage 20 is adjacent to one end away from the first tubular body 1. The second tubular body 2 is provided so as to gradually expand in diameter toward the other end of the first tubular body 1, and at least two two through holes 25 in the radial direction are provided in the second tubular body 2 separated from one end of the first tubular body 1. The through holes 25 are provided so as to communicate with the passage 20, and the through holes 25 may be provided to face each other, and the number thereof may be two, four, eight, etc. It can be changed according to the demand of supply amount.

  Specifically, the second section 2 is provided with a first section 21, a second section 22, a third section 23, and a fourth section 24 that sequentially communicate with each other. The second section 22 is provided with a smaller radius than the third section 23, and the fourth section 24 is provided with a smaller radius than the first section 21, and the two through holes 25 are provided in the fourth section 24. The section 21 and the first tube 1 are provided so as to communicate with each other, that is, the first section 21 is inserted into the small diameter portion 12 of the first tube 1 and communicates therewith.

  The fourth section 24 includes a first ring groove 26 for providing a first seal ring 31 (for example, an O-ring), two through holes 25 between the first ring groove 26 and the third section 23, The three sections 23 are provided with a second ring groove 27 for use in installing a second seal ring 32 (for example, an O-ring).

  The mini welder 100 of the present invention is further provided with a plurality of gap rings 4 and a plurality of fourth seal rings 34 (in the present invention, three gap rings and three fourth seal rings are illustrated as examples in the drawings. However, the gap ring 4 and the fourth seal ring 34 are arranged with a space between each other, and are provided in the large-diameter portion 11 or between the annular wall and the small-diameter portion 12. It is done.

  The mini welder 100 of the present invention further includes a first threaded socket 51 and a second threaded socket 52, and the first threaded socket 51 is fitted outside the third section 23 of the second tubular body 2. The first threaded socket 51 adjacent to the second section 22 is provided so that one end of the first threaded socket 51 abuts against one end of the third section 23 adjacent to the second section 22. One end of a second threaded socket 52 that is fitted to the outside of the large-diameter portion 11 and is screwed into the male screw portion 14 and separated from the first tubular body 1 is provided to communicate with the quartz tube 300; The quartz tube 300 is provided so as to communicate with the passage 20, and the third seal ring 33 is provided between the one end of the second threaded socket 52 and the inner end surface of the second threaded socket 52 in the first tube 1. Fitted There.

As shown in FIGS. 4 and 5, in use, the gas supply device 200 is screwed into the first threaded socket 51 and is connected to the passage 20 of the second tubular body 2, and oxygen (O ₂ ). Is supplied from the gas supply device 200 to the passage 20 and the supply pressure of oxygen is 5 kg to 8 kg. At the same time, hydrogen (H ₂ ) is supplied from the gas supply device 200 to the two through holes 25 to supply the hydrogen supply pressure. Is provided at 3 kg, the two through holes 25 and the passage 20 are connected, and the supply pressure of oxygen is set higher than the supply pressure of hydrogen. The outside becomes negative pressure, so that hydrogen is sucked into the passage 20 through the two through holes 25 and mixed with oxygen, and the position of the two through holes 25 is fixed, and the gas supply The distance to the vessel 200 is also fixed Therefore, it is possible to avoid an explosion or the like because the supply amount of oxygen and hydrogen cannot be supplied stably.

  The hydrogen and oxygen mixed in the passage 20 quickly flow into the quartz tube 300, and when the hydrogen and oxygen come into contact with the air by the flowing force, a flame is emitted just a little away from the outlet of the quartz tube 300. However, the size and temperature of the flame are adjusted by the amount of hydrogen and oxygen supplied by the gas supplier.

  The contents presented in the above-described embodiments are used to explain the present invention, and the present invention should not be limited thereby, and the numerical value can be changed or the same effect can be obtained. Such modifications of the parts belong to the claims of the present invention.

  From the above detailed explanation, it is understood that a person who understands this technical field can surely achieve the above-mentioned object by the present invention, and the utility model registration is performed in accordance with the provisions of the Utility Model Law. .

100 'welder 1' connecting pipe 2 'passage 21' V-type part 22 'I-type part 200' gas supply device 100 mini welder 1 first pipe 11 large diameter part 12 small diameter part 13 male thread part 2 second pipe Body 20 Passage 21 First section 22 Second section 23 Third section 24 Fourth section 25 Through hole 26 First ring groove 27 Second ring groove 31 First seal ring 32 Second seal ring 33 Third seal ring 34 Fourth Seal ring 4 Gap ring 51 First threaded socket 52 Second threaded socket 200 Gas supply 300 Quartz tube

Claims (10)

  At least a first tubular body and a second tubular body, wherein one end of the second tubular body is provided to communicate with the first tubular body, and a passage is provided in the second tubular body, The diameter of the second tubular body, which is provided so as to gradually increase in diameter from one end away from the first tubular body toward the other end of the adjacent first tubular body, At least two through holes are provided in the direction, and the through holes are provided so as to communicate with the passage.   The second tube is provided with a first section, a second section, a third section, and a fourth section in order, the first section being more than the second section, the second section being the The fourth section is provided with a smaller radius than the first section, and the through hole is provided in the fourth section so that the first section and the first tubular body communicate with each other. The mini welder according to claim 1, wherein   The fourth section is provided with a first ring groove for providing a first seal ring, and the through hole is provided between the first ring groove and the third section. The mini welder according to claim 2.   4. The mini welder according to claim 3, wherein the third section is provided with a second ring groove for use in installing a second seal ring.   The first tubular body is provided with a large diameter portion and a small diameter portion that communicate with each other, and the small diameter portion is provided so that the second tubular body is inserted and connected to one end of the annular wall at the large diameter portion. The mini welder according to claim 1, wherein a male screw portion is provided on an outer surface of the mini welder. The first tubular body is provided with a large diameter portion and a small diameter portion that communicate with each other, and the small diameter portion is provided so that the first section of the second tubular body is inserted and connected, and is separated from the small diameter portion. An annular wall is provided at one end of the large-diameter portion, a third seal ring is fitted in the annular wall, and a male screw portion is provided on the outer surface of the one end of the annular wall in the large-diameter portion. The mini welder according to claim 2, wherein:   Further, a plurality of gap rings and a plurality of fourth seal rings are provided, and the gap rings and the fourth seal rings are spaced apart from each other, and are disposed in the large diameter portion or the annular wall and the small diameter. The mini welder according to claim 5, wherein the mini welder is provided between the two parts.   Further, a plurality of gap rings and a plurality of fourth seal rings are provided, and the gap rings and the fourth seal rings are spaced apart from each other, and are disposed in the large diameter portion or the annular wall and the small diameter. The mini welder according to claim 6, wherein the mini welder is provided between the two parts.   In addition, a first threaded socket is provided that fits outside the third section of the second tube, and one end of the first threaded socket adjacent to the second section is adjacent to the second section. The mini welder according to claim 5, wherein the mini welder is provided so as to abut one end of the three sections.   And a first threaded socket, the first threaded socket being fitted outside the third section of the second tube and adjacent to the second section. One end of a threaded socket is provided to abut one end of the third section adjacent to the second section, the second threaded socket is fitted out of the large diameter portion of the first tube; and A third seal ring is fitted into the first pipe body between one end of the second threaded socket and an inner end surface of the second threaded socket. The mini welder according to claim 6.