WO1992005391A1 - Construction of automatic shutting-off nozzle for gas lighter - Google Patents

Abstract

We hereby propose a construction beneficial for mass production of automatic shutting-off nozzles for gas lighters. The automatic shutting-off nozzle is in such an arrangement that, when a lighter is ignited for use and when the lighter is unusually continuously lighted, a shape memory alloy coil and a valve (second valve) provided in a nozzle tube serving as a gas flow path automatically block the gas flow path to shut off the lighter. During assembling of this lighter, it is necessary to reduce the number of parts, facilitate the assembly work and ensure positive operation (shutting-off) and resetting (to a position capable of relighting). For this purpose, one end of the shape memory alloy coil is anchored by utilizing an end of a valve (first valve) originally provided to the lighter. With this arrangement, it becomes possible to mass-produce automatic shutting-off nozzles which are reliable in operation and resetting efficiently and beneficially in terms of costs.

Description

 Specification

 Structural technical field of automatic fire-fighting nozzles for gas lighters

 The present invention relates to a combustion nozzle of a gas lighter, particularly, to a structure of a nozzle having an automatic fire extinguishing device inside, which is more efficient for mass production. In addition, it proposes a cost-effective structure. Background art

 O Figures 3, 4, and 5 are presented as conventional technologies.

 Fig. 3 is a partial view of the filer and igniter igniter near the fuel valve, with the automatic fire extinguisher installed inside the nozzle rod. Is shown. Fig. 4 and Fig. 5 show the state in which an automatic fire extinguishing device is incorporated in a valve rod (nozzle cylinder), which was used for the proposal we have already made. It is a diagram. Since the combustion valve has been described so far, it will be briefly described.

Fig. 3 shows a file of a file of pyrotechnics, with no flame length adjustment ^ .0 type. (Even with the piezo ignition system, there is no difference from the gist of the proposal.) 1 is the fuel tank, 1a is the upper wall of the tank, and 1a is the inside of the tank. The gas is regulated by the flow regulating member 2 and flows out of the through hole 3, but when not in use, it is springed (not shown in Fig. 5). The valve 4 (first valve) closes the through-hole 3 due to the repulsive force of (1), and is closed. Ignition stone 1 1 is always attached to file 10 by stone pushing spring 12 When the user rotates the file, it is pressed and is shaved while being heated, and scatters as sparks above the gas outlet 5a. . At the same time, the user pushes down one end of the gas valve opening lever 9 (this part is omitted in FIG. 3 for 5 minutes), so that the other end holds the stick 5. Lift valve 4 is opened. The gas flows around the valve rod through the through hole 3, enters the inside through the lateral hole 5b, and further exits through the vent hole 5a. At this time, it is ignited by the above-mentioned spark and creates a flame. The 0 ring 7 is located between the tank wall and the rod by the cap 8 and prevents gas from leaking out of the circumference of the rod during use. I am coming. The shape memory alloy coil 14 and the valve 13 (the second valve) are installed as an automatic fire extinguishing device inside the valve stick 5, and abnormal continuous combustion occurs. When the temperature of the spill valve rises, the alloy coil 14 extends and pushes the valve 13 against the lower end of the orifice 5a to stop the gas flow, so that the flame is immediately extinguished. Be safe by fire. 15 is a return spring for restoration.

Figures 4 and 5 show examples of automatic fire extinguishing devices using a shape memory alloy coil inside a nozzle rod, which we have already proposed. It is. In such a structure, a bottom plug 6 holding an elastic valve 4 is press-fitted to the lower end of a valve rod 5. Attach the valve 13 and the return spring 15 to the alloy coil 14, and connect the other end of the coil to the top of the bottom plug 6 (Fig. 4) or to the inside of the valve rod. Locked in combination with a part (Fig. 5). According to this configuration, the conventional rod assembly is two parts, a rod and a valve, but is increased by four parts to six parts. (Training the shape memory alloy coil If it is made bidirectional, the return spring is not required and the number of parts increases.)

 Fig. 4 shows an example in which the return spring is used because the valve movement by the alloy coil locks the lower end and moves upward. Fig. 5 shows an example in which the upper end is locked, the valve moves downward, and the return spring is not used. 'The direction of movement of the valve and the presence or absence of the return spring can be arbitrarily selected. Section が 1 where the idea is going to be solved

 In order to make a nozzle with an automatic fire-extinguishing function, there is naturally a part to be added to the conventional ones. It is unavoidable to increase the force s. Easier manufacturing of parts and parts to be reduced, as well as ease of assembly work, are essential conditions for mass production in order to ensure low cost.

. In addition, since disaster prevention is a safety device for the purpose, these conditions must be satisfied in order to ensure reliable operation. Force the gas communication path and this Ru by Ri work in the processing of the horizontal hole-groove, etc. was One or multi-of the past into the Ben捍S, the Son, and of the force ^s Nozomi you to easily it also depends been this or Yes. We are going to solve these issues with this proposal. Disclosure of device

In order to solve the problem, we provided a gas passage 4a in consideration of the shape of the valve 4 (first valve, commonly known as valve rubber) originally possessed by the gas lighter, and At the end, an alloy coil 14 is press-fitted and locked. In addition, a valve 13 (second valve), a return spring 15 and a subassembly are added. Then, we propose a structure that completes the automatic fire-extinguishing nozzle by incorporating this into the stick 5. Action

 i- According to the above-mentioned means, the valve rubber (first valve) is an essential part by nature, so the increase in the number of parts requires alloy coiling, valve (second valve) and return. Only three points of the spring are required, and the processing of the gas passage on the stick is not required. (If the combined coil is a two-way coil, the number of parts is 0 (addition is only required at 2 points). Valve rubber (first valve) · Alloy coil and valve (second valve) In some cases, a sub-assembly with a return spring may be added, and this may be incorporated into the rod. The method is reasonable and procedural in terms of work, and is advantageous for manual work as well as for automated mechanization, with the result that it is easy to use with a minimum number of parts. A repeatable and automatic firefighting nozzle has been completed and will be of great benefit to its purpose.

Λ0 Example

 FIG. 1 and FIG. 2 are shown as examples.

 FIG. 1A is a perspective view illustrating the incorporation. Return to the sticker nozzle and spring (unnecessary if the alloy coil is bidirectional), combined with the second valve, alloy coil 、, the first valve The arrow indicates that it should be incorporated. FIG. 1 is a cross-sectional view showing a completed state.

Fig. 2 shows the main cylinder part 5 'incorporating an automatic fire extinguishing device and a heat collecting filter at the tip, not made as a single nozzle rod. An example is shown in which it is made as two parts of the spout hole 5 with a press-fitting and is press-fitted. The outer surface of the alloy coil is locked to the inner surface of the top of the valve 4. As in Fig. 1, A is a perspective view explaining the assembly, and B is a completed sectional view.

 Although the explanation has been repeated in the application proposal already filed, the function is simply described. If you continue to use the writer for more than the normal number of seconds, or if you think that the user has aborted the operation and extinguished the fire, you do not know what to do. If the first valve is not completely closed due to the cause of the above, the flame remains and the combustion continues for 0 hours. In either case, when the nozzle cylinder overheats and the inner alloy coil reaches the transformation point temperature, the coil rapidly expands unless it recovers its original memory shape. The assembled second valve is pressed against the gas outlet to stop the gas flow, so that the flame is extinguished immediately and no further overheating occurs. It prevents a disaster from occurring. The nozzle 5C at the tip of the nozzle in the embodiment shown in FIG. 2 is to be operated reliably and promptly regardless of the attitude of the lighter (such as upright, inclined, or inverted). On the other hand, after extinguishing the flame, the heat dissipating fins and o also become available, which helps to shorten the restoration time.

Although FIG. 1 and FIG. 2 have been presented and explained as embodiments, it is needless to say that there may be still different examples as a structure in accordance with the gist of the invention. Yes, and assembling procedures, depending on the detailed design and size of the parts, the parts of the automatic fire extinguishing system should not be assembled first, In some cases, it may be possible to obtain individual U. The effect of the invention

 As has been described so far, according to the present invention, an automatic fire-extinguishing nozzle for a gas-line and evening gas which can be repeated and repeated is the most suitable. Few additional parts

This makes it possible to produce efficiently under IT, and to mass-produce more secure gas lighters. Brief description of the drawings

0 Figure A illustrates the assembly of Example 1

 Parts perspective view

 B Same assembling cross-sectional view Fig. 2 A Explains the assembling of the second embodiment

 Parts perspective view

 B Sectional view in the same manner Fig. 3 Partial view near the combustion valve of the writer Fig. 4 Cross-sectional view showing an example of incorporating an automatic fire extinguishing device inside a nozzle rod

 Fig. 5 Another example, same as Fig. 4 Cross section 符号 The symbols on the drawing are as follows.

 1 Twisting tank

 1 a

 2 · · · Flow rate (flame length) adjustment member

S 3 Gas through hole

 4 · · · Valve (first valve)

 4 a

 5 · · ·

5 ' 5 "Vent hole (with heat collection fin) 5a Nozzle vent

 5 b valve rod side hole (gas passage)

5 c Heat collection (radiation) fin

6 Bottom stopper

7 0 ring

8 Cap

9 Gas valve release lever

0 File

 Igniter

2 Stone push spring

3 valve (2nd valve)

4 Shape memory alloy coil

5 Return spring

Claims

5 冃

(1) In the gas outlet hole of the nozzle that discharges gas from the fuel gas tank, the nozzle outlet hole may be blocked at a temperature equal to or higher than the transformation point. The shape memory alloy coil which memorized the shape as the original shape and the valve (the second valve) combined with it are transformed into a shape that allows gas flow through the outlet hole at room temperature. In an automatic fire-extinguishing nozzle inserted and installed, the one end of a shape memory alloy coil is assembled and locked.

/ 1 The use of one end of a valve (first valve) that closes the gas through hole from Construction.

(2) The shape memory alloy coil is press-fitted to the inner surface of the coil by making the end of the valve that closes the 1ST gas through hole from the tank into a cylindrical shape, and pressing it into the coil inner surface The structure of an automatic fire-extinguishing nozzle for a writer according to claim (1), characterized in that: (3) The end of the valve that closes the gas through hole from the tank is made cylindrical, and the shape memory alloy coil is pressed into contact with the outer surface of the coil, and assembled and locked. The structure of the automatic fire-extinguishing nozzle for a writer according to claim (1), characterized in that the nozzle is characterized in that: