JPS638372B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a device for limiting gas output in a liquefied gas lighter.

Various devices have been known to limit the gas output in liquefied gas lighters, and among them, one is known in which an assembly consisting of a core body surrounding a compression member is fitted inside a cylindrical member. ing. This type of device can also prevent the lighter from turning into a dangerous combustible, but due to the shape of the wick, the liquid phase is approximately 1.8 mm.
It is not possible to limit the power to an exact value of approximately 400 mm/s in the gas phase, which corresponds to a power of .

For this reason, it has been devised to replace the core with a spherical (including flat spherical) compressible permeable member, and to form the spherical member so that its cross section substantially corresponds to the cross section of the hollow cylindrical member. In this way, it became possible to compress the spherical member relatively more precisely than if a core was used.

In this case, it can be compressed by fitting in the same way as when using a core, or it can be compressed by placing a notch formed on the inner wall of the hollow cylindrical member in the intermediate member and embedding the intermediate member. Also,
It can also be compressed by pressure insertion.

Although this type of device can be used with adjustable flame lighters to limit the maximum flame height, it has not been accurate enough for use with lighters that do not have adjustable flame height. In such lighters, the flame cannot be changed, so the final characteristics of the flame, especially the height, are determined at the time of assembly.

In fact, in the case of inset, the inset occurs in the same direction as the compression of the transparent sphere, but in order for this inset to be effective, the inset fitting or equivalent member must be elastic. It is necessary to have the following. This ensures that when the tool leaves the telescoping fixture, the telescoping fixture, due to its flexibility, returns backwards, i.e. in the direction in which the tool leaves, opposite to the direction of compression, and this backward movement The degree of compression of the permeable sphere, and thus the gas output, will change.

It goes without saying that it is also possible to pass through the appropriate position and be configured so that the fit-in fitting is located at the appropriate point when it returns to the rear. However, due to unavoidable tolerances, particularly regarding the elastic properties of the telescoping fitting, it has not been possible to obtain the same retraction action for each lighter.

Even if other methods are used, such as fixing the compression member on the inner wall of the hollow cylindrical member or using pressure insertion, the same disadvantage exists, that is, the intermediate member moves back the moment the pressing tool is removed. do.

This problem is thought to be due to the fact that the force for removing the pressing tool is the same as the direction of compression of the compression member, and therefore the action of removing the pressing tool affects the degree of compression of the compression member.

The present invention seeks to solve the above-mentioned deficiencies by providing a device for limiting the gas output of a liquefied gas lighter, which allows the gas output to be adjusted very precisely and which does not go awry. .

The device according to the invention consists of a permeable member that can be compressed between two fixed compression members by their interaction.

The member for fixing the two compression members is formed by a fixing member whose fixing force and therefore fixing action act in a direction perpendicular to the direction in which the compressive force is applied to the transparent member. It is characterized by

Due to this structure, the degree of compression of the permeable member is not affected by the fixing action, making it possible to adjust the degree of compression of the permeable member very accurately and to avoid any distortion later on. And, the device according to the present invention can also be used in a lighter whose flame can be adjusted up to the maximum flame height.

Embodiments of the present invention will be described below based on the drawings.

[First Embodiment] In FIGS. 1 and 2, two compression members are constituted by a hollow cylindrical member 3 and a compression member 1. This compression member is cylindrical and has six longitudinal groove-shaped gas passages 4, which are welded inside the hollow cylindrical member.

Reference numeral 2 denotes a member made of a compressible permeable material, and is configured so that it can be compressed by a desired amount between the compression member and the bottom 5 of the hollow cylindrical member, and
A hole 6 is provided at the bottom of the hollow cylindrical member.

The following methods can be used to manufacture devices of this type.

As a first step, a metal compression member is formed that is welded and coated at a low temperature except for both ends and the gas passage, with both ends and the gas passage left untreated.

In the second step, a compression member and a permeable member are inserted into the hollow cylindrical member.

As a third step, this assembly is placed in a power measuring system, for example nitrogen, which penetrates the permeable member and is then pressed into the hollow cylindrical member by means of well-known equipment until the desired power is obtained by compression of the permeable member. Make sure to press the compression member against the bottom of the

In the fourth step, since each member is in a fixed state, heating is performed to melt the welded portion and to integrate and fix the compression member and the hollow cylindrical member.

To ensure this heating, well-known methods of local heating such as laser or electron bombardment can be used.

After cooling, the device is ready for use in a lighter as described below with respect to FIG.

[Second example] 3 and 4 show a second embodiment.

In this embodiment, the compression member 11 has a star-shaped cross section.
is fixed inside the hollow cylindrical member 13,
A permeable member 12 is configured to be compressed into the bottom 15 of the hollow cylindrical member.

Note that a hole 16 is provided at the bottom of the hollow cylindrical member.

The star-shaped protrusion formed in the cross section of the compression member is such that when the side surface of the hollow cylindrical member surrounds the compression member, a vertical groove-like gas passage 14 is formed between two adjacent protrusions. It is constructed in a shape that maintains the

A device of this type can be formed in much the same manner as illustrated with respect to FIGS.

That is, the compression member is molded, the compression member and the permeable member are placed inside a hollow cylindrical member, the permeable member is compressed until the desired output is obtained, and then by external means, such as by electrowelding. The compression member is fixed to the hollow cylindrical member.

[Third Embodiment] Figures 5 to 8 show an apparatus in which two compression members 21 and a hollow cylindrical member 23 are fixed by elastic radial deformation according to this embodiment.

The compression member has a groove-like gas passage 24 and has a diameter slightly larger than the inner diameter of the hollow cylindrical member.

The side surface of this hollow cylindrical member is higher than the compression member so that it can be slightly deformed as a passage when the compression member is placed in a predetermined position, and then contracted and returned to almost its original shape. It is made of an elastic material.

Once the compression member is in place, it compresses the permeable member by the desired amount against the bottom 25 of the hollow cylindrical member.

Note that a hole 26 for gas outflow is provided at the bottom.

Since the side surface of the hollow cylindrical member is elastic, the compression member will not retreat even if the tool that presses the compression member within the hollow cylindrical member stops its operation.

Such a structure eliminates the need for additional means for fixing the compression member and the hollow cylindrical member.

[Fourth Embodiment] Figures 9 and 10 show an apparatus in which a compression member is fixed by radial deformation using elasticity according to this embodiment.

The device shown in these figures has an intermediate member 36, which has a central projection 37 for positioning the washer 32 of the compressible permeable member.

This assembly is held within a hollow portion 35 of the lighter base body 33 (only a portion of which is shown in the drawing) by the action of a compression member 31. The compression member 31 is strong in the vertical direction due to the three internal frame members 34, but has elasticity in the radial direction, so that the compression member 31 is pressed against the inner wall of the boring. It is formed to do so.

[Fifth Embodiment] FIG. 11 shows an example in which the device according to the present invention is used in a non-flame adjustable lighter.

The device consists of a compression member 41 and a hollow cylindrical metal member 43 to which it is fixed, these two members being configured to compress a compressible permeable member 42 to a desired value.

The device is placed in a recess 47 of the lighter body 48 and abuts an internal shoulder 49 of this recess.

40 is a crater with a valve, which is arranged in the upper part of the hollow cylindrical member in a known manner. This vent is pressed against the bottom 45 of the hollow cylindrical member by an elastic member (not part of the invention and not shown), so that the valve of the vent closes the hole 46.

Additionally, the lighter conventionally includes a member (not part of the invention and not shown) by which the mouthpiece can be raised to release the lighter gas in use.

In this configuration, the gas flows as follows.

That is, it passes through the channel-like gas passageway 44 of the compression member, through the compressible permeable member, then through the hole in the bottom of the hollow cylindrical member, and out into the central passage of the crater.

From the foregoing, it will be clearly understood that the gas output thus released depends on the degree of compression of the member formed of the compressible permeable member.

[Sixth Embodiment] FIG. 12 shows an embodiment in which the device according to the present invention is used as a flame height adjustment device for a lighter.

In this embodiment, a hollow cylindrical member 53 and a groove-shaped gas passage 54 are provided, and two protrusions 57 and 58 are provided.
a first compression member 51 having a central passageway 60, a second compression member 61 having a central passage 60, and two compressible members 5.
It consists of 2.62.

That is, the permeable member 52 is disposed on the protrusion 57 and the permeable member 62 on the protrusion 58, and the compression member 51 is secured to the hollow cylindrical member, for example by any of the methods described above.

The compression member 61 sliding inside the hollow cylindrical member is pressed against the permeable member 62, and the protrusion 58 passes through the central passage 60 of the compression member 61.

The functions of this device in this structure are as follows.

That is, lighter gas (not shown) passes through the passageway 60 of the compression member 61, through the permeable member 62, toward the center, and exits through the hole.

It will be appreciated that since the compression member 51 and the hollow cylindrical member are fixed to each other, the maximum output of the device assembly is determined by the degree of compression of the permeable member 52.

However, by compressing permeable member 62 by the force of compression member 61 by deploying conventionally known devices (not a component of the present invention),
It is also possible to obtain an output smaller than this maximum output. In this case, the device according to the invention will only be used to limit the maximum flame height of the lighter.

It is of course possible to partially modify the structure and operation to obtain the same result without departing from the scope of the present invention.

[Brief explanation of the drawing]

The accompanying drawings depict embodiments of the invention by way of illustration only. FIG. 1, the first aspect of the present invention
FIG. 2 is a sectional view taken along the - line of FIG. 1; FIG. 3 is an axial sectional view of the device in which radial fitting is performed in the second embodiment of the present invention 4, a sectional view taken along the - line in FIG. 3, and FIG.
An axial sectional view showing the state before installation, FIG. 6, same as above, FIG. 7, an axial sectional view showing the state after installation of the members shown in FIGS. 5 and 6, FIG.
FIG. 9 is a cross-sectional view showing another example of radial deformation in the fourth embodiment of the present invention;
10, a sectional view along the - line in FIG. 9, FIG. 11, a partial sectional view of a non-flame-adjustable lighter equipped with a device according to the invention in a fifth embodiment of the invention, FIG. 12; , in the sixth embodiment of the present invention,
1 is a partial sectional view of a flame-regulated lighter equipped with a device according to the invention; FIG. 1, 11, 21, 31, 41, 51, 61...
Compression member, 2, 12, 22, 32, 42, 52,
62...Transparent member, 3, 13, 23, 43, 5
3...Hollow cylindrical member, 4, 14, 44, 54...
...Gas passage, 5, 15, 25, 45...bottom,
6, 16, 26, 46... hole, 24... gas outflow groove, 60... passage, 34... internal frame material, 3
6... Intermediate member, 37... Central protrusion, 33,3
8... Lighter base, 35... Boring section, 40...
... Crater, 47 ... Recess, 49 ... Internal shoulder, 5
7, 58...Protrusion.

Claims (1)

[Scope of Claims] 1. Consisting of two fixed compression members and a compressible permeable member that can be compressed by their interaction, one of the compression members has a passage for passing gas, and A gas output limiting device for a liquefied gas lighter, wherein the means for fixing the two compression members is means that acts in a direction perpendicular to the direction in which compression force is applied to the permeable member. 2. One of the compression members has a hollow cylindrical shape, in which a compressible permeable member and a second compression member for compressing this member are disposed. The device according to item 1. 3. The apparatus of claim 2, wherein at least one of the compression members is made of metal. 4. The device according to claim 3, wherein the two compression members are fixed to each other by welding. 5. Device according to claim 2 or 3, characterized in that the two compression members are fixed to each other by a radial fit. 6. The device according to claim 2 or 3, wherein the two compression members are fixed by elastically deforming at least one of them in the radial direction. 7. The device according to claims 2 to 6, characterized in that it is installed in a liquefied gas lighter for smokers. 8. Claims characterized in that they have a flame height limiting device with a first compressible permeable member and a second compressible permeable member that is somewhat compressed between the two compressible members. The device according to scope item 7. 9. A patent characterized in that one of the members compressing the second compressible permeable member is one of two compressing members compressing the first compressible permeable member. The apparatus according to claim 8.