JP4384768B2 - Valve seat adapter for stroke adjustment of emergency shutoff valve in gas meter - Google Patents

Description

の値が得られ、外径が３６ｍｍのときがもっとも圧力損失が小さかった。
【００５６】
以上の結果から、弁体（６２）の外径（Ｄ2 )と弁室（２）の内径（Ｄ4 ）の差８ｍｍの場合、最も圧力損失が小さいことが判る。
【００５７】
また弁体（６２）の弁面と、ガス流入口（２ａ）の中心との距離（Ｄ11）を、０ｍｍ、２．５ｍｍ、４．５ｍｍ、６ｍｍのものについて、圧力損失をそれぞれ測定した。
【００５８】

の値が得られた。
【００５９】
以上の結果から、距離（Ｄ11）が４．５ｍｍの場合が最も圧力損失が小さく、距離（Ｄ11）を４．５ｍｍ設定するのが最適である。
【００６０】
【発明の効果】
以上のように、この発明のガスメータにおける緊急遮断弁のストローク調整用弁座アダプタによれば、弁座にアダプタ本体を取り付けて、そのアダプタ本体に弁体を接離させて、緊急遮断口の開閉を行うように構成しているため、例えば緊急遮断弁として、単方向遮断弁に換えて、ストローク長の短い双方向遮断弁を使用した場合でも、開弁状態での弁体を、弁座から適度に離して最適位置に配置することができ、圧力損失を低減させることができる。更に既存のガスメータに取り付けるだけで簡単に、緊急遮断弁のストローク長を適切に調整することができるという効果がある。
【００６１】
本発明において、アダプタ本体に、弁座の内側に内嵌される内嵌筒を設ける場合には、内嵌筒を介して、アダプタ本体を弁座の内周面全域においてバランス良く支持することができ、優れた形態安定性を得ることができる。従ってアダプタ本体の組付歪みや変形等を確実に防止することができるので、アダプタ本体に弁体を確実に密着させることができとともに、アダプタ本体及び弁座間のガス漏洩も確実に防止でき、緊急遮断弁の動作信頼性を向上させることができるという利点がある。
【００６２】
また本発明において、アダプタ取付手段を、アダプタ本体の周方向に沿って均等に設けられた複数のフックにより構成する場合には、弁座に挿入するだけで簡単に装着することができる上更に、アダプタ本体を弁座に対し周方向全域においてバランス良く十分な強度で密着させることができ、アダプタ本体の組付歪みや変形等を、より確実に防止することができ、緊急遮断弁の動作信頼性を、より一層向上させることができるという利点がある。
【００６３】
更に本発明において、アダプタ取付手段を、接着剤により構成する場合には、アダプタ取付用として複雑な形状のフック等を形成する必要がなく、その分、構造の簡略化を図ることができ、コストの削減を図ることができるという利点がある。
【図面の簡単な説明】
【図１】この発明の実施形態である弁座アダプタが適用されたガスメータにおけるガス流路遮断部周辺を示す水平断面図である。
【図２】実施形態のガスメータにおける弁座周辺を拡大して示す水平断面図である。
【図３】実施形態のガスメータに適用された弁座アダプタを示す図であって、同図（ａ）は正面図、同図（ｂ）は平面図、同図（ｃ）は断面図である。
【図４】この発明の変形例である弁座アダプタを示す図であって、同図（ａ）は正面図、同図（ｂ）は平面図、同図（ｃ）は断面図である。
【図５】この発明の他の変形例である弁座アダプタを示す図であって、同図（ａ）は正面図、同図（ｂ）は平面図、同図（ｃ）は断面図である。
【図６】ガスメータを示す斜視図である。
【図７】従来のガスメータにおけるガス流路遮断部周辺を示す水平断面図である。
【符号の説明】
１…ガスメータ
３…緊急遮断口
５０、１５０、２５０…弁座アダプタ
５１…内嵌筒
５２、１５２、２５２…アダプタ本体
５３、１５３、２５３…フック（アダプタ取付手段）
６２…弁体
６３…弁座[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a valve seat adapter for adjusting the stroke of an emergency shut-off valve in a gas meter provided with an emergency shut-off valve for stopping gas supply in an emergency.
[0002]
[Prior art]
As shown in FIGS. 6 and 7, in the membrane type gas meter (1) referred to as a microcomputer meter, the gas flowing in from the gas inlet (2a) flows into the valve chamber (2) and the emergency shut-off port ( 3) It has a gas flow path that is guided to the measuring chamber through 3) and then flows out from the gas outlet (2b). In an emergency, an emergency shut-off port (10) 3) is closed and the gas supply is stopped.
[0003]
That is, the solenoid (11) is attached via the seal plate (4) on the axis of the emergency shut-off port (3) on the rear wall of the gas meter (1). Furthermore, the plunger (11a) of the solenoid (11) is disposed in the valve chamber (2), and the valve body (12) is attached to the tip of the plunger (11a) so as to face the emergency shut-off port (3). A metal annular valve seat (13) is fixed to the periphery of the emergency shut-off port (3). When shutting off the gas flow path, the solenoid (11) is driven to advance the valve body (12), the valve body (12) is brought into pressure contact with the valve seat (13), and an emergency shut-off port ( 3) is closed to block the gas flow path.
[0004]
A shut-off valve return shaft (21) is disposed through the front wall of the gas meter (1) on the axis of the emergency shut-off port (3), and the shut-off valve returns to the outer end of the return shaft (21). A button (20) is provided. Furthermore, the valve box (22) is attached to the inner end side of the shut-off valve return shaft (21) so as to be inserted into the emergency shut-off port (3).
[0005]
As described above, when the gas flow path is shut off by the emergency shutoff valve (10), the return shaft (21) and the valve box (22) are moved by pressing the shutoff valve return button (21). Thus, the valve body (12) is retracted and returned to the initial position, and the gas supply can be resumed.
[0006]
As described above, the conventional gas meter (1) uses a so-called unidirectional shut-off valve in which the closing operation is automatically performed and the opening operation is manually performed as the emergency shut-off valve (10). .
[0007]
[Problems to be solved by the invention]
On the other hand, in recent years, a remote management system that manages gas meters installed in each house at a remote location such as a central management center has been studied for the purpose of prompt response at the time of disaster or recovery, and cost reduction. In this system, it is necessary to automatically perform not only the closing operation of the emergency shutoff valve but also the opening operation. For this reason, as an emergency shut-off valve, it is desired to employ a bi-directional shut-off valve (electric on / off valve) that can perform a bidirectional operation in the closing direction and the opening direction with a single solenoid.
[0008]
However, since the unidirectional shut-off valve employed in the conventional gas meter has a longer stroke length than the bidirectional shut-off valve, the structure around the valve seat (13) is formed in accordance with the long stroke. . For this reason, if the bidirectional shut-off valve is applied to the conventional gas meter as it is, the position of the valve body in the open state becomes too close to the valve seat, and the gas pressure loss becomes large. appear.
[0009]
Note that if the gas meter casing structure itself is formed in accordance with the bidirectional shut-off valve, the design of the gas meter itself is forced to change, and enormous costs and time are required, which is not practical.
[0010]
The present invention solves the above-mentioned problems of the prior art, and, for example, when a bidirectional shut-off valve is adopted instead of a unidirectional shut-off valve as an emergency shut-off valve, the emergency shut-off valve can be simply installed by attaching it to a gas meter. It is an object of the present invention to provide a valve seat adapter for adjusting the stroke of an emergency shutoff valve in a gas meter that can optimally set the stroke length of the gas meter and can reduce pressure loss.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, according to the present invention, a valve seat is provided at a peripheral portion of an emergency shut-off port provided on a gas flow path in a gas meter, and the valve is provided on one side on the axis of the emergency shut-off port. A valve seat adapter for adjusting the stroke of an emergency shut-off valve in a gas meter in which a valve body that can move forward and backward with respect to the seat is provided, and an annular adapter body that is disposed on the entire circumference of the valve seat facing the valve body And an adapter mounting means for mounting the adapter body to the valve seat, and the emergency shut-off opening is opened and closed when the valve body contacts and separates from the adapter body. It is said.
[0012]
In the valve seat adapter according to the present invention, the adapter body is attached to the valve seat, and the valve body is brought into contact with and separated from the adapter body to open and close the emergency shut-off port. The position of the valve body can be arranged at a position appropriately separated from the valve seat. For this reason, for example, even when a bi-directional shut-off valve with a short stroke length is used instead of a unidirectional shut-off valve as an emergency shut-off valve, the valve body in the open state is placed at an optimal position away from the valve seat. can do.
[0013]
Moreover, the valve seat adapter of this invention can adjust the stroke length of an emergency shut-off valve appropriately as mentioned above only by attaching to the existing gas meter.
[0014]
On the other hand, in this invention, it is good to employ | adopt the structure by which the internal fitting cylinder fitted inside the said valve seat is provided in the said adapter main body.
[0015]
That is, when adopting this configuration, the adapter main body can be supported in a well-balanced manner over the entire inner peripheral surface of the valve seat via the inner fitting cylinder, and excellent form stability can be obtained. Therefore, the assembly distortion and deformation of the adapter body can be reliably prevented, and the valve body can be securely adhered to the adapter body when the emergency shut-off valve is operated, and the adapter body and the valve seat are securely sealed. be able to.
[0016]
Further, in the present invention, a plurality of the adapter mounting means are provided uniformly along the circumferential direction on the periphery of the adapter main body, and elastically engaged with a surface of the valve seat opposite to the valve body. It is preferable to use a hook.
[0017]
That is, in this case, the adapter can be easily attached by simply inserting the adapter into the inner peripheral surface of the valve seat, and the adapter body can be fixed to the valve seat with sufficient attachment strength in the entire circumferential direction. Assembling distortion and deformation can be prevented more reliably, so that when the emergency shut-off valve is activated, the valve body can be brought into close contact with the adapter body more reliably, and the adapter body and the valve seat can be more securely connected. Can be sealed.
[0018]
Moreover, in this invention, it is desirable to comprise the said adapter attachment means with an adhesive agent.
[0019]
That is, in this case, it is not necessary to form a hook having a complicated shape for attaching the adapter, and the structure can be simplified correspondingly.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a horizontal sectional view showing a periphery of a flow path blocking portion in a gas meter (1) to which a valve seat adapter (50) according to an embodiment of the present invention is applied. FIG. 2 is an enlarged view of the periphery of the valve seat of the gas meter. It is a horizontal sectional view.
[0021]
As shown in both figures, this gas meter (1) is provided with a valve seat adapter (50) and an electric on-off valve (bidirectional shut-off valve) as an emergency shut-off valve (60). Thus, it has substantially the same configuration as the conventional one.
[0022]
That is, the casing (1a) in the gas meter (1) of the present embodiment is provided with a cylindrical valve chamber (2) whose axial center is directed in the front-rear direction at a position substantially directly below the gas inlet (2a). An emergency shut-off port (3) is provided in front of the valve chamber (2). Then, after the gas flowing in from the gas inlet (2a) is led to the measuring chamber through the valve chamber (2) and the emergency shut-off port (3), a gas flow path is formed which flows out from the gas outlet. ing.
[0023]
A valve mounting hole (1b) is formed in the rear wall of the casing (1a) corresponding to the valve chamber (2), and a seal plate (4) is blocked in the valve mounting hole (1b). Attached to the state.
[0024]
The solenoid (61) is fixed to the seal plate (4), and the plunger (61a) of the solenoid (61) is placed with the seal plate (4) in a state where the axis is aligned with the emergency shut-off port (3). It penetrates and is arranged in the valve chamber (2). Furthermore, a circular valve body (62) is attached to the tip of the plunger (61a) with the axis aligned with the emergency shut-off port (3).
[0025]
An annular valve seat (63) made of a metal such as brass is fixed to the surface of the peripheral edge of the emergency shut-off port (3) facing the valve element (62).
[0026]
As shown in FIGS. 1 to 3, a valve seat adapter (50) made of an integrally molded product of synthetic resin is attached to the valve seat (63). The valve seat adapter (50) has an internal fitting cylinder (51) of a size that fits inside the valve seat (63), and an internal fitting cylinder is provided on one end side outer periphery of the internal fitting cylinder (51). An annular adapter body (52) is integrally formed coaxially with (51). The adapter body (52) has an end surface configured as a valve seat surface (52a).
[0027]
A plurality of hooks (53) that are provided at predetermined intervals in the circumferential direction and that are evenly arranged along the circumferential direction are integrally formed in a substantially intermediate portion of the inner fitting cylinder (51). One end of the hook (53) is connected to the internal fitting cylinder (51) as a fixed end (53a), and the other end is formed as a free end (53b). 53b) is configured to be elastically deformed inward. Further, the hook (53) is configured as a tapered surface (53c) so that its outer peripheral surface gradually protrudes outward as it goes from the fixed end (53a) to the free end (53b).
[0028]
In the valve seat adapter (50) having this configuration, the inner fitting cylinder (51) is fitted inside the valve seat (63) in a fitted state by snap fitting. That is, when the inner fitting cylinder (51) of the adapter (50) is pushed into the inside of the valve seat (63), the free end (53b) of the hook (53) is tapered by the inner peripheral surface of the valve seat (63). After being pushed inward through the surface (53c) and passing through the inside of the valve seat (63) in that state, the elastic end of the hook itself elastically restores the free end (53b) to protrude outward. . As a result, the valve seat (63) fits between the adapter body (52) and the hook (53) in a fitted state with the free end (53b) engaged with the valve seat (63) and retained. Thus, the valve seat adapter (50) is fitted and fixed to the valve seat (63). In this fitted state, the seating surface (52a) of the adapter main body (52) is disposed to face the valve body (62) of the emergency shut-off valve (60) with its axis aligned.
[0029]
A seal packing material (including an adhesive) or the like may be interposed between the valve seat (63) and the adapter main body (52) as necessary.
[0030]
Moreover, as shown in FIG. 1, although the return shaft attachment hole (1c) is formed in the front wall of the casing (1a), in this embodiment, by using a bidirectional shut-off valve (60), Since a manual shut-off valve return operation mechanism is not required, the hole (1c) is not provided with a conventional manual return operation mechanism, and a closing member (6) for closing the hole (1c). Is attached.
[0031]
In the gas meter having the above configuration, when the gas flow path is shut off from the open state shown in FIG. 1, the solenoid (61) of the emergency shut-off valve (60) is excited and the plunger (61a) is advanced. The valve element (62) is brought into close contact with the valve seat surface (52a) of the valve seat adapter (50) to close the emergency shut-off port (3). As a result, the gas flow path is blocked and the gas supply is stopped.
[0032]
In addition, when the solenoid (61) is energized and the plunger (61a) is retracted from the valve closed state, the valve body (62) is detached from the valve seat surface (52a) of the valve seat adapter (50) and emergency shut off is performed. The mouth (3) is opened. As a result, the gas flow path is conducted and gas can be supplied.
[0033]
As described above, in the gas meter of the present embodiment, the valve seat adapter (50) is fitted to the valve seat (63), and the valve seat (63) is opposed to the valve body (62). The adapter main body (52) of the adapter (50) is arranged, and the valve body (62) is connected to and separated from the adapter main body (52) to cut off the gas supply. Even if a bi-directional shut-off valve (60) with a short stroke length is used instead of the shut-off valve, the valve body (62) in the opened state is appropriately separated from the valve seat (63) to the valve chamber (2). Can be arranged at the optimum position. Therefore, pressure loss can be reduced.
[0034]
Furthermore, the design of the gas meter itself is necessary because the stroke length of the emergency shut-off valve (60) can be adjusted appropriately simply by fitting the valve seat adapter (50) to the existing gas meter with a snap fit. Therefore, the cost can be reduced.
[0035]
Moreover, in the present embodiment, since the internal fitting cylinder (51) is formed integrally with the adapter main body (52) in the valve seat adapter (50), sufficient strength is obtained for the adapter main body (52) itself. In addition, the adapter (50) is supported in a well-balanced manner throughout the inner peripheral surface of the valve seat (63) via the inner fitting cylinder (51), and excellent shape stability can be obtained. For this reason, the assembly distortion and deformation of the adapter body (52) can be reliably prevented, so that the gap between the adapter body (52) and the valve seat (63) is securely sealed to prevent gas leakage between them. The valve body (62) can be securely brought into close contact with the valve seat surface (52a) of the adapter (50) during operation of the emergency shutoff valve. Therefore, the gas flow path can be reliably shut off, and the operation reliability of the emergency shutoff valve (60) can be improved.
[0036]
On the other hand, in the present embodiment, in order to reliably reduce the pressure loss, the dimensions around the flow path blocking portion in the gas meter (1) are set as follows.
[0037]
First, the distance (D1) between the valve body (62) and the valve seat surface (52a) of the valve seat adapter (50) in the valve open state, that is, the stroke of the valve body (62) is set to 5 mm.
[0038]
The difference between the outer diameter (D2) of the valve body (62) and the inner diameter (D3) of the valve seat (63) is set to 4 mm, and the outer diameter (D2) of the valve body (62) and the valve body in the opened state ( The difference from the inner diameter (D4) of the valve chamber (2) at the position 63) is set to 8 mm.
[0039]
For example, when the outer diameter (D2) of the valve body (62) is 24 mm, the inner diameter (D4) of the valve chamber (2) is 32 mm, and when the outer diameter (D2) of the valve body (62) is 28 mm. The inner diameter (D4) of the valve chamber (2) is set to 36 mm. When the outer diameter (D2) of the valve body (62) is 36 mm, the inner diameter (D4) of the valve chamber (2) is set to 44 mm. . Further, when the outer diameter (D2) of the valve body (62) is set to 24 mm, 28 mm, and 36 mm as described above, the valve body (62) has a difference of 4 mm from the valve body (62). The inner diameter (D3) of the seat (63) is set.
[0040]
The thickness (D5) of the valve body (62) is not particularly limited, but is set to 5 mm or 3.5 mm. In the example shown in the figure, it is set to 3.5 mm.
[0041]
When the outer diameter (D2) of the valve body (62) is set to 36 mm, the dimensions (D3) (D6) (D7) (D8) (D9) (D10) of each part of the valve seat adapter (50) are Is set as follows. That is, (D3) = 32 mm, (D6) = 39 mm, (D7) = 35.7 mm, (D8) = 33.6 mm, (D9) = 9.3 mm, (D10) = 2.5 mm.
[0042]
In this embodiment, the distance (D11) from the center of the gas inlet (2a) to the valve surface of the valve body (62) is set to 4.5 mm.
[0043]
In addition, the valve seat adapter of this invention is not restricted only to the thing of the said embodiment, The thing of the following structures can also be used.
[0044]
For example, the valve seat adapter (150) shown in FIG. 4 is formed integrally with an annular adapter body (152) having one surface side configured as a valve seat surface (152a) and the other end side of the adapter body (152). And a large number of hooks (153) arranged uniformly in the direction with a fine pitch.
[0045]
Each hook (153) has a leg portion (154) extending along the axial direction and a claw portion (155) integrally formed on the intermediate outer periphery of the leg portion (154), and the elasticity of the hook itself. The tip side can be elastically deformed inward by force. Furthermore, the outer peripheral surface from the front-end | tip of a leg part (154) to a nail | claw part (155) is comprised as a taper surface.
[0046]
The valve seat adapter (150) includes a hook (153) inserted into the valve seat (63), and a claw portion (155) engaged with the valve seat (63) in a retaining state. (63) is fixed to the valve seat (63) by fitting between the adapter body (152) and the claw portion (155).
[0047]
Even when this valve seat adapter (150) is used, the valve element (62) can be arranged at the optimum position of the valve chamber (2), and the pressure loss can be reduced as described above. Furthermore, a large number of hooks (153) are formed evenly in the circumferential direction, and each hook (153) is engaged with the valve seat (63), so that it can be fixed with sufficient mounting strength in the entire circumferential direction. It is possible to reliably prevent assembly distortion and deformation of the adapter main body (152). Therefore, when the emergency shut-off valve is operated, the valve body (62) can be securely brought into close contact with the valve seat surface (152a) of the adapter body (152), and between the adapter body (152) and the valve seat (63). Therefore, the operational reliability of the emergency shutoff valve (160) can be improved.
[0048]
Further, the valve seat adapter (250) shown in FIG. 5 includes two hooks (253). One hook (253) is continuously formed on one half circumference and the other hook (253). Is formed continuously in the remaining half circumference. Since the other configuration is the same as that of the adapter (150) shown in FIG. 4, the same portions are denoted by the same reference numerals, and redundant description is omitted.
[0049]
This valve seat adapter (250) is also fitted to the valve seat (63) by snap fitting as described above, and the same effect as described above can be obtained.
[0050]
In the above-described embodiment and the like, the valve seat adapter is attached to the valve seat by a hook, but the present invention is not limited to this, and may be attached by an adhesive.
[0051]
For example, the valve seat adapter is composed of only the adapter body, or composed of the adapter body and an internal fitting cylinder, and this adapter is fixed to the valve seat with a light curable adhesive such as an ultraviolet curable adhesive. You may make it do.
[0052]
Furthermore, you may comprise a valve seat adapter so that it may attach to a valve seat firmly with both an adhesive agent and a hook.
[0053]
<Experimental example>
Next, the result of a pressure loss test using the same gas meter as in the above embodiment will be shown.
[0054]
Test conditions Test fluid: Air test Flow rate: 7m3 / h
Reference device: Sonic nozzle differential pressure gauge: Inclined tube manometer valve stroke: 5mm
Inner diameter of valve chamber: 44 mm
Under the above conditions, the pressure loss (mmH2 O) of the valve body (62) having an outer diameter (D2) of 32 mm, 34 mm, 36 mm, and 38 mm was measured. The inner diameter (D3) of the valve seat (63) was set such that a difference of 4 mm was produced between the outer diameter (D2) of the valve body (62).
[0055]

The pressure loss was smallest when the outer diameter was 36 mm.
[0056]
From the above results, it can be seen that the pressure loss is the smallest when the difference between the outer diameter (D2) of the valve body (62) and the inner diameter (D4) of the valve chamber (2) is 8 mm.
[0057]
Further, the pressure loss was measured for the distance (D11) between the valve surface of the valve element (62) and the center of the gas inlet (2a) of 0 mm, 2.5 mm, 4.5 mm, and 6 mm.
[0058]

The value of was obtained.
[0059]
From the above results, the pressure loss is the smallest when the distance (D11) is 4.5 mm, and it is optimal to set the distance (D11) to 4.5 mm.
[0060]
【The invention's effect】
As described above, according to the valve seat adapter for adjusting the stroke of the emergency shutoff valve in the gas meter of the present invention, the adapter body is attached to the valve seat, and the valve body is brought into contact with and separated from the adapter body, thereby opening and closing the emergency shutoff port. Therefore, for example, even when a bi-directional shut-off valve with a short stroke length is used instead of a unidirectional shut-off valve as an emergency shut-off valve, the valve body in the open state is removed from the valve seat. It can be placed at an optimal position with a moderate separation, and pressure loss can be reduced. Furthermore, there is an effect that the stroke length of the emergency shut-off valve can be adjusted appropriately simply by attaching to an existing gas meter.
[0061]
In the present invention, when the adapter body is provided with an internal fitting tube that is fitted inside the valve seat, the adapter body may be supported in a well-balanced manner throughout the inner peripheral surface of the valve seat via the internal fitting tube. And excellent shape stability can be obtained. Therefore, the assembly distortion and deformation of the adapter main body can be surely prevented, so that the valve body can be securely adhered to the adapter main body, and gas leakage between the adapter main body and the valve seat can be surely prevented. There is an advantage that the operation reliability of the shut-off valve can be improved.
[0062]
Further, in the present invention, when the adapter mounting means is constituted by a plurality of hooks provided uniformly along the circumferential direction of the adapter main body, it can be easily mounted only by being inserted into the valve seat. The adapter body can be in close contact with the valve seat with sufficient strength in the entire circumferential direction, and the assembly distortion and deformation of the adapter body can be prevented more reliably. The operational reliability of the emergency shutoff valve There is an advantage that can be further improved.
[0063]
Furthermore, in the present invention, when the adapter mounting means is made of an adhesive, it is not necessary to form a hook or the like having a complicated shape for mounting the adapter, and the structure can be simplified correspondingly. There is an advantage that it is possible to achieve reduction.
[Brief description of the drawings]
FIG. 1 is a horizontal cross-sectional view showing the vicinity of a gas flow path blocking section in a gas meter to which a valve seat adapter according to an embodiment of the present invention is applied.
FIG. 2 is an enlarged horizontal sectional view showing the vicinity of a valve seat in the gas meter of the embodiment.
3A and 3B are views showing a valve seat adapter applied to the gas meter of the embodiment, wherein FIG. 3A is a front view, FIG. 3B is a plan view, and FIG. 3C is a cross-sectional view. .
4A and 4B are views showing a valve seat adapter according to a modification of the present invention, in which FIG. 4A is a front view, FIG. 4B is a plan view, and FIG. 4C is a cross-sectional view.
FIGS. 5A and 5B are views showing a valve seat adapter according to another modification of the present invention, in which FIG. 5A is a front view, FIG. 5B is a plan view, and FIG. is there.
FIG. 6 is a perspective view showing a gas meter.
FIG. 7 is a horizontal cross-sectional view showing the periphery of a gas flow path blocking section in a conventional gas meter.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Gas meter 3 ... Emergency shut-off port 50,150,250 ... Valve seat adapter 51 ... Internal fitting cylinder 52,152,252 ... Adapter main body 53,153,253 ... Hook (adapter attachment means)
62 ... Valve body 63 ... Valve seat

Claims (4)

A valve seat is provided at the peripheral edge portion of the emergency shut-off port provided on the gas flow path in the gas meter, and a valve body that is movable back and forth with respect to the valve seat is disposed on one side of the axis of the emergency shut-off port. A valve adapter for adjusting the stroke of an emergency shutoff valve in a gas meter,
An annular adapter body disposed on the entire circumference of the surface of the valve seat facing the valve body;
Adapter mounting means for mounting the adapter body to the valve seat;
A valve seat adapter for adjusting the stroke of an emergency shut-off valve in a gas meter, wherein the emergency shut-off port is opened and closed when the valve body contacts and separates from the adapter body. The valve seat adapter for adjusting the stroke of an emergency shutoff valve in a gas meter according to claim 1, wherein the adapter main body is provided with an internal fitting cylinder fitted inside the valve seat. A plurality of the adapter mounting means are formed by hooks that are equally provided along the circumferential direction of the adapter main body and elastically engaged with a surface of the valve seat opposite to the valve body. Item 3. The valve seat adapter for adjusting the stroke of the emergency shutoff valve in the gas meter according to item 1 or 2. The valve seat adapter for adjusting the stroke of an emergency shutoff valve in a gas meter according to claim 1 or 2, wherein the adapter mounting means is made of an adhesive.

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