JP2008039170A - Gas cock - Google Patents

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JP2008039170A
JP2008039170A JP2006218522A JP2006218522A JP2008039170A JP 2008039170 A JP2008039170 A JP 2008039170A JP 2006218522 A JP2006218522 A JP 2006218522A JP 2006218522 A JP2006218522 A JP 2006218522A JP 2008039170 A JP2008039170 A JP 2008039170A
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drive shaft
gas stopper
annular
gas
annular space
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JP4249767B2 (en
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Shinichi Nishibori
慎一 西堀
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Fujii Gokin Seisakusho Co Ltd
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Fujii Gokin Seisakusho Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas cock capable of preventing water droplets, detergent or the like entering the gas cock through a clearance between a cylindrical part (12) and an operation knob (30) or through holes (2a), (2b) from reaching a sliding part (22) of a gas cock body. <P>SOLUTION: A drive shaft (31) is connected to a plug (20) and the operation knob (30) in a state of inhibiting relative rotation, and the drive shaft (31) is stored in the cylindrical part (12) of the gas cock body (10). Then a pair of through holes (2a) (2b) through which a spring pin (1) is passed are formed in the cylindrical part (12) through the medium of the lateral hole part (40) of the drive shaft (31). The rotation control part of the plug (20) is formed of the surfaces of the lateral hole part (40) in the circumferential direction and the spring pin (1). An annular space (S) is provided between the inner peripheral surface of the cylindrical part (12) and the outer peripheral part of the drive shaft (31). The inner peripheral surface of the cylindrical part (12) is in a lower position than the see-through holes (2a), (2b) of the cylindrical part (12), and the width of the annular space (S) is larger than the clearance between the inner peripheral surface of the cylindrical part (12) and the outer peripheral part of the drive shaft (31). Then grease (51) for waterproofing is filled in the annular space (S). <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

この発明は、ガス栓、特に、操作つまみによるせんの回動角度を規制する回動規制部が設けられた形式のガス栓に関する。   The present invention relates to a gas stopper, and more particularly, to a gas stopper of a type provided with a rotation restricting portion for restricting a rotation angle of a thread by an operation knob.

この種ガス栓として、特許第3025841号公報に開示のものを提案した。この先登録例のものでは、図7のガス栓の分解斜視図に示すように、ガス栓本体(10)と、ガス栓本体(10)のせん収容部(11)内に回動自在に収容されるせん(20)と、前記せん(20)に、コイルバネ(4)を介して相対回動阻止状態に連結されるドライブシャフト(31)と、前記ドライブシャフト(31)に相対回動阻止状態に連結される操作つまみ(30)とから構成されている。   As this kind of gas plug, the one disclosed in Japanese Patent No. 3025841 has been proposed. In the previously registered example, as shown in the exploded perspective view of the gas stopper in FIG. 7, the gas stopper main body (10) and the gas stopper main body (10) are accommodated in a rotatable manner in the casing (11). The screw (20), the drive shaft (31) connected to the screw (20) via a coil spring (4) in a relative rotation blocking state, and the drive shaft (31) in a relative rotation blocking state. It is comprised from the operation knob (30) connected.

せん収容部(11)の上方には筒部(12)が連設されており、筒部(12)を構成している周壁の直径線上の両端には、ドライブシャフト(31)内を挿通するスプリングピン(1)を貫通させるための一対の透孔(2a)(2b)が形成されている。   A cylindrical portion (12) is continuously provided above the spiral housing portion (11), and the inside of the drive shaft (31) is inserted into both ends on the diameter line of the peripheral wall constituting the cylindrical portion (12). A pair of through holes (2a) and (2b) for penetrating the spring pin (1) are formed.

ドライブシャフト(31)の上面には、操作つまみ(30)の下面に設けられた角孔部(図示せず)に内嵌可能な略直方体状の角軸部(3)がその直径線上に突設されており、角軸部(3)の中央部には、図8に示すように、挿通孔(43)とその下方にナット部(44)が連設されている。操作つまみ(30)とドライブシャフト(31)とは、ねじ(34)をナット部(44)に螺合させることによって、相対回動阻止状態に連結される。   On the upper surface of the drive shaft (31), a substantially rectangular parallelepiped square shaft portion (3) that can be fitted in a square hole portion (not shown) provided on the lower surface of the operation knob (30) projects on the diameter line. As shown in FIG. 8, an insertion hole (43) and a nut portion (44) are provided below the central portion of the square shaft portion (3). The operation knob (30) and the drive shaft (31) are coupled to each other in a state of preventing relative rotation by screwing a screw (34) into a nut portion (44).

又、ドライブシャフト(31)には矩形孔部(32)が下方に開放するように形成されてあり、これに、せん(20)の上面に突設されている略直方体状の操作軸部(24)を内嵌させることにより、せん(30)とドライブシャフト(31)とも相対回動阻止状態に連結される。
尚、操作軸部(24)の基端部を囲むように、コイルバネ(4)の下端を受ける環状凹部(25)が形成されてあり、環状凹部(25)に対向するドライブシャフト(31)の下面には、コイルバネ(4)の上端を受ける環状溝部(33)が形成されている。
Also, the drive shaft (31) is formed with a rectangular hole (32) that opens downward, and this has a substantially rectangular parallelepiped operation shaft (projecting on the upper surface of the screw (20)) ( By inserting 24), the screw (30) and the drive shaft (31) are connected to each other in a state of preventing relative rotation.
An annular recess (25) for receiving the lower end of the coil spring (4) is formed so as to surround the proximal end portion of the operation shaft portion (24), and the drive shaft (31) facing the annular recess (25) is formed. An annular groove (33) that receives the upper end of the coil spring (4) is formed on the lower surface.

ドライブシャフト(31)の中間部分には、図9に示すように、中心に対して対称な位置に、断面略台形状の第1、第2柱部(41)(42)が形成されている。これら第1、第2柱部(41)(42)の間に横孔部(40)が側方に開放するように形成されており、この横孔部(40)にスプリングピン(1)が貫通する。   As shown in FIG. 9, first and second columnar portions (41) and (42) having a substantially trapezoidal cross section are formed in the middle portion of the drive shaft (31) at positions symmetrical with respect to the center. . A horizontal hole (40) is formed between the first and second pillars (41) and (42) so as to open sideways, and a spring pin (1) is formed in the horizontal hole (40). To penetrate.

第1、第2柱部(41)(42)の両側面は、それぞれ、回動阻止面(41a)(41b)(42a)(42b)として機能し、操作つまみ(30)の回動に伴って、ドライブシャフト(31)が回動し、回動阻止面(41a)(41b)(42a)(42b)のいずれかの面が、筒部(12)に貫通固定されているスプリングピン(1)に当接すると、それ以上の回動が阻止される。尚、第1柱部(41)の回動阻止面(41a)と第2柱部(42)の回動阻止面(42b)、第1柱部(41)の回動阻止面(41b)と第2柱部(42)の回動阻止面(42a)とはそれぞれ90度の間隔をおいて設けられており、ドライブシャフト(1)は90度の範囲内で回動可能となる。すなわち、第1、第2柱部(41)(42)及びスプリングピン(1)がせんの回動規制部として機能する。   Both side surfaces of the first and second pillar portions (41) and (42) function as rotation prevention surfaces (41a) (41b) (42a) and (42b), respectively, and as the operation knob (30) rotates. Thus, the drive shaft (31) is rotated, and any one of the rotation prevention surfaces (41a) (41b) (42a) (42b) is penetrated and fixed to the cylindrical portion (12) (1) ) Is prevented from further rotation. The rotation preventing surface (41a) of the first column portion (41), the rotation preventing surface (42b) of the second column portion (42), and the rotation preventing surface (41b) of the first column portion (41) The rotation preventing surface (42a) of the second pillar portion (42) is provided at an interval of 90 degrees, and the drive shaft (1) can be rotated within a range of 90 degrees. That is, the first and second column portions (41) and (42) and the spring pin (1) function as a rotation restricting portion of the spiral.

ドライブシャフト(31)は、操作つまみ(30)及びせん(20)に対して回動阻止状態に連結された構成となっているから、操作つまみ(30)を回動させると、ドライブシャフト(31)を介して、せん(20)がせん収容部(11)内で90度の範囲内において回動可能となり、せん(20)を貫通する通過孔(21)がせん収容部(11)に連通しているガス流路に連通する位置に達した時にガス栓は開状態となり、この状態から90度回動させて、ガス流路がせん(20)によって閉塞された時がガス栓の閉状態となる。
特許第3025841号公報 特開2002−39403号公報
Since the drive shaft (31) is configured to be connected to the operation knob (30) and the screw (20) in a rotation-blocking state, when the operation knob (30) is rotated, the drive shaft (31 ), The thread (20) can be rotated within a range of 90 degrees in the thread housing part (11), and the passage hole (21) passing through the thread (20) communicates with the thread housing part (11). The gas plug is opened when it reaches the position that communicates with the gas flow path, and the gas plug is closed when the gas flow path is blocked by the spiral (20) after rotating 90 degrees from this state. It becomes.
Japanese Patent No. 3025841 JP 2002-39403 A

上述したような、せん(20)の回動規制のために、スプリングピン(1)とドライブシャフト(31)からなる回動規制部が採用されているガス栓を、屋外や湿気の多い厨房や浴室等で使用すると、雨水や厨房や浴室内の水滴や洗剤等が、前記ガス栓本体(10)の筒部(12)と操作つまみ(30)との隙間から、筒部(12)に開けた透孔(2a)(2b)とそれらを貫通しているスプリングピン(1)との隙間を経て、ガス栓本体(10)内に浸入することがある。   As described above, the gas stopper, in which the rotation restricting portion composed of the spring pin (1) and the drive shaft (31) is used to restrict the rotation of the thread (20), can be used outdoors or in humid kitchens. When used in a bathroom, etc., rainwater, kitchens, water drops and detergents in the bathroom, etc. are opened to the cylinder part (12) from the gap between the cylinder part (12) of the gas plug body (10) and the operation knob (30). The gas plug main body (10) may enter through a gap between the through holes (2a) and (2b) and the spring pin (1) passing through them.

水滴や洗剤等が、ガス栓本体(10)内に浸入し、せん収容部(11)とせん(20)との摺動部に至った場合には、摺動部にさびを発生させてしまう虞がある。又、摺動部に潤滑・シール用のグリスが介在されている場合では、洗剤の付着によって前記グリスが劣化したり、摺動部の上端に固着したりして、操作つまみ(30)の操作性が悪くなったり、操作できなくなったりする不都合がある。   If water droplets or detergent penetrates into the gas stopper body (10) and reaches the sliding part between the thread container (11) and thread (20), rusting will occur on the sliding part. There is a fear. In addition, in the case where lubrication / seal grease is interposed in the sliding part, the grease deteriorates due to adhesion of the detergent or adheres to the upper end of the sliding part, so that the operation knob (30) can be operated. There are inconveniences such as poor performance and inoperability.

ガス栓本体(10)内への水や洗剤等の浸入を防止するために、特開2002−39403号公報に示すように、筒部(12)の上端開放部を全域にわたって被覆するキャップを設けることが考えられる。しかしながら、浴室のような、湿度の高い環境化では、キャップと筒部(12)の上方開放端との間は完全に密封されているわけではないので、ガス栓本体(30)の内部も浴室と同じ湿度になる。この場合、ガス栓本体(30)内のグリスの劣化や、摺動部の錆びの発生を阻止することができず、ガス栓の操作性の悪化を招来してしまう。   In order to prevent intrusion of water, detergent or the like into the gas plug main body (10), as shown in Japanese Patent Laid-Open No. 2002-39403, a cap is provided to cover the entire upper end open portion of the cylindrical portion (12). It is possible. However, in a high humidity environment such as a bathroom, the gap between the cap and the upper open end of the cylinder part (12) is not completely sealed, so the interior of the gas plug body (30) is also in the bathroom. The same humidity. In this case, deterioration of the grease in the gas plug main body (30) and generation of rust on the sliding portion cannot be prevented, leading to deterioration of the operability of the gas plug.

本発明は、『ガス栓本体の一方に開放し且つガス流路に連通するせん収容部内に、前記ガス流路を開閉するせんが摺動部を介して回動自在に収容されており、前記せん収容部の開放端に連続する筒部に前記せんを回動操作する操作つまみが回動自在に外嵌する構成のガス栓であって、
前記せん及び前記操作つまみに対してそれぞれ相対回動阻止状態に連結されるドライブシャフトが前記筒部内に収容され、
前記筒部の直径線上の両端には、前記ドライブシャフトに形成されている横孔部を介して、スプリングピンが貫通する一対の透孔が形成され、
前記横孔部の周方向の各面とこれに当接する前記スプリングピンとによって、前記せんの回動角度を規制する回動規制部が構成されているガス栓』において、前記筒部と操作つまみとの隙間から、筒部に設けた透孔とスプリングピンとの隙間等を経てガス栓内部に浸入する水滴や洗剤等が、ガス栓本体の摺動部に到達しないようにすることを課題とする。
According to the present invention, “a gland opening part that opens to one side of the gas plug body and communicates with the gas flow path is rotatably accommodated through a sliding part. A gas stopper having a configuration in which an operation knob for rotating the thread is rotatably fitted to a cylindrical part continuous with the open end of the thread housing part,
Drive shafts connected in a state of preventing relative rotation with respect to the screw and the operation knob are accommodated in the cylindrical portion,
At both ends on the diameter line of the cylindrical portion, a pair of through-holes through which a spring pin passes are formed through a lateral hole portion formed in the drive shaft,
In the gas stopper in which a rotation restricting portion for restricting a rotation angle of the thread is constituted by each circumferential surface of the lateral hole portion and the spring pin that is in contact therewith, the cylinder portion and the operation knob; It is an object of the present invention to prevent water droplets, detergents, and the like that enter the inside of the gas plug through the gap between the through hole provided in the cylindrical portion and the spring pin from reaching the sliding portion of the gas plug main body.

(1)請求項1に係る発明のガス栓は、『前記筒部の前記透孔よりも下方における前記筒部の内周面と前記ドライブシャフトの外周面との間に、両者間の隙間よりも幅広の環状空間部を設け、前記環状空間部に防水用グリスを充填させた』ことである。
この発明のガス栓は、せん収容部内にせんが摺動部を介して収容されており、せん収容部の開放端に連設されている筒部には、せんに相対回動阻止状態に連結されるドライブシャフトが、前記筒部に形成された透孔を挿通するスプリングピンを介して収容されている。又、前記筒部の上方開放端には、前記ドライブシャフトに相対回動阻止状態に連結される操作つまみが外嵌している。操作つまみを回動操作すると、せんが、ドライブシャフトを介して同方向に回動可能となる。この種のガス栓の、前記筒部に設けた透孔よりも下方(せん収容部側)における筒部とドライブシャフトとの間に環状空間部を設け、この環状空間部に防水用グリスを充填させる。これにより、ガス栓本体内における環状空間部よりも下方域は、ガス栓の外部と完全に遮断され、密閉状態に維持される。従って、水滴や洗剤が、筒部と操作つまみとの隙間から筒部の上方開放端や透孔等を経て筒部内に浸入しても、その下方の環状空間部には防水用グリスが充填されているから、環状空間部よりも下方への水滴や洗剤等の浸入は阻止され、それより下方に位置するせんの摺動部に水滴や洗剤等が到達することはない。尚、前記水滴や洗剤等の水分は、環状空間部よりも上方域に溜まったあと、自然に蒸発し、前記透孔や隙間等から外部へ排出されていく。
又、防水用グリスは、特別に設けられた環状空間部内に充填させているため、環状空間部から他所へ流出することはない。
(1) The gas stopper according to the first aspect of the present invention may be configured such that a gap between the inner peripheral surface of the cylindrical portion and the outer peripheral surface of the drive shaft is lower than the through hole of the cylindrical portion. Is provided with a wide annular space, and the annular space is filled with waterproof grease.
In the gas stopper of the present invention, the thread is accommodated in the thread accommodating part via the sliding part, and the cylinder part connected to the open end of the thread accommodating part is connected to the thread in a state of preventing relative rotation. The drive shaft is accommodated via a spring pin that is inserted through a through hole formed in the cylindrical portion. An operation knob connected to the drive shaft in a state of preventing relative rotation is fitted on the upper open end of the cylindrical portion. When the operation knob is turned, the screw can be turned in the same direction via the drive shaft. An annular space portion is provided between the cylinder portion and the drive shaft below the through hole provided in the cylinder portion of this type of gas plug and the drive shaft, and the annular space portion is filled with waterproof grease. Let As a result, the region below the annular space in the gas plug body is completely blocked from the outside of the gas plug and maintained in a sealed state. Therefore, even if water droplets or detergent enters the cylinder part from the gap between the cylinder part and the operation knob through the upper open end or through hole of the cylinder part, the annular space below is filled with waterproof grease. Therefore, intrusion of water drops, detergents, etc. below the annular space is prevented, and water drops, detergents, etc. do not reach the sliding part of the thread located below. The water such as the water droplets and the detergent accumulates in an upper region from the annular space, and then spontaneously evaporates and is discharged to the outside through the through holes and gaps.
Further, since the waterproof grease is filled in a specially provided annular space portion, it does not flow out from the annular space portion.

(2)請求項2に係る発明のガス栓は、請求項1に記載のガス栓において、『前記環状空間部は、前記ドライブシャフトの外周面に周方向に沿って形成される環状外溝と、前記筒部の内周面とで囲まれる空間である』ものでは、環状外溝に防水用グリスを塗布した後、ドライブシャフトを筒部内に収容させればよい。   (2) The gas stopper of the invention according to claim 2 is the gas stopper according to claim 1, wherein the annular space portion is formed with an annular outer groove formed along the circumferential direction on the outer peripheral surface of the drive shaft. In the space surrounded by the inner peripheral surface of the cylinder portion, after applying the waterproof grease to the annular outer groove, the drive shaft may be accommodated in the cylinder portion.

(3)請求項3に係る発明のガス栓は、請求項1に記載のガス栓において、『前記環状空間部は、前記筒部の内周面に周方向に沿って形成される環状内溝と、前記ドライブシャフトの外周面とで囲まれる空間である』ものでは、筒部内周面の環状内溝に防水用グリスを塗布した後、ドライブシャフトを筒部内に収容させればよい。   (3) The gas plug of the invention according to claim 3 is the gas plug according to claim 1, wherein the annular space portion is an annular inner groove formed along the circumferential direction on the inner peripheral surface of the cylindrical portion. In the space surrounded by the outer peripheral surface of the drive shaft, after applying waterproof grease to the annular inner groove on the inner peripheral surface of the cylindrical portion, the drive shaft may be accommodated in the cylindrical portion.

(4)請求項4に係る発明のガス栓は、請求項1に記載のガス栓において、『前記環状空間部は、前記ドライブシャフトの外周面に周方向に沿って形成される環状外溝と、前記環状外溝に対向する前記筒部の内周面の所定箇所に周方向に沿って形成される環状内溝とで囲まれる空間である』ものでは、ドライブシャフトの外周面に形成される環状外溝と、筒部の内周面に形成される環状内溝とは対向する位置にあり、これら環状外溝と環状内溝とで囲まれる範囲が環状空間部となる。このものでは、環状外溝と環状内溝の両方に防水用グリスを充填させる。   (4) The gas plug of the invention according to claim 4 is the gas plug according to claim 1, wherein the annular space portion is formed with an annular outer groove formed along an outer circumferential surface of the drive shaft along a circumferential direction. , A space surrounded by an annular inner groove formed along a circumferential direction at a predetermined location on the inner circumferential surface of the cylindrical portion facing the annular outer groove ”is formed on the outer circumferential surface of the drive shaft. The annular outer groove and the annular inner groove formed on the inner peripheral surface of the cylindrical portion are in positions facing each other, and a range surrounded by the annular outer groove and the annular inner groove is an annular space portion. In this case, both the annular outer groove and the annular inner groove are filled with waterproof grease.

(5)請求項5に係る発明のガス栓は、請求項1に記載のガス栓において、『前記ドライブシャフトの外周面又は前記筒部の内周面のどちらか一方には周方向に沿って下向き段部を形成し、他方には周方向に沿って上向き段部を形成し、前記環状空間部は、前記下向き段部と前記上向き段部との間に形成される』ものでは、例えば、前記ドライブシャフトの外周面には、周方向に沿った所定位置から下方へ向かって下向き段部を構成すると共に、筒部の内周面には、周方向に沿った所定位置から上方へ向かって上向き段部を構成すれば良く、ドライブシャフトを筒部内に収容した際に、前記下抜き段部と上向き段部との間に形成される空間を環状空間部として、防水用グリスを充填させる。   (5) The gas plug of the invention according to claim 5 is the gas plug according to claim 1, wherein either the outer peripheral surface of the drive shaft or the inner peripheral surface of the cylindrical portion is along the circumferential direction. Forming a downward step, and forming an upward step along the circumferential direction on the other side, the annular space is formed between the downward step and the upward step. On the outer peripheral surface of the drive shaft, a downward stepped portion is formed downward from a predetermined position along the circumferential direction, and on the inner peripheral surface of the cylindrical portion, upward from a predetermined position along the circumferential direction. What is necessary is just to comprise an upward step part, and when a drive shaft is accommodated in a cylinder part, the space formed between the said lower extraction step part and an upward step part is made into an annular space part, and it fills with waterproof grease.

(6)請求項6に係る発明のガス栓は、請求項1から5のいずれかに記載のガス栓において、『前記せん収容部の上端の段部と前記ドライブシャフトの下面との間に下空間部が形成され、前記下空間部に、前記摺動部の潤滑・シール用のグリスが充填されている』ものでは、前記下空間部が、潤滑・シール用のグリスを溜めておくグリス溜め部として機能し、潤滑・シール用グリスを充填しておくことにより、前記せんの回動操作の潤滑性及び摺動部におけるシール性が確保される。
この下空間部の上方には、環状空間部が設けられており、防水用グリスが充填されているから、下空間部内は防水用グリスによって気密状態に閉塞される。よって、潤滑・シール用グリスが洗剤等の混入で劣化したり、基油成分が蒸発したりすることがない。
(6) A gas stopper according to a sixth aspect of the present invention is the gas stopper according to any one of the first to fifth aspects, wherein “a lower portion is provided between a stepped portion at an upper end of the thread accommodating portion and a lower surface of the drive shaft. In the case where a space portion is formed and the lower space portion is filled with grease for lubricating and sealing the sliding portion, the lower space portion stores a grease for lubricating and sealing. By functioning as a portion and filled with grease for lubrication / seal, lubricity in the rotation operation of the thread and sealability in the sliding portion are ensured.
An annular space portion is provided above the lower space portion and is filled with waterproof grease, so that the inside of the lower space portion is closed in an airtight state by the waterproof grease. Therefore, the grease for lubrication / sealing is not deteriorated by mixing with a detergent or the like, and the base oil component is not evaporated.

請求項1に係る発明によれば、筒部を貫通する透孔よりも下方に、防水用グリスを充填させた環状空間部を設けて、ガス栓本体内において環状空間部よりも下方域を確実に密閉状態に維持できるようにしたから、操作つまみと筒部との隙間や前記透孔等からガス栓本体の筒部内に浸入する水滴や洗剤等が、環状空間部よりも下方に浸入することがない。よって、環状空間部よりも下方に位置するせん収容部とせんとの摺動部の防水・防錆が確実となり、ガス栓の操作性の悪化を防止でき、ガス栓の耐久性が向上することから、厨房、台所、浴室等、高湿度の環境下においてもガス栓を長期にわたって使用することができる。
又、防水用グリスは環状空間部に収容されて、不用意に流出する不都合を防止しているから、防水用グリスを必要以上に充填することがなく、経済的である。
According to the first aspect of the present invention, the annular space filled with the waterproof grease is provided below the through-hole penetrating the cylindrical portion, and the lower area than the annular space is ensured in the gas plug body. The water droplets and detergent that enter the cylinder part of the gas plug main body from the gap between the operation knob and the cylinder part and the through hole, etc., enter below the annular space part. There is no. Therefore, waterproofing and rust prevention of the sliding part between the screw housing part and the screw located below the annular space part are ensured, the deterioration of the operability of the gas stopper can be prevented, and the durability of the gas stopper is improved. Therefore, the gas stopper can be used for a long time even in a high humidity environment such as a kitchen, a kitchen, and a bathroom.
Further, since the waterproof grease is accommodated in the annular space portion to prevent inadvertent outflow, it is economical because the waterproof grease is not filled more than necessary.

請求項2から請求項4に係る発明によれば、環状空間部の形成が容易で且つ防水用グリスの塗布が容易であるから、確実に且つ容易に環状空間部に防水用グリスを充填させることができる。   According to the inventions according to claims 2 to 4, since the formation of the annular space is easy and the waterproof grease is easily applied, the waterproof grease is reliably and easily filled in the annular space. Can do.

請求項5に係る発明によれば、請求項1から請求項4に係る発明の効果と同様な効果が期待できる上に、下向き段部と上向き段部の形成位置が、上下方向に多少ずれていても、環状空間部の形成には支障がないから、ガス栓本体及びドライブシャフトの製造が容易となる。   According to the invention of claim 5, the same effects as those of the inventions of claims 1 to 4 can be expected, and the formation positions of the downward stepped portion and the upward stepped portion are slightly shifted in the vertical direction. However, since there is no hindrance in the formation of the annular space, the manufacture of the gas plug body and the drive shaft is facilitated.

請求項6に係る発明によれば、上記各効果と同様に、摺動部の防水・防錆効果が期待できる上に、環状空間部の下方で且つせん収容部の上端とドライブシャフトの下面との間に形成される下空間部に、潤滑・シール用のグリスを充填することにより、前記せんの回動操作の潤滑性及び摺動部におけるシール性が向上する。さらに、下空間部はその上方に設けられている防水用グリスによって密閉されているから、ガス栓を取り巻く温度や湿度等の環境が変化しても、下空間部内の前記潤滑・シール用グリスの基油成分が蒸発することがなく、潤滑・シール用グリスの防水機能の低下を防止することができる。   According to the invention which concerns on Claim 6, like each said effect, while being able to anticipate the waterproofing / rust prevention effect of a sliding part, it is below the annular space part and the upper end of a screw | thread accommodation part, and the lower surface of a drive shaft By filling the lower space portion formed between them with grease for lubrication / sealing, the lubricity of the turning operation of the thread and the sealing performance at the sliding portion are improved. Furthermore, since the lower space is sealed with waterproof grease provided above, even if the environment such as temperature and humidity surrounding the gas stopper changes, the lubrication / seal grease in the lower space is changed. The base oil component does not evaporate, and the waterproof function of the grease for lubrication / sealing can be prevented from being lowered.

以下に、本発明を実施するための最良の形態について添付図面を参照しながら説明する。
図1は、本願発明の実施の形態におけるガス栓の組立て完成状態での断面図であり、図2は、その要部拡大断面図である。
The best mode for carrying out the present invention will be described below with reference to the accompanying drawings.
FIG. 1 is a cross-sectional view of a gas stopper according to an embodiment of the present invention in an assembled state, and FIG. 2 is an enlarged cross-sectional view of a main part thereof.

この実施の形態のガス栓は、ガス栓本体(10)の上方に開放するせん収容部(11)の左右に、ガス流入路(13)とガス流出路(14)とが同軸上に連通する構成となっており、せん収容部(11)内には、これらガス流入路(13)とガス流出路(14)を連通或は遮断させるための逆円錐台形状のせん(20)が回動自在に収容される。   In the gas stopper of this embodiment, the gas inflow passage (13) and the gas outflow passage (14) are coaxially connected to the left and right of the thread accommodating portion (11) opened above the gas stopper main body (10). In the spiral housing part (11), an inverted frustoconical spiral (20) for communicating or blocking between the gas inflow passage (13) and the gas outflow passage (14) rotates. Can be stored freely.

せん収容部(11)の内周面及びせん(20)の外周面は、相互に摺動可能な摺動部(22)を構成している。
せん収容部(11)の上方開放端からは筒部(12)が連設されてあり、筒部(12)の基端部の直径は、せん収容部(11)の開放端部の直径よりも大径に形成されて、筒部(12)とせん収容部(11)との境界部分に、段部(15)を設けている。又、筒部(12)を構成している周壁の中心に対して対向する各位置には、筒状のスプリングピン(1)の両端が貫通する透孔(2a)(2b)が形成されている。尚、スプリングピン(1)がガス流入路(13)及びガス流出路(14)に平行に位置するように、透孔(2a)(2b)の形成位置は設定されている。
The inner peripheral surface of the thread accommodating portion (11) and the outer peripheral surface of the thread (20) constitute a sliding portion (22) that can slide relative to each other.
The cylinder part (12) is continuously provided from the upper open end of the thread accommodating part (11), and the diameter of the base end part of the cylinder part (12) is larger than the diameter of the open end part of the thread accommodating part (11). Is formed in a large diameter, and a step portion (15) is provided at a boundary portion between the cylindrical portion (12) and the thread accommodating portion (11). In addition, through holes (2a) (2b) through which both ends of the cylindrical spring pin (1) pass are formed at each position facing the center of the peripheral wall constituting the cylindrical portion (12). Yes. The formation positions of the through holes (2a) and (2b) are set so that the spring pin (1) is positioned in parallel with the gas inflow path (13) and the gas outflow path (14).

せん(20)には、ガス流入路(13)及びガス流出路(14)に連通するガス通過孔(21)が貫通しており、又、せん(20)の上面中央には、略直方体状の操作軸部(24)がその長辺が前記通過孔(21)と平行となるように突設されている。そして、その基端部を囲むように、コイルバネ(4)を受けるための環状溝部(25)が形成されている。   A gas passage hole (21) communicating with the gas inflow passage (13) and the gas outflow passage (14) passes through the spiral (20), and a substantially rectangular parallelepiped shape is formed at the center of the upper surface of the spiral (20). The operating shaft portion (24) is projected so that its long side is parallel to the passage hole (21). And the annular groove part (25) for receiving a coil spring (4) is formed so that the base end part may be enclosed.

操作軸部(24)は、後述するドライブシャフト(31)の下面に開放している矩形孔部(32)にちょうど内嵌する大きさに構成されており、操作軸部(24)を矩形孔部(32)に内嵌させることにより、せん(20)とドライブシャフト(31)とは相対回動阻止状態に連結される。   The operation shaft portion (24) is configured to fit in a rectangular hole (32) opened on the lower surface of the drive shaft (31) described later, and the operation shaft portion (24) is formed into a rectangular hole. By inserting into the portion (32), the thread (20) and the drive shaft (31) are connected in a state of preventing relative rotation.

ドライブシャフト(31)は、上記した要領で、せん(20)に連結された状態で筒部(12)内に収容される略円柱体であり、スプリングピン(1)と組み合わせることで、せん(20)の回動角度を規制する回動規制部を構成するものである。その上面には、操作つまみ(30)の中央下面に開放している矩形凹部(38)に内嵌可能な略直方体状の角軸部(3)がその直径線上に突設されており、角軸部(3)を矩形凹部(38)に嵌め込むことにより、操作つまみ(30)とドライブシャフト(31)とは相対回動阻止状態に連結される。   The drive shaft (31) is a substantially cylindrical body accommodated in the cylindrical portion (12) in a state of being connected to the thread (20) in the manner described above, and is combined with the spring pin (1). 20) constitutes a rotation restricting portion for restricting the rotation angle. On its upper surface, a substantially rectangular parallelepiped angular shaft portion (3) that can be fitted into a rectangular recess (38) that opens to the lower center surface of the operation knob (30) is projected on the diameter line. By fitting the shaft portion (3) into the rectangular recess (38), the operation knob (30) and the drive shaft (31) are connected in a state where relative rotation is prevented.

前記角軸部(3)の中央部には、雌ねじ(3a)が形成されており、操作つまみ(30)の中央部に挿通されるねじ(34)が螺合する。
ドライブシャフト(31)には、従来例において、図8及び図9に示したように、中心に対して対称な位置に、断面略台形状の第1、第2柱部(41)(42)が形成されており、これら第1、第2柱部(41)(42)を除いた範囲に、スプリングピン(1)が挿通する横孔部(40)が側方に開放するように形成されている。
A female screw (3a) is formed at the central portion of the angular shaft portion (3), and a screw (34) inserted through the central portion of the operation knob (30) is screwed together.
As shown in FIGS. 8 and 9, in the conventional example, the drive shaft (31) has first and second pillars (41), (42) each having a substantially trapezoidal cross section at a symmetrical position with respect to the center. The horizontal hole portion (40) through which the spring pin (1) is inserted is formed to open sideways in a range excluding the first and second pillar portions (41) and (42). ing.

第1、第2柱部(41)(42)とスプリングピン(1)との関係は、上述した従来例のとおりであり、第1、第2柱部(41)(42)各々の一方の回動阻止面(41a)(42a)がスプリングピン(1)に当接する第1の姿勢から、他方の回動阻止面(41b)(42b)がスプリングピン(1)に当接する第2の姿勢までの90度の範囲内でドライブシャフト(31)の回動可能となり、それに伴って、操作つまみ(30)及びせん(20)の回動も可能となる。   The relationship between the first and second pillar portions (41) and (42) and the spring pin (1) is as in the conventional example described above, and one of the first and second pillar portions (41) and (42) is one of them. From the first posture in which the rotation prevention surfaces (41a) and (42a) contact the spring pin (1), the second posture in which the other rotation prevention surfaces (41b) and (42b) contact the spring pin (1). The drive shaft (31) can be rotated within the range of 90 degrees until the operation knob (30) and the screw (20) can be rotated.

せん(20)の環状溝部(25)に対向するドライブシャフト(31)の下面には、環状溝部(25)と同様な環状溝部(33)が形成されており、環状溝部(25)(33)間に、コイルバネ(4)が圧縮状態で収容される。   An annular groove (33) similar to the annular groove (25) is formed on the lower surface of the drive shaft (31) facing the annular groove (25) of the thread (20), and the annular groove (25) (33) In the meantime, the coil spring (4) is accommodated in a compressed state.

コイルバネ(4)の付勢力によって、せん(20)とドライブシャフト(31)とは相互に離反する方向に付勢されるが、ドライブシャフト(31)がスプリングピン(1)によってガス栓本体(10)の筒部(12)に固定されていることにより、せん(20)は、前記付勢力によって、せん収容部(11)の底側に押圧状態に収容されることとなり、せん(20)の収容姿勢が安定する。   The coil (20) and the drive shaft (31) are urged away from each other by the urging force of the coil spring (4), but the drive shaft (31) is urged by the spring pin (1). ) Is fixed to the bottom side of the thread accommodating portion (11) by the urging force, and the thread (20) is The accommodation posture is stable.

又、この実施の形態のガス栓に採用されるドライブシャフト(31)の外周面には、上下2本の環状外溝(36)が周方向に沿って形成されてあり、これを筒部(12)内に収容することにより、環状外溝(36)と筒部(12)の内周面との間に、環状空間部(S)を形成している。この環状空間部(S)内に、防水用グリス(51)が充填される。   Further, on the outer peripheral surface of the drive shaft (31) employed in the gas plug of this embodiment, two upper and lower annular outer grooves (36) are formed along the circumferential direction, and this is formed into a cylindrical portion ( By being accommodated in 12), an annular space portion (S) is formed between the annular outer groove (36) and the inner peripheral surface of the cylindrical portion (12). This annular space (S) is filled with waterproof grease (51).

ガス栓の組立てに際しては、ガス栓本体(10)のせん収容部(11)にせん(20)を収容し、せん(20)とせん収容部(11)との摺動部(22)の上端部から段部(15)にかけて、潤滑・シール用のグリス(50)を塗布する。すなわち、摺動部(22)の上端部から段部(15)に至る範囲が、グリス溜め部として機能する。   When assembling the gas stopper, the thread (20) is accommodated in the thread accommodating part (11) of the gas stopper body (10), and the upper end of the sliding part (22) between the thread (20) and the thread accommodating part (11). Apply grease (50) for lubrication and sealing from the part to the step part (15). That is, the range from the upper end portion of the sliding portion (22) to the step portion (15) functions as a grease reservoir portion.

他方、ドライブシャフト(31)の環状外溝(36)には、防水用グリス(51)を充填させておく。
そして、環状溝部(25)内にコイルバネ(4)を配設した後、コイルバネ(4)の上端部を、ドライブシャフト(31)の下面の環状溝部(33)に対応させ、せん(20)の操作軸部(24)をドライブシャフト(31)の矩形孔部(32)に嵌合させながら、ドライブシャフト(31)を筒部(12)内に収容する。
On the other hand, the annular outer groove (36) of the drive shaft (31) is filled with waterproof grease (51).
After arranging the coil spring (4) in the annular groove (25), the upper end of the coil spring (4) is made to correspond to the annular groove (33) on the lower surface of the drive shaft (31), The drive shaft (31) is accommodated in the cylindrical portion (12) while the operation shaft portion (24) is fitted into the rectangular hole portion (32) of the drive shaft (31).

これにより、ドライブシャフト(31)の環状外溝(36)と筒部(12)の内周面(16)との間に形成される環状空間部(S)には、防水用グリス(51)が充填される態様となる。よって、ガス栓本体(10)内における環状空間部(S)より下方域は、防水用グリス(51)によって気密状態に閉塞されることとなる。   Thus, in the annular space portion (S) formed between the annular outer groove (36) of the drive shaft (31) and the inner peripheral surface (16) of the cylindrical portion (12), waterproof grease (51) Is filled. Therefore, the region below the annular space (S) in the gas plug main body (10) is closed in an airtight state by the waterproof grease (51).

次に、コイルバネ(4)の付勢力に抗して、ドライブシャフト(31)を下方に押えながら、角軸部(3)を持って回動させ、筒部(12)の透孔(2a)(2b)に、ドライブシャフト(31)の横孔部(40)を対応させ、一方の透孔(2a)から、スプリングピン(1)を差し込み、ドライブシャフト(31)の横孔部(40)を通過させて、他方の透孔(2b)に挿通させる。   Next, against the urging force of the coil spring (4), while holding the drive shaft (31) downward, rotate it with the square shaft part (3), and through the hole (2a) in the cylinder part (12) (2b) corresponds to the horizontal hole (40) of the drive shaft (31), and from one through hole (2a), the spring pin (1) is inserted, and the horizontal hole (40) of the drive shaft (31) is inserted. And is inserted through the other through hole (2b).

これにより、ドライブシャフト(31)は、ガス栓本体(10)に対して抜止め状態となる。
この状態において、筒部(12)の対向壁に貫通させたスプリングピン(1)に対して、ドライブシャフト(31)は、90度の範囲内で回動可能となる。
As a result, the drive shaft (31) is prevented from being detached from the gas plug main body (10).
In this state, the drive shaft (31) can be rotated within a range of 90 degrees with respect to the spring pin (1) passed through the opposing wall of the cylindrical portion (12).

そして、ドライブシャフト(31)の上面の角軸部(3)を操作つまみ(30)の矩形凹部(38)に嵌合するように操作つまみ(30)を被せた後、操作つまみ(30)の中央にねじ(34)を挿通させ、ドライブシャフト(31)の雌ねじ(3a)に螺合させる。これで、ガス栓の組み立てが完了する。   Then, after covering the operation knob (30) so that the angular shaft portion (3) on the upper surface of the drive shaft (31) is fitted into the rectangular recess (38) of the operation knob (30), the operation knob (30) The screw (34) is inserted through the center and screwed into the female screw (3a) of the drive shaft (31). This completes the assembly of the gas stopper.

筒部(12)の外周面は、操作つまみ(30)の周壁によって被覆されているが、密閉されているわけではないので、操作つまみ(30)と筒部(12)との隙間から、透孔(2a)(2b)とスプリングピン(1)との隙間を経て、水滴や洗剤等がガス栓本体(10)内に浸入することがある。   The outer peripheral surface of the cylindrical portion (12) is covered by the peripheral wall of the operation knob (30), but is not sealed, so that the transparent portion is not sealed from the clearance between the operation knob (30) and the cylindrical portion (12). Water droplets, detergent, and the like may enter the gas plug body (10) through the gap between the holes (2a) (2b) and the spring pin (1).

これら水滴や洗剤等の浸入部分よりも下方には、防水用グリス(51)が充填された環状空間部(S)が設けられており、それより下方の気密性を確保しているから、環状空間部(S)よりも下方の、せん(20)とせん収容部(11)との摺動部(22)を含むガス栓本体(10)の内部に、水滴や洗剤等が浸入することはない。よって、摺動部(22)の防水・防錆が確実となる。   An annular space (S) filled with waterproofing grease (51) is provided below the intrusion part of these water droplets and detergent, etc. Water drops, detergents, etc. may enter the interior of the gas stopper body (10) including the sliding part (22) between the thread (20) and the thread housing part (11) below the space part (S). Absent. Therefore, waterproofing / rust prevention of the sliding part (22) is ensured.

又、防水用グリス(51)は環状外溝(36)内に充填されている構成であるから、環状空間部(S)内に留まり、他所へ流出することはない。
尚、摺動部(22)の上端部から段部(15)にかけて、潤滑・シール用のグリス(50)が塗布されているから、せん(20)の回動操作の潤滑性及び摺動部(22)におけるシール性が確保される。
Further, since the waterproof grease (51) is filled in the annular outer groove (36), it remains in the annular space (S) and does not flow out to other places.
Since lubrication / seal grease (50) is applied from the upper end of the sliding part (22) to the step part (15), the lubrication and sliding part of the turning operation of the screw (20) The sealing property in (22) is ensured.

図3に示すものは、本発明の第2番目の実施の形態のガス栓の要部拡大断面図である。
このものでは、筒部(12)の内周面(16)に、上下2本の環状内溝(17)を周方向に沿って形成したもので、これに防水用グリス(51)を充填した後、ドライブシャフト(31)を筒部(12)内に収容することで、ドライブシャフト(31)の外周面(37)と環状内溝(17)とで囲まれる範囲に、防水用グリス(51)が充填された環状空間部(S)を構成することができる。
What is shown in FIG. 3 is an enlarged cross-sectional view of the main part of the gas stopper according to the second embodiment of the present invention.
In this case, two annular inner grooves (17) are formed along the circumferential direction on the inner peripheral surface (16) of the cylindrical portion (12), and this is filled with waterproof grease (51). After that, by accommodating the drive shaft (31) in the cylindrical portion (12), the waterproof grease (51) is within the range surrounded by the outer peripheral surface (37) of the drive shaft (31) and the annular inner groove (17). ) Filled with an annular space (S).

この実施の形態のものも、上述した第1番目の実施の形態のものと同様に、スプリングピン(1)が貫通する透孔(2a)(2b)から水滴や洗剤等が浸入しても、その下方に防水用グリス(51)が充填された環状空間部(S)が設けられていることから、摺動部(22)を含むガス栓本体(10)の内部に水滴や洗剤等が浸入することはない。
尚、図4に示す第3番目の実施の形態のように、ドライブシャフト(31)の外周面(37)に環状外溝(36)を設けると共に、それに対応するガス栓本体(10)の筒部(12)の内周面(16)に環状内溝(17)を設け、環状外溝(36)と環状内溝(17)とで囲まれる範囲を環状空間部(S)とし、防水用グリス(51)を充填しても良い。
Similarly to the first embodiment described above, even in this embodiment, even if water drops, detergents, etc. enter from the through holes (2a) (2b) through which the spring pin (1) passes, Since an annular space (S) filled with waterproof grease (51) is provided below it, water drops, detergent, etc. enter the inside of the gas plug body (10) including the sliding part (22). Never do.
Incidentally, as in the third embodiment shown in FIG. 4, an annular outer groove (36) is provided on the outer peripheral surface (37) of the drive shaft (31), and the corresponding cylinder of the gas plug body (10) is provided. An annular inner groove (17) is provided on the inner peripheral surface (16) of the portion (12), and the area surrounded by the annular outer groove (36) and the annular inner groove (17) is defined as an annular space portion (S). Grease (51) may be filled.

さらに、図5に示す第4番目の実施の形態のものは、ドライブシャフト(31)の外周面(37)に下向きの段部(39)を設けると共に、それに対応する筒部(12)の内周面(16)に上向きの段部(18)を設け、下向きの段部(39)と上向きの段部(18)とで囲まれる範囲を環状空間部(S)として、防水用グリス(51)を充填させる構成としている。尚、下向き段部(39)を筒部(12)に、上向き段部(18)をドライブシャフト(31)の外周面(37)に設ける構成としても良い。   Further, in the fourth embodiment shown in FIG. 5, a downward stepped portion (39) is provided on the outer peripheral surface (37) of the drive shaft (31), and the inside of the corresponding cylindrical portion (12) is provided. An upper step (18) is provided on the peripheral surface (16), and the area surrounded by the lower step (39) and the upper step (18) is defined as an annular space portion (S). ). The downward step portion (39) may be provided on the cylindrical portion (12), and the upward step portion (18) may be provided on the outer peripheral surface (37) of the drive shaft (31).

又、図6に示す第5番目の実施の形態のものは、筒部(12)の透孔(2a)(2b)より下方におけるドライブシャフト(31)の外周面(37)とガス栓本体(10)の筒部(12)の内周面(16)との間に、上下2つの環状空間部(S1)(S2)を設ける構成としたもので、下方の環状空間部(S2)に防水用グリス(51)を充填させると共に、上方の環状空間部(S1)に、防水用グリス(51)を吸収させた多孔質パッキン(5)を収容させている。   Further, in the fifth embodiment shown in FIG. 6, the outer peripheral surface (37) of the drive shaft (31) below the through hole (2a) (2b) of the cylindrical portion (12) and the gas plug body ( 10) The upper and lower annular spaces (S1) (S2) are provided between the inner peripheral surface (16) of the cylindrical portion (12), and the lower annular space (S2) is waterproof. The porous grease (51) in which the waterproof grease (51) is absorbed is accommodated in the upper annular space (S1) while being filled with the grease (51).

防水用グリス(51)を充填させる環状空間部(S1)(S2)を上下二段に設けることにより、ガス栓本体(10)におけるスプリングピン(1)の取り付け部より下方の気密性を一層確実に維持することができる。   By providing the annular space (S1) (S2), which is filled with waterproof grease (51), in two upper and lower stages, the airtightness below the mounting part of the spring pin (1) in the gas plug body (10) is further ensured. Can be maintained.

本願発明の第1番目の実施の形態におけるガス栓の組立て完成状態での断面図。Sectional drawing in the assembly completion state of the gas stopper in 1st embodiment of this invention. 図1の要部拡大断面図。The principal part expanded sectional view of FIG. 本願発明の第2番目の実施の形態におけるガス栓の要部拡大断面図。The principal part expanded sectional view of the gas stopper in 2nd Embodiment of this invention. 本願発明の第3番目の実施の形態におけるガス栓の要部拡大断面図。The principal part expanded sectional view of the gas stopper in 3rd Embodiment of this invention. 本願発明の第4番目の実施の形態におけるガス栓の要部拡大断面図。The principal part expanded sectional view of the gas stopper in 4th Embodiment of this invention. 本願発明の第5番目の実施の形態におけるガス栓の要部拡大断面図。The principal part expanded sectional view of the gas stopper in 5th Embodiment of this invention. 従来例のガス栓の分解斜視図。The disassembled perspective view of the gas stopper of a prior art example. 従来例のガス栓に採用されたドライブシャフトの縦断面図。The longitudinal cross-sectional view of the drive shaft employ | adopted as the gas stopper of the prior art example. 図8のX−X断面図。XX sectional drawing of FIG.

符号の説明Explanation of symbols

(1) ・・・・・・・スプリングピン
(10)・・・・・・・ガス栓本体
(11)・・・・・・・せん収容部
(12)・・・・・・・筒部
(2a)(2b)・・・・・透孔
(20)・・・・・・・せん
(30)・・・・・・・操作つまみ
(31)・・・・・・・ドライブシャフト
(40)・・・・・・・横孔部
(S) ・・・・・・・環状空間部
(51)・・・・・・・防水用グリス
(1) ・ ・ ・ ・ ・ ・ ・ Spring pin
(10) ... Gas plug body
(11) ....
(12) ... ・ Cylinder
(2a) (2b) ... Through hole
(20) ...
(30) ... Operation knob
(31) ... Drive shaft
(40) ... Horizontal hole
(S) ...
(51) ・ ・ ・ ・ ・ ・ ・ Waterproof grease

Claims (6)

ガス栓本体の一方に開放し且つガス流路に連通するせん収容部内に、前記ガス流路を開閉するせんが摺動部を介して回動自在に収容されており、前記せん収容部の開放端に連続する筒部に前記せんを回動操作する操作つまみが回動自在に外嵌する構成のガス栓であって、
前記せん及び前記操作つまみに対してそれぞれ相対回動阻止状態に連結されるドライブシャフトが前記筒部内に収容され、
前記筒部の直径線上の両端には、前記ドライブシャフトに形成されている横孔部を介して、スプリングピンが貫通する一対の透孔が形成され、
前記横孔部の周方向の各面とこれに当接する前記スプリングピンとで、前記せんの回動角度を規制する回動規制部が構成されているガス栓において、
前記筒部の前記透孔よりも下方における前記筒部の内周面と前記ドライブシャフトの外周面との間に、両者間の隙間よりも幅広の環状空間部を設け、
前記環状空間部に防水用グリスを充填させたことを特徴とするガス栓。
A thread that opens and closes the gas flow path is rotatably accommodated through a sliding part in a thread accommodating part that opens to one side of the gas stopper body and communicates with the gas flow path. A gas stopper having a configuration in which an operation knob for rotating the thread is rotatably fitted to a cylindrical portion continuous with an end,
Drive shafts connected in a state of preventing relative rotation with respect to the screw and the operation knob are accommodated in the cylindrical portion,
At both ends on the diameter line of the cylindrical portion, a pair of through-holes through which a spring pin passes are formed through a lateral hole portion formed in the drive shaft,
In the gas stopper in which a rotation restricting portion for restricting a rotation angle of the thread is constituted by each circumferential surface of the lateral hole portion and the spring pin in contact therewith,
Between the inner peripheral surface of the cylindrical part below the through hole of the cylindrical part and the outer peripheral surface of the drive shaft, an annular space part wider than the gap between the two is provided,
A gas stopper, wherein the annular space is filled with waterproof grease.
請求項1に記載のガス栓において、前記環状空間部は、前記ドライブシャフトの外周面に周方向に沿って形成される環状外溝と、前記筒部の内周面とで囲まれる空間であることを特徴とするガス栓。   2. The gas stopper according to claim 1, wherein the annular space portion is a space surrounded by an annular outer groove formed along an outer circumferential surface of the drive shaft along a circumferential direction and an inner circumferential surface of the cylindrical portion. A gas stopper characterized by that. 請求項1に記載のガス栓において、前記環状空間部は、前記筒部の内周面に周方向に沿って形成される環状内溝と、前記ドライブシャフトの外周面とで囲まれる空間であることを特徴とするガス栓。   2. The gas stopper according to claim 1, wherein the annular space portion is a space surrounded by an annular inner groove formed along an inner circumferential surface of the cylindrical portion along a circumferential direction and an outer circumferential surface of the drive shaft. A gas stopper characterized by that. 請求項1に記載のガス栓において、前記環状空間部は、前記ドライブシャフトの外周面に周方向に沿って形成される環状外溝と、前記環状外溝に対向する前記筒部の内周面の所定箇所に周方向に沿って形成される環状内溝とで囲まれる空間であることを特徴とするガス栓。   2. The gas stopper according to claim 1, wherein the annular space portion includes an annular outer groove formed along an outer circumferential surface of the drive shaft along a circumferential direction, and an inner circumferential surface of the cylindrical portion facing the annular outer groove. A gas stopper characterized in that the gas stopper is a space surrounded by an annular inner groove formed along a circumferential direction at a predetermined location. 請求項1に記載のガス栓において、前記ドライブシャフトの外周面又は前記筒部の内周面のどちらか一方には周方向に沿って下向き段部を形成し、他方には周方向に沿って上向き段部を形成し、前記環状空間部は、前記下向き段部と前記上向き段部との間に形成されることを特徴とするガス栓。   2. The gas stopper according to claim 1, wherein a downward stepped portion is formed along a circumferential direction on either the outer peripheral surface of the drive shaft or the inner peripheral surface of the cylindrical portion, and the other is along the circumferential direction. An upward step portion is formed, and the annular space portion is formed between the downward step portion and the upward step portion. 請求項1から5のいずれかに記載のガス栓において、前記せん収容部の上端の段部と前記ドライブシャフトの下面との間に下空間部が形成され、前記下空間部に、前記摺動部の潤滑・シール用のグリスが充填されていることを特徴とするガス栓。   6. The gas stopper according to claim 1, wherein a lower space portion is formed between a step portion at an upper end of the thread housing portion and a lower surface of the drive shaft, and the sliding portion is formed in the lower space portion. Gas stopper characterized by being filled with grease for lubricating and sealing the part.
JP2006218522A 2006-08-10 2006-08-10 Gas stopper Expired - Fee Related JP4249767B2 (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2019157940A (en) * 2018-03-09 2019-09-19 株式会社藤井合金製作所 Gas cock

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2019157940A (en) * 2018-03-09 2019-09-19 株式会社藤井合金製作所 Gas cock

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