JP2020051559A - Plug cover mounting structure - Google Patents

Abstract

To regulate displacement to an axial direction and rotation of a plug cover mounted in a gas plug.SOLUTION: A plug cover mounting structure 1 has a gas plug 10, and a plug cover 40 mounted to the gas plug 10. The gas plug 10 has a gas pipe part 14, a flange part 16, a connection part 18, and a rib 20. The rib 20 protrudes from an outer circumferential surface of the gas pipe part 14 to the outside in a radial direction and extends along an axial direction of the gas pipe part 14, and has one end connected to the flange part 16. The plug cover 40 has a mounting part 50 comprising a regulated part 60 where the displacement of the gas pipe part 14 in an axial direction is regulated at the mounting state, and a fitting hole part 64 where an outer edge 28 of the flange part 16 is fitted at the mounting state and a cross section of the plane direction being perpendicular to the hole direction of oneself is non-circular.SELECTED DRAWING: Figure 10

Description

  The present invention relates to a plug cover mounting structure.

  Conventionally, a gas combustion device is provided with a gas plug for mounting a gas cord connected from a gas outlet, and a dedicated joint provided at a distal end portion of the gas cord is mounted on the gas plug. It has become possible. In this type of configuration, a gas path leading to the inside of the gas combustion device is formed on the gas plug side, and a gas path continuing from the gas cord is formed on the joint side, and a joint is connected to the gas plug. The gas path on the gas plug side communicates with the gas path on the joint side, so that gas is supplied from the gas cord side into the gas combustion device (see Patent Document 1).

  Further, the above-described joint is provided with a seal portion. When this joint is mounted on the gas plug, the gas plug and the joint are joined in a sealed state, thereby preventing gas leakage. On the other hand, when a gas hose without a joint is extrapolated to a gas plug, gas can be supplied from the gas hose into the gas fuel device, but the gas hose and gas plug cannot be sealed well. Leakage may occur. Therefore, in order to prevent a gas hose without a joint from being directly connected, Patent Literature 1 proposes a plug cover to be attached to a gas plug.

  In this plug cover, a mounting portion to be mounted on the gas plug is formed at a base end portion, and an opening serving as an insertion port of a joint is formed at a distal end portion on the opposite side, and by inserting a joint from the insertion port. The plug cover is detached from the gas plug, but the plug cover is not detached even if a gas hose without a joint is inserted. Therefore, according to this plug cover, it is possible to prevent a gas hose without a joint from being directly connected to the gas plug.

JP 2014-118991 A

  By the way, in Patent Literature 1, an annular groove (lock groove 42) that makes a full circumference in the circumferential direction is formed on the outer peripheral surface of the gas plug. The plug cover is formed in a cylindrical shape by connecting a pair of semi-cylindrical members to each other. Inside the plug cover, a fitting portion (arc-shaped fitting) fitted into the groove of the gas plug is provided. A joining portion 71) is formed. The plug cover is attached by fitting the fitting portion into the groove of the gas plug, and movement in the axial direction with respect to the gas plug is regulated. However, this configuration has a problem that it is difficult to restrict rotation of the plug cover attached to the gas plug in the circumferential direction of the gas plug.

  The present invention has been made to solve at least one of the above-described problems, and has as its object to restrict axial displacement and rotation of a plug cover attached to a gas plug.

  A plug cover mounting structure according to one aspect of the present invention is a plug cover mounting structure including a gas plug and a plug cover attached to the gas plug, wherein the gas plug extends in an axial shape and is internally provided. A gas pipe portion in which a gas path is formed, a flange portion having a configuration projecting radially outward of the gas pipe portion at an end of the gas pipe portion, and a gas pipe portion side of the flange portion opposite to the gas pipe portion A gas inlet protruding from the first surface of the gas cord and communicating with the gas path is formed at the front end thereof, and a plug provided at the front end of the gas cord with the plug cover removed from the gas plug. A connecting portion to be connected, which projects radially outward from an outer peripheral surface of the gas pipe portion and extends along an axial direction of the gas pipe portion, and has one end opposite to the first surface of the flange portion; of A rib connected to two surfaces, wherein the plug cover is in an axial direction of at least the gas pipe portion by contact with the gas plug when the plug cover is mounted on the gas plug. A restricted portion whose displacement is regulated, and a fitting hole in which the outer edge of the flange is fitted in the mounting state and the cross section in a plane direction orthogonal to the hole direction of the fitting is non-circular. A mounting part provided with the cylindrical part connected to the mounting part in the mounted state and having one end in the axial direction serving as an insertion port of the joint;

In the plug cover mounting structure, when the plug cover is mounted on the gas plug, displacement of the plug cover in the axial direction of the gas pipe portion is restricted. Furthermore, since the outer edge of the flange provided at the end of the gas pipe fits into the non-circular fitting hole in the mounted state, the plug cover will rotate in the circumferential direction of the gas pipe. Also, the inner peripheral surface of the fitting hole contacts the outer edge of the flange to restrict the rotation. That is, the plug cover mounting structure can restrict the axial displacement and rotation of the plug cover mounted on the gas plug.
Further, when restricting the rotation of the plug cover, the flange portion may be deformed by being pushed by the plug cover. In view of the above, the plug cover mounting structure of the present invention provides a rib that projects radially outward from the outer peripheral surface of the gas pipe portion, extends along the axial direction of the gas pipe portion, and has one end connected to the second surface of the flange portion. have. For this reason, the flange portion is reinforced and hardly deformed.

The mounting portion opposes a pair of first wall portions facing in a direction along a predetermined first direction orthogonal to the hole direction, and faces in a direction along a predetermined second direction orthogonal to the hole direction and the first direction. And a pair of second wall portions. The inner peripheral surface of the fitting hole may be configured by the inner walls of the pair of first walls and the pair of second walls. The outer edge of the flange may have four opposing portions. The respective end surfaces of the four opposing portions may be arranged to face the respective inner wall surfaces of the pair of first wall portions and the pair of second wall portions in the mounted state. Each of the four ribs may be respectively connected to the second surface of the flange portion. Each of the connection portions connected to the second surface at the four ribs may extend radially outward toward each of the four opposing portions.
According to this configuration, the rotation of the plug cover is restricted by the four opposing portions of the flange portion, so that the force applied to the flange portion when restricting the rotation can be distributed to the four opposing portions. Furthermore, since each of the four opposing portions is individually reinforced by a separate rib, each opposing portion is hardly deformed, and the entire flange portion is harder to deform.

At least one of the connection portions of the four ribs may have a radially outer end reaching the end face of the facing portion.
According to this configuration, the opposing portion in which the connecting portion of the rib reaches the end face is reinforced more strongly. Therefore, the reinforcement of the flange portion by the rib can be further strengthened.

The plug cover may have a projecting portion projecting from the inner peripheral surface of the fitting hole toward the outer peripheral surface of the gas pipe portion in the mounted state. In the mounted state, the flange portion may be arranged closer to the insertion opening than the overhang portion, and at least a part of the flange portion may contact the overhang portion.
According to this configuration, in the plug cover, in the mounted state, the overhanging portion comes into contact with the flange portion, so that rattling is suppressed.

  According to the plug cover mounting structure as one aspect of the present invention, the axial displacement and rotation of the plug cover mounted on the gas plug can be restricted.

FIG. 1 is a perspective view schematically showing a plug cover mounting structure according to a first embodiment in which a plug cover is mounted on a gas plug of a gas combustion device. FIG. 2 is an enlarged view of the plug cover mounting structure shown in FIG. FIG. 3 is a plan view of the plug cover mounting structure shown in FIG. FIG. 4 is a bottom view of the plug cover mounting structure shown in FIG. FIG. 5 is a side view of the plug cover mounting structure shown in FIG. FIG. 6 is an explanatory diagram showing a state where the plug cover mounting structure shown in FIG. 1 is viewed from the front end side. FIG. 7 is an explanatory view showing a state in which the plug cover mounting structure of the first embodiment is cut at a gas pipe part in a plane direction orthogonal to an axial direction of the gas pipe part and viewed from a base end side. FIG. 8 is an explanatory diagram showing a configuration excluding the second overhang portion in the plug cover mounting structure shown in FIG. 2. FIG. 9 is an explanatory diagram showing a configuration in which a plug cover is removed from the plug cover mounting structure shown in FIG. FIG. 10 is a cross-sectional view schematically showing a cut surface cut along the line XX in FIG. FIG. 11 is a perspective view schematically illustrating a plug cover mounting structure according to the second embodiment. FIG. 12 is an explanatory diagram showing a state where the plug cover mounting structure of the second embodiment is cut at a gas pipe part in a plane direction orthogonal to an axial direction of the gas pipe part and is viewed from a base end side.

<Example 1>
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows a plug cover mounting structure 1 of a first embodiment in which a plug cover 40 is mounted on a gas plug 10 of a gas combustion device 90. The gas combustion device 90 is, for example, a gas device such as a gas stove, a gas fan heater, and a gas rice cooker, and various gas appliances provided with a gas plug are applicable. The gas combustion device 90 has a main body 92 and the gas plug 10 connected to the main body 92.

  The plug cover mounting structure 1 has a structure for preventing other members from being mounted on the gas plug 10. The plug cover mounting structure 1 includes the above-described gas plug 10 and plug cover 40, as shown in FIGS. The gas plug 10 has a gas path formed inside, and a portion on one end side is connected to the main body 92 of the gas combustion device 90. The other end of the gas plug 10 can be connected to a joint 96 (see FIG. 10) provided at the gas cord distal end portion 94. When the joint 96 is connected to the gas plug 10, the gas cord 10 And the gas path on the side of the gas plug 10 (gas combustion device 90) communicates. In the description below, the main body 92 side of the plug cover mounting structure 1 is referred to as a base end side, and the opposite side is referred to as a front end side.

  As shown in FIG. 9, the gas plug 10 has a base 12, a gas pipe 14, a flange 16, a connection 18, and a rib 20. The base portion 12 is a portion connected to the above-described main body portion 92, and has a gas path formed therein. The gas pipe 14 has a base end connected to the base 12 and extends axially from the base 12 in the horizontal direction. The gas pipe section 14 has a gas path formed therein, and this gas path communicates with the gas path on the base 12 side.

  The flange portion 16 is a portion that fits into a fitting hole portion 64 (see FIG. 10) of the plug cover 40 described later, and has a configuration in which the distal end portion of the gas pipe portion 14 projects radially outward of the gas pipe portion 14. No. The flange portion 16 projects over the entire circumference of the gas pipe portion 14 and has a plate shape having a thickness in the axial direction of the gas pipe portion 14. The outer shape of the flange portion 16 as viewed from the axial direction of the gas pipe portion 14 is non-circular.

  The connecting portion 18 is a portion that is connected to a joint 96 provided at the gas cord distal end portion 94 with the plug cover 40 removed from the gas plug 10. The connection portion 18 protrudes from the first surface 16 </ b> A of the flange portion 16 on the opposite side (tip side) from the gas pipe portion 14 side. A gas inlet 18 </ b> A communicating with the gas path of the gas pipe 14 is formed on the distal end side of the connecting portion 18.

  The rib 20 protrudes radially outward of the gas pipe 14 from the outer peripheral surface of the gas pipe 14. The rib 20 extends along the axial direction of the gas pipe portion 14, and has one end (a distal end) connected to a second surface 16 </ b> B of the flange portion 16 on a side opposite to the first surface 16 </ b> A (a base end side). The other end (base end) is connected to the base 12.

  The plug cover 40 is a member attached to the gas plug 10 and is made of, for example, a known resin material. The plug cover 40 includes a main body member 42 and a covering member 44 as shown in FIG.

  The main body member 42 has a configuration in which a pair of semi-cylindrical members 46, 46 are connected in a tubular shape. Each of the pair of semi-cylindrical members 46, 46 has an engaging portion 47 at one end in the circumferential direction, and a swingable engaging piece 48 at the other end in the circumferential direction. The pair of semi-cylindrical members 46, 46 has an engaging piece 48 of one semi-cylindrical member 46 engaged with an engaging portion 47 of the other semi-cylindrical member 46, and an engagement of the other semi-cylindrical member 46. When the mating piece 48 is engaged with the engaging portion 47 of the one half-cylindrical member 46, a cylindrical connection state is obtained in which the two pieces are connected in a cylindrical shape.

  The main body member 42 includes a mounting portion 50, a tubular portion 52, and a bottom portion 54. Each of the pair of semi-cylindrical members 46 is configured such that the mounting portion 50, the cylindrical portion 52, and the bottom portion 54 are separated along the axial direction.

  The mounting part 50 is a part mounted on the gas plug 10. Inside the mounting portion 50, an accommodation space opened on the base end side (the side opposite to the cylindrical portion 52) is formed. The connection portion 18 of the gas plug 10 is accommodated in this accommodation space when the plug cover 40 is attached to the gas plug 10.

  The tubular portion 52 is a portion configured in a cylindrical shape in the mounted state, and is a portion connected to the mounting portion 50. The tubular portion 52 is provided at a position on the distal end side with respect to the accommodation space formed inside the mounting portion 50, and an insertion port 56 is formed at the distal end portion. An insertion space communicating with the insertion port 56 is formed inside the cylindrical portion 52. When the joint 96 is inserted into the insertion space through the insertion opening 56, the cylindrical connection state of the plug cover 40 is released.

  The bottom portion 54 is a portion disposed between the insertion port 56 and the connection portion 18 in a state of covering the connection portion 18 in the mounted state. The bottom portion 54 has a configuration projecting inward from both sides of the inner peripheral surface of the mounting portion 50 or the inner peripheral surface of the cylindrical portion 52, and has a pair of arc-shaped portions 54 A, 54A are formed. The above-described covering member 44 is held by the main body member 42 by being sandwiched between the pair of arc-shaped portions 54A, 54A when the pair of semi-cylindrical members 46, 46 are connected in a tubular shape. The covering member 44 functions to cover the tip of the gas plug 10 in the mounted state.

  The cylindrical connection state of the plug cover 40 is released as follows. The engaging pieces 48 provided on each of the semi-cylindrical members 46, 46 are arranged along the axial direction of the cylindrical portion 52 in the cylindrically connected state, and are directed toward the inside of the cylindrical portion 52. Protruding connection release portions 49 are formed respectively. The protruding end surface of each connection release portion 49 is formed as an inclined surface that approaches the axis of the cylindrical portion 52 as it approaches the bottom portion 54 side from the insertion opening 56 side. When the joint 96 is inserted into the tubular portion 52 from the insertion port 56, the connection releasing portion 49 is pushed by the joint 96, and the engaging piece 48 swings outside the tubular portion 52. As a result, the engagement piece 48 is disengaged from the engagement portion 47, and the tubular connection state is released.

Subsequently, a detailed configuration of the plug cover mounting structure 1 described above will be described.
As shown in FIG. 10, the mounting portion 50 of the plug cover 40 has a cylindrical portion 58, a restricted portion 60, a first overhang 62, a fitting hole 64, and a second overhang 66. The cylindrical portion 58 is a portion that forms an outer shell of the mounting portion 50, and has a cylindrical shape coaxial with the cylindrical portion 52. The distal end of the tubular portion 58 is connected to the proximal end of the tubular portion 52.

  The regulated portion 60 is disposed at a position closer to the base end than the bottom portion 54. The regulated portion 60 has a configuration projecting inward from both sides of the inner peripheral surface of the cylindrical portion 58, and a pair of arc-shaped portions 60A, 60A facing each other are formed at its ends. A groove 22 is formed in the circumferential direction on the outer peripheral surface of the connecting portion 18 of the gas plug 10 described above. When the pair of semi-cylindrical members 46, 46 are connected so that the pair of arc-shaped portions 60A, 60A sandwich the groove 22 from both sides, the pair of arc-shaped portions 60A, 60A enter the groove 22. Therefore, in the mounted state, the displacement of the restricted portion 60 in the axial direction of the gas pipe portion 14 is restricted by the inner surface of the groove portion 22. That is, when the plug cover 40 is in the mounted state, the displacement of the gas pipe portion 14 in the axial direction is restricted by the contact with the gas plug 10.

  The first overhang portion 62 is provided at a position closer to the base end than the regulated portion 60 (between the second overhang portion 66 and the regulated portion 60). The first overhang portion 62 has a configuration in which the first overhang portion extends inward from both sides of the inner peripheral surface of the cylindrical portion 58, and a pair of arc-shaped portions 62A, 62A facing each other are formed at the ends thereof. I have.

  The connection part 18 of the gas plug 10 has a large diameter part 24 and a small diameter part 26. The large-diameter portion 24 has a larger outer diameter than the small-diameter portion 26 and is located closer to the base end than the small-diameter portion 26. The groove 22 described above is formed on the outer peripheral surface of the small diameter portion 26. In the mounted state, the small diameter portion 26 is disposed between the pair of arc portions 62A, 62A, and the large diameter portion 24 is more base than the pair of arc portions 62A, 62A (the first overhang portion 62). It is arranged on the end side. The large diameter portion 24 is formed in a size that cannot pass between the pair of arc-shaped portions 62A. For this reason, when the plug cover 40 is in the mounted state, the pair of arc-shaped portions 62A, 62A (the first overhang portion 62) comes into contact with the large-diameter portion 24, so that movement toward the proximal end side is restricted. .

  The fitting hole portion 64 is a portion into which the outer edge portion 28 of the flange portion 16 fits in the mounted state. The fitting hole portion 64 is formed inside the cylindrical portion 58 at a position closer to the base end than the restricted portion 60 and the first overhanging portion 62. The fitting hole 64 is open on the base end side. The fitting hole portion 64 has a non-circular cross section in a plane direction orthogonal to the hole direction of the fitting hole portion 64, and has the same shape as the outer edge portion 28 of the flange portion 16 as viewed from the axial direction of the gas pipe portion 14. When the plug cover 40 is attached, the outer edge 28 of the flange 16 comes into contact with the inner peripheral surface of the fitting hole 64, so that the rotation of the gas pipe 14 in the circumferential direction is restricted.

  Further, as shown in FIGS. 2 and 8, the mounting portion 50 includes a pair of first wall portions 68, 68 and a pair of second wall portions 70, 70. The pair of first wall portions 68, 68 are portions facing each other in a predetermined first direction (for example, the left-right direction) orthogonal to the hole direction of the fitting hole portion 64. The pair of second wall portions 70, 70 are portions facing each other in a predetermined second direction (for example, the vertical direction) orthogonal to the hole direction of the fitting hole portion 64 and the first direction. The inner peripheral surface of the fitting hole 64 is constituted by the inner wall surfaces of the pair of first wall portions 68, 68 and the pair of second wall portions 70, 70.

  As shown in FIG. 9, the outer edge portion 28 of the flange portion 16 has four opposed portions 30 (a first opposed portion 30A, a second opposed portion 30B, a third opposed portion 30C, and a fourth opposed portion 30D). I have. As shown in FIGS. 8 and 10, each of the end faces 32 (the first end face 32A, the second end face 32B, the third end face 32C, and the fourth end face 32D) of the four opposing portions 30 are in a pair when in the mounted state. The first wall portions 68, 68 and the inner wall surfaces of the pair of second wall portions 70, 70 are arranged to face each other. For this reason, when the flange portion 16 of the gas plug 10 restricts the rotation of the plug cover 40, the force exerted on the flange portion 16 is distributed to the four opposing portions 30.

  The gas plug 10 has the four ribs 20 described above. Each of the four ribs 20 (the first rib 20A, the second rib 20B, the third rib 20C, and the fourth rib 20D) is connected to the second surface 16B of the flange portion 16, respectively. Each of the connecting portions 34 (the first connecting portion 34A, the second connecting portion 34B, the third connecting portion 34C, and the fourth connecting portion 34D) connected to the second surface 16B in the four ribs 20 is formed by the four opposing portions 30. Each of them extends radially outward of the gas pipe portion 14. For this reason, each of the four opposing portions 30 is individually reinforced by the ribs 20.

  Further, in the first connecting portion 34A among the connecting portions 34 of the four ribs 20, the radially outer end of the gas pipe portion 14 reaches the first end surface 32A of the first facing portion 30A.

  The second projecting portion 66 has a shape projecting from the inner peripheral surface of the fitting hole portion 64 toward the outer peripheral surface of the gas pipe portion 14 in the mounted state. The flange portion 16 is arranged at a position closer to the insertion opening 56 than the second overhang portion 66 in the mounted state, and at least a part of itself comes into contact with the second overhang portion 66. For this reason, the movement of the plug cover 40 toward the distal end side is restricted by the flange portion 16 of the gas plug 10. Note that the second overhang portion 66 corresponds to an example of the overhang portion.

Next, main effects of the present configuration will be exemplified.
In the plug cover mounting structure 1, when the plug cover 40 is mounted on the gas plug 10, the displacement of the plug cover 40 in the axial direction of the gas pipe portion 14 is restricted. Furthermore, in the mounted state, the outer edge 28 of the flange portion 16 provided at the end of the gas pipe portion 14 fits into the non-circular fitting hole 64, so that the plug cover 40 is , The inner peripheral surface of the fitting hole 64 contacts the outer edge 28 of the flange 16 to restrict the rotation. That is, the plug cover mounting structure 1 can regulate the axial displacement and rotation of the plug cover 40 mounted on the gas plug 10.
When restricting the rotation of the plug cover 40, the flange portion 16 may be deformed by being pushed by the plug cover 40. Therefore, the plug cover mounting structure 1 of the present configuration protrudes radially outward from the outer peripheral surface of the gas pipe portion 14 and extends along the axial direction of the gas pipe portion 14, and has one end on the second surface 16 </ b> B of the flange portion 16. Has a rib 20 connected thereto. For this reason, the flange portion 16 is reinforced and hardly deformed.

  Further, the mounting portion 50 has a pair of first wall portions 68, 68 facing each other in a predetermined first direction orthogonal to the hole direction, and a pair of first wall portions 68, 68 in a predetermined second direction orthogonal to the hole direction and the first direction. And a pair of second wall portions 70, 70 facing each other along the direction. The inner peripheral surface of the fitting hole 64 is constituted by the inner walls of the pair of first walls 68, 68 and the pair of second walls 70, 70. The outer edge 28 of the flange 16 has four opposing portions 30. The end surfaces 32 of the four opposing portions 30 are arranged to face the respective inner wall surfaces of the pair of first wall portions 68, 68 and the pair of second wall portions 70, 70 in the mounted state. Each of the four ribs 20 is connected to the second surface 16B of the flange portion 16, respectively. Each connecting portion 34 connected to the second surface 16 </ b> B at the four ribs 20 extends radially outward toward each of the four opposing portions 30. Thus, the rotation of the plug cover 40 is restricted by the four opposing portions 30 of the flange portion 16, so that the force applied to the flange portion 16 when restricting the rotation can be distributed to the four opposing portions 30. Furthermore, since each of the four opposing portions 30 is individually reinforced by a separate rib 20, each opposing portion 30 is hardly deformed, and the entire flange portion 16 is harder to deform.

  Further, at least one of the connection portions 34 (the first connection portion 34A) of the four ribs 20 has a radially outer end portion having an end face 32 (first End face 32A). Therefore, the facing portion 30 where the connecting portion 34 of the rib 20 reaches the end face 32 is reinforced more strongly. Therefore, the reinforcement of the flange portion 16 by the rib 20 can be further strengthened.

  Further, the plug cover 40 has a second projecting portion 66 projecting from the inner peripheral surface of the fitting hole portion 64 toward the outer peripheral surface of the gas pipe portion 14 in the mounted state. In the mounted state, the flange portion 16 is disposed closer to the insertion opening 56 than the second overhang portion 66, and at least a part of the flange portion 16 is in contact with the second overhang portion 66. For this reason, in the plug cover 40, rattling is suppressed by the second overhanging portion 66 contacting the flange portion 16 in the mounted state.

<Example 2>
The plug cover mounting structure 201 according to the second embodiment has a configuration in which the second overhang portion 66 is excluded from the plug cover mounting structure 1 according to the first embodiment, and the other configurations are the same as the plug cover mounting structure 1 according to the first embodiment. Is the same. The same parts as those of the plug cover mounting structure 1 of the first embodiment are denoted by the same reference numerals, and the detailed description is omitted.

  11 and 12, the plug cover mounting structure 201 includes the gas plug 10 described in the first embodiment and the plug cover 240. The plug cover 240 has the main body member 242 and the covering member 44 described in the first embodiment. The main body member 242 has the mounting portion 250, and the cylindrical portion 52 and the bottom portion 54 described in the first embodiment. The main body member 242 has the cylindrical portion 258, the restricted portion 60, the first overhang portion 62, and the fitting hole portion 64 described in the first embodiment. The tubular portion 258 is different from the tubular portion 58 of the first embodiment in that the tubular portion 258 does not have a configuration corresponding to the overhang portion, and the other configuration is the same as the tubular portion 58. The proximal end surface of the cylindrical portion 258 (the main body member 242) is flush with the proximal end surface (the second surface 16B) of the flange portion 16 in the mounted state. When the mounting portion 250 (the main body member 242) is in the mounted state, the entire proximal end surface (second surface 16B) of the flange portion 16 is exposed to the proximal end side.

<Other embodiments>
The present invention is not limited to each aspect and modified example of the embodiment of the present specification, and can be realized by various configurations without departing from the gist thereof. For example, the technical features in the embodiments, examples, and modifications corresponding to the technical features in each of the forms described in the Summary of the Invention section are for solving some or all of the problems described above, or In order to achieve some or all of the above-described effects, replacement and combination can be appropriately performed. If the technical features are not described as essential in this specification, they can be deleted as appropriate. For example, the following examples are applicable.

  In each of the embodiments described above, the number of the ribs 20 is four, but may be three or less, or may be five or more. Further, in each of the above-described embodiments, the number of the ribs 20 in which the connecting portion 34 reaches the end surface 32 of the facing portion 30 is one, but may be two or more, or may be absent.

  In each of the above-described embodiments, the outer edge 28 of the flange 16 has a shape having four opposing portions 30. However, another shape may be used as long as the outer shape is non-circular.

1, 201: Plug cover mounting structure 10: Gas plug 14: Gas pipe 16: Flange 16A: First surface 16B: Second surface 18: Connection 18A: Gas inlet 20: Rib 28: Outer edge 30: Opposition Part 32 ... End face 34 ... Connecting part 40,240 ... Plug cover 50,250 ... Mounting part 52 ... Cylindrical part 56 ... Insertion port 60 ... Regulation part 66 ... Second projecting part (projecting part)
68 first wall portion 70 second wall portion 94 gas cord tip 96 joint

Claims (4)

A gas plug,
A plug cover attached to the gas plug,
A plug cover mounting structure having
The gas plug,
A gas pipe portion that extends axially and has a gas path formed therein;
A flange portion that has a configuration that protrudes radially outward of the gas pipe portion at an end of the gas pipe portion,
A gas inlet that protrudes from the first surface of the flange portion opposite to the gas pipe portion side and communicates with the gas path is formed at its front end side, and the plug cover is removed from the gas plug. A connection portion connected to a joint provided at the gas cord tip in a state,
The outer peripheral surface of the gas pipe portion protrudes outward in the radial direction and extends along the axial direction of the gas pipe portion, and one end is connected to a second surface of the flange portion opposite to the first surface. Ribs
Has,
The plug cover,
When the plug cover is attached to the gas plug, the at least one gas pipe portion is restricted from being displaced in the axial direction by contact with the gas plug when the attached portion is attached to the gas plug. A fitting hole having a fitting hole in which an outer edge of the flange is fitted and a cross section in a plane direction orthogonal to the hole direction of the flange is non-circular;
A cylindrical portion that forms a cylindrical shape connected to the mounting portion when in the mounted state and has one end in the axial direction of itself as an insertion port for the joint,
Plug cover mounting structure having: The mounting portion,
A pair of first wall portions facing each other in a direction along a predetermined first direction orthogonal to the hole direction;
A pair of second wall portions facing each other in a direction along a predetermined second direction orthogonal to the hole direction and the first direction;
With
An inner peripheral surface of the fitting hole is formed by inner walls of the pair of first walls and the pair of second walls,
The outer edge portion of the flange portion has four opposing portions,
The respective end faces of the four opposing portions are disposed to face the respective inner wall surfaces of the pair of first wall portions and the pair of second wall portions in the mounted state,
Each of the four ribs is respectively connected to the second surface of the flange portion,
2. The plug cover mounting structure according to claim 1, wherein each connection portion connected to the second surface in the four ribs extends radially outward toward each of the four opposing portions. 3. 3. The plug cover mounting structure according to claim 2, wherein at least one of the connection portions of the four ribs has the radially outer end reaching the end surface of the facing portion. 4. The plug cover has a projecting portion projecting from the inner peripheral surface of the fitting hole toward the outer peripheral surface side of the gas pipe portion in the mounted state,
The said flange part is arrange | positioned in the said insertion port side rather than the said overhang | projection part at the time of the said mounting state, At least one part of the said flange part contacts the said overhang | projection part, The one of any one of Claims 1-3. Plug cover mounting structure according to the paragraph.

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