JP6115099B2 - Sealing device - Google Patents

Description

  The present invention relates to a sealing device that prevents leakage of high-pressure gas.

  In the part where the injector is attached to the cylinder head of the engine, a sealing device is provided to prevent high-pressure combustion gas from leaking from the annular gap between the attachment hole formed in the cylinder head and the injector. It has been. Further, a sealing device is similarly provided at a portion where various other sensors are attached to the cylinder head. In such a sealing device, a technique is known that employs a resin seal ring that has a reduced number of parts and can suppress noise due to vibration compared to the case of using a metal washer-like seal. .

  However, in the case of a resin seal ring, there is a problem that due to creep deformation, the crushing margin on the outer peripheral surface side decreases with time, and the sealing function decreases. In order to solve such a problem, a technique is known that employs a structure in which a self-sealing function is exhibited by the pressure of combustion gas or a structure in which the surface pressure is partially increased (Patent Documents 1, 2, and 3). reference). However, in the case of such a technique, although it is possible to extend the life to some extent, it cannot be said that the deterioration of the sealing function due to the reduction of the crushing allowance over time is sufficiently suppressed. In particular, the crushing allowance is eliminated, and the countermeasures against the deterioration of the sealing function in the low temperature and low pressure state are not sufficient.

  In addition, a technique is also known in which an elastic member that presses the seal ring toward the outer peripheral surface side is provided on the inner peripheral surface side of the resin seal ring, thereby suppressing a decrease in the sealing function (Patent Document 4). reference). However, with this technique, the elastic member can be directly exposed to the combustion gas. Therefore, a material having high heat resistance must be used as a material for the elastic member, and there is also a problem that the function of the elastic member is deteriorated. Therefore, there is still room for improvement.

Japanese Patent No. 3830896 Japanese Patent No. 4311218 Japanese Patent No. 4193498 JP 2009-264129 A

  An object of the present invention is to provide a sealing device capable of exerting a sealing function even when the sealing function of a resin seal ring is lowered.

  The present invention employs the following means in order to solve the above problems.

That is, the sealing device of the present invention is
A sealing device for sealing an annular gap between a mounting hole formed in a member exposed to high-pressure gas and a mounting part mounted in the mounting hole,
In the sealing device attached to the annular groove formed on the outer peripheral surface side of the mounting part,
In the annular groove, a resin seal ring provided on the side receiving the pressure of the high-pressure gas;
In the annular groove, an elastic ring made of a rubber-like elastic body provided on the side opposite to the side receiving the pressure of the high-pressure gas with respect to the seal ring,
With
The seal ring is provided with an initial crushing margin provided between an inner peripheral surface of the mounting hole and a groove bottom surface of the annular groove,
The elastic ring has an outer diameter that is larger than an inner diameter of the mounting hole and an inner diameter that is smaller than an outer diameter of a groove bottom surface of the annular groove when no external force is applied. Between the inner peripheral surface of the hole and the groove bottom surface of the annular groove, both the outer peripheral surface side and the inner peripheral surface side are arranged in a compressed state,
The elastic ring is mounted in the annular groove so as to be pressed against the seal ring by the pressure of high-pressure gas .

  According to the present invention, the sealing function is exhibited not only by the seal ring but also by an elastic ring made of a rubber-like elastic body provided on the side opposite to the side receiving the pressure of the high-pressure gas in the seal ring. Accordingly, even when the sealing ring made of resin is in a state where the sealing function is lowered with time due to creep deformation or in a state where the sealing function is lowered under a low temperature environment, the sealing function is maintained by the elastic ring.

  Further, since the seal ring is provided with an initial crushing margin between the inner peripheral surface of the mounting hole and the groove bottom surface of the annular groove, the outer peripheral surface of the seal ring is located on the inner peripheral surface of the mounting hole. The inner peripheral surface is in close contact with the bottom surface of the annular groove. Therefore, the elastic ring arranged on the side opposite to the side receiving the pressure of the high-pressure gas with respect to the seal ring is not directly exposed to the high-pressure gas. Thus, according to the present invention, in the elastic ring made of a rubber-like elastic body, the problems about heat resistance, oil resistance, and chemical resistance that are generally concerned are solved.

  As described above, according to the present invention, even when the sealing function of the resin seal ring is lowered, the sealing function can be exhibited.

FIG. 1 is a schematic sectional view showing an injector mounting structure according to an embodiment of the present invention. FIG. 2 is a schematic cross-sectional view showing a mounted state of the sealing device according to the first embodiment of the present invention. FIG. 3 is a schematic cross-sectional view showing a mounted state of the sealing device according to the second embodiment of the present invention.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be exemplarily described in detail with reference to the drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of the components described in this embodiment are not intended to limit the scope of the present invention only to those unless otherwise specified. .

  The sealing device according to the present invention is used to prevent leakage of high-pressure gas such as combustion gas. More specifically, the sealing device according to the present invention is used to seal an annular gap between a mounting hole formed in a member exposed to high-pressure gas and a mounting part mounted in the mounting hole. . In the following description, a case of a sealing device that seals an annular gap between a mounting hole formed in a cylinder head as a member exposed to high-pressure gas and an injector as a mounting part attached to the mounting hole will be described. An example will be described. The present invention can also be applied to a sealing device that seals an annular gap between an attachment hole formed in the cylinder head and various sensors (for example, a combustion pressure sensor) attached to the attachment hole. Further, the present invention is not limited to a cylinder head, and is also applicable to a sealing device that seals an annular gap between a mounting hole formed in a member exposed to high-pressure gas and various mounting parts attached to the mounting hole. Is possible.

(Injector mounting structure)
Prior to describing the sealing device according to this embodiment, an injector mounting structure to which the sealing device according to this embodiment is applied will be described with reference to FIG. In FIG. 1, the sealing device is omitted for convenience of explanation.

  An injector mounting hole 310 is formed in the cylinder head 300 of the engine. The injector 200 is attached to the injector attachment hole 310 so that the tip portion is inserted. In the figure, the lower side is the combustion chamber side (E) through the cylinder head 300, and the upper side is the atmosphere side (A). Since high-pressure combustion gas is generated on the combustion chamber side (E), it is necessary to prevent the combustion gas from leaking from the annular gap between the injector mounting hole 310 and the injector 200 to the atmosphere side (A). . Therefore, an annular groove 210 is provided at the tip of the injector 200, and a sealing device (tip seal) is attached to the annular groove 210 to prevent the combustion gas from leaking from the annular gap to the atmosphere side (A). Yes.

Example 1
With reference to FIG. 2, the sealing device 100 which concerns on Example 1 of this invention is demonstrated. FIG. 2 is a schematic cross-sectional view showing a mounting state of the sealing device according to the first embodiment of the present invention, and shows a part of a cross section cut along a plane including the central axis of the sealing device. The sealing device 100 according to the present embodiment has a rotationally symmetric shape, and has the same cross-sectional shape on any surface including the central axis.

  The sealing device 100 according to the present embodiment includes a resin seal ring 110 and a rubber-like elastic ring 120. In the annular groove 210, the seal ring 110 is provided on the combustion chamber side (E), and the elastic ring 120 is provided on the atmosphere side (A). The combustion chamber side (E) is the side that receives the pressure of the combustion gas (high pressure gas), and the atmosphere side (A) is the opposite side to the side that receives the pressure of the combustion gas. In the present embodiment, the annular groove 210 is an annular groove having a rectangular cross section.

  The seal ring 110 is a cylindrical member made of a resin material having heat resistance of at least 200 ° C. (PTFE, a resin composition made of PTFE and a filler, etc.). That is, the outer peripheral surface side of the seal ring 110 is constituted by a cylindrical surface 111 that is in close contact with the inner peripheral surface of the injector mounting hole 310. Further, the inner peripheral surface side of the seal ring 110 is constituted by a cylindrical surface 112 that is in close contact with the groove bottom surface 210 a of the annular groove 210. The seal ring 110 has a crushing margin at least in the initial state. Therefore, the cylindrical surface 111 on the outer peripheral surface side and the cylindrical surface 112 on the inner peripheral surface side are in close contact with the inner peripheral surface of the injector mounting hole 310 and the groove bottom surface 210a of the annular groove 210 in a state having sufficient surface pressure. doing.

  As a material of the elastic ring 120, it is desirable to adopt a heat-resistant rubber material such as fluorine rubber or acrylic rubber in consideration of heat transferred from an engine or the like (about 200 ° C. or less). The elastic ring 120 according to the present embodiment employs an O-ring having a circular cross section. However, for the elastic ring 120, various seal rings other than the O-ring can be adopted.

Further, the elastic ring 120 is configured to be disposed between the inner peripheral surface of the injector mounting hole 310 and the groove bottom surface 210a of the annular groove 210 in a state where both the outer peripheral surface side and the inner peripheral surface side are compressed. Has been. That is, the elastic ring 120 is set so that its outer diameter is larger than the inner diameter of the injector mounting hole 310 and its inner diameter is smaller than the outer diameter of the groove bottom surface 210 a of the annular groove 210 when no external force is applied. . Thereby, the elastic ring 120 is provided with crushing margins on both the outer diameter side and the inner diameter side, and in the mounted state, both the outer peripheral surface side and the inner peripheral surface side are arranged in a compressed state.

  The position where the elastic ring 120 is disposed is preferably within the region on the atmosphere side (A) from the center in the axial direction of the annular groove 210. In addition, the axial length of the portion of the annular groove 210 that contacts the groove bottom surface 210a on the inner peripheral surface side of the seal ring 110 is preferably set to 1/3 or more of the axial length of the annular groove 210. .

(Excellent points of the sealing device according to this embodiment)
According to the sealing device 100 according to the present embodiment, the sealing function is exhibited not only by the seal ring 110 but also by the elastic ring 120 made of a rubber-like elastic body provided on the atmosphere side (A) of the seal ring 110. Therefore, even if the sealing ring 110 made of resin is in a state where the sealing function is deteriorated over time due to creep deformation or in a state where the sealing function is reduced under a low temperature environment, the sealing function is maintained by the elastic ring 120. . In addition, since rubber is easy to bite into gaps such as irregularities and scratches on the surface of the mating member as compared with resin, it is possible to suppress minute leakage from such gaps.

  In the case of the sealing device 100 according to the present embodiment, the elastic ring 120 is pressed to the atmosphere side (A) through the seal ring 110 by the pressure of the combustion gas. Therefore, the elastic ring 120 is compressed by the seal ring 110 and the side wall surface 210 b on the atmosphere side (A) in the annular groove 210. Thereby, since the elastic ring 120 tends to deform so as to expand in the radial direction, the adhesion force of the elastic ring 120 to the inner peripheral surface of the injector mounting hole 310 and the groove bottom surface 210a of the annular groove 210 is further increased. . Therefore, the higher the combustion gas pressure, the higher the sealing function by the elastic ring 120.

  Further, the seal ring 110 is provided with an initial crushing margin provided between the inner peripheral surface of the injector mounting hole 310 and the groove bottom surface 210 a of the annular groove 210. Therefore, in the seal ring 110, the cylindrical surface 111 on the outer peripheral surface side is in close contact with the inner peripheral surface of the injector mounting hole 310, and the cylindrical surface 112 on the inner peripheral surface side is in close contact with the groove bottom surface 210a of the annular groove 210 of the injector 200. It becomes. Thereby, the elastic ring 120 arranged on the atmosphere side (A) with respect to the seal ring 110 is not directly exposed to the combustion gas. Therefore, deterioration of the elastic ring 120 due to the combustion gas is suppressed. Further, although the combustion gas is hot, in the case of the elastic ring 120, it is not always necessary to have a heat resistance of 200 ° C. or higher as in the case of the seal ring 110. Here, in the present embodiment, the position where the elastic ring 120 is disposed is in the region on the atmosphere side (A) from the center in the axial direction in the annular groove 210. In addition, the axial length of the portion of the annular groove 210 that contacts the groove bottom surface 210 a on the inner peripheral surface side of the seal ring 110 is set to 1/3 or more of the axial length of the annular groove 210. Therefore, it is possible to more reliably prevent the elastic ring 120 from being directly exposed to the combustion gas.

(Example 2)
FIG. 3 shows a second embodiment of the present invention. FIG. 3 is a schematic cross-sectional view showing a mounting state of the sealing device according to the second embodiment of the present invention, and shows a part of a cross section cut along a plane including the central axis of the sealing device. The sealing device 100 according to the present embodiment has a rotationally symmetric shape, and has the same cross-sectional shape on any surface including the central axis.

As in the case of the first embodiment, the sealing device 100 according to the present embodiment also includes a resin seal ring 115 and a rubber-like elastic ring 125. In the annular groove 210, a seal ring 115 is provided on the combustion chamber side (E), and an elastic ring 125 is provided on the atmosphere side (A). The combustion chamber side (E) is the side that receives the pressure of the combustion gas (high pressure gas), and the atmosphere side (A) is the opposite side to the side that receives the pressure of the combustion gas.

  The bottom surface of the annular groove 210 in this embodiment is composed of a cylindrical surface portion 210c and an inclined surface portion 210d. The inclined surface portion 210d is configured to increase in diameter toward the atmosphere side (A). The side wall surface on the combustion chamber side (E) in the annular groove 210 is configured as a surface perpendicular to the axis, as in the first embodiment. Further, no side wall surface is provided on the atmosphere side (A) of the annular groove 210, and the inclined surface portion 210 d continues to the outer peripheral surface of the body portion of the injector 200.

  The seal ring 115 is a substantially cylindrical member made of a resin material having heat resistance of at least 200 ° C. (PTFE, a resin composition made of PTFE and a filler, etc.). That is, the outer peripheral surface side of the seal ring 115 is constituted by a cylindrical surface 116 that is in close contact with the inner peripheral surface of the injector mounting hole 310. Further, the inner peripheral surface side of the seal ring 115 includes a cylindrical surface portion 117 that is in close contact with the cylindrical surface portion 210c of the groove bottom surface of the annular groove 210 on the combustion chamber side (E), and an annular groove 210 on the atmosphere side (A). It is comprised by the inclined surface part 118 closely_contact | adhered to 210d of inclined surface parts among groove bottom surfaces. Here, in this embodiment, the inclined surface portion 210d in the annular groove 210 and the inclined surface portion 118 in the seal ring 115 are both tapered surfaces, and the taper angles of both are designed to be equal. In addition, about these inclined surface parts 210d and 118, you may employ | adopt inclined surfaces other than a taper surface.

  The seal ring 115 has a crushing margin at least in the initial state. Therefore, the cylindrical surface 116 on the outer peripheral surface side and the cylindrical surface portion 117 and the inclined surface portion 118 on the inner peripheral surface side have sufficient surface pressure on the inner peripheral surface of the injector mounting hole 310 and the groove bottom surface of the annular groove 210, respectively. It is in close contact with it.

  As a material of the elastic ring 125, it is desirable to adopt a heat-resistant rubber material such as fluorine rubber or acrylic rubber in consideration of heat transferred from an engine or the like (about 200 ° C. or less). As in the case of the first embodiment, the elastic ring 125 according to this embodiment also employs an O-ring having a circular cross section. However, for the elastic ring 125, various seal rings other than the O-ring can be adopted.

  The elastic ring 125 is disposed between the inner peripheral surface of the injector mounting hole 310 and the inclined surface portion 210d of the groove bottom surface of the annular groove 210 in a state where both the outer peripheral surface side and the inner peripheral surface side are compressed. It is comprised so that. In other words, the elastic ring 125 has an outer diameter larger than the inner diameter of the injector mounting hole 310 in a state where no external force is applied, and the inner diameter of the elastic ring 125 is attached to the inclined surface portion 210d on the groove bottom surface of the annular groove 210. It is set smaller than the outer diameter of the part to be made. Thereby, the elastic ring 125 is provided with crushing margins on both the outer diameter side and the inner diameter side, and in the mounted state, both the outer peripheral surface side and the inner peripheral surface side are arranged in a compressed state.

  The position where the elastic ring 125 is disposed is preferably in the region on the atmosphere side (A) from the center in the axial direction of the annular groove 210. In addition, it is desirable that the axial length of the portion contacting the groove bottom surface of the annular groove 210 on the inner peripheral surface side of the seal ring 115 is set to 1/3 or more of the axial length of the annular groove 210.

(Excellent points of the sealing device according to this embodiment)
Also in the sealing device 100 according to the present embodiment, the sealing function is exhibited not only by the seal ring 115 but also by the elastic ring 125 made of a rubber-like elastic body provided on the atmosphere side (A) of the seal ring 115. The same effect as in the case of 1 can be obtained.

  In the case of the sealing device 100 according to the present embodiment, the elastic ring 125 is pressed to the atmosphere side (A) through the seal ring 115 by the pressure of the combustion gas. Therefore, the elastic ring 125 receives a reaction force from the inclined surface portion 210 d on the groove bottom surface of the annular groove 210. The force by this reaction also has a component force on the outer peripheral surface side. Therefore, the adhesive force with respect to the inclined surface part 210d in the inner peripheral surface of the injector attachment hole 310 by the elastic ring 125 and the groove bottom surface of the annular groove 210 is further increased. Therefore, the higher the combustion gas pressure, the higher the sealing function by the elastic ring 125.

  Further, the seal ring 115 is also pressed to the atmosphere side (A) by receiving the pressure of the combustion gas, and the inclined surface portion 118 receives a reaction force from the inclined surface portion 210 d on the groove bottom surface of the annular groove 210. Accordingly, the higher the pressure of the combustion gas, the more the adhesion force of the seal ring 115 to the inner peripheral surface of the injector mounting hole 310 and the inclined surface portion 210d on the groove bottom surface of the annular groove 210 increases. Therefore, the higher the combustion gas pressure, the higher the sealing function by the seal ring 115.

  Also in the present embodiment, the elastic ring 125 disposed on the atmosphere side (A) with respect to the seal ring 115 is not directly exposed to the combustion gas, and the same effect as in the first embodiment is obtained. be able to.

  In the case of the present embodiment, the elastic ring 125 is disposed between the inner peripheral surface of the injector mounting hole 310 and the inclined surface portion 210d on the groove bottom surface of the annular groove 210. In comparison, the elastic ring 125 has a smaller wire diameter. Thus, since the elastic ring 125 is a small size, the cost can be reduced as compared with the first embodiment.

DESCRIPTION OF SYMBOLS 100 Sealing device 110,115 Seal ring 111,112,116 Cylindrical surface 117 Cylindrical surface part 118 Inclined surface part 120,125 Elastic ring 200 Injector 210 Annular groove 210a Groove bottom surface 210b Side wall surface 210c Cylindrical surface part 210d Inclined surface part 300 Cylinder head 310 Injector attachment hole

Claims (1)

A sealing device for sealing an annular gap between a mounting hole formed in a member exposed to high-pressure gas and a mounting part mounted in the mounting hole,
In the sealing device attached to the annular groove formed on the outer peripheral surface side of the mounting part,
In the annular groove, a resin seal ring provided on the side receiving the pressure of the high-pressure gas;
In the annular groove, an elastic ring made of a rubber-like elastic body provided on the side opposite to the side receiving the pressure of the high-pressure gas with respect to the seal ring,
With
The seal ring is provided with an initial crushing margin provided between an inner peripheral surface of the mounting hole and a groove bottom surface of the annular groove,
The elastic ring has an outer diameter that is larger than an inner diameter of the mounting hole and an inner diameter that is smaller than an outer diameter of a groove bottom surface of the annular groove when no external force is applied. Between the inner peripheral surface of the hole and the groove bottom surface of the annular groove, both the outer peripheral surface side and the inner peripheral surface side are arranged in a compressed state,
The sealing device according to claim 1, wherein the elastic ring is attached to the annular groove so as to be pressed against the seal ring by the pressure of high-pressure gas .

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