JP2010249268A - Flange joint structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To ensure, in a flange joint structure, electric insulating property between flanges while maintaining the sealing property in a flange joint surface by a heat insulating gasket. <P>SOLUTION: In the flange joint structure in which a pair of flanges 3a and b is fastened together by an insulating bolt 5 and a nut 9 while installing a sheet-like gasket 61 having insulating property and heat resistance onto the joint surface of the flanges 3a and b, an insulating washer 13 is interposed between the insulating bolt 5 and the nut 9, water shut-off between the insulating washer 13 and the flanges 3a and b is performed by a packing 67 having water-tightness, and water shut-off of the outer circumference of the joint surface of the flanges 3a and b is performed by a waterproof tape 65 having insulating property. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a flange joint structure, and more particularly to a flange joint structure in which a gasket having insulation and heat resistance is mounted between a pair of flanges.

  For example, in Patent Document 1, as a flange joint structure such as a gas pipe, an insulating gasket is mounted between a pair of flanges, and the body is tightened with an insulating bolt and nut with an insulation coating. It has been proposed that an insulating washer is interposed between the pair of flanges and the pair of flanges are electrically insulated and joined. In addition, an insulating washer having a heat-resistant insulating film is used to suppress the creep phenomenon that the insulating washer becomes thin over time in a high temperature environment, for example, at 180 ° C.

  However, the technique described in Patent Document 1 does not take into consideration that gas may leak from the joint surface of the flange at a temperature exceeding 180 ° C.

  In this regard, Patent Document 2 proposes an insulating gasket formed into a sheet shape by adding an organic binder to an inorganic mineral and an inorganic fiber as an insulating gasket having heat resistance. Moreover, by making the compounding quantity of an organic binder into a small amount with 2-6 wt%, it suppresses that an organic binder carbonizes and electrical insulation deteriorates in a high temperature range.

JP 2005-268121 A Japanese Patent Laid-Open No. 7-11236

  However, in the technique described in Patent Document 2, since an inorganic mineral and an inorganic fiber are formed on a sheet-like insulating gasket with a small amount of an organic binder, the insulating gasket becomes porous, and moisture in the atmosphere is transferred to the insulating gasket. If soaked, there is a problem that the electrical insulation between the flanges is lowered.

  An object of the present invention is to maintain a sealing property of a flange joint surface with a heat-resistant gasket in a flange joint structure and to ensure electrical insulation between flanges.

  In order to solve the above problems, the flange joint structure of the present invention is a flange joint formed by mounting a plate-like gasket having insulation and heat resistance on the joint surface between a pair of flanges and fastening the flanges with bolts and nuts. A screw part is formed on at least one end of the bolt, an insulating coating is formed on the body of the bolt, an insulating washer is sandwiched between the bolt and the nut, and the insulating washer and the flange are It has a ring-shaped elastic member having watertightness in between, and is characterized in that an insulating water-stopping tape is attached to the outer periphery of the joint surface.

  According to this, since the sealing performance of the flange joint surface can be ensured by the gasket having heat resistance, the sealing performance of the flange joint surface can be maintained even in a situation where heat such as fire is applied to the gasket. Furthermore, since electrical insulation between the flanges can be ensured, stray current and the like can be prevented from flowing between the flanges. In addition, the water tightness of the joint surface between the flanges and the joints of the bolt holes can be secured with an elastic member, and the water tightness of the outer periphery of the flange joint surface can be secured with water-stopping tape, so water penetration into the heat-resistant gasket can be achieved. It can suppress and can further secure the insulation between flanges.

  In this case, a contact surface that contacts the bolt and an inclined surface that is inclined from the flange side to the insulating washer side are formed on the elastic member, and the inner surface of the insulating washer on the flange side is chamfered according to the shape of the inclined surface. The part can be formed. According to this, moisture that enters from the thread of the insulating bolt can be guided to the outside of the joint portion of the bolt hole along the inclined surface formed in the elastic member, and moisture hardly enters from the joint portion of the bolt hole. Since the structure can be achieved, the insulation between the flanges can be further secured.

  Moreover, a filler can be filled in the joint surface between the gasket and the waterproof tape. Further, the gasket can be arranged on the joint surface inside the bolt hole of the flange, and an O-ring having insulation and watertightness can be attached to the flange joint surface between the outer periphery of the gasket and the bolt hole.

  According to this, even when the watertightness due to the water-stopping tape cannot be maintained, for example, even when there is a possibility that the adhesiveness of the water-stopping tape may be lowered due to the passage of time after sticking, it is joined by a filler or an O-ring. The water tightness of the surface can be maintained, and the insulation between the flanges can be further secured.

  According to the present invention, in the flange joint structure, the sealing performance of the flange joint surface can be maintained by the heat resistant gasket, and the electrical insulation between the flanges can be ensured.

It is a fragmentary sectional view of the flange joint structure of Embodiment 1 of the present invention. It is a figure which shows the modification of Embodiment 1. FIG. It is a fragmentary sectional view of the flange joint structure of Embodiment 2 of the present invention.

  Hereinafter, the present invention will be described based on embodiments. In addition, although the following embodiment demonstrates gas piping as an example, the flange joint structure of this invention is not limited to this, It can be used for piping through which another fluid flows.

(Embodiment 1)
FIG. 1 shows a partial cross-sectional view of the flange joint structure of the first embodiment. As shown in the figure, the flange joint structure of Embodiment 1 is a plate-like gasket between a pair of flanges 3 (a, b) formed at one end of a pair of metal pipes 1a, 1b to be joined. 61 is attached. The pipes 1a and 1b are provided, for example, at the rising portion from the pipe buried in the ground to the ground. For example, the pipe 1a is welded at a welding position 2a by inserting the pipe 1a into a flange 3a of a plug-welding flange. The pipe 1b is welded at the welding position 2b, for example, by matching the pipe 1b to the neck of the flange 3b of the butt-welding flange. The flanges 3a and 3b are formed in a ring shape from a metal plate member. A plurality of bolt holes 7 into which the insulating bolts 5 are inserted are formed on the outer peripheral sides of the flanges 3a and 3b. The number of bolt holes 7 can be selected as appropriate according to the dimensions of the flange.

  The gasket 61 is formed in a plate shape and has insulation and heat resistance. The gasket 61 is preferably a gasket that does not contain asbestos. For example, an inorganic fiber and an organic fiber are added with a filler and a rubber-like binder is added. A fire-resistant gasket formed of a binder such as a swelling synthetic rubber can be used. Bolt holes (not shown) are formed in the gasket 61 so that the insulating bolts 5 can be inserted.

  The insulation bolt 5 is, for example, a double screw bolt, and thread portions are formed at both ends of the insulation bolt 5. An insulating coating 11 made of nylon or the like is formed on the non-threaded portion (body portion) between the threaded portions at both ends of the insulating bolt 5. Nuts 9 are screwed to both ends of the insulating bolt 5. Thereby, the flanges 3a and 3b are fastened. An insulating washer 13 having heat resistance and insulation is sandwiched between the seat surface of each nut 9 and the tightening surface of the flanges 3a and 3b. The insulating washer 13 is formed, for example, by adding glass fiber as a reinforcing agent to heat-resistant ceramics and bonding with a boric acid or phosphoric acid binder. A flat washer 14 is mounted between the insulating washer 13 and the seating surface of each nut 9. In addition, the bolt used for the insulation bolt 5 is not limited to both screw bolts, A hexagon bolt etc. which form a thread part in one edge part, and have a head can be used.

  A gap between the joint surfaces of the flange 3 is filled with a filler 63. The filler 63 is, for example, a filler made of silicon or the like, has water tightness, and fills the concave portion of the joint surface of the flange 3. On the outer peripheral surface of the flange 3, a waterproof tape 65 is stuck in series along the flange 3 joint surface. The waterstop tape 65 is formed of, for example, a polyethylene base material and a synthetic rubber adhesive.

  A ring-shaped packing 67 having water tightness and elasticity is sandwiched between the contact surfaces of the insulating washer 13 and the flange 3. The packing 67 is made of, for example, silicon. The packing 67 has a substantially triangular cross section, and one surface is in contact with the insulating bolt 5. The other surface of the packing 67 is inclined from the flange 3 side to the insulating washer 13 side. A chamfered portion 69 is formed on the surface of the insulating washer 13 that contacts the packing 67 according to the inclination of the packing 67. The shape of the insulating washer 13 and the packing 67 is not limited to the present embodiment, and for example, the insulating washer 13 and the packing 67 can be appropriately selected such as a chamfer 69 or an O-ring without an inclined surface.

  The operation of the first embodiment configured as described above will be described. A gasket 61 having insulation and heat resistance is attached to the joint surface of the pair of flanges 3 to ensure insulation and heat resistance between the flanges 3a and 3b. Further, the flange joint surface is sealed with the filler 63 and the water blocking tape 65 to prevent moisture in the atmosphere from entering from the joint surface of the pair of flanges 3. Further, moisture is prevented from accumulating on the joint surface of the flange 3 and the insulation between the flanges 3 is prevented from being lowered. Further, the insulating washer 13 is pressed with each nut 9, and the packing 67 is pressed toward the bolt hole 7 with the chamfered portion 69. As a result, the gap between the bolt hole 7 and the insulating bolt 5 is closed with the packing 67, and a structure in which moisture hardly enters from the bolt hole 7 can be achieved.

  According to this, since the sealing property of the flange 3 joining surface can be secured by the heat-resistant gasket 61, the sealing property of the flange 3 joining surface can be maintained even in a high temperature atmosphere of about 800 ° C. such as a fire. Furthermore, the resistance value between the flanges 3a and b can be maintained at, for example, 1 MΩ or more, and the electrical insulation between the flanges 3 can be ensured, so that a stray current or the like can be prevented from flowing between the flanges 3a and 3b. Moreover, since the water tightness of the joint surfaces of the flanges 3 and the joints of the bolt holes 7 can be secured by the packing 67 and the water tightness of the outer periphery of the flange 3 joint surface can be secured by the waterproof tape 65, the heat resistant gasket 61 can be obtained. Water can be suppressed, and insulation between the flanges 3 can be further secured. Further, moisture that enters from the thread of the insulating bolt 5 is guided to the outside of the joint portion of the bolt hole 7 along the inclined surface formed in the packing 67, so that moisture does not easily enter from the joint portion of the bolt hole 7. Therefore, the insulation between the flanges 3 can be further ensured.

  Note that the flange is not limited to this embodiment, and a pair of flanges 3a or a pair of flanges 3b, or an integral flange or a loose flange (lap joint flange) can be selected as appropriate. Also, the flange seat can be appropriately selected such as a plane seat (raised face / RF).

  Further, the filler 63 and the water blocking tape 65 are not limited to the materials of the present embodiment as long as electrical insulation and water tightness can be secured. For example, the base material of the water-stopping tape 65 can be made of vinyl chloride, polyester added with petrolatum or drying oil, glass cloth added with silicone resin, and the adhesive material made of synthetic rubber.

  In addition, when the water stop tape 65 can suppress the intrusion of water, the filler 63 can be omitted. However, it is preferable to fill the filler 63 when the adhesive strength of the water-stopping tape 65 may decrease with time.

  If the insulating washer 13 is chamfered, the contact area between the flanges 3a and 3b and the insulating washer 13 decreases, and the insulating washer 13 may be damaged because it cannot withstand the tightening force of each nut 9. In this case, as shown in FIG. 2, a washer 71 can be sandwiched between the flange 3 and the insulating washer 13, and a chamfered portion can be formed on the washer 71. Note that FIG. 2 shows the insulating bolt 5 in a different position with the flange joint surface as a boundary in order to show that the insulating film 11 maintains the insulating property even if the insulating bolt 5 contacts the flanges 3a and 3b. It is a thing.

(Embodiment 2)
In FIG. 3, the fragmentary sectional view of the flange joint structure of Embodiment 2 of this invention is shown. The second embodiment differs from the first embodiment in that the gasket 61 is mounted inside the bolt hole 7 and an O-ring 73 having insulating properties and watertightness is disposed between the gasket 61 and the insulating bolt 5. It is a point. Since other configurations are the same as those of the first embodiment, the same reference numerals are given and description thereof is omitted.

  According to this, since the O-ring 73 can stop the outer peripheral side of the gasket 61, for example, even when the water-stopping tape 65 is peeled off, the O-ring 73 can suppress the penetration of moisture into the gasket 61.

  In addition, when moisture penetrates into the joint surface of the flange 3 due to peeling of the water-stopping tape 65, the flange 3 may be temporarily in a conductive state. However, since the water tightness of the gasket 61 is maintained by the O-ring 73, it is possible to prevent the invading moisture from penetrating into the gasket 61. Therefore, compared with the case where the porous gasket 61 is soaked, moisture is easily evaporated, and the insulating state can be recovered in a short time. As the O-ring 73, a well-known O-ring having insulating properties and water tightness can be used.

3a Flange 3b Flange 5 Insulating bolt 9 Nut 13 Insulating washer 61 Gasket 65 Waterproof tape 67 Packing 73 O-ring

Claims (5)

A flange joint structure in which a plate-like gasket having insulation and heat resistance is attached to the joint surface between a pair of flanges, and the flanges are fastened with bolts and nuts,
A threaded portion is formed on at least one end of the bolt, an insulating coating is formed on the body of the bolt, an insulating washer is interposed between the bolt and the nut, and the insulating washer and the flange A ring-shaped elastic member having water tightness between
A flange joint structure in which an insulating water-stopping tape is attached to the outer periphery of the joint surface. In the flange joint structure according to claim 1,
The elastic member is formed with a contact surface that contacts the bolt and an inclined surface that is inclined from the flange side to the insulating washer side, and the inner periphery of the insulating washer on the flange side has the shape of the inclined surface. A flange joint structure in which a chamfered portion is formed accordingly. In the flange joint structure according to claim 2,
A flange between the insulating washer and the flange, wherein a washer is sandwiched on the outer periphery of the elastic member, and the chamfered portion is formed on a contact surface of the washer with the elastic member. Joint structure. In the flange joint structure according to claim 1,
A flange joint structure, wherein a filler is filled in the joint surface between the gasket and the waterstop tape. In the flange joint structure according to claim 1,
The gasket is disposed on the joint surface inside the bolt hole of the flange, and an O-ring having insulation and watertightness is attached to the joint surface between the outer periphery of the gasket and the bolt hole. Characteristic flange joint structure.

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