JP2019011853A - Seal washer - Google Patents

Abstract

To provide a seal washer capable of improving electric insulation property and also preventing deterioration of sealability.SOLUTION: A seal washer 1 comprises: an annular base material 11; and a compound layer 12 adhering to at least one surface in a thickness direction of the base material via adhesive 13, and containing synthetic resin or rubber material and fiber material. The base material is a resin film having electric insulation property.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a seal washer.

Conventionally, it is interposed between a screw member (fastening member) such as a bolt or nut and a mating member (fastening target), and has a sealing function that suppresses leakage of fluid from the bolt hole and entry of foreign matter into the bolt hole. Sealed washers (gaskets) are known.
For example, Patent Document 1 below discloses a metal annular gasket in which the surface of an annular metal substrate is covered with a compound layer. Since such an annular gasket is easily conductive, if an ionic liquid (for example, salt water) is present at the boundary when the screw member and the mating member are dissimilar metals, a local battery is formed, and the fastening member or seat There is concern that electrolytic corrosion may occur on the surface.
Patent Document 2 below discloses a seal washer in which a seal lip made of a rubber-like elastic material having electrical insulation is integrally provided on the inner periphery of a washer body made of hard synthetic resin having electrical insulation. Has been.

International Publication No. 2008/065857 JP 2005-264998 A

  However, in the seal washer described in Patent Document 2, since the seal lip is made of a rubber-like elastic material, there is a concern that the seal member is easily deteriorated due to an environmental load such as high temperature and the fastening member is easily loosened.

  This invention is made | formed in view of the said situation, and it aims at providing the seal washer which can suppress loosening of a fastening member, improving electrical insulation.

  In order to achieve the above object, a seal washer according to the present invention is bonded to an annular base material and at least one surface in the thickness direction of the base material via an adhesive layer, and a synthetic resin or a rubber material and a fiber material. And the base material is a resin film having electrical insulating properties.

  According to the present invention, electrical insulation can be improved as compared with a base material made of metal. Moreover, since the compound layer is provided on at least one side of the base material made of the resin film, the compression recovery property is high and the stress relaxation is also small as compared with the material made only of the resin film. Therefore, loosening of the fastening member can be suppressed.

In the present invention, the base material may be a polyimide resin film.
According to this invention, heat resistance can be improved compared with what a base material is a polyethylene resin film, for example.

In the present invention, the thickness of the base material may be smaller than the thickness of the compound layer.
According to the present invention, it is possible to reduce the thickness of the base material, and to reduce the influence of dimensional changes such as thermal expansion and contraction of the base material on the seal washer.

In the present invention, the base material may have a shrinkage rate of 1% or less after heating at 200 ° C. for 30 minutes.
According to the present invention, even when used at a relatively high temperature, the thermal shrinkage of the base material is reduced, and the influence of the thermal shrinkage of the base material on the seal washer can be reduced. Therefore, the heat resistance of the seal washer can be improved.

In the present invention, the base material may have a volume resistivity of 1 × 10 ¹⁵ Ω · cm or more.
According to the present invention, the volume resistivity of the substrate becomes relatively large, and the electrical insulation can be further improved.

In the present invention, the substrate may have a thickness of 5 μm to 1000 μm.
According to the present invention, the substrate can be thinned.

In the present invention, the compound layer may be a non-carbon compound and containing an oil-swellable rubber material.
According to the present invention, electrical insulation can be further improved. Further, since the compound layer swells when it comes into contact with the oil, if it is used as a seal washer for sealing the oil, the sealing performance can be ensured even at a relatively low surface pressure.

  Since the seal washer according to the present invention is configured as described above, it is possible to suppress loosening of the fastening member while improving electrical insulation.

(A), (b) is a partially broken schematic longitudinal cross-sectional view which shows typically an example of the seal washer concerning one Embodiment of this invention.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a diagram schematically illustrating an example of a seal washer according to the present embodiment.
The seal washer 1 according to the present embodiment is configured such that an insertion hole 10 through which the shaft portion 4 of the fastening member 2 is inserted is provided at the center thereof. The seal washer 1 is disposed between the seat surface 3a of the fastening member 2 constituting one seat surface and the seat surface 5a of the mating member (first member) 5 constituting the other seat surface. The seal washer 1 may be disposed between the seating surface 3 a of the fastening member 2 that requires electrical insulation and the seating surface 5 a of the counterpart member (first member) 5.
In the illustrated example, the seal washer 1 has a shaft portion 4 of a bolt (male screw) as the fastening member 2 inserted through the insertion hole 10, and the head portion 3 of the fastening member 2 and the head portion 3 of the fastening member 2 are opposed to each other. The example arrange | positioned between the 1st member (partner member) 5 as a partner member (fastening object) to be shown is shown. In addition, an example is shown in which the shaft portion 4 of the fastening member 2 is inserted into the insertion hole 6 of the first member 5, and the male screw portion of the shaft portion 4 of the fastening member 2 is screwed into the female screw hole 8 of the second member 7. ing.

As the first member 5 and the second member 7 fastened by the fastening member 2, the head 3 side of the fastening member 2 or the tip side of the shaft portion 4 is filled with a liquid such as oil or water, It may be a liquid that may be attached.
The first member 5 may be a cover member such as an engine rocker cover (head cover) or an oil pan, for example. Further, the first member 5 may be formed of a metal material different from that of the fastening member 2. The second member 7 may be a mounted portion of such a cover member, for example, a cylinder head or a cylinder block. Although the example in which the female screw hole 8 of the second member 7 is a through-hole is shown in the example of the figure, it may be opened only on the first member 5 side.
Further, the fastening member 2 is not limited to the one that fastens the plurality of members 5 and 7 in this way, but may be a drain bolt (plug) that is screwed into a female screw hole provided in the first member 5 such as an oil pan. Further, the fastening member 2 may be one in which a fluid circulation hole is formed at the center of the shaft, and may constitute various sensors such as a temperature sensor and a pressure sensor, and an attachment portion for an electrode portion. Further, the fastening member 2 is not limited to the bolt (male screw) having the head 3, and may have various other configurations, and may be a female screw member (nut). Further, the fastening member 2 is not limited to such a screw member such as a male screw member or a female screw member, and may be a rivet.

The seal washer 1 has a sheet shape along the thickness direction in the axial direction of the shaft portion 4 of the fastening member 2. The insertion hole 10 of the seal washer 1 passes through the seal washer 1 in the thickness direction. The insertion hole 10 only needs to have a diameter (inner diameter) through which the shaft portion 4 can be inserted, and may be a round hole or a substantially polygonal hole.
Further, the seal washer 1 may be substantially circular or substantially polygonal when viewed in the thickness direction. Further, the diameter (outer diameter) of the seal washer 1 may be larger than the outer diameter of the head 3 (or nut) of the fastening member 2 constituting one seating surface.

Moreover, the seal washer 1 is bonded to an annular base material 11 and at least one surface in the thickness direction of the base material 11 via an adhesive layer 13, and includes a compound layer containing a synthetic resin or a rubber material and a fiber material. 12. The substrate 11 is a resin film having electrical insulation. With such a configuration, it is possible to improve electrical insulation as compared with a base material made of metal. In addition, since the compound layer 12 is provided on at least one surface of the base material 11, if the first member 5 and the second member 7 are fastened by the fastening member 2, the head 3 and the first member of the fastening member 2. The compound layer 12 is pressure-bonded to at least one of the (partner members) 5. Therefore, according to the seal washer 1 according to the present embodiment, it is possible to suppress the loosening of the fastening member 2 because the compression recovery property is high and the stress relaxation is small as compared with the seal washer 1 alone. In addition, if the compound layer 12 is pressure-bonded to the first member (mating member) 5, the adhesion of the compound layer 12 is improved, and the seating surface of the fastening member 2 can be used even when the fastening force of the fastening member 2 is the same. The sealing performance between 3a and the seating surface 5a of the counterpart member (first member) 5 can be improved.
In this embodiment, the seal washer 1 is configured such that the compound layers 12 and 12 are provided on both surfaces in the thickness direction of the base material 11 via the adhesive layers 13 and 13. With such a configuration, the adhesion to the seating surfaces (the seating surfaces of the fastening member 2 and the first member 5) 3a, 5a on both sides with which the seal washer 1 comes into contact (crimping) is improved. Moreover, the seal washer 1 can also be used without distinguishing front and back.

In the present embodiment, the base material 11 has a thickness t1 smaller than the thickness t2 of the compound layer 12. With such a configuration, it is possible to reduce the thickness of the base material 11 and reduce the influence of dimensional changes such as thermal expansion and contraction of the base material 11 on the seal washer 1. The thickness t1 of the substrate 11 may be 5 μm to 1000 μm. The thickness t1 of the substrate 11 is not particularly limited, but is preferably 10 μm to 250 μm, and more preferably 25 μm to 125 μm. If the substrate 11 is a film having a thickness t1 of 5 μm to 1000 μm, the substrate 11 can be reduced in weight as compared with a metal substrate 11. The density of the base material 11 ^may be 1.2g / cm ³ ~1.6g / cm 3 order. The density of the base material 11 is ^{preferably, 1.3g / cm 3 ~1.5g / cm} 3.
Moreover, this base material 11 has heat resistance in addition to electrical insulation in this embodiment. In this embodiment, the base material 11 is a polyimide resin film, and Kapton (registered trademark) manufactured by Toray DuPont Co., Ltd. is preferably used. If it is set as such a structure, compared with what a base material is a polyethylene resin film, heat resistance can be improved.

Moreover, the base material 11 is made into the shrinkage rate after heating for 30 minutes at 200 degreeC in this embodiment below 1% before a heating. With such a configuration, even when the seal washer 1 is used at a relatively high temperature, the thermal shrinkage of the base material 11 is reduced, and the influence of the thermal shrinkage of the base material 11 on the seal washer 1 is affected. Can be small. Therefore, the heat resistance of the seal washer 1 can be improved. That is, if the base material 11 having a too high shrinkage rate is employed, the heat shrinkage of the base material 11 tends to be large when used at a high temperature.
This shrinkage rate is a value calculated from the dimensional change of the test piece with respect to the dimension before heating after heating the test piece at 200 ° C. for 30 minutes in accordance with JIS K 7133.

Further, the substrate 11 preferably has a volume resistivity of 1 × 10 ¹⁵ Ω · cm or more, and in this embodiment, 1 × 10 ¹⁷ Ω · cm. With such a configuration, the volume resistivity of the substrate 11 becomes relatively large, and the electrical insulation can be further improved. That is, if the base material 11 having a small volume resistivity is employed, the electrical insulation tends to be lowered.
Moreover, the seal washer 1 provided with such a base material 11 has a volume resistivity of 1.5 × 10 ¹⁵ Ω · cm or more.
These volume resistivity values are values measured and calculated in accordance with JIS C 2151 A method. Specifically, a test piece (a resin film constituting the base material 11 or a laminate constituting the seal washer 1) is sandwiched between an electrode having a diameter of 20 mm and a steel plate having a diameter of 120 mm wider than the both sides of the test piece. The resistance value of was measured with a tester. The volume resistivity of the base material 11 and the seal washer 1 in the present embodiment is an index of electrical insulation in the thickness direction.
In addition, as a resin film which comprises the base material 11, it is not restricted to the above-mentioned polyimide resin film, In addition, various resin films, such as a polytetrafluoroethylene, a polyethylene terephthalate, a polyethylene naphthalate, a polyetherimide, a polypropylene, a polyphenylene sulfide, But you can.

The adhesive layers 13 and 13 are formed by curing the adhesive applied to both surfaces of the base material 11 in the thickness direction. As the adhesive constituting the adhesive layers 13, 13, a heat-resistant adhesive such as a phenol-based adhesive is preferable. Moreover, as an adhesive which comprises the adhesive bond layers 13 and 13, an epoxy-type adhesive agent may be sufficient. The thickness of the adhesive layers 13 may be about 1 μm to 30 μm. For the adhesive layers 13, 13, an adhesive having at least the same degree of flexibility as the resin film used for the substrate 11 is preferably used. According to this, the adhesive layers 13 and 13 can be deformed following the seal washer 1 when it is bent.
In this embodiment, the compound layers 12 and 12 on both sides in the thickness direction of the seal washer 1 have the same configuration. That is, the compound layers 12 and 12 on both sides in the thickness direction are formed of the same material and have the same thickness t2 and t2. The thickness t2 and t2 of the compound layers 12 and 12 may be about 50 μm to 500 μm.
The density of these compounds layers 12 and 12 ^may be 1.9g / cm ³ ~2.1g / cm 3 order.

In this embodiment, these compound layers 12 and 12 are made into the structure which does not contain carbon, ie, does not contain carbon. With such a configuration, the electrical insulation can be further improved.
As the synthetic resin contained in these compound layers 12, 12, phenol resin, urea resin, melamine resin, epoxy resin, alkyd resin, unsaturated polyester resin, diallyl phthalate resin, silicon resin, or the like can be used.

  The rubber materials contained in these compound layers 12 and 12 include nitrile rubber (NBR), acrylic rubber (ACM), styrene butadiene rubber (SBR), isoprene rubber (IR), chloroprene rubber (CR), butadiene rubber ( BR), butyl rubber (IIR), ethylene-propylene rubber (EPM), fluorine rubber (FPM / FKM), silicone rubber (VMQ), chlorosulfonated polyethylene (CSM), ethylene vinyl acetate rubber (EVA), polyethylene chloride (CPE) Butyl chloride rubber (CIR), shrimp chlorohydrin rubber (ECO), nitrile isoprene rubber (NIR), natural rubber (NR) and the like can be used. In this embodiment, these compound layers 12 and 12 contain an oil-swellable rubber material. With such a configuration, the compound layers 12 and 12 swell when they come into contact with oil. Therefore, when used as a seal washer for sealing the oil, the sealing performance can be secured even at a relatively low surface pressure. . Examples of such an oil-swelling rubber material include styrene butadiene rubber. Moreover, as a rubber material contained in the compound layers 12 and 12, you may make it use 1 type, or 2 or more types of mixtures among the above-mentioned various rubber materials. For example, the compound layers 12 and 12 may contain an oil-swelling styrene butadiene rubber and a non-oil-swelling nitrile rubber as rubber materials. The compound layers 12 and 12 may contain both a rubber material and a synthetic resin.

Moreover, as a fiber material contained in these compound layers 12 and 12, compressive inorganic fibers or compressible organic fibers other than asbestos are used. Specifically, as inorganic fibers other than asbestos, glass fibers, ceramic fibers, rock wool, slagging, fused silica fibers, chemically treated high silica fibers, molten succinate alumina fibers, alumina continuous fibers, stabilized zirconia fibers, Boron nitride fibers, alkali titanate fibers, whiskers, boron fibers, and the like can be used.
Organic fibers include aromatic polyamide fibers, polyamide fibers, polyolefin fibers, polyester fibers, polyacrylonitrile fibers, polyvinyl alcohol fibers, polyvinyl chloride fibers, polyurea fibers, polyurethane fibers, poly fibers. Fluorocarbon fiber, phenol fiber, cellulose fiber, or the like can be used.
These compound layers 12 and 12 may contain additives such as rubber chemicals and fillers in addition to the synthetic resin or rubber material and fiber material. Moreover, the compound layers 12 and 12 may contain water swelling agents, such as a vinyl acrylate alcohol copolymer.

  In the present embodiment, the seal washer 1 is configured such that the silicone coat layers 14 and 14 as the surface coat layers are provided on the surface of the compound layers 12 and 12 (both sides in the thickness direction of the seal washer 1). Yes. With such a configuration, the adhesion resistance can be improved. The silicone coat layers 14 and 14 may be formed by applying and curing a room temperature curable RTV silicone resin. Further, the thickness of the silicone coat layers 14, 14 may be about 1 μm to 10 μm, and preferably about 2 μm to 5 μm. Further, the silicone resin applied to form the silicone coat layers 14 and 14 may partially penetrate the compound layers 12 and 12. Further, in the illustrated example, the silicone coat layers 14 and 14 are provided so as to constitute only both sides in the thickness direction of the seal washer 1, but the inner peripheral surface of the insertion hole 10 and the seal washer are also illustrated. 1 may be provided so as to constitute one outer peripheral surface. Further, in place of the silicone coat layers 14 and 14, a configuration in which another surface coat layer is provided may be used, and further, a configuration in which such a surface coat layer is not provided may be employed.

  The seal washer 1 having the above-described configuration may be manufactured as follows, for example. First, the compound material which comprises the compound layers 12 and 12 is laminated | stacked and integrated on the both surfaces of the thickness direction of the resin film which comprises the base material 11 via the adhesive agent which comprises the adhesive bond layers 13 and 13. FIG. Moreover, the adhesive which comprises the adhesive bond layers 13 and 13 is suitably hardened by heating etc. And the silicone resin which comprises the silicone coat layers 14 and 14 may be apply | coated to the surface of the compound layers 12 and 12, and you may make it manufacture the seal washer 1 by stamping etc. suitably. In place of such a mode, the adhesive layers 13 and 13, the compound layers 12 and 12, and the silicone coat layers 14 and 14 are formed on the base material 11 that has been shaped according to the shape of the seal washer 1 by punching or the like. It is good also as an aspect etc. which form.

DESCRIPTION OF SYMBOLS 1 Seal washer 11 Base material 12 Compound layer 13 Adhesive layer t1 Base material thickness t2 Compound layer thickness

Claims (7)

An annular base material, and a compound layer that is bonded to at least one surface in the thickness direction of the base material via an adhesive layer and contains a synthetic resin or a rubber material and a fiber material, and
The seal washer according to claim 1, wherein the base material is a resin film having electrical insulation. In claim 1,
A seal washer, wherein the base material is a polyimide resin film. In claim 1 or 2,
The seal washer according to claim 1, wherein the thickness of the base material is smaller than the thickness of the compound layer. In any one of Claims 1 thru | or 3,
A sealing washer, wherein the base material has a shrinkage ratio of 1% or less before heating at 200 ° C. for 30 minutes. In any one of Claims 1 thru | or 4,
A seal washer, wherein the substrate has a volume resistivity of 1 × 10 ¹⁵ Ω · cm or more. In any one of Claims 1 thru | or 5,
A thickness of the base material is 5 μm to 1000 μm. In any one of Claims 1 thru | or 6,
The compound washer is a non-carbon compounding and contains an oil-swellable rubber material.

Images