JPH06287541A - Covering and sealing material made using fluororesin - Google Patents

Abstract

PURPOSE:To obtain the subject material which is excellent in sealing properties, chemical resistance, and sliding properties. CONSTITUTION:This material comprises a rubber core and a fluororesin film bonded to the surface of the core. The film is obtd. by baking a fluororesin film again at its m.p. or higher for pref. 1hr or longer to form granular projections on the surface pref. in the number of projections of 1,000-/cm<2> or higher. Thus obtd. material is pref. as a fluororesin-covered gasket, a syringe- sealing material, etc.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sealing material coated with a fluororesin, and more specifically, it is preferably used as a sealing material for syringes excellent in chemical resistance and slidability, or a fluororesin-coated packing and gasket. The present invention relates to a fluororesin-coated sealing material.

[0002]

BACKGROUND OF THE INVENTION For example, a sealing material used as a plunger tip actuating portion of a syringe is generally formed of an elastic body such as rubber.

Such a rubber sealing material is excellent in elasticity and sealing property, but is inferior in slidability. Conventionally, silicone oil or the like is applied to the surface of the sealing material to improve slidability. I am letting you.

However, when silicone oil or the like is applied to a sealant for a syringe, the silicone oil may be eluted into the drug solution in the syringe to contaminate the drug solution.
This silicone oil cannot be said to be completely harmless to the human body, and it is not preferable that the silicone oil is contained in the drug solution injected into the body.

In recent years, disposable type syringes have been used in order to prevent infection by syringes. Among the disposable type syringes, a syringe sealed with a sealing material is preliminarily filled with a drug solution. Fill-type syringes are drawing attention.

[0006] In such a prefill type syringe, since the drug solution and the seal material may come into contact with each other for a long time, the seal material used in this syringe has particularly excellent sealability and chemical resistance. Is also required. The use of the sealing material coated with silicone oil as described above in such a prefill type syringe increases the possibility that the silicone oil will be mixed in the drug solution. Further, the rubber seal material may adhere to the inner wall of the syringe during long-term storage, and the seal material, that is, the plunger may not operate during use.

Therefore, it is desired to develop a sealing material which is excellent in slidability and chemical resistance without using silicone oil. As such a sealing material, for example, Japanese Patent Laid-Open No. 2-159281 has been proposed. Discloses a sealing material for a syringe in which the surface of a rubber core is covered with a fluororesin film via an adhesive. This fluororesin film is excellent in chemical resistance and slidability but inferior in adhesiveness. Therefore, in the above publication, the adhesive surface of the fluororesin film is previously subjected to alkali treatment, corona discharge treatment, or the like. By applying the treatment, the adhesiveness with the rubber core is improved. Further, the fluororesin film is also inferior in elasticity, and when the thickness of the fluororesin film is too thick, the elasticity of the rubber core is impaired and the sealing property of the sealing material is deteriorated. Therefore, in order to obtain a sealing material having excellent sealing properties without impairing the elasticity of the rubber core, it is preferable to reduce the thickness of the fluororesin film. Specifically, if the thickness is about 50 μm, the rubber is It is known that the elasticity of the core is not impaired.

However, when such a thin fluororesin film is subjected to surface treatment such as corona discharge as described above, pinholes and voids may be generated. An adhesive or the like provided between the film-made film and the rubber core may be eluted into the drug solution in the syringe.
Further, when a chemical treatment such as an alkali treatment is applied, the chemical used for the treatment may penetrate the film and be mixed in the chemical liquid, which lowers the safety to the human body.

Therefore, a fluororesin-coated sealing material which is particularly useful as a sealing material for syringes and the like, which is excellent in sealing property, chemical resistance and safety, and is also excellent in slidability is desired.

[0010]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned prior art, and it is an object of the present invention to provide a fluororesin-coated sealing material which is excellent in sealing property, chemical resistance and sliding property. Has an aim.

[0011]

SUMMARY OF THE INVENTION The fluororesin-coated sealing material according to the present invention comprises a rubber core and a fluororesin film bonded and integrated on the surface of the rubber core. The fluororesin film is characterized by being re-fired at a temperature equal to or higher than the melting point thereof and having granular projections formed on the surface thereof.

The re-baking time of the fluororesin film as described above is preferably 1 hour or more, and the number of particulate projections formed on the surface of the fluororesin film by this treatment is 1000 pieces / cm ² or more. It is preferable that

The fluororesin-coated sealing material according to the present invention as described above is preferably used as a fluororesin-coated gasket, a sealing material for syringes and the like.

[0014]

DETAILED DESCRIPTION OF THE INVENTION The fluororesin-coated sealing material according to the present invention will be specifically described below when the fluororesin-coated sealing material is a syringe sealing material.

FIG. 1 is a sectional view of a syringe sealant, which is one embodiment of the fluororesin-coated sealant according to the present invention.
Reference numeral 1 denotes a syringe sealing material, which is attached in close contact with the inner cylindrical surface of the syringe 4. The sealing material 1 is provided with corrugated irregularities on the side wall portion 1a of the barrel portion which is in contact with the inner cylinder portion of the syringe, and is provided with a concave portion 1c so as to fit with a plunger rod (not shown).

The sealing material 1 is composed of a rubber core 2 and a fluororesin film 3 integrally formed on the peripheral surface of the rubber core 2. The fluororesin film 3 is provided on at least the body side wall 1a portion of the sealing material 1 and the tip end surface 1b portion in contact with the chemical liquid 5.

The thickness of such a fluororesin film 2 is usually 100 μm or less, preferably 50 μm or less. In the present invention, an adhesive layer (not shown) may be provided between the rubber core body 2 and the fluororesin film 3.

Specific examples of the material forming the rubber core 2 as described above include thermoplastic elastomers and vulcanized rubbers. As a thermoplastic elastomer,
Examples thereof include SBS (styrene-butadiene-styrene block copolymer), SEBS (styrene-ethylene-butadiene-styrene block copolymer), EP (ethylene-propylene copolymer), PA (polyamide), polyurethane and the like. .

As vulcanized rubber, butyl rubber, SBR
(Styrene-butadiene rubber), EPR (ethylene-propylene rubber), EPDM (ethylene-styrene-diene rubber), NBR (acrylonitrile butadiene rubber), NR (natural rubber), IR (isoprene rubber), C
Examples thereof include R (chloroprene rubber), IIR (butyl rubber), chlorinated butyl rubber, brominated butyl rubber, fluororubber, and silicone rubber.

Specific examples of the fluororesin forming the fluororesin film 3 include PTFE (polytetrafluoroethylene), PFA (tetrafluoroethylene perfluorovinyl ether copolymer) and FEP (tetrafluoroethylene hexafluoro). Propylene), ET
FE (tetrafluoroethylene ethylene copolymer), C
Examples thereof include TFE (trifluorochloroethylene) and PVdF (polyvinylidene fluoride).

Of these, PTFE (polytetrafluoroethylene) is preferably used. In the present invention, in particular, in such a fluororesin film 3, a fluororesin film formed into a film shape is re-baked at a temperature equal to or higher than its melting point, and a granular projection is formed on the surface thereof.

FIG. 2 shows a cross-sectional view of the fluororesin film 3 used in the present invention. The re-baking treatment of the fluororesin film, preferably the PTFE film, is specifically
The E film is re-baked (heated) to a temperature equal to or higher than its melting point (327 ° C.), preferably 330 to 400 ° C., and then slowly cooled or rapidly cooled. Such re-baking treatment is preferably performed for 1 hour or more, more preferably 1 to 3 hours.

By this re-baking treatment, granular projections 3a having a diameter of 2 to 5 μm and a height of about 3 to 6 μm are formed on the surface of the fluororesin film 3. The rubber core body 2 and the fluororesin film 3 are firmly integrated via the granular protrusions 3a.

The diameter and height of the granular projections 3a are
It grows depending on the firing temperature (above the melting point) and the firing time. Further, the number (density) of the granular projections 3a also increases depending on the firing temperature and the firing time.

In the present invention, the fluororesin film 3 has such particulate projections 3a on the surface of the fluororesin film, preferably at least 1000 pieces / cm ² , more preferably at least 10,000 pieces / cm ² . Is desirable.

Since the fluororesin film 3 has such granular projections 3a, when the fluororesin film 3 and the rubber core 2 are integrated as described later,
The rubber core 2 and the fluororesin film 3 are firmly fixed to each other by the anchor effect (anchoring effect) of the granular protrusions 3a.

Generally, the fluororesin film is inferior in adhesiveness, but the fluororesin film 3 re-baked as described above is used.
Has excellent adhesiveness. Note that, in FIG. 2 as described above, the case where the fluororesin film 3 is directly integrated with the rubber core body 2 has been described, but as described above, the fluororesin film 3 is interposed between the fluororesin film 3 and the rubber core body 2. Even when the adhesive layer is provided, the fluororesin film 3 and the adhesive layer are firmly fixed by the granular protrusions 3a.

The fluororesin film 3 used in the present invention and refired as described above has no voids or pinholes. Therefore, even if the adhesive layer is provided between the fluororesin film 3 and the rubber core 2, the adhesive does not permeate the fluororesin film 3 and elute into the drug solution in the syringe.

The fluororesin film-covered sealing material according to the present invention is obtained by integrally molding the above rubber core and the fluororesin film. For example, as shown in FIG. 3, the fluororesin film 3 and the rubber core 2 are
A lower mold A having a concave portion corresponding to the shape of the seal material and an upper mold B having a convex portion for forming the concave portion 1c in the seal material are pressed to obtain a seal material having a shape as shown in FIG. Is obtained.

Such adhesive integration is usually 20 to 15
1 at a temperature of 150-180 ° C under a pressure of 0 kgf / cm ^2.
It is performed by heating for 60 minutes. In order to mold the fluororesin film-covered sealing material by compression molding in this way, a rubber block for forming the rubber core 2 may be arranged on the fluororesin film 3 and compressed.

The fluororesin film-covered sealing material according to the present invention has been described with reference to FIG. 1 showing the sealing material for a syringe as described above. The application of the fluororesin film-coated sealing material according to the present invention is not limited to this. It is not particularly limited, and it is preferably used also as a wrapping gasket as shown in FIG.

In FIG. 4, the envelope gasket 11 in which the peripheral surface of the rubber core body 12 is covered with the above-mentioned fluororesin film 13 is mounted between the flanges 14 and 14, for example.

Such a wrapping gasket is also useful as a clamp-type joint gasket that does not provide a large tightening force.

[0034]

The fluororesin-coated sealing material according to the present invention is excellent not only in sealing property and chemical resistance but also in sliding property.

The fluororesin-coated sealing material according to the present invention as described above is particularly preferably used as a sealing material for syringes. It is also preferably used as a wrapping gasket.

[Brief description of drawings]

FIG. 1 shows a cross-sectional view of a fluororesin-coated sealing material according to the present invention.

FIG. 2 shows a schematic sectional view of a fluororesin film layer.

FIG. 3 shows a manufacturing process diagram of a fluororesin-coated sealing material according to the present invention.

FIG. 4 shows a cross-sectional view of a fluororesin-coated package gasket embodiment according to the present invention.

[Explanation of symbols]

 1 ... Sealing material, 2 ... Rubber core, 3 ... Fluororesin film.

Claims (4)

[Claims] 1. A rubber core and a fluororesin film bonded and integrated on the surface of the rubber core. The fluororesin film is obtained by re-baking the fluororesin film at a temperature equal to or higher than its melting point. A fluororesin-coated sealing material, which is a fluororesin film having a surface on which granular projections are formed. 2. The fluororesin-coated sealing material according to claim 1, wherein the fluororesin film is obtained by re-baking the fluororesin film at a temperature equal to or higher than its melting point for 1 hour or more. 3. The fluororesin-coated sealing material according to claim 1, wherein the fluororesin film has 1000 or more granular projections / cm ^{2 on the} surface thereof. 4. The fluororesin-coated sealing material according to claim 1, which is a sealing material for a syringe.