KR20010001794A - Gel packing material of sealing type for telecommunication cable joint and process thereof - Google Patents

Abstract

PURPOSE: A new gel filler generating gelling reaction uniformly and quickly, having excellent elasticity and mechanical properties, having heat reversibility and causing no leakage of excess mineral oil by using a quaternary ammonium bentonite organic composite as a gelling agent and process for producing the same are provided, which are suitable for a filler for sealing connecting parts of an electrical cable. CONSTITUTION: In a filler for sealing connecting parts of an electrical cable containing styrene-ethylenebutylene-styrene block copolymer, mineral oil, an adhesion giving resin, an antioxidant, a flame retardant and a surfactant, 0.7 to 8 parts by weight of a quaternary ammonium bentonite organic composite as a gelling agent based on 100 parts by weight of a main component comprising a styrene-ethylenebutylene-styrene block copolymer having a weight average molecular weight of a styrene block of 2,000 to 5,000 and an ethylenebutylene block of 20,000 to 300,000 and mineral oil is added to the filler. The process of preparing the filler comprises the steps of dissolving quaternary ammonium bentonite organic composite as a gelling agent in mineral oil, mixing a styrene-ethylenebutylene-styrene block copolymer, an adhesion giving resin, an antioxidant, a flame retardant and surfactant with the mixture, heating the mixture at 170 to 190 deg.C and removing a foam and molding.

Description

Gel packing material of sealing type for telecommunication cable joint and process

The present invention relates to a sealing type gel filling of a communication cable and a method of manufacturing the same, and more particularly, to preparing a filling by diffusion and expansion techniques of a polymer in mineral oil, a quaternary ammonium bentonite organic compound is used as a gelling agent. By adding it, the gelation takes place uniformly and quickly, and the elastic recovery is quick even after dispersion, diffusion and expansion, so that the physical properties can be maintained for a long time in response to repeated stresses from the outside, and good thermal reversibility (solution ↔ gel) The gel properties do not disappear even when reused, and some mineral oils that do not participate in the swelling of the polymer come out to the surface and become sticky even when they come into contact with the gel filler in contact with the object. Of filling type gel filler with reduced communication cable connection and manufacturing method thereof The.

In the prior art for gel fillers, the basic resin is a styrene-alkylene-based block copolymer such as styrene-butadiene-styrene (SBS), styrene-isoprene-styrene (SIS), styrene- (ethylenebutylene) -styrene ( SEBS) block copolymers were mainly used. Recently, the mechanical properties and weather resistance of SEBS block copolymers are better than that of SIS block copolymers [G. Holden et al., Thermoplastic Elastomers, 2nd ed. (1996); Hanser Publishers, New York, p. 579; US Patent No. 4,716, 183; US Patent No. 5,442,004 is used a lot. The block copolymer has a weight average molecular weight of the styrene block of approximately 2,000 to 5,000, and the weight average molecular weight range of the other blocks is between 20,000 and 300,000. They dissolve in mineral oils to increase their volume, making them flexible and elastic.

However, in the case of the gel filler containing the block copolymer described above, the thermoplastic block copolymer component has a poor ability to receive oil, so that the resulting strength, elongation, creep, cracking, and tearing of the gel are generated. Mechanical properties such as US [4,618,213, U.S. Patent 5,153,254], difficult to join with junction boxes made of various materials such as steel, plastic, magnetics, etc. Lack of mechanical properties damage the gel filling itself (US Pat. No. 4,259,540). In addition, the resulting gel component is non-uniform, and the oil component is liberated from the gel component over time and partially escapes, and weather resistance problems such as oxidation resistance and heat resistance are caused. This tends to rupture easily even under weak shear stress (US Pat. No. 5,262,468).

As a method for overcoming this problem, the block copolymer is crosslinked with UV using a coupling agent [US Pat. No. 4,716,183], or a polyethylene wax having an average molecular weight of about 1,000 to 2,000 is mixed [US Pat. No. 4,509,821]. And a method of increasing the softening point of the gel filling by using a plasticizer having a solubility constant of 10 to 14 in combination with oil [US Pat. No. 5,442,004].

However, the gel filler prepared by the above method is plasticized with mineral oil, but because of its low mechanical properties such as tensile strength and elongation, it is resistant to breakage, elongation, creep, cracking and tearing. Inferiority, incompatibility due to incompatibility between various compounds, weak adhesion, easily falling off the connecting cable or junction box, physical and chemical properties of the cable itself as time passes after construction Phase change occurs between the polymer resin and the oil due to the change, and in addition, there is a problem that they are combustibles that are easily burned in a fire.

Therefore, the inventors of the present invention to prepare a sealing type gel filling of the communication cable, using a quaternary ammonium bentonite organic composite as a gelling agent to cause the gelation uniformly and quickly, excellent elasticity and mechanical properties, has a thermal reversibility, To provide a new communication cable connection sealing type gel filling and preventing the excess mineral oil to the surface and its preparation method.

The present invention relates to a sealing filler for communication cable connection containing styrene-ethylene butylene-styrene block copolymer, mineral oil, tackifier resin, antioxidant, flame retardant and surfactant, wherein the filler is quaternary ammonium bentonite as gelling agent. It is characterized by a sealed gel filling of a communication cable connection containing an organic compound.

Further, in the method for producing a communication cable sealing portion of the filling,

Iii) dissolving the quaternary ammonium bentonite organic composite as a gelling agent in mineral oil;

Ii) mixing styrene-ethylenebutylene-styrene block copolymer, tackifying resin, antioxidant, flame retardant and surfactant to the mixture;

I) heating the mixture to 170 to 190 ° C. to dissolve it, stirring and removing bubbles under vacuum; And,

Iii) another method of manufacturing a communication cable connection sealing type gel filling, which comprises a step of pouring the mixture from which the bubbles are removed to a molding mold in which the bottom surface is in contact with the cooling water.

Referring to the present invention in more detail as follows.

In the present invention, in the manufacture of the sealing type filling of the communication cable connection, first, by using a gelling agent of ammonium bentonite organic compound to make an oil solution of a certain viscosity, here styrene-ethyl butylene-styrene (hereinafter referred to as 'SEBS' Abbreviated) dissolving the block copolymer allows the gelation to occur uniformly and quickly, so as to cope with repeated stresses from the outside as well as thermoreversible (solution ↔ gel), and does not participate in some swelling. It solves the problem that the oil degrades the gel properties or sticks to the surface, so that the gel filler has high tensile strength and elongation, good flexibility, elasticity and flame retardancy even under the conditions of impact and stress. Melt regeneration was possible so that the characteristics of the gel did not disappear even when reused.

In more detail, in the present invention, in the preparation of the filler, the lipophilic styrenic block copolymer and mineral oil are used as basic raw materials to have electrical insulation and water resistance, and additionally, a tackifier, an antioxidant, a flame retardant, By allowing additives such as gelling agents and surfactants to be kneaded as quickly and uniformly as possible, and then poured into a bowl of the desired shape and left at room temperature, the gel fillers are prepared for elastic flexibility, mechanical strength, adhesion, oxidation resistance and It was made to be flame retardant.

The lipophilic block copolymer used in the present invention is a SEBS block copolymer, and the physical properties vary depending on the component ratio of the styrene block and the ethylene butylene block at the sock end. At this time, SEBS block copolymers have a wider range of average molecular weight than narrow ones, so that they can be mixed well with each other, and gel filling can be formed with a minimum volume. It can make a difference. When the mineral oil approaches the SEBS block copolymer resin, it is mixed with the oil and plasticized, followed by the diffusion or expansion of the SEBS block copolymer by the oil, and finally the diffusion and expansion of the mineral oil into the mineral oil. You get a gel fill with elasticity.

In the present invention, the gelling agent makes the dispersion, diffusion, and expansion of the SEBS block copolymer resin in the mineral oil more uniform and rapid. The gelling agent is added to the mineral oil to help form the gel, and in particular, by converting the oil into a solution of constant viscosity, the dispersion, diffusion and expansion of the SEBS block copolymer resin in the mineral oil is more uniform and rapid. To be done. In the present invention, a quaternary ammonium bentonite organic composite is used as the gelling agent.

The gel filling obtained in the present invention is in a fluid state when heat is applied, and has a thermal reversibility which is rapidly converted into gel when cooled to room temperature. That is, the gel is in a fluid state above the melting temperature of the gel, and when the temperature is lowered and cooled to room temperature, the gel shape and its characteristics appear quickly due to the difference in solubility between the block copolymer components. In other words, when the temperature of the oil mixture rises, some of the blocks of the styrene component of the block copolymer component begin to melt, but phase separation is observed. The gel forms as a network is formed between the better melted portion and the less well melted portion. The physical properties of this gel filler are mainly related to the content of the block copolymer and its molecular weight and the content of the aromatic component in the block copolymer.

In the present invention, the gel filler obtained by transparently mixing the mineral oil with the block copolymer resin evenly is recovered to its original state even after elongation, thereby providing excellent elasticity. In addition, by obtaining the desired tensile strength, restoration to the original shape is easy even after deformation occurs due to stress and impact applied to the gel filling. In this way, the gel filling material has easy flexibility and easy construction by having soft flexibility and elastic restoring force, and as described above, it is possible to reuse the gel filler because of its thermal reversibility. For this reason, the gel filler can be widely used in communication cable connections as well as sports articles, medical supplies, optical articles, household articles, etc., which require covers, enclosures, shock or vibration absorption.

When the present invention is described in more detail, the present invention uses SEBS block copolymer resin as the block copolymer resin, but thermal diffusion to the hydrocarbon-based mineral oil having a higher boiling point than the softening point of the copolymer resin, Some dissolving gelling agent or pre-made in situ gel component is used for uniform dispersion or diffusion, tackifying resin for bonding with housing made of polymer resin, antioxidant for increasing oxidation resistance, flame retardant in case of fire In order to obtain a flame retardant and the like.

The main component of the gel filler is generally composed of 2-30 wt% of the SEBS block copolymer resin and 70-98 wt% of the mineral oil, of which the gel filler having 2-15 wt% of the SEBS block copolymer is soft. Gel fills, consisting of 15 to 30% by weight, are obtained in a rigid form. However, if the content of SEBS block copolymer is out of the above range, it is impossible for the gel fill formation itself to be uneven or completely dissolved, dispersed and diffused in oil.

The SEBS block copolymer resin is characterized in that the weight average molecular weight of the styrene block is 2,000 to 5,000, and the weight average molecular weight of the ethylene butylene block is 20,000 to 300,000. If the weight average molecular weight of the styrene block and the ethylene butylene block of the SEBS block copolymer resin is less than the above range, the strength of the gel filler is weak, or if the weight average molecular weight is more than the above range, uniform dissolution is difficult and a good gel filler is not obtained.

In addition, as described above, additives such as a tackifier resin, an antioxidant, a flame retardant, a gelling agent, and a surfactant are used to assist physical properties of the SEBS block copolymer and the mineral oil which are the main components used in the present invention.

In the present invention, the tackifier resin is used to impart the bond between the cable connection box and the gel filler. In the present invention, as the tackifying resin, rosin, kumarone indene resin, alkylphenol resin, phenol resin, xylene resin, butene resin, terpene resin, terpene phenol resin, hydrogenated rosin, modified xylene resin, C ₅ petroleum At least one selected from resins and C ₉ petroleum resins is used. Such tackifier resin is added to the oil before the block copolymer and the oil are mixed, and is used in an amount of 1 to 15 parts by weight based on the total amount of the block copolymer and the oil. At this time, if the amount of the tackifying resin solution used is less than 1 part by weight, it is not effective to improve the bonding property, and if it is 15 parts by weight or more, the bonding property is so strong that it is very difficult to remove from the junction box during reuse.

In the present invention, the antioxidant is used to improve the oxidation resistance to the unsaturated structure of the block copolymer. In the present invention, as an antioxidant, 2,6-di-t-butyl-p-cresol (BHT), Irganox 1010 (Ciba-Geigy), Irganox 1076 (Ciba-Geigy), octadecyl 3- (3,5- Di-t-butyl-4-hydroxyphenyl) propionate, triethylene glycol-bis-3- (3-t-butyl-4-hydroxy-5-methylphenyl) propionate, 1,1,3-tris ( At least one selected from 5-t-butyl-4-hydroxy-5-methylphenyl) butane, dilauryl thiodipropionate and tris (nonylphenyl) phosphite is used. Such antioxidant is added to the oil before the block copolymer and the oil are mixed, and 0.5 to 2 parts by weight is used based on the total amount of the block copolymer and the oil. If the amount of the antioxidant is 0.5 parts by weight or less, the gel filler has a light yellow color because it is not effective in improving the oxidation resistance, and if it is 2 parts by weight or more, the uniformity or mechanical properties may be related to the solubility of the mixture. Degrades.

In the present invention, the flame retardant is used to have a flame retardancy in the event of a fire in the communication cable connection, the flame retardant is tris (2-chloroethyl) phosphite, tris (2-chloroethyl) phosphate, tris (2-chloropropyl) phosphate, 1 selected from tris (2,3-dibromopropyl) phosphate, tris (2,3-dichloropropyl) phosphate, tris (2-ethylhexyl) phosphate, tris (2-ethylhexyl) phosphite, and tricresylphosphate Use more than one species. In the present invention, the flame retardant is used by mixing with the mineral oil, when using the flame retardant mixed with oil is used 6 to 22 parts by weight based on the total amount of the block copolymer and oil. At this time, if the amount of the flame retardant is less than the above range is less effective to improve the flame retardancy, if the amount of the flame retardant exceeds the above range, in the case of some flame retardants less compatible with mineral oil, gel due to lack of solubility in SEBS block copolymer This lowers the mechanical properties of the filling.

In the present invention, the gelling agent is added for good compatibility of the SEBS block copolymer resin and the mineral oil. The gelling agent is added to the oil in advance and dissolved to make the dispersion, diffusion and expansion of the SEBS block copolymer resin in the mineral oil more uniform and rapid. In particular, the agitation is not stirred until the SEBS block copolymer is diffused into the oil so that no bubbles are generated in the gel filling, and after the block copolymer has been diffused, the stirring rate is 10 to 50 rpm for mixing the various additives. Stir for less than 5 hours.

The gelling agent helps to form a gel, and in detail, a relatively small amount is easily dissolved in the mineral oil to convert the oil into a solution of a certain viscosity, thereby dispersing and diffusing the block copolymer resin in the mineral oil. This allows the expansion to be more uniform and faster. It also serves to remove some excess oil in the free state with the block copolymer present on the surface of the gel fill.

In the present invention, the gelling agent is characterized in that the quaternary ammonium bentonite organic composite. The quaternary ammonium constituting the organic composite is characterized in that at least one C ₁₀ to C ₂₄ long-chain alkyl group is substituted as a substituent. The organic compound is an ammonium salt containing a relatively long chain alkyl group in a lipophilic (親 油性), and effectively helps the SEBS block copolymer is dispersed, diffused, and expanded in the mineral oil. In the present invention, the gelling agent is characterized by using 0.7 to 8 parts by weight based on the block copolymer and mineral oil. If the amount of the gelling agent is less than 0.7 parts by weight, there is no swelling effect on the oil diffusion or removal of excess oil due to lack of viscosity and the required amount, and if the amount of the gelling agent is more than 8 parts by weight, uniform viscosity due to the decrease in solubility. There is a problem in obtaining an oil solution.

In the present invention, the surfactant is used so that the SEBS block copolymer resin and the mineral oil, the tackifier resin, the antioxidant, the gelling agent, and the flame retardant are mixed well. As the surfactant, a nonionic surfactant is a polyethylene glycol nonylphenyl ether having a HLB (Hydrophilic Lipophilic Balance) value of 9-18, polyethylene glycol octylphenyl ether, polyethylene glycol dodecylphenyl ether, polyethylene glycol alkylaryl ether, polyethylene glycol ole One ether, polyethylene glycol lauryl ether, polyethylene glycol alkyl phenyl ether, polyethylene glycol olefin acid ether, polyethylene glycol distearic acid ether, polyethylene glycol sorbitan monolaurate, polyethylene glycol sorbitan monostearate, polyethylene glycol alkyl ether, polyoxy It is selected from ethylene lanolin alcohol ether and polyoxyethylene lanolin fatty acid ester, and is used individually or in combination. The formation and stability of the uniform gel largely depends on the type and amount of the surfactant. In the present invention, the amount of the surfactant is preferably 0.1 to 0.8 parts by weight based on the total amount of the block copolymer and the oil. When the amount of the surfactant is less than 0.1 part by weight, the oil is slightly released on the outer surface of the gel, resulting in poor mixing properties, and when used more than 0.8 parts by weight, deteriorates the bonding properties of the tackified resin added with good surfactant. Even a small change has a problem that the property change is large.

The gel filling consisting of the above components exhibits adhesive strength in the junction box of various materials regardless of the outer sheath of the steel, plastic and ceramics as well as the adhesive seal of the communication cable connection part, thereby connecting the cable and the protective sheath without any gap. It can provide electrical insulation, water resistance, corrosion resistance and pollution resistance to various cable connections. In addition, it can be used to prevent leakage, corrosion, and leakage of water and sewage pipes and gas pipe connections (seams) that require similar functions as those of communication cables. It can be given. Gel fillers, on the other hand, allow electricity to communicate with hydrophones to transmit sound, prevent corrosion of the wire joints by salt water, and are less susceptible to external shock, vibration and temperature changes. Has flexibility and elastic resilience. Highly lipophilic gel fillers have been used primarily in joints such as telecommunications, electric wires, pipes and steel frames, but are now expanding their range to include medical, sports, toys, optical lenses, marine equipment and cushions, pillows, pads and mattresses. It can be used as a sealant, shock absorber (for example, corrosion resistance / shock-absorbing material in the joint between the rail / sleeper) or sound insulation.

Referring to the manufacturing method of the communication cable connection sealing gel filling of the present invention as a series of one process as follows.

First, mineral oil is added to a reactor equipped with a stirring device under a nitrogen atmosphere, and a gelling agent, an ammonium bentonite organic compound, is added thereto to dissolve it. When the gelling agent is dissolved in the mineral oil, the viscosity of the oil solution is increased, so that the mixture is uniformly and quickly solutioned.

Then the SEBS block copolymer, flame retardant, tackifier, antioxidant and surfactant are added to the mineral solution in which the gelling agent is dissolved.

The mixture is heated to 170 to 190 ° C and dissolved without stirring. When stirring in the above process, bubbles are generated in the gel filling, which is not preferable. The mixture is then stirred at 170-190 ° C. for mixing of the additives and a bubble is removed by applying a vacuum of 30-160 mmHg to the reactor.

The bubble-free mixed solution is poured into a mold in which the bottom surface is in contact with the cooling water to prepare a gel filling of a desired type.

Although this invention is demonstrated in detail based on an Example, this invention is not limited by an Example.

Examples 1-16, Comparative Examples 1-8

First, mineral oil was added to a stainless steel reactor with a stirrer under a nitrogen atmosphere, and then a gelling agent, an ammonium bentonite organic compound, was dissolved.

SEBS block copolymer, flame retardant, tackifying resin polybutene resin, antioxidant and surfactant are mixed with mineral oil in which gelling agent is dissolved.

The mixture was melted at 180 ° C. for 3 hours without stirring to form a uniform solution, stirred at a speed of 40 rpm for 2 hours at the same temperature, and then subjected to a vacuum of 70 mmHg to remove bubbles. The gel was prepared by pouring the solution into a mold having a desired shape (type injected with PE or ABS) in which the bottom portion of the bottom face was in contact with the cooling water, and then standing at room temperature.

Cone penetration, tensile strength and elongation of the gel filler prepared as described above were measured, and appearance, yellowing and flame retardancy were observed. Cone penetration was measured by the method of ASTM D217-82. Tensile strength and elongation were measured using a universal testing machine (Instron 1125), and the specimens of ASTM D638 Type 2 were pulled from the cross head until fracture occurred at a rate of 500 mm / min. Elongation is shown by dividing the extended length by the original length.

The contents and physical properties of each component of the gel filler are shown in Tables 1-3.

On the other hand, the solubility constants of mineral oil are 6.7-7.7 (cal / cm ³ ) ^1/2 , the solubility constants of styrene block component are 8.5-9.3 (cal / cm ³ ) ^1/2 , and ethylene-butylene block component. Since the solubility constant is 7.8 ~ 8.1 (cal / cm ³ ) ^1/2 , it is difficult to dissolve at room temperature, but when the oil temperature is raised above the softening point of the copolymer, it becomes a uniform solution. A network fill was obtained between the better soluble and less soluble components to obtain a physically stable gel fill.

On the other hand, rosin esters (Woojin Chemical, WI-200) and C ₅ petroleum resins (Goodyear, Wingtack 95), which are tackifying resins, take 1 to 3 hours to dissolve in oil in solid state. Partial stickiness is very strong when it is used a little due to lack of miscibility of polybutene, while polybutene resin is generally miscible in a liquid state, and oil stickiness can be controlled relatively evenly by controlling usage. there was.

In addition, the antioxidants used in the present invention, Irganox 1010, Irganox 1076 and the like are all dissolved in the mineral oil well to serve to prevent discoloration of the gel filler.

On the other hand, in the case of Comparative Examples 6-8, the comparatively long time was needed when removing a bubble by vacuum compared with Examples 1-16.

From these examples, the physical properties suitable for gel filling should maintain tensile strength of less than 160 psi and elongation of at least 1,100%, and cone penetration showing strength of gel filling is in the range of 130 to 250 × 10 ^-1 mm. Was suitable.

^a Shell, 29 to 33% by weight of styrene blocks, 67 to 71% by weight of ethylene butylene blocks,

Weight average molecular weight 100,000 to 240,000

^b Fina Chemical, A: Irganox 1010, B: Irganox 1076

^c Hoechst, Glenemol P [tris (2-chloroethyl) phosphate]

^d Daelim Industry

^e Ciba-Geigy

^f Sd-Chemie Rheologicals

^g Southeast Synthesis

^h presence or absence of free oil on the gel surface; ○: none, △: slightly, ×: many

ⁱ ) yellowing when exposed to air at 40 ° C. for 48 hours; ×: none, △: slightly, ○: many

^j Extinguishing itself within 5 seconds after ignition; (Circle): good, (triangle | delta): normal, x: bad.

^a Shell, 29 to 33% by weight of styrene blocks, 67 to 71% by weight of ethylene butylene blocks, weight average molecular weight 100,000 to 240,000

^b Fina Chemical, A: Irganox 1010, B: Irganox 1076

^c Hoechst, tris (2-chloroethyl) phosphate

^d Daelim Industrial Co., Ltd.

^e Ciba-Geigy

^f Sd-Chemie Rheologicals

^g Southeast Synthesis

^h presence or absence of free oil on the gel surface; ○: none, △: slightly, ×: many

ⁱ ) yellowing when exposed to air at 40 ° C. for 48 hours; ×: none, △: slightly, ○: many

^j Extinguishing itself within 5 seconds after ignition; (Circle): good, (triangle | delta): normal, x: bad.

^a Shell, 29 to 33% by weight of styrene blocks, 67 to 71% by weight of ethylene butylene blocks, weight average molecular weight 100,000 to 240,000

^b Fina Chemical, A: Irganox 1010, B: Irganox 1076

^c Hoechst, tris (2-chloroethyl) phosphate

^d Goodyear, Wing Tack 95 (C ₅ Petroleum Resin)

^e Ciba-Geigy

^f Sd-Chemie Rheologicals

^g Gel fillings prepared in the same way in advance without organocray

^h Southeast Synthesis

ⁱ presence or absence of oil free on the gel surface; (Circle): none, (triangle | delta): Slightly, x: many.

^j yellowing when exposed to air at 40 ° C. for 48 hours; ×: none, △: slightly, ○: many

^{k Have} self extinguish within 5 seconds after ignition; (Circle): good, (triangle | delta): normal, x: bad.

The present invention provides a gel filling and sealing method for the communication cable connection part, the gelling agent is added to the mineral oil to uniformly and quickly gelation, and even after the dispersion, diffusion, and expansion occurs, the elastic recovery is fast and repeated from the outside. It maintains its properties for a long time in response to stresses, and it has good thermal reversibility (solution ↔ gel) so that the gel properties do not disappear even when reused, and some mineral oils that do not participate in swelling of the polymer surface. As a result, there is an effect of providing a communication cable connection-sealed gel filler and a method of manufacturing the same, which reduce a phenomenon such as marks or stickiness upon contact with a corresponding portion of the gel filler in contact with the object.

Claims (6)

In a sealing filler of a communication cable connection containing styrene-ethylene butylene-styrene block copolymer, mineral oil, tackifying resin, antioxidant, flame retardant and surfactant, a quaternary ammonium bentonite organic compound is used as a gelling agent in the filler. Sealed gel filler, characterized in that the communication cable connection. The communication cable connecting part according to claim 1, wherein the quaternary ammonium bentonite organic composite contains 0.7 to 8 parts by weight based on 100 parts by weight of a main component composed of styrene-ethylenebutylene-styrene block copolymer and mineral oil. Sealed Gel Fill. The quaternary ammonium salt constituting the organic composite according to claim 1 or 2, wherein at least one C ₁₀ to C ₂₄ long-chain alkyl group is substituted as a substituent. The method of claim 1, wherein the styrene-ethylene butylene-styrene block copolymer is a weight average molecular weight of 2,000 to 5,000 of the styrene block, the weight average molecular weight of the ethylene butylene block is 20,000 to 300,000, the cable connection sealing Mold gel filler. The method of claim 1, wherein the tackifier resin is a liquid-type polybutene resin in the range of the weight average molecular weight of 3,000 to 5,000, characterized in that the communication cable connection sealing sealant gel filler. In the method of manufacturing a communication cable sealing portion of the filler, Iii) dissolving the quaternary ammonium bentonite organic composite as a gelling agent in mineral oil; Ii) mixing styrene-ethylenebutylene-styrene block copolymer, tackifying resin, antioxidant, flame retardant and surfactant to the mixture; I) heating the mixture to 170 to 190 ° C. to dissolve it, stirring and removing bubbles under vacuum; And, Iii) a method of manufacturing a communication cable sealing portion-filled gel filling, characterized in that the foamed mixture is poured into a molding mold having a bottom surface in contact with cooling water.