JPH0679847A - Gel-like elastic body - Google Patents

Abstract

PURPOSE:To provide a gel-like elastic body having a soft touch quite similar to the human skin, and capable of holding employed for a long period for the manipulation and supplementation of the breasts or soft tissue parts from the outside of the body, or confusing models of human bodies. rehabilitation devices for restoring grasping powers, and the like. CONSTITUTION:The gel-like elastic body is composed by covering, with films 2,3 having adhesion with the gel, the outer periphery of polyurethane gel 4 which is obtained by reacting polyole having a chain of alkyleneoxide and/or polyurethane polyole prepolymer having a chain of alkyleneoxide with polyurethane polyisocyanate prepolymer having a chain of alkyleneoxide.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is suitable for external breast correction, correction of prostheses and soft tissue parts of humans, pseudo models of prostheses or humans, and rehabilitation instruments for grip strength recovery. It relates to a soft elastic body.

[0002]

2. Description of the Related Art Conventionally, hydrogel, silicone rubber, vulcanized rubber or soft polyurethane foam has been used as a gel-like soft elastic body for external breast correction and prosthesis. Further, as a pseudo model of a human body, a mannequin doll made by blow molding of synthetic resin or FRP is generally widely used, and soft rubbers are usually used as a rehabilitation instrument for grip strength recovery.

[0003]

The surface of soft hydrogel, silicone rubber, vulcanized rubber, etc., which has been used for the above purpose, is conventionally covered with a synthetic resin film. In this case, the film and the gel or rubber in the film are not completely in close contact with each other, but the gel and the rubber have an adhesive property, and thus are in a state of being adhered to the film.

However, when the water-containing gel is used for a long period of time, a large amount of water is floated in the film and the gel and water are separated, and the film surface and the gel are separated, so that the initial softness changes with time. There was a problem of doing. Further, in the case of rubber, the oil leached on the surface of the rubber, and the film and the rubber were separated from each other, which had the same problem. In addition, there is a problem that moisture or oil in the gel bleeds out over time to the surface of the film and adheres to human skin upon contact, which is unsanitary.

On the other hand, the pseudo model of the human body found in mannequin dolls and the like has a hard surface, so that it does not follow the natural shape of the human chest such as a brassiere or slip, and therefore the silhouette when actually worn is There was a problem that it could not appear cleanly and it was difficult to give a true soft image, and there was a demand for a soft gel with physical properties that closely resembled human skin.

The present invention has been made in view of the above problems.
It is an object of the present invention to provide a gel-like elastic body which has an extremely soft touch and can withstand long-term use.

[0007]

The gel-like elastic material of the present invention comprises a polyol having an alkylene oxide chain or /
And a polyurethane gel prepolymer having an alkylene oxide chain and a polyurethane polyisocyanate prepolymer having an alkylene oxide chain, the outer periphery of which is covered with a film having adhesion to the gel. .

[0008]

The polyurethane gel of the present invention is a so-called Liquid Segment Gel which is formed of a liquid segment which is in a gel state even if there is essentially no water, unlike a hydrogel. Therefore, since it has very little water,
Since the moisture is not released and the outer periphery of the gel is covered with a film having adhesiveness, the film and gel do not become separated with time, and a semi-permanently integrated soft gel The elastic body is maintained. Therefore, the film has a feeling like a skin of a gel, and exhibits a function according to each application. That is, when it is used for external breast correction, correction of prosthesis or soft tissue part of human body, prosthesis or pseudo model of human body, it is easy to adapt to the skin and has a touch and elasticity very similar to human body. Further, when used in a rehabilitation device for grip strength recovery, since the gel and the exterior film are in close contact with each other, the two do not peel off and the physical properties do not change even after repeated use.

[0009]

EXAMPLES Examples of the present invention will be described in detail below.

A polyurethane film is preferably used as the film used in the present invention. Especially 300% elongation,
Elastic modulus is 200 kg / cm ² , breaking strength is 500 kg
Those relatively high as / cm ² can be suitably selected. In addition, any film can be used as long as it can adhere to the polyurethane gel. Other polyethylene films and rubber films can also be used, but in the case of a polyethylene film, there is no bond at the interface between the film and the urethane gel, and it adheres only by the adhesive force of the urethane gel, and easily peels off after long-term use. So be careful. If a rubber film is used,
The vulcanizing agent is leached out, the adhesive force is reduced at the interface of the gel, and it becomes difficult to adhere, which is not very good. In comparison with these, in the case of a polyurethane film, both the film and the polyurethane gel have urethane bonds, and therefore the compatibility is very excellent. When the resin of the polyurethane gel is put into a polyurethane film and reacted, a slight bond occurs at the interface between the gel and the film, resulting in good adhesion. Therefore, it withstands long-term use.

The present invention provides a polyurethane gel-like elastic body obtained by reacting a polyol having an alkylene oxide chain or / and a polyurethane polyol prepolymer having an alkylene oxide chain with a polyurethane polyisocyanate prepolymer having an alkylene oxide chain. This elastic body is an internally penetrating type structured by alkylene oxide segments.
(Interpenetrated Network) One-component gel of segmented polyurethane, which has good adhesion and water resistance, and is completely harmless to the human body.

Such an elastic body has the following structural formulas (1) to
By mixing one or two or more of the polyether component of (4) with one or more of the polyisocyanate components of the following structural formulas (5) to (8), injecting them into a molding die, and reacting them. It can be easily molded. Structural formula (1)

[Chemical 1] (However, R1 and R2 are alkyl compounds, alicyclic compounds,
It is any of aromatic compounds, and (AO) is an alkylene oxide chain. )

Structural formula (2)

[Chemical 2]

Structural formula (3)

[Chemical 3] Structural formula (4)

[Chemical 4] (However, (AO) is an alkylene oxide chain, and
Is a hydrogen atom or an alkyl compound, an alicyclic compound, or an aromatic compound, and l is an integer of 1 or 4. )

Structural formula (5) -1

[Chemical 5]

Structural formula (5) -2

[Chemical 6]

Structural formula (6)

[Chemical 7]

Structural formula (7)

[Chemical 8] Structural formula (8)

[Chemical 9] (However, (AO) is an alkylene oxide chain, and
Is an alkyl group, an alicyclic compound or an aromatic compound, and l is an integer of 1 or 4. )

The prepolymer as the polyol represented by the above structural formulas (1) to (4) will be described below.
Is a polyurethane polyol prepolymer which is a reaction product of a polyether polyol and a diisocyanate, wherein both end components are polyether polyols and both ends are -OH groups. The diisocyanate compound used here is
It is the same as that of the polyurethane polyisocyanate prepolymer described later, for example, phenylene diisocyanate, 2,2,4-toluylene diisocyanate (TDI), 4,4'-diphenylmethane diisocyanate (MDI), naphthalene 1,5-diisocyanate. , Hexamethylene diisocyanate (HMDI), tetramethylene diisocyanate (TMDI), lysine diisocyanate, xylylene diisocyanate (XD
I), water-added TDI, water-added MDI, dicyclohexyldimethylmethane p, p'-diisocyanate, diethyl fumarate diisocyanate, isophorone diisocyanate (IPDI) and the like can be optionally used.

Further, the structural formula (2) is represented by glycerol (l =
1) or sorbitol (l = 4) with a polyether polyol added.

The structural formula (3) is obtained by adding a polyether to trimethylolpropane, and similarly 1,2,6-hexanetriol, trimethylolethane, or pentaerythritol C ( CH ₂ OH)
₄ , or polyglycerin represented by the following structural formula (n = 2
Addition products of polyhydric alcohols such as (a positive integer of -30) and partial esters thereof and polyether polyols can also be used.

[0022]

[Chemical 10]

[Chemical 11]

[Chemical 12] In this case, (AO) may be a homopolymer, a block copolymer or a random copolymer.

The structural formula (4) is a polyether polyol having an alkylene oxide chain, and both ends are --OH.
It may be a group, or may have one end blocked with an alkyl group, an aromatic group, etc., and is easily available as a commercial product.

Next, the polyisocyanate prepolymers represented by structural formulas (5) to (8) will be described. Structural formula (5) -1 represents two molecules of triisocyanate obtained by reacting dimethylolpropane with diisocyanate ( AO) is a tetrafunctional tetraisocyanate dimerized with one molecule, and a polyisocyanate prepolymer of the structural formula (5) -2 is one in which glycerol is used instead of trimethylolpropane. This type of tetraisocyanate cannot be obtained by reacting two or three molecules of (AO) with two molecules of triisocyanate, and therefore (AO)
It is necessary to adjust the reaction delicately by making the amount of O) smaller than the chemical equivalent amount. Therefore, unreacted triisocyanate is mixed, but when this reacts with the polyol, the size of the segmented polyurethane molecule varies, which may act in a more convenient way to control the hardness of the gel elastic body.

The structural formula (6) is obtained by reacting the polyol of the structural formula (2) with diisocyanate and is trifunctional or hexafunctional, and the structural formula (7) is the same as that of the structural formula (3). Diisocyanate is reacted and is trifunctional. Structural formula (8) is a reaction product of a polyether polyol and a diisocyanate and is bifunctional.

Examples of the compound constituting the alkylene oxide chain include polymethylene glycol, polyethylene glycol, polypropylene glycol, polybutylene glycol, polytetramethylene glycol, polypentamethylene glycol, polyhexamethylene glycol, polyheptamethylene glycol and the like. Of these, polyethylene glycol, polypropylene glycol, and low molecular weight polytetramethylene glycol are easily available as liquid substances at room temperature.
Further, these copolymers, for example, the polymers represented by the following structural formulas can also be used.

[Chemical 13]

[Chemical 14] (However, l, m, and n are integers of 1 or more.)

These copolymers are block copolymers,
It may be any of random copolymers. Further, the segments in one prepolymer may be composed of different types of alkylene oxide chains.

Next, the reaction ratio of the polyol component and the polyisocyanate component will be described. Empirically speaking, the polyurethane gel-like elastic body constituting the present invention has a relatively bulky molecule having an appropriate molecular weight, and a freely movable segment length or a linear terminal. It is necessary to have an appropriately movable molecule. Therefore, if each of the polyol and the polyisocyanate is a single compound, one of them must be a bifunctional compound, and the other one must be a combination of trifunctional or more compounds. If either of them is monofunctional, they will not be linked, and if they are bifunctional, they will be linear molecules, which is not suitable. In other words, it is preferable that one of them is bifunctional and the other is trifunctional or more. However, in both cases, the reaction product of those having too large a functional number has a high network chain concentration, and thus a long liquid segment is required for gelation. However, the length of the segment is limited by the problem of reaction establishment. The number of functional groups for easily obtaining a gel-like elastic material is a combination of 2 to 4, and in particular, a combination of bifunctional and trifunctional is easy to adjust in terms of formulation. In this case, in order to finely adjust the hardness and other physical properties of the gel-like elastic material, one having one functional group can be mixed and used as an internal dispersion medium. Further, when the (AO) chain of the polyol or polyisocyanate prepolymer is all fairly long, a polyfunctional polyhydric alcohol or polyisocyanate (none of which has an (AO) segment) is mixed. By controlling the network chain morphology,
You may devise so that a gel-like elastic body may be obtained.

The reaction ratio of each prepolymer of polyol and polyisocyanate can be controlled by the ratio of terminal functional groups, that is, the OH / NCO value. Unreacted -N
OH / NCO must be 1 or more, since post-reaction occurs when CO remains.

The molecular weight range of the polyol and the polyisocyanate varies in a wide range depending on the (AO), the type of the isocyanate, the molecular shape, and whether the (AO) is a homopolymer or a copolymer. Approximately 1400 to 10000, polyol is approximately 150 to 6000, and polyurethane polyisocyanate prepolymer is approximately 500 to 10,000, preferably approximately 1000 to 6000 and 200 to respectively.
It can be selected in the range of 3000 and 800 to 5000.

As a reaction catalyst for the polyol and the polyisocyanate, for example, an appropriate amount (about 0.01 to 1.0%) of a tertiary amine such as dibutyltin dilaurate, trialkylamine or triethylenediamine is added to improve the reaction rate. You may adjust.

Here, a method of manufacturing the artificial breast will be described with reference to the drawings. FIG. 1 is a perspective view of an artificial breast showing an embodiment of the gel-like elastic body of the present invention, in which 1 is an artificial breast, 2 is a recess side surface film, and 3 is a flat back film.
FIG. 2 is a cross-sectional view of the artificial breast of FIG. 1, in which a polyurethane gel 4 is filled between the front surface film 2 and the rear surface film 3. In such an artificial breast 1, first, the surface film 2 is thermoformed into a desired shape, for example, a bowl shape. The edge of the film formed into a substantially hemispherical shape is cut into a circle. A flat film having the same size as the circular formed film is cut, and the circumferential ends 5 of both films are heat-sealed with a gap therebetween.

On the other hand, a method for producing a polyurethane gel will be described. 1 PEG-PPG-PEG block copolymer (molar ratio 1: 2: 1, Mw: 2000) in which polyethylene glycol is bonded to both ends of polypropylene glycol
00 parts by weight and monomethoxy polyethylene glycol (M
w: 550), polypropylene glycol is added to trimethylolpropa and polypropylene glycol obtained by reacting with hexamethylene diisocyanate is added to the triisocyanate (M)
w: 3100) and 132 parts by weight of dibutyltin dilaurate as a catalyst were added, and the mixture was thoroughly stirred and mixed.

This mixture was completely degassed under reduced pressure and poured from the partially unfused gap portion of the heat-sealed film, the gap was completely fused, and then left at 60 ° C. overnight. As a result, a polyurethane gel elastic body is obtained.

The artificial breast 1 thus obtained is used by adhering the back surface of the breast 1 to the chest of a mannequin doll with an adhesive. In particular, it is effective for various uses such as underwear maker's use on the chest of a mannequin doll, and a study for attaching a dynamic device to the doll to keep a better wearing condition of the brassiere by the movement of the breast. It can also be used by attaching it to a brassiere or slip. Further, it can be used for externally adjusting the chest (breast) of a woman who has undergone breast cancer surgery, prosthesis and the like.

As described above, in the gel-like elastic body of the present invention, the hardness of the content polyurethane gel can be freely adjusted. Moreover, since the outer surface of the gel can be formed into a desired shape of the film, an optimum size for recovering grip strength, shape, hardness, etc., which can be freely made in accordance with the degree of recovery of the patient, Moreover, since the film and gel are in close contact with each other, the feeling during use is very good.

[0037]

As is apparent from the above description, the gel-like elastic body of the present invention has a state in which the polyurethane gel, which does not contain water to the extent that it is released, is in close contact with the film covering the outer periphery of the gel. When used for soft tissue correction of human body, prosthesis, pseudo model of human body, rehabilitation device for grip strength recovery, etc., the film does not peel off and the gel feel is transmitted as it is, so the touch is very good. It is easy to get used to, and when a urethane film is used, it has an unprecedented remarkable effect that the elasticity does not change even after long-term use.

[Brief description of drawings]

FIG. 1 is a perspective view of an artificial breast showing an embodiment of a gel-like elastic body of the present invention.

FIG. 2 is a sectional view taken along line XX of FIG.

[Explanation of symbols]

 1 Artificial breast 2 Surface film 3 Back film 4 Polyurethane gel

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yasuo Shikinami 2-33 Azuchi-cho, Chuo-ku, Osaka Takiron Co., Ltd.

Claims (1)

[Claims] 1. An outer periphery of a polyurethane gel obtained by reacting a polyol having an alkylene oxide chain or / and a polyurethane polyol prepolymer having an alkylene oxide chain with a polyurethane polyisocyanate prepolymer having an alkylene oxide chain,
A gel-like elastic body characterized by being covered with a film having adhesion to the gel.