JPS6036115A - Molding method - Google Patents

Abstract

PURPOSE:To make the environment of the labor work comfortable by a method wherein a mold is rotated about the axis thereof to impart a centrifugal force to a resin solution while the resin solution is injected in the direction of cavity from a guide pat of the mold until a pair of split dies are opened and a hardened resin molding is taken out of the mold. CONSTITUTION:After a resin solution is injected from an injection port 30, a rotating shaft 13 is rotated with a motor 17 while a compressed air is fed to an air chamber 25 with an air compressor 21 to lift a floating plate 24. Then, a centrifugal force is imparted to the resin solution with the split dies 28a and 28b grasped between the floating plate 24 and a holding plate 27. After the molding, a lid plate 29 is lifted to open a case 22 and then, after the removal of the holding plate 27 from a cylinder wall 26, the mold 28 is taken out of the case 22.

Description

【発明の詳細な説明】 本発明は成形方法に関し１例えばゾｌ’：Ｉ−す。[Detailed description of the invention] The present invention relates to a molding method.

ペンダント等の′ｒクセザリその他の小物品を１へ１脂
により成形］る方法に関する。This invention relates to a method for molding pendants and other small articles using one mold of one resin.

従来より樹脂成形方法としζは種々のものか公知である
が、小物品の成形としζは射出成形が一般的である。公
知のように射出成形に際しては金型を製作し、射出成形
機より溶融樹脂を金型内に射出゛４る。この射出成形機
しよ比１咬的１ｆｌｉ価であり、相゛１′１の設備投資
を必要とし、小物品成形の目的のためには高コストに過
ぎる。また成形物の形状に相当する形状のキャビティを
金型に工作゛４−るに際し、複雑な形状をｊ−作゛」°
ることが困難であり、殊にアクセサリ等の緻密な形状模
様を表すことは殆ど不可１ｊヒである。しかも溶融樹脂
と聞１Ｆも比較的高粘度であるため、相当の射出圧をか
り′Ｃも成形物に極めて緻密な形状模様を（＝Ｊ与Ｊる
ごとはできない、更に、ごのよ庭３ うに熱可塑性樹脂を溶融して成形するものであるから、
設備機器が高熱を帯び作業に危険を伴うばかりか、室温
も相当に上管し労働条件の点からも好ましくない。Various resin molding methods have been known in the past, but injection molding is commonly used to mold small articles. As is well known, in injection molding, a mold is manufactured, and molten resin is injected into the mold by an injection molding machine. This injection molding machine has a cost of 1 unit per unit, requires an additional 1'1 capital investment, and is too expensive for the purpose of molding small articles. Also, when creating a cavity in the mold that corresponds to the shape of the molded product, it is necessary to create a complex shape.
In particular, it is almost impossible to express detailed shapes and patterns such as accessories. Moreover, since the viscosity of the molten resin is relatively high, a considerable amount of injection pressure is required, and it is impossible to create an extremely precise pattern in the molded product. Because it is molded by melting thermoplastic resin,
Not only does the equipment become very hot, making it dangerous to work, but it also raises the room temperature considerably, making it unfavorable in terms of working conditions.

本発明は上記に鑑み、全く新規な樹脂成形方法を提供す
るものであり、これによれば従来に比して頗る省設備で
足り、しかもアクセサリ等の複雑緻密な形状模様を簡単
に成形することが可能である。更に加熱設備を要しない
ので作業環境も頗る快適である。而して、斯る目的を達
成するため本発明が特徴とする処は、複数の（Ａｔ脂液
の混合により反応して所定時間経過後に硬化する樹脂を
用いた成形方法に於い′ζ：　前記複数の樹脂液を混合
する工程と二　前記混合した樹脂液を成形型に注入する
工程と：　前記成形型が軸心より放射方向に形成された
複数の案内通路と、該案内通路の先端に形成されたキャ
ビティとを型内部に設り、前記キャビティを開閉自在と
ずべく型が軸方向に分割され・たｌ対の分割型から成る
ものとされ；　ごの成形型の案内通路からキャヒテイ方
向に前記樹脂液を注入した状態で線型を軸心回りに回転
して樹脂液に遠心力をイ４与する工程と：　所定時間経
過後。In view of the above, the present invention provides a completely new resin molding method, which requires far less equipment than conventional methods, and can easily mold complex and precise shapes such as accessories. is possible. Furthermore, since no heating equipment is required, the working environment is extremely comfortable. In order to achieve this object, the present invention is characterized by a molding method using a resin that reacts by mixing a plurality of At fat liquids and hardens after a predetermined period of time: a step of mixing the plurality of resin liquids, and a step of injecting the mixed resin liquid into the mold: the mold has a plurality of guide passages formed in a radial direction from the axis, and a plurality of guide passages formed at the tips of the guide passages. The formed cavity is provided inside the mold, and the mold is divided in the axial direction so that the cavity can be freely opened and closed. After a predetermined period of time has elapsed.

成形型の回転をｔ’ｉ！　ＩＪ−すると共に、１りｊの
分、別型を開放して硬化した樹脂の成形物を型内部より
取り出湯工程と：　から成る点にある。T'i the rotation of the mold! At the same time as IJ--, a separate mold is opened and the cured resin molded product is taken out from inside the mold.

以下図面に括づいて本発明の１実施例を詳述すると２本
光明方法を実施するに際しては、複数の樹脂液の混合Ｇ
こより反応して所定時間経過後に硬化する樹脂が用いら
れる。その１例としては、エッチ・アンド・ケー株式会
社製の商品名ハイーアｌ”　３　（＋　（ｌ　Ｏシリー
ス（品番２に３０１２．２［（０１２Ｗ、　２に３０１
（Ｌ　２に３２１０．２に３０５０．２Ｘ３０６０の６
種類）に係る２液性ポリウレタン樹）１）１か挙げられ
る。前記何れの品番に係るものもＡｌｔシと１３液の２
液性樹脂であり、低粘度であっ゛（２１１に混合後は速
硬化性である。２２１ν混合後のＩｉＪ使■）間（２５
度Ｃ樹脂１０　（ｌ　ｇのケル化時間）はＡＩ３両ｌｌ
ｋの混合比により決定されるが９品番２に３０１２−４
ｒ　４５−１２０秒、同２に３０１２Ｗで９０−１２０
秒。Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings.
A resin that reacts and hardens after a predetermined period of time is used. One example is H&K Co., Ltd.'s product name Hi-A l'' 3 (+ (l O series) (product number 2 is 3012.2 [(012W, 2 is 301
(L 2 to 3210.2 to 3050.2 x 3060 6
2-component polyurethane resin) 1) 1). Items related to any of the above product numbers are Alt-shi and 13-liquid 2.
It is a liquid resin and has a low viscosity (fast curing after mixing with 211.
Degree C resin 10 (keling time of 1 g) is AI 3 ll
It is determined by the mixing ratio of k, but 9 product number 2 is 3012-4
r 45-120 seconds, 90-120 at 3012W in the same 2
seconds.

Ｘ、５ 問２に３０１０で１２０秒、同２に３２１０で１２０秒
５同２に３０５０で５分、同２に３０６０で２−５分ご
あるとされ、完全な硬化時間は前記可使時１計が６０秒
のもので３−５分、１２０秒のもので１ｏ　ｌ−１５分
であるとされている。X, 5 It is said that 3010 takes 120 seconds for question 2, 120 seconds for 3210 for question 2, 5 minutes for 3050 for question 2, and 2-5 minutes for 3060 for question 2, and the complete curing time is at the above potable time. A total of 60 seconds is said to be 3-5 minutes, and a 120-second period is 10-15 minutes.

而し”０本発明方法に於いては先ず第１図＋１）の如く
前記の２液性樹脂、従ってＡ液とＢ液とを用意した後、
同図（２）の如くΔＢ両液を混合する。However, in the method of the present invention, first, as shown in Figure 1+1), the two-component resin, ie, the A and B solutions, are prepared, and then
Both ΔB solutions are mixed as shown in FIG. 2 (2).

前記混合した樹脂液は第１図（２）に示す如く成形型２
８に注入される。この成形型は軸方向に分割された１対
の分割型２８ａ、２８ｂから成り、その詳細は後述する
。The mixed resin liquid is poured into a mold 2 as shown in Fig. 1 (2).
Injected into 8. This mold consists of a pair of split molds 28a and 28b divided in the axial direction, the details of which will be described later.

その後、第１図（３）に示す如く前記成形型２８を軸心
回りに回転する。これにより樹脂液は遠心力を（Ｊ与さ
れ、型２８の案内通路３３からキャビティ３４の方向に
流れ圧力を受ける。Thereafter, the mold 28 is rotated around its axis as shown in FIG. 1(3). As a result, the resin liquid is subjected to centrifugal force (J), flows from the guide passage 33 of the mold 28 toward the cavity 34, and is subjected to pressure.

成形型２８を回転した後、樹脂液が硬化するに足りる所
定時間が経過すると、型２．８の回転を停止し、第１図
（４）に示す如く１対の分割型２ノσ６ ８ａ及び２８　ｂを開放し”ζＵ！化した樹脂の成形物
ｌＯを型内１°）１〜より取り出す。After rotating the mold 28, when a predetermined time sufficient for the resin liquid to harden has passed, the rotation of the mold 2.8 is stopped and a pair of divided molds σ6, 8a and 2 are formed as shown in FIG. 1 (4). 28 b is opened and the molded resin 1O which has been converted into "ζU!" is taken out from 1°) 1 in the mold.

取り出された成形物１　（ｌは第１図（５）にボず如き
ものであり、型の案内通路３３により成形された放射状
の・１′１部９と、キャビティ３４により成形された成
形目的とする小物品８と、該小物品８を円環状に連結す
る環状部７とを一体に備える。従って、この成形物１　
（＋より前記小物品８をカッタ等により切断置部１′れ
ば、製品としての小物品が得られる。The molded product 1 taken out (l is as shown in Fig. 1 (5), and the radial 1'1 part 9 formed by the guide passage 33 of the mold and the molding object formed by the cavity 34) It integrally includes a small article 8 and an annular portion 7 that connects the small article 8 in an annular manner.
(+) If the small article 8 is cut by a cutter or the like at the placement section 1', a small article as a product is obtained.

尚、成形物である小物品に着色を施すためには、成形型
２８ニｔに１人ず／り　＋’＋ｉｉ　ｃ７）樹１１１ｉ
　＞Ｉｔ　ｃｗ　６１１　Ｆｌ　全混入すれは］１（い
、或いは顔１′」に代え若しくは顔料と共に金１１ル１
５）を混入することができろ、又は着色しない樹脂？＋
ａにより成形した後、成形された小物品を染色し或いは
表面８Ｉ！金゛３゛ることが自由である。In addition, in order to color a small article that is a molded product, one person per 28 nits of mold +'+ii c7) Tree 111i
>It cw 611 Fl If you mix everything] 1 (or face 1') instead of or with pigment, gold 11 l 1
5) Resin that can be mixed or not colored? +
After molding according to a, the molded small article is dyed or the surface 8I! It is freedom to make money.

上記成形型２８を含む成形装置は、第２図乃至第４図に
示す通りである。に下平行に配置された１対の支１ろ板
１１，１２には垂直回転軸ｌ厘７ ３が軸受１４．１５を介し′Ｃ支持される。該回転軸１
３はヘルド１６を介し′（モータ１７により回転自在と
され、同軸１３を内部中空１８のバイブとしζごれを空
気導管１９により電磁弁２０を介して空気圧縮装置２１
に連結する。上側の支持板１１には略円筒形のケース２
２が固定され、該ケース２２内に成形回転部が構成され
る。　ｎｉｉ記回転回転軸１３端は底板２３に挿着され
、該底板２３上に重ね合わされる浮動板２４により空気
室２５を形成し、該空気室２５は前記回転軸１３の中空
部１８に連通される。底４Ｐｊ、２３の周縁には起立す
る筒壁２６が固着され。The molding apparatus including the mold 28 is as shown in FIGS. 2 to 4. A vertical rotating shaft 73 is supported by a pair of supporting filter plates 11 and 12, which are arranged parallel to each other, through bearings 14 and 15. The rotating shaft 1
3 is rotated freely by a motor 17 via a heald 16, and the coaxial 13 is used as a vibrator with an internal hollow 18.
Connect to. A substantially cylindrical case 2 is mounted on the upper support plate 11.
2 is fixed, and a molding rotating section is configured within the case 22. The end of the rotary shaft 13 is inserted into the bottom plate 23, and the floating plate 24 superimposed on the bottom plate 23 forms an air chamber 25, and the air chamber 25 is communicated with the hollow part 18 of the rotary shaft 13. Ru. An upright cylindrical wall 26 is fixed to the periphery of the bottom 4Pj, 23.

該筒壁２６の−に部に押さえ板２７が設けられ。A pressing plate 27 is provided at the negative end of the cylindrical wall 26.

前記浮動板２４と押さえ扱２７との間に成形型２８が配
置される。　ｉｉｆ記ケース２２の」二部開口は蓋板２
９によって開閉自在に施蓋され、該蓋板２９に設けた注
入１」３ｏがら１押さえ板２７の連通ＬＩ３１．後述す
る成形型２８のケート３２へと連通ずる注入路が形成さ
れる。成形型２日は１回転されるゴム製ディスク形とさ
れ９回８ 特開昭ＧＯ−３６１１５（３） 軸軸心より放射方向に形成された案内通路３３と、該案
内通路３３の先端に形成されたキートヒテイ３４とを型
内部に設り、前記ギャビテ・イ；）４を開閉口イ１とず
べく型２８が軸方向に分７１１１された１対の分割型２
８ａ、２８ｂから成り、一方（上側）の分割型２８ａの
軸心部に案内通路３３に連通Ｊる上記のケート３２を設
りている。A mold 28 is arranged between the floating plate 24 and the presser 27. The two-part opening of the case 22 is the cover plate 2.
The lid is openable and closable by the lid plate 29, and the opening LI31. An injection path is formed that communicates with a cage 32 of the mold 28, which will be described later. The mold 2 is made of a rubber disc that is rotated once and is rotated 9 times 8. Japanese Patent Application Laid-Open No. 1997-36115 (3) A guide passage 33 is formed in a radial direction from the axis axis, and a guide passage 33 is formed at the tip of the guide passage 33. A pair of split molds 2 in which a mold 28 is divided into 7111 parts in the axial direction are provided inside the mold.
8a and 28b, and the above-mentioned cage 32, which communicates with the guide passage 33, is provided at the axial center of one (upper) split mold 28a.

この成形機による成形に１；γしては、注入１１３０か
ら上述のよ・うに樹脂液を注入した後、モータ１７によ
り回転軸１３を回転駆動すると共に。During molding by this molding machine, the resin liquid is injected from the injection 1130 as described above, and then the rotary shaft 13 is driven to rotate by the motor 17.

空気圧縮装置２１により空気室２５に化縮空気を送って
浮動板２４を浮動さ−Ｕ１分割型２１１　ａ　。The air compressor 21 sends compressed air to the air chamber 25 to float the floating plate 24 - U1 split type 211 a .

２８ｂを浮動板２４と押さえ板２７との間に挟持した状
態で樹脂液に遠心力を付与］る。成形後は、蓋板２９を
持ち」二げてう一−ス２２を開１」し、押さえ板２７を
筒壁２６より取外しノご後。28b is held between the floating plate 24 and the pressing plate 27, and a centrifugal force is applied to the resin liquid. After molding, hold the cover plate 29 and open the upper case 22, and then remove the presser plate 27 from the cylinder wall 26.

成形型２８をケース２２より取り出・ｌば良い。All you have to do is take out the mold 28 from the case 22.

成形型２８０）　ｉｉ’ｒｉ細は第３図及び第４図に小
ず通りであり、他方（下側）の分割型２８１〕カケ厘９ −ト３２に対面する軸心部に嵌合孔３５をμ通開設して
おり、これに対応して浮動１ｊ見２４の軸心部には樹脂
液受は部ＪｆＡ　３６がボルト３７等により固着され、
該樹脂液受は部＋、ｌ’３６が浮動板２４の上面に突出
し−（いる、従っζこの他力の分割型２８ｂをｌツ動板
２４．にに設置した状態で。The details of the mold 280) are shown in FIGS. 3 and 4, and a fitting hole 35 is provided in the shaft center facing the other (lower) split mold 281] In response to this, a resin liquid receiver JfA 36 is fixed to the shaft center of the floating 1j 24 with bolts 37, etc.
The resin liquid receiver has portions 36 and 36 protruding from the upper surface of the floating plate 24, so that the split mold 28b is installed on the sliding plate 24.

受は部＋Ａ’３６が浮動板２４の上面から前記嵌合（′
Ｌ３５に嵌着されると共に、−力の分割型２８ａのゲー
ト３２に対面する。また−・力の分割型２８ａの周縁に
は多数の***３８が設りられ。The receiving part +A'36 is connected from the upper surface of the floating plate 24 to the above-mentioned fitting ('
It is fitted into L35 and faces the gate 32 of the -force split mold 28a. Further, a large number of small holes 38 are provided on the periphery of the force dividing mold 28a.

他方の分割型２８ｂの周縁にはこれに対応する多数の突
起３９が植設され、該突起３９を前記***３８に嵌脱自
在としている０面、第４図示の如く、前記樹脂液受は分
相３６は、他方の分割型２）（ｂの軸心部の切欠部４０
に挿通固定することが自由である。A large number of corresponding projections 39 are implanted on the periphery of the other split mold 28b, and the projections 39 can be inserted into and removed from the small holes 38.As shown in the fourth figure, the resin liquid receiver is separated. The phase 36 is a notch 40 in the axial center of the other split mold 2) (b).
It can be inserted and fixed freely.

本発明の成形方法は９以上説明し）こように。The molding method of the present invention is described above (9) as follows.

複数の樹脂液の混合により反応し“ζ所定時間経過後に
硬化する樹脂を用いた成形力法るこ於いて二　前記複数
の樹脂液を混合する工程と：　前ＩＯ 記混合した樹脂７１νを成形型に注入する」−稈と：前
記成形型が軸心より放射方向に形成された複数の案内通
路と、該案内通路の先端に形成されたキャヒデ・イとを
型内部に設り、　ｉ”＋ｉｊ記キャビティを開閉自在と
ずべく型が軸方向に分Ｗｌされた１対の分割型から成る
ものとされ；　この成形型の案内通路からキャヒテイ方
向に前記樹脂液を注入した状態で線型を軸心回りに回転
シフ′（樹脂液に遠心力を伺与する工程と二　所定時間
経過後、成形型の回転を停止にすると共に、ｌス・１の
°分割型を開放し゛ζ硬化した樹脂の成形物を型内部よ
り取り１１目′二に程と：　から成るものであるから、
従来の射出成形等に比較しで極め゛（ｆｉｊ易な設備で
足り、実施化が容易である。しかも複雑緻密な形状模様
を有する小物品の成形に際し、その緻密な形状模様を梢
ＭＵに現出゛Ｊるごとができ、アクせサリ等の成形に極
めて適している。また加！；１目一段等を要しないので
、労働作−ｆｆｉの環境も頗る快適である等の顕著なリ
ノ果を奏する。A molding force method using a resin that reacts by mixing a plurality of resin liquids and hardens after a predetermined period of time (2) The step of mixing the plurality of resin liquids: Previous IO The mixed resin 71ν is placed in a mold - Culm: The mold has a plurality of guide passages formed in a radial direction from the axis, and a chamfer formed at the tip of the guide passage inside the mold, and i''+ij The mold is made up of a pair of split molds divided in the axial direction so that the cavity can be freely opened and closed; with the resin liquid injected from the guide passage of this mold in the direction of the cavity, the linear mold is centered After a predetermined period of time, the rotation of the mold is stopped, and the divided mold of 1 is opened and the hardened resin is molded. When the object is taken from inside the mold, it consists of the following:
Compared to conventional injection molding, etc., it requires very simple equipment and is easy to implement.Furthermore, when molding small articles with complex and detailed shapes, it is possible to express those detailed shapes in the treetop MU. It is extremely suitable for molding accessories, etc. Also, since it does not require additional steps, it has remarkable lino effects such as a very comfortable working environment. play.

灘ＩＩ 更に、上記実施例の如き樹脂液を用いれば。Nada II Furthermore, if a resin liquid as in the above embodiment is used.

低１’Ｉｊ度のものとして特に緻密な形状模様の現出に
有利であり、しかも速硬化性のものであって成形サイク
ルも短く生産性を向上する。また成形型として上記実施
例の如くゴムディスクを用いれば、キャビティを彫刻工
作することにより自由にきめの細かい形状模様を形成す
ることができ、　−１６イｊ刊である。As a material with a low 1'Ij degree, it is particularly advantageous in producing dense shapes and patterns.Moreover, it is a fast-curing material, which shortens the molding cycle and improves productivity. Furthermore, if a rubber disk is used as the mold as in the above embodiment, a finely-grained pattern can be freely formed by engraving the cavity.

【図面の簡単な説明】[Brief explanation of the drawing]

第１図（１ン、第１図（粉、第１図（３）、第１図（４
）は本発明方法の各二［稈を示す説明図であり、第１図
（５）は成形物をボず説明平面図である。第２図は本発
明方法に用いる成形装置を示す縦断面図。 第３図は成形型の１例を示ず縦Ｗ１面図、第４図は成形
型の他例を示すＨ２＋ｈｉｒ面図である。 Ａ　Ｔ３・・・樹脂？ｆｋ、８・・・小物品、１０・・
・成形物。 ２　Ｂ　・・・成形型、２８ａ、２８ｂ−分割型、３３
・・・案内通路、３４・・・キャビう−イ。 特開昭６０−３６１１５（４） 第１　図（５１Figure 1 (1), Figure 1 (powder), Figure 1 (3), Figure 1 (4)
) is an explanatory view showing each culm of the method of the present invention, and FIG. 1 (5) is an explanatory plan view with the molded product removed. FIG. 2 is a longitudinal sectional view showing a molding apparatus used in the method of the present invention. FIG. 3 is a vertical W1 side view, not showing one example of the mold, and FIG. 4 is a H2+hir side view showing another example of the mold. A T3...resin? fk, 8...Small items, 10...
・Molded objects. 2 B...Molding mold, 28a, 28b-divided mold, 33
...Information passageway, 34...Cabi U-i. JP-A-60-36115 (4) Figure 1 (51

Claims (1)

【特許請求の範囲】 ■、複数の樹脂液の混合により反応して所定時間経過後
に硬化する樹脂を用いた成形方法に於いて； 前記複数の樹脂液を混合する工程と： 前記混合した樹脂液を成形型に注入する工程と： 前記成形型が軸心より放射方向に形成された複数の案内
通路と、該案内通路の先〜ｆｉｌに形成されたキャビテ
ィとを型内部に設り、前記キャビティを開閉自在とずべ
く型が軸方向に分割された１対の分割型から成るものと
され１　この成形型の案内通路からキャビティ方向に前
記樹脂液を注入した状態で線型を軸心回りに回転して樹
脂液に遠心力を付与する工程と： 所定時間経過後、成形型の回転を（挙止“」°ると共に
、１対の分割型を開放して硬化した樹脂の濫２ 成形物を型内〔１１〜より取り出す工程と；から成るこ
とをｑＪｉ徴とする成形力法。[Claims] (1) In a molding method using a resin that reacts by mixing a plurality of resin liquids and hardens after a predetermined period of time; a step of mixing the plurality of resin liquids; and: the mixed resin liquid. Injecting into a mold: The mold is provided with a plurality of guide passages formed in a radial direction from the axis, and a cavity formed at a tip of the guide passage, and a cavity is formed in the mold. The mold is composed of a pair of split molds that are divided in the axial direction so as to be able to open and close freely.1 The linear mold is rotated around its axis while the resin liquid is injected from the guide passage of this mold toward the cavity. After a predetermined period of time, the rotation of the mold is stopped and the pair of split molds are opened to allow the hardened resin to spread out. A forming force method characterized by qJi consisting of the step of taking out from inside the mold [11~].