JP2010208091A - Method of manufacturing polylactic acid-based resin foamed molding - Google Patents

Method of manufacturing polylactic acid-based resin foamed molding Download PDF

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JP2010208091A
JP2010208091A JP2009055380A JP2009055380A JP2010208091A JP 2010208091 A JP2010208091 A JP 2010208091A JP 2009055380 A JP2009055380 A JP 2009055380A JP 2009055380 A JP2009055380 A JP 2009055380A JP 2010208091 A JP2010208091 A JP 2010208091A
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polylactic acid
male
hot water
acid resin
female
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JP5112364B2 (en
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Katsunori Nishijima
克典 西嶋
Tetsuya Ochiai
哲也 落合
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Sekisui Kasei Co Ltd
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Sekisui Plastics Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a method of manufacturing a polylactic acid-based resin foamed molding showing excellence in heat fusion, appearance and mechanical strengths by in-mold foam molding using polylactic resin-based foamed particles. <P>SOLUTION: The method of manufacturing a polylactic acid-based resin foamed molding includes: filling the polylactic resin-based foamed particles in a cavity made by clamping female and male molds 1 and 2 each having a chamber; supplying steam and warm water of 60 to 100°C into the chambers 11 and 21 of the female and male molds to make the steam contact the warm water and generate droplets; and heating and foaming the polylactic resin-based foamed particles in the cavity by the misty droplets to manufacture the polylactic acid-based resin foamed molding. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、ポリ乳酸系樹脂発泡成形体の製造方法に関する。   The present invention relates to a method for producing a polylactic acid resin foamed molded article.

ポリ乳酸系樹脂は、天然に存在する乳酸を重合されて得られた樹脂であり、自然界に存在する微生物によって分解可能な生分解性樹脂であると共に、常温での機械的特性についても優れていることから注目を集めている。   Polylactic acid resin is a resin obtained by polymerizing naturally occurring lactic acid, is a biodegradable resin that can be decomposed by microorganisms existing in nature, and has excellent mechanical properties at room temperature. It attracts attention.

ポリ乳酸系樹脂は、一般に、D−乳酸及び/又はL−乳酸を重合させるか、或いは、L−ラクチド、D−ラクチド及びDL−ラクチドからなる群から選ばれた一又は二以上のラクチドを開環重合させることによって製造されている。   The polylactic acid resin generally polymerizes D-lactic acid and / or L-lactic acid, or opens one or more lactides selected from the group consisting of L-lactide, D-lactide and DL-lactide. Manufactured by ring polymerization.

ポリ乳酸系樹脂発泡粒子を発泡させてポリ乳酸系樹脂発泡成形体を製造する方法としては、型内発泡成形が提案されている。上記型内発泡成形とは、ポリ乳酸系樹脂発泡粒子を金型内に充填し、熱水や水蒸気などの熱媒体によってポリ乳酸系樹脂発泡粒子を加熱して発泡させ、ポリ乳酸系樹脂発泡粒子の発泡圧によって発泡粒子同士を融着一体化させて所望形状を有するポリ乳酸系樹脂発泡成形体を製造する方法である。   In-mold foam molding has been proposed as a method for producing a polylactic acid resin foamed molded article by foaming polylactic acid resin foamed particles. The above-mentioned in-mold foam molding is a method in which polylactic acid resin foam particles are filled in a mold, and the polylactic acid resin foam particles are heated and foamed with a heat medium such as hot water or water vapor to produce polylactic acid resin foam particles. This is a method for producing a polylactic acid resin foamed molded article having a desired shape by fusing and integrating foamed particles with each other by the foaming pressure.

特許文献1には、ポリ乳酸系樹脂を主成分とする樹脂から形成された発泡粒子を型内に5〜70%の圧縮率となるように充填した後に加熱媒体により該発泡粒子を加熱し、融着させるポリ乳酸発泡粒子成形体の製造方法が開示されている。   In Patent Document 1, the foamed particles formed from a resin mainly composed of a polylactic acid-based resin are filled in the mold so as to have a compression rate of 5 to 70%, and then the foamed particles are heated with a heating medium, A method for producing a polylactic acid expanded particle molded body to be fused is disclosed.

しかしながら、ポリ乳酸系樹脂は、そのガラス転移温度がポリスチレン系樹脂に比して極めて低く、約50℃程度であることから、100℃を超える高圧の水蒸気を金型内に供給してポリ乳酸系樹脂発泡粒子を加熱すると、ポリ乳酸系樹脂のガラス転移温度と水蒸気との温度差が大きいために、得られる発泡成形体に収縮が生じ、或いは、発泡成形体の表面性が低下するなどの問題を生じる。更に、発泡成形体を構成しているポリ乳酸系樹脂の結晶化が急激に進み、発泡粒子同士の熱融着性が低下し、発泡成形体を構成している発泡粒子同士の熱融着性が悪く、機械的強度の低い発泡成形体しか得られないといった問題点を有している。   However, since the polylactic acid resin has an extremely low glass transition temperature compared with polystyrene resin and is about 50 ° C., high-pressure steam exceeding 100 ° C. is supplied into the mold to produce polylactic acid resin. When resin foam particles are heated, the temperature difference between the glass transition temperature of the polylactic acid resin and water vapor is large, so that the resulting foam molded article shrinks or the surface properties of the foam molded article deteriorate. Produce. Furthermore, the crystallization of the polylactic acid-based resin constituting the foamed molded body has progressed rapidly, the heat-fusibility between the foamed particles is lowered, and the heat-fusible property between the foamed particles constituting the foamed molded body. However, there is a problem that only a foamed molded article having low mechanical strength can be obtained.

又、特許文献2には、脂肪族ポリエステル、分散剤及び発泡剤を所定割合で含有し、脂肪族ポリエステルの結晶化度が20%以下であり、所定温度で加熱したときに発泡する機能を有する発泡性粒子が開示されている。そして、発泡性粒子の加熱方法として、段落番号〔0038〕には、加熱された窒素、水蒸気、炭酸ガスなどの不活性ガスを吹き込むことが記載されている。   Patent Document 2 contains aliphatic polyester, a dispersing agent and a foaming agent in a predetermined ratio, the crystallinity of the aliphatic polyester is 20% or less, and has a function of foaming when heated at a predetermined temperature. Expandable particles are disclosed. As a method for heating the expandable particles, paragraph [0038] describes blowing in an inert gas such as heated nitrogen, water vapor, or carbon dioxide.

しかしながら、水蒸気などの気体は比熱が小さいことから、金型内に供給する際にあたっては水蒸気の温度を高い温度に設定せざるを得ず、その結果、上述したように、得られる発泡成形体に収縮が生じ、或いは、発泡成形体の表面性が低下するなどの問題や、発泡成形体を構成している発泡粒子同士の熱融着性が悪く、機械的強度の低い発泡成形体しか得られないといった問題点を有している。   However, since gas such as water vapor has a small specific heat, when supplying it into the mold, it is necessary to set the temperature of water vapor to a high temperature. Problems such as shrinkage or deterioration of the surface properties of the foam molded article, and poor thermal fusion between the foam particles constituting the foam molded article, resulting in only a foam molded article having low mechanical strength. There is a problem that there is no.

特開2003−64213号公報JP 2003-64213 A 特開2007−291293号公報JP 2007-291293 A

本発明は、ポリ乳酸系樹脂発泡粒子を用いた型内発泡成形によって熱融着性、外観及び機械的強度に優れたポリ乳酸系樹脂発泡成形体を製造する方法を提供する。   The present invention provides a method for producing a polylactic acid resin foam molded article having excellent heat-fusibility, appearance, and mechanical strength by in-mold foam molding using polylactic acid resin foamed particles.

本発明のポリ乳酸系樹脂発泡成形体の製造方法は、チャンバーを備えた雌雄型を型締めして形成されるキャビティ内にポリ乳酸系樹脂発泡粒子を充填した後、上記雌雄型のチャンバー内に水蒸気及び60〜100℃の温水を供給し、上記水蒸気と上記温水とを接触させることによって霧状の水滴を発生させ、この霧状の水滴によって上記キャビティ内のポリ乳酸系樹脂発泡粒子を加熱して発泡させてポリ乳酸系樹脂発泡成形体を製造することを特徴とする。   In the method for producing a polylactic acid resin foam molded article of the present invention, after filling polylactic acid resin foamed particles into a cavity formed by clamping a male and female mold provided with a chamber, the above male and female mold chambers are filled. Water vapor and hot water at 60 to 100 ° C. are supplied, and the water vapor and the warm water are brought into contact with each other to generate mist-like water droplets. The mist-like water droplets heat the polylactic acid resin foamed particles in the cavity. To produce a polylactic acid-based resin foam molded article.

又、上記ポリ乳酸系樹脂発泡成形体の製造方法において、雌雄型のチャンバー内に配設した温水供給管から温水を噴射させると共に、この噴出した温水に水蒸気を接触させていることを特徴とする。   In the method for producing a polylactic acid resin foam molded article, hot water is jetted from a hot water supply pipe disposed in a male and female mold chamber, and water vapor is brought into contact with the jetted hot water. .

更に、上記ポリ乳酸系樹脂発泡成形体の製造方法において、雌雄型間に形成されるキャビティを構成する壁部と、温水を噴射させる温水供給管との間に形成された空間部に水蒸気供給管を配設し、この水蒸気供給管から水蒸気を噴出させることを特徴とする。   Furthermore, in the method for producing a polylactic acid-based resin foam molded article, a water vapor supply pipe is provided in a space formed between a wall part forming a cavity formed between the male and female molds and a hot water supply pipe for injecting hot water. And water vapor is ejected from the water vapor supply pipe.

本発明のポリ乳酸系樹脂発泡成形体の製造方法は、上述のように、雌雄型のチャンバー内に水蒸気及び60〜100℃の温水を供給し、温水と水蒸気とを衝突させることによって生じる微細な霧状の水滴をチャンバー内に充満させることによって雌雄型を全体的に均一に加熱すると共に、微細な霧状の水滴をキャビティ内に円滑に進入させてキャビティ内に充填しているポリ乳酸系樹脂発泡粒子を全体的に均一に加熱し発泡させるものである。   As described above, the method for producing a polylactic acid-based resin foam molded article of the present invention supplies fine water vapor and hot water at 60 to 100 ° C. into a male and female chamber, and generates fine particles produced by colliding hot water and water vapor. A polylactic acid resin that fills the cavity by filling the inside of the cavity with fine mist of water droplets while heating the male and female molds uniformly uniformly by filling the chamber with mist-like water drops. The foamed particles are heated uniformly and foamed as a whole.

よって、本発明のポリ乳酸系樹脂発泡成形体の製造方法によれば、雌雄型間に形成されたキャビティ内に充填されたポリ乳酸系樹脂発泡粒子を発泡させて均一に且つ強固に熱融着一体化させることができ、機械的強度及び外観に優れたポリ乳酸系樹脂発泡成形体を得ることができる。   Therefore, according to the method for producing a polylactic acid resin foam molded article of the present invention, the polylactic acid resin foamed particles filled in the cavity formed between the male and female molds are foamed and uniformly and firmly heat-sealed. A polylactic acid-based resin foam molded article that can be integrated and has excellent mechanical strength and appearance can be obtained.

又、ポリ乳酸系樹脂は、そのガラス転移温度が低い樹脂であるが、本発明のポリ乳酸系樹脂発泡成形体の製造方法では、水蒸気を直接、ポリ乳酸系樹脂発泡粒子に接触させるのではなく、水蒸気を温水と接触させて霧状の水滴とした上でポリ乳酸系樹脂発泡粒子に接触させているので、ポリ乳酸系樹脂発泡粒子の結晶化を急激に進めることなく互いに強固に熱融着一体化させることができ、更に、比熱の高い温水で加熱しているのでポリ乳酸系樹脂の結晶化度を充分に高めることができ、得られるポリ乳酸系樹脂発泡成形体は優れた機械的強度及び外観を有していると共に、ポリ乳酸系樹脂発泡成形体に収縮が生じることはない。   The polylactic acid resin is a resin having a low glass transition temperature. However, in the method for producing a polylactic acid resin foam molded article of the present invention, water vapor is not directly brought into contact with the polylactic acid resin expanded particles. Since water vapor is brought into contact with warm water to form mist-like water droplets and then brought into contact with the polylactic acid resin expanded particles, the polylactic acid resin expanded particles are firmly heat-bonded to each other without abruptly proceeding with crystallization. Furthermore, since it is heated with warm water having a high specific heat, the crystallinity of the polylactic acid resin can be sufficiently increased, and the resulting polylactic acid resin foamed molded article has excellent mechanical strength. In addition, the polylactic acid resin foamed molded article does not shrink.

そして、上記ポリ乳酸系樹脂発泡成形体の製造方法において、雌雄型のチャンバー内に配設した温水供給管から温水を噴射させると共に、この噴出した温水に水蒸気を接触させている場合には、温水供給管から噴出させている温水の流れによってチャンバー内にキャビティ方向に流れる空気の流れが生じ、水蒸気と温水との衝突によって生じた霧状の水滴が空気の流れによってキャビティ方向に円滑に誘導され、よって、霧状の水滴をキャビティ内に円滑に誘導してキャビティ内のポリ乳酸系樹脂発泡粒子を円滑に加熱、発泡させることができる。   And in the manufacturing method of the said polylactic acid-type resin foaming molded object, while warm water is injected from the warm water supply pipe arrange | positioned in the male and female type | mold chamber, and water vapor is made to contact this ejected warm water, A flow of air flowing in the direction of the cavity is generated in the chamber by the flow of hot water ejected from the supply pipe, and mist-like water droplets generated by the collision between the water vapor and the hot water are smoothly guided in the direction of the cavity by the flow of air, Therefore, a mist-like water droplet can be smoothly induced | guided | derived in a cavity, and the polylactic acid-type resin expanded particle in a cavity can be heated and foamed smoothly.

又、上記ポリ乳酸系樹脂発泡成形体の製造方法にて、雌雄型間に形成されるキャビティを構成する壁部と、温水を噴射させる温水供給管との間に形成された空間部に水蒸気供給管を配設し、この水蒸気供給管から水蒸気を噴出させる場合には、チャンバー内に供給した水蒸気を温水に更に確実に衝突させることができると共に、水蒸気と温水とが衝突して生じた霧状の水滴を温水の流れにより生じる空気の流れによってキャビティ方向により確実に誘導してキャビティ内のポリ乳酸系樹脂発泡粒子をより均一に加熱し発泡させることができる。   Further, in the above-described method for producing a polylactic acid resin foamed molded product, water vapor is supplied to a space formed between a wall portion forming a cavity formed between the male and female molds and a hot water supply pipe for injecting hot water. In the case where a pipe is provided and water vapor is ejected from the water vapor supply pipe, the water vapor supplied into the chamber can be more reliably collided with the hot water, and the water vapor and the hot water collide with each other. The water droplets can be reliably guided in the direction of the cavity by the air flow generated by the hot water flow, and the polylactic acid-based resin foamed particles in the cavity can be heated and foamed more uniformly.

ポリ乳酸系樹脂発泡粒子を用いた型内発泡成形を行うための成形装置を示した模式図である。It is the schematic diagram which showed the shaping | molding apparatus for performing in-mold foam molding using the polylactic acid-type resin expanded particle.

本発明のポリ乳酸系樹脂発泡成形体の製造方法について説明する。先ず、ポリ乳酸系樹脂発泡成形体を成形するための成形装置Aについて説明する。   A method for producing the polylactic acid resin foamed molded article of the present invention will be described. First, a molding apparatus A for molding a polylactic acid-based resin foam molded body will be described.

図1中、1は雌型であり、2は雄型である。雌雄型1、2を型締めすることによって雌雄型1、2間にキャビティが形成されるように構成されている。そして、雌雄型1、2のそれぞれにはチャンバー11、21が一体的に設けられている。   In FIG. 1, 1 is a female type, and 2 is a male type. A cavity is formed between the male and female molds 1 and 2 by clamping the male and female molds 1 and 2. Chambers 11 and 21 are integrally provided in the male and female molds 1 and 2, respectively.

一方、3は、雌雄型1、2のチャンバー11、21に供給する温水を製造するための温水槽である。この温水槽3には図示しないヒーターなどの加熱手段や、サーモスタットなどの温度検知手段が付帯されており、温度検知手段によって加熱手段を制御して温水槽3内の温水が所定温度に加熱、維持されている。そして、温水槽3には温水供給管4の一端が連結、連通されていると共に、温水供給管4の他端部を二股状に分岐して分岐管41、42に形成し、これらの分岐管41、42のそれぞれの他端部を雌雄型1、2のチャンバー11、21内に挿入、配設している。   On the other hand, 3 is a hot water tank for producing hot water to be supplied to the chambers 11 and 21 of the male and female molds 1 and 2. The hot water tank 3 is provided with heating means such as a heater (not shown) and temperature detection means such as a thermostat. The temperature detection means controls the heating means to heat and maintain the hot water in the hot water tank 3 at a predetermined temperature. Has been. One end of the hot water supply pipe 4 is connected to and communicated with the hot water tank 3, and the other end of the hot water supply pipe 4 is bifurcated to form branch pipes 41 and 42. These branch pipes The other end portions of 41 and 42 are inserted into the chambers 11 and 21 of the male and female dies 1 and 2, respectively.

そして、雌雄型1、2のチャンバー11、21内において、温水供給管4の分岐管41、42はバックプレート12、22の内面に沿って配設されていると共に、温水供給管4の分岐管41、42には多数の水噴出孔41a、42a・・・が所定間隔毎に穿設されており、この水噴出孔41a、42a・・・を通じて雌雄型1、2間に形成されたキャビティに向かって温水を噴出するように構成されている。   The branch pipes 41 and 42 of the hot water supply pipe 4 are disposed along the inner surfaces of the back plates 12 and 22 in the chambers 11 and 21 of the male and female molds 1 and 2, and the branch pipe of the hot water supply pipe 4. A large number of water ejection holes 41a, 42a... Are formed at predetermined intervals in the holes 41, 42, and a cavity formed between the male and female molds 1 and 2 is formed through the water ejection holes 41a, 42a. It is comprised so that warm water may be spouted out.

なお、温水供給管4中には、温水槽3中の温水を雌雄型1、2のチャンバー11、21に供給するためのポンプP1が介在されていると共に、温水供給管4の分岐管41、42の他端部には雌雄型1、2のチャンバー11、21外において開閉弁41b、42bが介在されている。 In the hot water supply pipe 4, a pump P 1 for supplying the hot water in the hot water tank 3 to the chambers 11 and 21 of the male and female molds 1 and 2 is interposed, and a branch pipe 41 of the hot water supply pipe 4 is provided. , 42 are provided with on-off valves 41b, 42b outside the chambers 11, 21 of the male and female molds 1,2.

更に、温水供給管4には三方弁4aを介して雌雄型1、2を冷却するための冷却水供給管5が連結、連通されており、冷却水供給管5中には冷却水を雌雄型1、2のチャンバー11、21内に供給するためのポンプP2が介在されている。 Further, a cooling water supply pipe 5 for cooling the male and female molds 1 and 2 is connected to and communicated with the hot water supply pipe 4 via a three-way valve 4a. A pump P 2 for supplying the inside of the first and second chambers 11 and 21 is interposed.

又、水蒸気を供給するための水蒸気供給管6はその一端部が二股状に分岐されて分岐管61、62に形成されており、これらの分岐管61、62のそれぞれの一端部が雌雄型1、2のチャンバー11、21内に挿入、配設されている。そして、雌雄型1、2のチャンバー11、21内において、水蒸気供給管6の分岐管61、62は、温水供給管4の分岐管41、42と、雌雄型1、2のキャビティを形成している壁部13、23との間の空間部に配設されていると共に、水蒸気供給管6の分岐管61、62には、多数の水蒸気噴出孔61a、62a・・・が所定間隔毎に穿設されており、この水蒸気噴出孔61a、62a・・・を通じて雌雄型1、2間に形成されたキャビティに向かって水蒸気を噴出するように構成されている。なお、水蒸気供給管6の他端部は、蒸気ボイラーなどの水蒸気発生源Sに接続されている。又、分岐管61、62の一端部には雌雄型1、2のチャンバー11、21外において開閉弁61b、62bが介在されている。   Also, one end of the water vapor supply pipe 6 for supplying water vapor is bifurcated into branch pipes 61 and 62, and one end of each of the branch pipes 61 and 62 is of the male and female type 1. Are inserted and disposed in the two chambers 11 and 21. In the chambers 11 and 21 of the male and female molds 1 and 21, the branch pipes 61 and 62 of the water vapor supply pipe 6 form the branch pipes 41 and 42 of the hot water supply pipe 4 and the cavities of the male and female molds 1 and 2, respectively. Are arranged in a space between the wall portions 13 and 23 and the branch pipes 61 and 62 of the steam supply pipe 6 are provided with a plurality of steam jet holes 61a, 62a... At predetermined intervals. The water vapor is ejected toward the cavity formed between the male and female dies 1 and 2 through the water vapor ejection holes 61a, 62a. The other end of the water vapor supply pipe 6 is connected to a water vapor generation source S such as a steam boiler. Further, on one end of the branch pipes 61, 62, on-off valves 61b, 62b are interposed outside the chambers 11, 21 of the male and female dies 1, 2.

そして、雌雄型1、2のチャンバー11、21内には、チャンバー11、21内において生じた排水を排除するための排水管7が連結、連通されている。   In the chambers 11 and 21 of the male and female molds 1 and 2, a drain pipe 7 for removing drainage generated in the chambers 11 and 21 is connected and communicated.

具体的には、排水管7の一端部は二股状に分岐して分岐管71、72に形成されており、これらの分岐管71、72の一端部がそれぞれ、雌雄型1、2のチャンバー11、21内に連結、連通されている。そして、各分岐管71、72には雌雄型1、2のチャンバー11、21外において開閉弁71a、72aが介在されている。   Specifically, one end portion of the drain pipe 7 is bifurcated and formed into branch pipes 71 and 72, and one end parts of these branch pipes 71 and 72 are respectively in the male and female molds 1 and 2. , 21 is connected and communicated. On the branch pipes 71 and 72, on-off valves 71a and 72a are interposed outside the chambers 11 and 21 of the male and female molds 1 and 2.

更に、排水管7の他端は温水槽3内に連結、連通されており、雌雄型1、2のチャンバー11、21内で生じた排水を温水槽3に還流させて再利用することができるように構成されている。   Furthermore, the other end of the drain pipe 7 is connected to and communicated with the hot water tank 3, and the waste water generated in the chambers 11 and 21 of the male and female molds 1 and 2 can be returned to the hot water tank 3 for reuse. It is configured as follows.

又、雌雄型1、2のキャビティを形成している壁部13、23には、チャンバー11、21内と、雌雄型1、2間に形成されたキャビティとを連通させるための貫通孔13a、23aが多数、形成されており、この貫通孔13a、23aを通じて、雌雄型1、2のチャンバー11、21内に供給された温水と水蒸気との接触によって形成された霧状の水滴をキャビティ内に供給して、キャビティ内のポリ乳酸系樹脂発泡粒子を加熱、発泡させることができるように構成されている。   In addition, the wall portions 13 and 23 forming the cavities of the male and female molds 1 and 2 have through holes 13a for communicating the inside of the chambers 11 and 21 with the cavity formed between the male and female molds 1 and 2, A large number of 23a are formed, and through these through holes 13a and 23a, mist-like water droplets formed by contact of hot water and steam supplied into the chambers 11 and 21 of the male and female molds 1 and 2 are put into the cavity. The polylactic acid resin foam particles in the cavity can be heated and foamed.

次に、本発明のポリ乳酸系樹脂発泡成形体の製造方法で用いられるポリ乳酸系樹脂発泡粒子について説明する。本発明で用いられるポリ乳酸系樹脂は、一般に市販されているポリ乳酸系樹脂を用いることができ、具体的には、D−乳酸及びL−乳酸をモノマーとして共重合させるか、D−乳酸又はL−乳酸の何れか一方をモノマーとして重合させるか、或いは、D−ラクチド、L−ラクチド及びDL−ラクチドからなる群より選ばれた一又は二以上のラクチドを開環重合させることによって得ることができ、何れのポリ乳酸系樹脂であってもよい。   Next, the polylactic acid resin foamed particles used in the method for producing the polylactic acid resin foam molded article of the present invention will be described. As the polylactic acid resin used in the present invention, commercially available polylactic acid resins can be used. Specifically, D-lactic acid and L-lactic acid are copolymerized as monomers, or D-lactic acid or It can be obtained by polymerizing any one of L-lactic acid as a monomer or ring-opening polymerization of one or more lactides selected from the group consisting of D-lactide, L-lactide and DL-lactide. Any polylactic acid resin can be used.

そして、ポリ乳酸系樹脂発泡粒子の製造方法としては、汎用の方法を用いることができ、例えば、ポリ乳酸系樹脂及び発泡剤を押出機に供給して溶融混練し、押出機の先端に取り付けたノズル金型から押出発泡させ、ノズル金型から押出された直後の押出発泡体を連続的に回転刃によって切断した後に直ちに冷却するポリ乳酸系樹脂発泡粒子の製造方法が挙げられる。   And as a manufacturing method of polylactic acid-type resin expanded particles, a general-purpose method can be used, for example, a polylactic acid-type resin and a foaming agent are supplied to an extruder, melt-kneaded, and attached to the tip of the extruder An example is a method for producing polylactic acid-based resin expanded particles, which is extruded and foamed from a nozzle mold, and immediately cooled after the extruded foam immediately after being extruded from the nozzle mold is cut by a rotary blade.

発泡剤としては、従来から汎用されているものが用いられ、例えば、アゾジカルボンアミド、ジニトロソペンタメチレンテトラミン、ヒドラゾイルジカルボンアミド、重炭酸ナトリウムなどの化学発泡剤;プロパン、ノルマルブタン、イソブタン、ノルマルペンタン、イソペンタン、ヘキサンなどの飽和脂肪族炭化水素、ジメチルエーテルなどのエーテル類、塩化メチル、1,1,1,2−テトラフルオロエタン、1,1−ジフルオロエタン、モノクロロジフルオロメタンなどのフロン、二酸化炭素、窒素などの物理発泡剤などが挙げられ、ジメチルエーテル、プロパン、ノルマルブタン、イソブタン、二酸化炭素が好ましく、プロパン、ノルマルブタン、イソブタンがより好ましく、ノルマルブタン、イソブタンが特に好ましい。なお、発泡剤は、単独で用いられても二種以上が併用されてもよい。   As the blowing agent, those conventionally used are used. For example, chemical blowing agents such as azodicarbonamide, dinitrosopentamethylenetetramine, hydrazoyldicarbonamide, sodium bicarbonate; propane, normal butane, isobutane, normal Saturated aliphatic hydrocarbons such as pentane, isopentane, hexane, ethers such as dimethyl ether, chlorofluorocarbons such as methyl chloride, 1,1,1,2-tetrafluoroethane, 1,1-difluoroethane, monochlorodifluoromethane, carbon dioxide, Examples thereof include physical blowing agents such as nitrogen, dimethyl ether, propane, normal butane, isobutane and carbon dioxide are preferred, propane, normal butane and isobutane are more preferred, and normal butane and isobutane are particularly preferred. In addition, a foaming agent may be used independently or 2 or more types may be used together.

上記ポリ乳酸系樹脂発泡粒子及び成形装置Aを用いて型内発泡成形を行う要領について説明する。先ず、雌雄型1、2を型締めして雌雄型1、2間にキャビティを形成し、このキャビティ内にポリ乳酸系樹脂発泡粒子を充填する。   The point which performs in-mold foam molding using the said polylactic acid-type resin expanded particle and the shaping | molding apparatus A is demonstrated. First, the male and female molds 1 and 2 are clamped to form a cavity between the male and female molds 1 and 2, and the polylactic acid-based resin expanded particles are filled into the cavity.

次に、温水供給管4の分岐管41、42に介在させた開閉弁41b、42bを開放状態とすると共に、温水供給管4に介在させた三方弁4aを制御して温水槽3と雌雄型1、2のチャンバー11、21内とが連通した状態とする一方、冷却水供給管5と雌雄型1、2のチャンバー11、21内とは切断された状態とする。更に、水蒸気供給管6の分岐管61、62に介在させている開閉弁61b、62b、及び、排水管7の分岐管71、72に介在させた開閉弁71a、72aを開放状態とする。   Next, the open / close valves 41b and 42b interposed in the branch pipes 41 and 42 of the hot water supply pipe 4 are opened, and the three-way valve 4a interposed in the hot water supply pipe 4 is controlled to control the hot water tank 3 and the male and female types. It is assumed that the inside of the chambers 1 and 2 in the first and second chambers are in communication with each other, while the cooling water supply pipe 5 and the inside of the chambers 11 and 21 in the male and female molds 1 and 2 are disconnected. Further, the on-off valves 61b, 62b interposed in the branch pipes 61, 62 of the water vapor supply pipe 6 and the on-off valves 71a, 72a interposed in the branch pipes 71, 72 of the drain pipe 7 are opened.

しかる後、ポンプP1を駆動させて温水槽3内の温水を温水供給管4を通じて雌雄型1、2のチャンバー11、21内に供給し、温水供給管4の分岐管41、42の水噴出孔41a、42aから60〜100℃の温水をキャビティに向かって噴射させる。 Thereafter, the pump P 1 is driven to supply the hot water in the hot water tank 3 into the chambers 11 and 21 of the male and female molds 1 and 2 through the hot water supply pipe 4, and water jets from the branch pipes 41 and 42 of the hot water supply pipe 4. Hot water of 60 to 100 ° C. is sprayed from the holes 41a and 42a toward the cavity.

これと同時に、水蒸気発生源Sから水蒸気供給管6を通じて雌雄型1、2のチャンバー11、21内に供給し、水蒸気供給管6の分岐管61、62の水蒸気噴出孔61a、61aから、好ましくは101〜125℃の水蒸気を、好ましくはゲージ圧力0.01〜0.14MPaでもってキャビティに向かって噴出させる。   At the same time, it is supplied from the steam generation source S through the steam supply pipe 6 into the chambers 11 and 21 of the male and female dies 1 and 2, and preferably from the steam jet holes 61a and 61a of the branch pipes 61 and 62 of the steam supply pipe 6. Water vapor at 101 to 125 ° C. is preferably ejected toward the cavity with a gauge pressure of 0.01 to 0.14 MPa.

すると、水蒸気供給管6の分岐管61、62の水蒸気噴出孔61a、62aから噴出させた水蒸気は、その後方(バックプレート12、22側)から温水供給管4の分岐管41、42の水噴出孔41a、42aから噴出された温水と衝突する。   Then, the water vapor ejected from the water vapor ejection holes 61a and 62a of the branch pipes 61 and 62 of the water vapor supply pipe 6 is ejected from the rear (back plate 12 and 22 side) of the branch pipes 41 and 42 of the hot water supply pipe 4. It collides with the hot water ejected from the holes 41a and 42a.

この温水と水蒸気との衝突によって霧状の微細な水滴が発生し、霧状の水滴は、雌雄型1、2のチャンバー11、21内に充満する。この充満した霧状の水滴によって雌雄型1、2のキャビティを形成している壁部13、23が全面的に均一に加熱される。更に、霧状の水滴は微細であるから、雌雄型1、2の壁部13、23に形成された貫通孔13a、23aを通じてキャビティ内のポリ乳酸系樹脂発泡粒子間に円滑に進入してキャビティ内に充填したポリ乳酸系樹脂発泡粒子を全体的に均一に加熱する。なお、霧状とは「無数の微細な水滴が空気中に浮遊して煙のように見える状態」をいう。   The collision of the hot water and water vapor generates fine mist-like water droplets, and the mist-like water droplets fill the chambers 11 and 21 of the male and female dies 1 and 2. The wall portions 13 and 23 forming the cavities of the male and female dies 1 and 2 are uniformly heated by the filled water droplets. Furthermore, since the mist-like water droplets are fine, they smoothly enter between the polylactic acid resin foam particles in the cavity through the through holes 13a and 23a formed in the wall portions 13 and 23 of the male and female dies 1 and 2. The polylactic acid-based resin expanded particles filled therein are heated uniformly throughout. The mist form means “a state where countless fine water droplets float in the air and look like smoke”.

従って、雌雄型1、2のキャビティ内に充填されたポリ乳酸系樹脂発泡粒子は全体的に短時間のうちに均一に加熱されて発泡し、ポリ乳酸系樹脂発泡粒子同士は互いの発泡圧力によって強固に一体化して機械的強度に優れたポリ乳酸系樹脂発泡成形体を得ることができる。   Therefore, the polylactic acid resin foam particles filled in the cavities of the male and female dies 1 and 2 are uniformly heated and foamed in a short time as a whole, and the polylactic acid resin foam particles are subjected to mutual foaming pressure. It is possible to obtain a polylactic acid resin foamed molded article that is firmly integrated and excellent in mechanical strength.

しかも、雌雄型1、2のチャンバー11、21内に充満している霧状の水滴は、水蒸気が60〜100℃の温水と衝突して形成されたものであるから、100℃以下の適度な温度を有している。   In addition, the mist-like water droplets filling the chambers 11 and 21 of the male and female dies 1 and 2 are formed by collision of water vapor with hot water of 60 to 100 ° C. Has temperature.

そして、雌雄型1、2のチャンバー11、21内には100℃以下の霧状の水滴が充満しており、この霧状の水滴が、水蒸気供給管6の分岐管61、62の水蒸気噴出孔61a、62aから噴射された水蒸気と衝突し、この衝突でも100℃以下の適度な温度を有する微細な霧状の水滴が発生する。   The chambers 11 and 21 of the male and female dies 1 and 2 are filled with mist-like water droplets of 100 ° C. or less, and these mist-like water droplets are the water vapor ejection holes of the branch pipes 61 and 62 of the water vapor supply pipe 6. It collides with water vapor ejected from 61a and 62a, and fine water droplets having an appropriate temperature of 100 ° C. or less are generated even in this collision.

従って、ポリ乳酸系樹脂発泡粒子に直接、高温の水蒸気が接触することは殆どなく、適度な温度を有する霧状の水滴が、ポリ乳酸系樹脂の結晶化を急激に促進させることなく、ポリ乳酸系樹脂発泡粒子を加熱して発泡させ、更に、比熱の高い温水で加熱しているのでポリ乳酸系樹脂の結晶化度を充分に高めることができ、機械的強度及び外観の優れたポリ乳酸系樹脂発泡成形体を得ることができる。   Therefore, the high-temperature water vapor is hardly in direct contact with the polylactic acid-based resin expanded particles, and the mist-like water droplets having an appropriate temperature do not rapidly accelerate crystallization of the polylactic acid-based resin. -Based resin foamed particles are heated and foamed, and further heated with warm water having a high specific heat, so that the degree of crystallinity of the polylactic acid resin can be sufficiently increased, and the polylactic acid type with excellent mechanical strength and appearance A resin foam molding can be obtained.

このようにしてポリ乳酸系樹脂発泡粒子を発泡させた後、水蒸気供給管6の分岐管61、62の開閉弁61b、62bを閉止状態とすると共に、温水供給管4に介在させている三方弁4aを制御して、冷却水供給管5と雌雄型1、2のチャンバー11、21内とが連通した状態とする。この状態においては、温水槽3と、雌雄型1、2のチャンバー11、21内とは切断されている。   After foaming the polylactic acid-based resin expanded particles in this way, the open / close valves 61b and 62b of the branch pipes 61 and 62 of the water vapor supply pipe 6 are closed, and the three-way valve interposed in the hot water supply pipe 4 4a is controlled so that the cooling water supply pipe 5 communicates with the inside of the chambers 11 and 21 of the male and female dies 1 and 2. In this state, the hot water tank 3 and the insides of the chambers 11 and 21 of the male and female dies 1 and 2 are disconnected.

しかる後、ポンプP2を駆動させて冷却水を冷却水供給管5並びに温水供給管4及びその分岐管41、42を通じて雌雄型1、2のチャンバー11、21内に供給し、温水供給管4の分岐管41、42の水噴出孔41a、42aから冷却水をキャビティに向かって噴射して雌雄型1、2間に形成されたキャビティ内のポリ乳酸系樹脂発泡成形体を冷却し、しかる後、雌雄型1、2を型開きしてポリ乳酸系樹脂発泡成形体を得ることができる。 Thereafter, the pump P 2 is driven to supply cooling water into the chambers 11 and 21 of the male and female dies 1 and 2 through the cooling water supply pipe 5, the hot water supply pipe 4 and its branch pipes 41 and 42, and the hot water supply pipe 4. Cooling water is injected from the water ejection holes 41a and 42a of the branch pipes 41 and 42 toward the cavity to cool the polylactic acid resin foam molded body in the cavity formed between the male and female molds 1 and 2, and then Then, the male and female molds 1 and 2 can be opened to obtain a polylactic acid resin foam molded article.

なお、ポリ乳酸系樹脂発泡粒子の発泡工程及びポリ乳酸系樹脂発泡成形体の冷却工程において雌雄型1、2のチャンバー11、21内において生じた排水は、図示しないポンプを駆動させて排水管7を通じて温水槽3内に還流させて再利用される。   The drainage generated in the chambers 11 and 21 of the male and female molds 1 and 2 in the foaming process of the polylactic acid resin foamed particles and the cooling process of the polylactic acid resin foamed molded product is driven by a pump (not shown). The water is recirculated into the hot water tank 3 and reused.

上記では、ポリ乳酸系樹脂発泡粒子の発泡工程及びポリ乳酸系樹脂発泡成形体の冷却工程において、排水管7の分岐管71、72に介在させた開閉弁71a、72aを常時開放した状態としたが、ポリ乳酸系樹脂発泡成形体の冷却工程中において開閉弁71a、72aを閉止し、雌雄型1、2のチャンバー11、21内に冷却水を溜めてポリ乳酸系樹脂発泡成形体を冷却水中に浸漬させた状態としてポリ乳酸系樹脂発泡成形体を冷却してもよい。   In the above, in the foaming process of the polylactic acid-based resin foamed particles and the cooling process of the polylactic acid-based resin foam molding, the on-off valves 71a and 72a interposed in the branch pipes 71 and 72 of the drain pipe 7 are always open. However, during the cooling process of the polylactic acid resin foam molding, the on-off valves 71a and 72a are closed, and the cooling water is stored in the chambers 11 and 21 of the male and female molds 1 and 2, so that the polylactic acid resin foam molding is cooled. You may cool a polylactic acid-type resin foaming molding as the state immersed in.

そして、雌雄型1、2を再度、型締めし、雌雄型1、2間に形成されたキャビティ内にポリ乳酸系樹脂発泡粒子を充填して上記と同様の要領でポリ乳酸系樹脂発泡成形体を繰返し製造すればよい。   Then, the male and female molds 1 and 2 are clamped again, and the polylactic acid resin foamed molded body is filled in the same manner as above by filling the polylactic acid resin foamed particles in the cavity formed between the male and female molds 1 and 2. May be repeatedly manufactured.

1 雌型
11 チャンバー
12 バックプレート
13 壁部
13a 貫通孔
2 雄型
21 チャンバー
22 バックプレート
23 壁部
23a 貫通孔
3 温水槽
4 温水供給管
41 分岐管
41a 水噴出孔
41b 開閉弁
4a 三方弁
5 冷却水供給管
6 水蒸気供給管
61 分岐管
61a 水蒸気噴出孔
61b 開閉弁
7 排水管
71 分岐管
71a 開閉弁
A 成形装置
1 ポンプ
2 ポンプ
1 Female
11 chambers
12 Back plate
13 Wall
13a Through hole 2 Male
21 chamber
22 Back plate
23 Wall
23a Through hole 3 Hot water tank 4 Hot water supply pipe
41 branch pipe
41a Water outlet
41b On-off valve
4a Three-way valve 5 Cooling water supply pipe 6 Steam supply pipe
61 Branch pipe
61a Steam outlet
61b On-off valve 7 Drain pipe
71 branch pipe
71a On-off valve A Molding device P 1 pump P 2 pump

Claims (3)

チャンバーを備えた雌雄型を型締めして形成されるキャビティ内にポリ乳酸系樹脂発泡粒子を充填した後、上記雌雄型のチャンバー内に水蒸気及び
60〜100℃の温水を供給し、上記水蒸気と上記温水とを接触させることによって霧状の水滴を発生させ、この霧状の水滴によって上記キャビティ内のポリ乳酸系樹脂発泡粒子を加熱して発泡させてポリ乳酸系樹脂発泡成形体を製造することを特徴とするポリ乳酸系樹脂発泡成形体の製造方法。
After filling polylactic acid resin foamed particles in a cavity formed by clamping a male and female mold provided with a chamber, water vapor and hot water of 60 to 100 ° C. are supplied into the male and female mold chambers, A mist-like water droplet is generated by contacting with the warm water, and the polylactic acid resin foamed particles in the cavity are heated and foamed by the mist-like water droplet to produce a polylactic acid resin foam molded article. A process for producing a polylactic acid resin foamed molded article.
雌雄型のチャンバー内に配設した温水供給管から温水を噴射させると共に、この噴出した温水に水蒸気を接触させていることを特徴とする請求項1に記載のポリ乳酸系樹脂発泡成形体の製造方法。 2. The production of a polylactic acid resin foam molded article according to claim 1, wherein hot water is jetted from a hot water supply pipe disposed in a male and female chamber, and water vapor is brought into contact with the jetted hot water. Method. 雌雄型のチャンバーにおいて、雌雄型間に形成されるキャビティを構成する壁部と、温水を噴射させる温水供給管との間に形成された空間部に水蒸気供給管を配設し、この水蒸気供給管から水蒸気を噴出させることを特徴とする請求項2に記載のポリ乳酸系樹脂発泡成形体の製造方法。 In a male and female type chamber, a water vapor supply pipe is disposed in a space formed between a wall part forming a cavity formed between the male and female molds and a hot water supply pipe for injecting hot water. The method for producing a polylactic acid-based resin foam molded article according to claim 2, wherein water vapor is ejected from the foam.
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CN109732836A (en) * 2019-01-16 2019-05-10 翡柯机械(福建)有限公司 A kind of modified pile-up valve reducing waste of steam
CN112440403A (en) * 2019-08-30 2021-03-05 株式会社钟化 Apparatus and method for producing expanded beads

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JP2012214636A (en) * 2011-03-31 2012-11-08 Sekisui Plastics Co Ltd Method for producing polyester-based resin foamed body and polyester-based resin foamed body
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