JP3343499B2 - Method for detecting the density of molten resin - Google Patents
Method for detecting the density of molten resinInfo
- Publication number
- JP3343499B2 JP3343499B2 JP19373897A JP19373897A JP3343499B2 JP 3343499 B2 JP3343499 B2 JP 3343499B2 JP 19373897 A JP19373897 A JP 19373897A JP 19373897 A JP19373897 A JP 19373897A JP 3343499 B2 JP3343499 B2 JP 3343499B2
- Authority
- JP
- Japan
- Prior art keywords
- screw
- molten resin
- density
- screw head
- detecting
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29K—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR MOULDS, REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS
- B29K2995/00—Properties of moulding materials, reinforcements, fillers, preformed parts or moulds
- B29K2995/0037—Other properties
- B29K2995/0063—Density
Landscapes
- Injection Moulding Of Plastics Or The Like (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は、溶融樹脂の密度の
検出方法に関するものである。The present invention relates to a method for detecting the density of a molten resin.
【0002】[0002]
【従来の技術】従来、射出成形機は射出装置を有し、該
射出装置の加熱シリンダ内にスクリューが回転自在にか
つ進退自在に配設され、駆動手段を駆動することによっ
て前記スクリューを回転させたり、進退させたりするよ
うになっている。そして、計量工程時に、スクリューを
正回転させながら後退させ、ホッパから加熱シリンダ内
に供給された樹脂を加熱し、溶融させてスクリューヘッ
ドの前方に蓄え、射出工程時に、スクリューを前進させ
て射出ノズルから溶融させられた樹脂、すなわち、溶融
樹脂を射出するようにしている。2. Description of the Related Art Conventionally, an injection molding machine has an injection device, and a screw is disposed in a heating cylinder of the injection device so as to be rotatable and advanceable and retractable. The screw is rotated by driving a driving means. Or move forward and backward. Then, at the time of the measuring step, the screw is retracted while rotating the screw forward, the resin supplied from the hopper into the heating cylinder is heated, melted and stored in front of the screw head. , The molten resin, that is, the molten resin is injected.
【0003】ところで、樹脂の材料、樹脂の圧力、加熱
温度等が変化するのに伴って前記溶融樹脂の密度が変化
する。そして、該溶融樹脂の密度にばらつきが生じる
と、前記射出装置を同じ条件で作動させても、各ショッ
トごとに成形品の重量、寸法等の品質が変動してしま
う。そこで、計量時間、クッション量等の変化を測定す
ることによって、前記溶融樹脂の密度の変化を間接的に
監視するようにしている。Meanwhile, the density of the molten resin changes as the material of the resin, the pressure of the resin, the heating temperature, and the like change. If the density of the molten resin varies, the quality such as the weight and size of the molded product varies for each shot even when the injection device is operated under the same conditions. Therefore, the change in the density of the molten resin is indirectly monitored by measuring the change in the measuring time, the cushion amount, and the like.
【0004】[0004]
【発明が解決しようとする課題】しかしながら、前記従
来の射出装置においては、計量時間、クッション量等の
変化が、単独で前記溶融樹脂の密度に影響を与えるので
はなく、相互に関係して溶融樹脂の密度に影響を与える
ようになっているので、溶融樹脂の密度のばらつきを数
値化することができない。したがって、成形条件出しが
困難になるので、成形品の品質を向上させることができ
ない。However, in the above-mentioned conventional injection apparatus, the change in the measuring time, the amount of cushion, etc. does not affect the density of the molten resin alone, but changes in relation to each other. Since the influence is given to the density of the resin, the variation in the density of the molten resin cannot be quantified. Therefore, it is difficult to determine the molding conditions, and the quality of the molded product cannot be improved.
【0005】本発明は、前記従来の射出装置の問題点を
解決して、溶融樹脂の密度のばらつきを数値化すること
ができ、成形条件出しが容易になり、成形品の品質を向
上させることができる溶融樹脂の密度の検出方法を提供
することを目的とする。SUMMARY OF THE INVENTION The present invention solves the problems of the conventional injection device, can quantify the variation in the density of the molten resin, facilitates the setting of molding conditions, and improves the quality of molded products. It is an object of the present invention to provide a method for detecting the density of a molten resin that can be used.
【0006】[0006]
【課題を解決するための手段】そのために、本発明の溶
融樹脂の密度の検出方法においては、計量工程が完了し
た後に、スクリューヘッドの前方とメータリング部とを
遮断し、スクリューを一定の力で押したときのスクリュ
ーの前進量を検出し、該前進量に基づいて溶融樹脂の密
度を検出する。For this purpose, in the method for detecting the density of the molten resin of the present invention, after the completion of the measuring step, the front of the screw head and the metering section are shut off, and the screw is kept at a constant force. The amount of advance of the screw when pressed with is detected, and the density of the molten resin is detected based on the amount of advance.
【0007】本発明の他の溶融樹脂の密度の検出方法に
おいては、計量工程が完了した後に、スクリューヘッド
の前方とメータリング部とを遮断し、スクリューを一定
の距離だけ前進させたときのスクリューを押す力を検出
し、該力に基づいて溶融樹脂の密度を検出する。According to another method for detecting the density of a molten resin of the present invention, after the completion of the measuring step, the front of the screw head and the metering section are shut off, and the screw is moved forward by a predetermined distance. Is detected, and the density of the molten resin is detected based on the force.
【0008】[0008]
【発明の実施の形態】以下、本発明の実施の形態につい
て図面を参照しながら詳細に説明する。図1は本発明の
実施の形態における射出装置の概略図、図2は本発明の
実施の形態における逆流防止装置の計量工程時の正面
図、図3は図2のX−X断面図、図4は本発明の実施の
形態における逆流防止装置の逆回転時の正面図、図5は
図4のY−Y断面図である。Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a schematic view of an injection device according to an embodiment of the present invention, FIG. 2 is a front view of a backflow prevention device in a measuring step of the embodiment of the present invention, and FIG. 4 is a front view of the backflow prevention device according to the embodiment of the present invention at the time of reverse rotation, and FIG. 5 is a sectional view taken along the line YY of FIG.
【0009】図において、11は加熱シリンダであり、
該加熱シリンダ11は、前端(図1における左端)に射
出ノズル13を有する。前記加熱シリンダ11内には、
スクリュー12が回転自在にかつ進退自在に配設され、
駆動手段52を駆動することによって前記スクリュー1
2を回転させたり、進退させたりするようになってい
る。なお、前記駆動手段52としては、通常、射出シリ
ンダ、電動機等が使用される。前記スクリュー12は、
前記加熱シリンダ11内を後方(図1における右方)に
延び、後端において前記駆動手段52と連結されるとと
もに、前端にスクリューヘッド14を有する。また、前
記スクリュー12のメータリング部18の表面には、螺
(ら)旋状のフライト15が形成され、フライト15間
に溝16が形成される。In the figure, 11 is a heating cylinder,
The heating cylinder 11 has an injection nozzle 13 at a front end (left end in FIG. 1). In the heating cylinder 11,
A screw 12 is disposed rotatably and retractably,
By driving the driving means 52, the screw 1
2 is rotated or moved forward and backward. Note that, as the driving means 52, an injection cylinder, an electric motor or the like is usually used. The screw 12
The heating cylinder 11 extends rearward (to the right in FIG. 1), is connected to the driving means 52 at a rear end, and has a screw head 14 at a front end. A spiral flight 15 is formed on the surface of the metering portion 18 of the screw 12, and a groove 16 is formed between the flights 15.
【0010】そして、前記加熱シリンダ11における後
方の所定箇所にホッパ17が配設され、該ホッパ17に
図示しないペレット状の樹脂が投入される。前記構成の
射出装置において、計量工程時に、前記駆動手段52を
駆動して前記スクリュー12を図3の矢印M方向に回転
させながら後退させると、前記ホッパ17内のペレット
状の樹脂が加熱シリンダ11内に供給され、溝16内を
前進させられる。A hopper 17 is disposed at a predetermined position behind the heating cylinder 11, and a pellet-shaped resin (not shown) is charged into the hopper 17. In the injection device having the above-described configuration, when the screw 12 is rotated backward in the direction of arrow M in FIG. 3 to drive the driving means 52 during the measuring step, the pellet-shaped resin in the hopper 17 is heated by the heating cylinder 11. And advanced in the groove 16.
【0011】また、前記加熱シリンダ11の外周には図
示しないヒータが配設され、該ヒータによって加熱シリ
ンダ11を加熱し、前記溝16内の樹脂を溶融させるこ
とができる。したがって、スクリュー12を矢印M方向
に回転させながら所定量だけ後退させると、スクリュー
ヘッド14の前方に1ショット分の溶融樹脂が蓄えられ
る。A heater (not shown) is provided on the outer periphery of the heating cylinder 11, and the heater can heat the heating cylinder 11 to melt the resin in the groove 16. Therefore, if the screw 12 is retracted by a predetermined amount while rotating in the direction of arrow M, one shot of molten resin is stored in front of the screw head 14.
【0012】このようにして、計量工程が完了すると、
前記射出ノズル13の先端から溶融樹脂が垂れ落ちるこ
とがないようにサックバックが行われ、スクリュー12
は回転させられることなくわずかな量だけ更に後退させ
られる。次に、射出工程時に、前記駆動手段52を駆動
してスクリュー12を回転させることなく前進させる
と、前記スクリューヘッド14の前方に蓄えられた溶融
樹脂は、前記射出ノズル13から射出され、金型51の
図示しないキャビティ空間に充填(てん)される。In this way, when the measuring step is completed,
Suck back is performed so that the molten resin does not hang down from the tip of the injection nozzle 13 and the screw 12
Is further retracted by a small amount without being rotated. Next, in the injection step, when the driving means 52 is driven to advance the screw 12 without rotating, the molten resin stored in front of the screw head 14 is injected from the injection nozzle 13 and the mold. A cavity space 51 (not shown) is filled.
【0013】ところで、射出工程時に、前記スクリュー
ヘッド14の前方に蓄えられた溶融樹脂が逆流しないよ
うに、逆流防止装置が配設される。すなわち、前記スク
リューヘッド14は、前部に円錐(すい)形のヘッド本
体部21を、後部に小径部19を有し、該小径部19の
後端が前記メータリング部18にねじ止めされる。そし
て、前記小径部の外周に、環状の逆止リング31が配設
される。By the way, a backflow prevention device is provided to prevent the molten resin stored in front of the screw head 14 from flowing backward during the injection step. That is, the screw head 14 has a conical (conical) head body portion 21 at the front portion and a small diameter portion 19 at the rear portion, and the rear end of the small diameter portion 19 is screwed to the metering portion 18. . An annular check ring 31 is provided on the outer periphery of the small diameter portion.
【0014】該逆止リング31は、スクリューヘッド1
4の前方とメータリング部18とを選択的に遮断し、計
量工程時にメータリング部18の溶融樹脂をスクリュー
ヘッド14の前方に送り、射出工程時にスクリューヘッ
ド14の前方の溶融樹脂がメータリング部18に逆流す
るのを防止する。そのために、前記小径部19の円周方
向における複数箇所、例えば、4箇所に、軸方向に延び
る溝35が形成される。そして、該各溝35は、小径部
19の前方部にだけ形成され、各溝35より後方におい
ては、溝35の深さ分だけ小径部19の外周の全体が削
られ、逆止リング31と小径部19との間に環状の樹脂
流路35aが形成される。なお、各溝35をそのまま小
径部19の後端まで延在させることもできる。The check ring 31 is connected to the screw head 1.
4 and the metering section 18 are selectively cut off, the molten resin in the metering section 18 is sent to the front of the screw head 14 during the measuring step, and the molten resin in front of the screw head 14 is metered in the injection step. 18 to prevent backflow. For this purpose, grooves 35 extending in the axial direction are formed at a plurality of locations in the circumferential direction of the small diameter portion 19, for example, at four locations. Each of the grooves 35 is formed only in the front portion of the small-diameter portion 19, and in the rear of each of the grooves 35, the entire outer periphery of the small-diameter portion 19 is cut by the depth of the groove 35, and the check ring 31 and An annular resin flow path 35 a is formed between the small-diameter portion 19 and the small-diameter portion 19. In addition, each groove 35 can be extended to the rear end of the small diameter portion 19 as it is.
【0015】また、前記逆止リング31の前方部には、
前記各溝35に対応させて弧状突片36、37が形成さ
れる。本実施の形態において、2個の弧状突片36は、
前記ヘッド本体部21の円周方向における2箇所に形成
された切欠25内に延在させられる。したがって、スク
リュー12が回転させられたときに、スクリューヘッド
14に対して逆止リング31が相対的に回転した後、弧
状突片36は、ヘッド本体部21と係止させられて、逆
止リング31に閉鎖位置と開放位置とを設定する。そし
て、逆止リング31が閉鎖位置に置かれると、弧状突片
36と溝35とは円周方向において重なり、スクリュー
ヘッド14の前方とメータリング部18とを遮断し、逆
止リング31が開放位置に置かれると、弧状突片36と
溝35とは円周方向において重ならず、スクリューヘッ
ド14の前方とメータリング部18とを連通させる。In addition, at the front of the check ring 31,
Arc-shaped projecting pieces 36 and 37 are formed corresponding to the respective grooves 35. In the present embodiment, the two arc-shaped projecting pieces 36
The head body 21 is extended into cutouts 25 formed at two locations in the circumferential direction. Therefore, when the check ring 31 rotates relative to the screw head 14 when the screw 12 is rotated, the arc-shaped protruding piece 36 is locked with the head body 21 and the check ring 31 is rotated. A closed position and an open position are set at 31. When the check ring 31 is placed in the closed position, the arc-shaped protruding piece 36 and the groove 35 overlap in the circumferential direction, shut off the front of the screw head 14 and the metering portion 18, and open the check ring 31. When placed in the position, the arc-shaped protruding piece 36 and the groove 35 do not overlap in the circumferential direction, and connect the front of the screw head 14 and the metering portion 18 to each other.
【0016】一方、2個の弧状突片37は、ヘッド本体
部21の後端の近傍まで延び、逆止リング31が閉鎖位
置に置かれると、弧状突片37と溝35とは円周方向に
おいて重なり、スクリューヘッド14の前方とメータリ
ング部18とを遮断し、逆止リング31が開放位置に置
かれると、弧状突片37と溝35とは円周方向において
重ならず、スクリューヘッド14の前方とメータリング
部18とを連通させる。なお、各弧状突片36と弧状突
片37との間には樹脂流路38が形成される。On the other hand, the two arc-shaped projecting pieces 37 extend to the vicinity of the rear end of the head main body 21, and when the check ring 31 is placed in the closed position, the arc-shaped projecting pieces 37 and the groove 35 are formed in the circumferential direction. When the check ring 31 is placed in the open position, the arc-shaped protruding piece 37 and the groove 35 do not overlap in the circumferential direction, and the screw head 14 does not overlap. And the metering section 18 are communicated with each other. A resin flow path 38 is formed between each of the arc-shaped protrusions 36 and the arc-shaped protrusion 37.
【0017】また、逆止リング31がスクリューヘッド
14に対して相対的に前方に移動し、ヘッド本体部21
の後端と弧状突片37の先端とが当接したときに、逆止
リング31の後端とメータリング部18の前端との間に
樹脂流路40が形成されるように逆止リング31の寸法
が設定される。そして、逆止リング31がスクリューヘ
ッド14に対して相対的に後方に移動し、逆止リング3
1の後端が、メータリング部18の前端に固定されたシ
ールリング18aに当接したときに、スクリューヘッド
14の前方とメータリング部18とが遮断される。Further, the check ring 31 moves forward relative to the screw head 14, and the head body 21
When the rear end of the non-return ring abuts against the front end of the arc-shaped protruding piece 37, the resin flow path 40 is formed between the rear end of the check ring 31 and the front end of the metering portion 18. Is set. Then, the check ring 31 moves relatively rearward with respect to the screw head 14, and the check ring 3
When the rear end of 1 abuts on the seal ring 18a fixed to the front end of the metering section 18, the front of the screw head 14 and the metering section 18 are shut off.
【0018】次に、前記構成の逆流防止装置の動作につ
いて説明する。まず、計量工程時に、スクリュー12を
図3の矢印M方向に回転させると、逆止リング31は慣
性及び溶融樹脂の抵抗によって停止しようとするので、
図2に示すように、スクリューヘッド14のヘッド本体
部21が弧状突片36に当たり、その後はスクリューヘ
ッド14と逆止リング31とが一体的に回転させられ
る。このとき、逆止リング31は開放位置に置かれ、ス
クリューヘッド14の前方とメータリング部18とを連
通する。Next, the operation of the backflow prevention device having the above configuration will be described. First, when the screw 12 is rotated in the direction of arrow M in FIG. 3 during the measuring process, the check ring 31 tends to stop due to inertia and resistance of the molten resin.
As shown in FIG. 2, the head body 21 of the screw head 14 hits the arc-shaped projecting piece 36, and thereafter the screw head 14 and the check ring 31 are integrally rotated. At this time, the check ring 31 is placed in the open position, and connects the front of the screw head 14 and the metering section 18.
【0019】この状態で、スクリュー12を矢印M方向
に回転させながら所定量だけ後退させると、ホッパ17
内のペレット状の樹脂が、加熱シリンダ11内に供給さ
れ、溝16内を前進させられるとともに、前記ヒータに
よって溶融させられる。そして、メータリング部18を
通過した溶融樹脂は、樹脂流路40、35a及び溝35
を通り、弧状突片36と弧状突片37との間の樹脂流路
38を通ってスクリューヘッド14の前方に到達する。
このようにして、1ショット分の溶融樹脂がスクリュー
ヘッド14の前方に蓄えられる。In this state, when the screw 12 is retracted by a predetermined amount while rotating in the direction of arrow M, the hopper 17
The resin in the form of pellets is supplied into the heating cylinder 11, is advanced in the groove 16, and is melted by the heater. Then, the molten resin that has passed through the metering section 18 is subjected to the resin flow paths 40 and 35 a and the groove 35.
And reaches the front of the screw head 14 through the resin flow path 38 between the arc-shaped protrusion 36 and the arc-shaped protrusion 37.
In this way, one shot of molten resin is stored in front of the screw head 14.
【0020】続いて、射出工程を行う前に、スクリュー
12を逆方向、すなわち、図5の矢印N方向に回転させ
ると、逆止リング31は慣性及び溶融樹脂の抵抗によっ
て停止しようとするので、図4に示すように、スクリュ
ーヘッド14のヘッド本体部21が弧状突片36に当た
り、その後はスクリューヘッド14と逆止リング31と
が一体的に回転させられる。このとき、逆止リング31
は閉鎖位置に置かれ、スクリューヘッド14の前方とメ
ータリング部18とを遮断する。Subsequently, before the injection step is performed, if the screw 12 is rotated in the reverse direction, that is, in the direction of the arrow N in FIG. 5, the check ring 31 tends to stop due to inertia and resistance of the molten resin. As shown in FIG. 4, the head body 21 of the screw head 14 hits the arc-shaped projecting piece 36, and thereafter the screw head 14 and the check ring 31 are integrally rotated. At this time, the check ring 31
Is placed in the closed position, and blocks the front of the screw head 14 from the metering portion 18.
【0021】そして、射出工程時に、スクリュー12を
回転させることなく前進限位置まで前進させると、スク
リューヘッド14の前方に蓄えられた溶融樹脂が、前記
射出ノズル13から射出され、前記金型51のキャビテ
ィ空間に充填される。このとき、スクリューヘッド14
の前方とメータリング部18とが遮断されているので、
スクリューヘッド14の前方の溶融樹脂が逆流すること
はない。また、スクリュー12の前進に伴って、逆止リ
ング31がスクリューヘッド14に対して相対的に後方
に移動し、逆止リング31の後端がシールリング18a
に当接したときに、シールが終了する。In the injection step, when the screw 12 is advanced to the forward limit position without rotating, the molten resin stored in front of the screw head 14 is injected from the injection nozzle 13 and The cavity is filled. At this time, the screw head 14
Is cut off from the front of the metering part 18,
The molten resin in front of the screw head 14 does not flow backward. Further, as the screw 12 advances, the check ring 31 moves backward relative to the screw head 14, and the rear end of the check ring 31 is
When the contact is made, the seal ends.
【0022】このように、計量工程が完了したときにス
クリュー12を矢印N方向に回転させるだけで、スクリ
ューヘッド14の前方とメータリング部18とを遮断す
ることができるので、シールが開始されるタイミングが
変動するのを防止することができる。ところで、計量工
程が完了した後に、スクリュー12が逆方向に回転させ
られ、樹脂流路35aが遮断されるが、この時点で前記
駆動手段52が駆動され、スクリュー12に負荷ΔPが
加えられて、このときのスクリュー12の前進量ΔSを
スクリュー位置検出器53によって検出する。そのため
に、前記駆動手段52によって前記負荷ΔPに対応させ
て力Fが発生させられ、該力Fによってスクリュー12
が押される。なお、前記スクリュー12と駆動手段52
との間に荷重検出器54が配設され、該荷重検出器54
によって検出された荷重に基づいてフィードバック制御
が行われ、前記駆動手段52によって力Fが発生させら
れる。As described above, the front of the screw head 14 and the metering section 18 can be shut off only by rotating the screw 12 in the direction of the arrow N when the measuring step is completed, so that the sealing is started. Variation in timing can be prevented. By the way, after the completion of the measuring step, the screw 12 is rotated in the reverse direction, and the resin flow path 35a is shut off. At this time, the driving means 52 is driven, and the load ΔP is applied to the screw 12, The advance amount ΔS of the screw 12 at this time is detected by the screw position detector 53. For this purpose, the driving means 52 generates a force F corresponding to the load ΔP, and the force F
Is pressed. The screw 12 and the driving means 52
The load detector 54 is disposed between the
The feedback control is performed based on the load detected by the driving means 52, and the driving means 52 generates a force F.
【0023】この場合、溶融樹脂の密度にばらつきがあ
ると、一定の負荷ΔPをスクリュー12に加えたときに
前進量ΔSにばらつきが生じる。そこで、通常の射出成
形のシーケンスの中に検出動作を入れ、各ショットごと
に前記前進量ΔSを検出するようにしている。したがっ
て、該前進量ΔSに基づいて溶融樹脂の密度を検出する
ことができるだけでなく、該溶融樹脂の密度のばらつき
を数値化することができる。その結果、成形条件出しが
容易になり、成形品の品質を向上させることができる。In this case, if there is a variation in the density of the molten resin, when a certain load ΔP is applied to the screw 12, the advance amount ΔS varies. Therefore, a detection operation is included in the normal injection molding sequence to detect the advance amount ΔS for each shot. Therefore, not only can the density of the molten resin be detected based on the advance amount ΔS, but also the variation in the density of the molten resin can be quantified. As a result, molding conditions can be easily determined, and the quality of a molded product can be improved.
【0024】そして、前記スクリュー12の前進量ΔS
のばらつきが最小になるように成形条件を設定すると、
成形品の品質を安定化させることができる。また、前進
量ΔSのばらつきに基づいて成形品の良否の判別を行う
こともできる。本実施の形態においては、一定の力Fで
押したときのスクリュー12の前進量ΔSを検出するよ
うにしているが、スクリュー12を一定の距離だけ前進
させたときのスクリュー12を押す力を検出することも
できる。The amount of advance ΔS of the screw 12 is
When the molding conditions are set so that the variation in
The quality of the molded product can be stabilized. Further, the quality of the molded product can be determined based on the variation of the advance amount ΔS. In the present embodiment, the advance amount ΔS of the screw 12 when the screw 12 is pushed with a constant force F is detected. However, the pushing force of the screw 12 when the screw 12 is advanced by a fixed distance is detected. You can also.
【0025】この場合、溶融樹脂の密度にばらつきがあ
ると、スクリュー12を一定の距離だけ前進させたとき
のスクリュー12を押す力にばらつきが生じる。したが
って、力を検出し、該力に基づいて溶融樹脂の密度を検
出することができるだけでなく、該溶融樹脂の密度のば
らつきを数値化することができる。なお、本発明は前記
実施の形態に限定されるものではなく、本発明の趣旨に
基づいて種々変形させることが可能であり、それらを本
発明の範囲から排除するものではない。In this case, if the density of the molten resin varies, the force for pushing the screw 12 when the screw 12 is advanced by a predetermined distance varies. Therefore, not only can the force be detected and the density of the molten resin be detected based on the force, but also the variation in the density of the molten resin can be quantified. It should be noted that the present invention is not limited to the above-described embodiment, but can be variously modified based on the gist of the present invention, and they are not excluded from the scope of the present invention.
【0026】[0026]
【発明の効果】以上詳細に説明したように、本発明によ
れば、溶融樹脂の密度の検出方法においては、計量工程
が完了した後に、スクリューヘッドの前方とメータリン
グ部とを遮断し、スクリューを一定の力で押したときの
スクリューの前進量を検出し、該前進量に基づいて溶融
樹脂の密度を検出する。As described above in detail, according to the present invention, in the method for detecting the density of the molten resin, after the measuring step is completed, the front of the screw head and the metering section are cut off, The amount of advance of the screw when is pressed with a constant force is detected, and the density of the molten resin is detected based on the amount of advance.
【0027】この場合、溶融樹脂の密度にばらつきがあ
ると、一定の力で押したときのスクリューの前進量にば
らつきが生じる。したがって、前進量を検出し、該前進
量に基づいて溶融樹脂の密度を検出することができるだ
けでなく、該溶融樹脂の密度のばらつきを数値化するこ
とができる。その結果、成形条件出しが容易になり、成
形品の品質を向上させることができる。In this case, if there is a variation in the density of the molten resin, there will be a variation in the amount of advance of the screw when pressed with a constant force. Therefore, not only can the amount of advance be detected and the density of the molten resin be detected based on the amount of advance, but also the variation in the density of the molten resin can be quantified. As a result, molding conditions can be easily determined, and the quality of a molded product can be improved.
【0028】そして、前記スクリューの前進量のばらつ
きが最小になるように成形条件を設定すると、成形品の
品質を安定化させることができる。また、前進量のばら
つきに基づいて成形品の良否の判別を行うこともでき
る。本発明の他の溶融樹脂の密度の検出方法において
は、計量工程が完了した後に、スクリューヘッドの前方
とメータリング部とを遮断し、スクリューを一定の距離
だけ前進させたときのスクリューを押す力を検出し、該
力に基づいて溶融樹脂の密度を検出する。If the molding conditions are set so that the variation in the amount of advance of the screw is minimized, the quality of the molded product can be stabilized. Further, the quality of the molded product can be determined based on the variation in the amount of advance. In another method for detecting the density of the molten resin of the present invention, after the measurement step is completed, the front of the screw head and the metering section are shut off, and the force for pushing the screw when the screw is advanced by a certain distance And the density of the molten resin is detected based on the force.
【0029】この場合、溶融樹脂の密度にばらつきがあ
ると、スクリューを一定の距離だけ前進させたときのス
クリューを押す力にばらつきが生じる。したがって、力
を検出し、該力に基づいて溶融樹脂の密度を検出するこ
とができるだけでなく、該溶融樹脂の密度のばらつきを
数値化することができる。In this case, if the density of the molten resin varies, the force for pushing the screw when the screw is advanced by a predetermined distance varies. Therefore, not only can the force be detected and the density of the molten resin be detected based on the force, but also the variation in the density of the molten resin can be quantified.
【図1】本発明の実施の形態における射出装置の概略図
である。FIG. 1 is a schematic view of an injection device according to an embodiment of the present invention.
【図2】本発明の実施の形態における逆流防止装置の計
量工程時の正面図である。FIG. 2 is a front view of the backflow prevention device according to the embodiment of the present invention in a measuring step.
【図3】図2のX−X断面図である。FIG. 3 is a sectional view taken along line XX of FIG. 2;
【図4】本発明の実施の形態における逆流防止装置の逆
回転時の正面図である。FIG. 4 is a front view of the backflow prevention device according to the embodiment of the present invention at the time of reverse rotation.
【図5】図4のY−Y断面図である。FIG. 5 is a sectional view taken along line YY of FIG. 4;
12 スクリュー 14 スクリューヘッド 18 メータリング部 F 力 ΔS 前進量 12 Screw 14 Screw head 18 Metering part F force ΔS Advance amount
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) B29C 45/00 - 45/84 ──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int. Cl. 7 , DB name) B29C 45/00-45/84
Claims (2)
ューヘッドの前方とメータリング部とを遮断し、(b)
スクリューを一定の力で押したときのスクリューの前進
量を検出し、(c)該前進量に基づいて溶融樹脂の密度
を検出することを特徴とする溶融樹脂の密度の検出方
法。(A) after the completion of the measuring step, shut off the front of the screw head and the metering section;
A method for detecting the density of a molten resin, comprising: detecting an amount of advance of the screw when the screw is pressed with a constant force; and (c) detecting a density of the molten resin based on the amount of advance.
ューヘッドの前方とメータリング部とを遮断し、(b)
スクリューを一定の距離だけ前進させたときのスクリュ
ーを押す力を検出し、(c)該力に基づいて溶融樹脂の
密度を検出することを特徴とする溶融樹脂の密度の検出
方法。(A) after the completion of the measuring step, shut off the front of the screw head and the metering section;
A method for detecting the density of a molten resin, comprising: detecting a force pressing the screw when the screw is advanced by a predetermined distance; and (c) detecting a density of the molten resin based on the force.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP19373897A JP3343499B2 (en) | 1997-07-18 | 1997-07-18 | Method for detecting the density of molten resin |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP19373897A JP3343499B2 (en) | 1997-07-18 | 1997-07-18 | Method for detecting the density of molten resin |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH1134133A JPH1134133A (en) | 1999-02-09 |
| JP3343499B2 true JP3343499B2 (en) | 2002-11-11 |
Family
ID=16312997
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP19373897A Expired - Fee Related JP3343499B2 (en) | 1997-07-18 | 1997-07-18 | Method for detecting the density of molten resin |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3343499B2 (en) |
Families Citing this family (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP3277490B2 (en) * | 2000-03-27 | 2002-04-22 | 住友重機械工業株式会社 | Control method of injection molding machine |
| SG91321A1 (en) * | 2000-03-27 | 2002-09-17 | Sumitomo Heavy Industries | Method for controlling an injection molding machine capable of reducing variations in weight of molded products |
-
1997
- 1997-07-18 JP JP19373897A patent/JP3343499B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH1134133A (en) | 1999-02-09 |
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