JPH0592462A - Hydraulic controlling device for injection molding machine - Google Patents
Hydraulic controlling device for injection molding machineInfo
- Publication number
- JPH0592462A JPH0592462A JP13446691A JP13446691A JPH0592462A JP H0592462 A JPH0592462 A JP H0592462A JP 13446691 A JP13446691 A JP 13446691A JP 13446691 A JP13446691 A JP 13446691A JP H0592462 A JPH0592462 A JP H0592462A
- Authority
- JP
- Japan
- Prior art keywords
- pressure
- injection
- accumulator
- hydraulic
- setting
- 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.)
- Granted
Links
Landscapes
- Supply Devices, Intensifiers, Converters, And Telemotors (AREA)
- Injection Moulding Of Plastics Or The Like (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は射出成形機に係り、特に
省エネルギーを実現する場合に好適な射出成形機の油圧
制御装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an injection molding machine, and more particularly to a hydraulic control device for an injection molding machine suitable for realizing energy saving.
【0002】[0002]
【従来の技術】従来、油圧回路にアキュムレータを装備
して流量マッチ方式と呼ばれる油圧制御により、射出動
作の高速化や省エネルギー化等を図った射出成形機が知
られているが、この種の射出成形機では、射出シリンダ
等のアクチュエータに必要な流量(容量)の体積油量の
み油圧ポンプから吐出させる制御を行っているため、リ
リーフ制御回路と比較した場合、省エネルギーとなって
いる。図4は油圧ポンプ1、リリーフバルブ2、切換弁
3、流量調整弁4、電磁弁5、射出シリンダ6を備えた
リリーフ回路の構成例であり、エネルギー損失分は圧油
流量Q3(=Q1−Q2)と圧力変化分ΔP(=P1−
P2)との積になり、また、図5は油圧ポンプ7、リリ
ーフバルブ8、切換弁9、チェックバルブ10、アキュ
ムレータ11、圧力スイッチ12、シーケンス制御装置
13、減圧弁14、流量調整弁15、電磁弁16、射出
シリンダ17を備えた流量マッチ回路の構成例であり、
エネルギー損失分は圧力変化分ΔP(=P1−P2)に
基づくものとなる。この場合、前記アキュムレータを備
えた流量マッチ方式では、シリンダ等のアクチュエータ
に対し必要な体積油量のみしか油圧ポンプから吐出させ
ないため(ポンプから吐出された体積油量V1とアクチ
ュエータで消費される体積油量V2は同一となる)、リ
リーフ制御方式と比較すると省エネルギーとなってい
る。2. Description of the Related Art Conventionally, there has been known an injection molding machine which is equipped with an accumulator in a hydraulic circuit and has a hydraulic control called a flow rate matching system to speed up an injection operation and save energy. In the molding machine, control is performed so that the hydraulic pump discharges only the volume oil amount of the flow rate (capacity) required for the actuator such as the injection cylinder. Therefore, energy saving is achieved when compared with the relief control circuit. FIG. 4 is a configuration example of a relief circuit including a hydraulic pump 1, a relief valve 2, a switching valve 3, a flow rate adjusting valve 4, a solenoid valve 5, and an injection cylinder 6, and an energy loss is a pressure oil flow rate Q3 (= Q1- Q2) and pressure change ΔP (= P1−
P2), and FIG. 5 shows a hydraulic pump 7, a relief valve 8, a switching valve 9, a check valve 10, an accumulator 11, a pressure switch 12, a sequence controller 13, a pressure reducing valve 14, a flow rate adjusting valve 15, 1 is a configuration example of a flow rate match circuit including a solenoid valve 16 and an injection cylinder 17,
The energy loss amount is based on the pressure change amount ΔP (= P1−P2). In this case, in the flow rate matching method including the accumulator, the hydraulic pump only discharges the necessary volume of oil to the actuator such as the cylinder (volume of oil V1 discharged from the pump and volume of oil consumed by the actuator). The amount V2 is the same), which is energy saving compared to the relief control method.
【0003】[0003]
【発明が解決しようとする課題】しかし、前述した流量
マッチ方式の従来技術においては次のような問題があっ
た。即ち、アキュムレータの充填圧を設定する場合は、
圧力センサ近傍に設けられた設定器を調整することによ
り行っているが、設定器によりアキュムレータの充填圧
を例えば150kgf/cm2に設定しておけばアキュ
ムレータは常時150Kg/cm2に充填することがで
きる(この場合、150kgf/cm2で充填動作がO
FFとなる)。ここで、射出成形機の動作に着目する
と、射出工程を始めとする全工程が全て最高回路圧力で
動作するものではなく、例えば射出工程の一部である充
填工程では射出圧力を樹脂充填圧に、射出工程の一部で
ある保圧工程では保圧にそれぞれ規制して使用してい
る。しかし、アキュムレータの充填圧は常時回路最高圧
となるため、射出成形機の射出工程の如く、動作圧力が
成形条件に伴って変化するものについては、アキュムレ
ータの充填圧と動作圧との差に相当する分がエネルギー
損失分となり、この結果、省エネルギーに逆行するとい
う不具合があった。However, the prior art of the flow rate matching method described above has the following problems. That is, when setting the filling pressure of the accumulator,
This is done by adjusting the setting device provided near the pressure sensor. However, if the setting pressure of the accumulator is set to, for example, 150 kgf / cm 2 , the accumulator can always be filled to 150 kg / cm 2. Possible (In this case, the filling operation is O at 150 kgf / cm 2
FF). Here, focusing on the operation of the injection molding machine, not all the processes including the injection process operate at the maximum circuit pressure. For example, in the filling process that is a part of the injection process, the injection pressure is set to the resin filling pressure. In the pressure holding process, which is a part of the injection process, the pressure holding is regulated and used. However, since the filling pressure of the accumulator is always the maximum circuit pressure, for those whose operating pressure changes with molding conditions, such as the injection process of an injection molding machine, it is equivalent to the difference between the filling pressure of the accumulator and the operating pressure. The amount of energy consumption is the energy loss, and as a result, there is a problem that it goes against energy conservation.
【0004】本発明は前記課題を解決するもので、アキ
ュムレータの充填圧を、射出工程等の所定の工程におけ
る成形条件と連動させて決定することにより、省エネル
ギーを実現した射出成形機の油圧制御装置を提供するこ
とを目的とする。The present invention has been made to solve the above-mentioned problems. The hydraulic control device for an injection molding machine realizes energy saving by determining the filling pressure of the accumulator in conjunction with molding conditions in a predetermined process such as an injection process. The purpose is to provide.
【0005】[0005]
【課題を解決するための手段】前記目的を達成するため
本発明は、射出成形機を動作させる各種アクチュエータ
と、各種アクチュエータへ供給する圧油を一時的に蓄積
するアキュムレータと、前記アクチュエータの作動油圧
を設定するための作動油圧設定手段と、前記作動油圧設
定手段により設定された作動油圧のうち最大作動油圧を
判定する最大作動油圧判定手段と、射出成形動作の流量
制御に必要な流量制御弁前後差圧を設定するための所要
油圧設定手段と、前記最大作動油圧判定手段により判定
された最大作動油圧に前記所要油圧設定手段により設定
した油圧を加算した値を、前記アキュムレータの充填圧
として決定する制御手段とを具備することを特徴とす
る。In order to achieve the above object, the present invention provides various actuators for operating an injection molding machine, accumulators for temporarily accumulating pressure oil to be supplied to the various actuators, and hydraulic pressures for the actuators. For setting the hydraulic pressure, a maximum hydraulic pressure determining means for determining the maximum hydraulic pressure among the hydraulic pressures set by the hydraulic pressure setting means, and a flow control valve before and after the flow control valve necessary for controlling the flow rate of the injection molding operation. A value obtained by adding the hydraulic pressure set by the required hydraulic pressure setting means to the required hydraulic pressure setting means for setting the differential pressure and the maximum operating hydraulic pressure determined by the maximum operating hydraulic pressure determination means is determined as the filling pressure of the accumulator. And a control means.
【0006】[0006]
【作用】本発明によれば、射出成形機のアキュムレータ
の充填圧を、射出成形機を動作させるアクチュエータの
最大作動油圧と流量制御に必要な流量制御弁前後差圧と
の加算値に決定しているため、従来の如くアキュムレー
タの充填圧と動作圧との差に相当する分がエネルギー損
失分となり省エネルギーに逆行するという不具合を解消
でき、省エネルギーを実現することができる。これによ
り、射出成形機の性能を向上させることが可能となる。According to the present invention, the filling pressure of the accumulator of the injection molding machine is determined as the sum of the maximum operating oil pressure of the actuator for operating the injection molding machine and the differential pressure across the flow control valve necessary for flow control. Therefore, the problem that the difference between the charging pressure of the accumulator and the operating pressure becomes an energy loss and goes against energy saving as in the conventional case can be solved, and energy saving can be realized. This makes it possible to improve the performance of the injection molding machine.
【0007】[0007]
【実施例】以下、本発明の実施例を図面に基づいて説明
する。図1は本実施例による射出成形機の流量マッチ回
路の構成図であり、圧油を吐出する油圧ポンプ20、射
出圧力を制御するリリーフバルブ21、切換弁22、圧
油の逆流を防止するチェックバルブ23、圧油エネルギ
ーを蓄圧するアキュムレータ24、アキュムレータ23
の充填圧を検出する圧力センサ25、プロセス制御を行
うプロセス制御装置26、油圧を所定圧力に減圧し減圧
後の油圧を一定に保持する減圧弁27、射出速度を調整
する流量調整弁28、射出シリンダの動作方向を制御す
る電磁弁29、図示略の射出スクリューを駆動する射出
シリンダ30を備える構成とされている。本実施例で
は、例えば射出工程における成形条件として射出圧(油
圧)を設定することに着目し、アキュムレータ24の充
填圧を「射出圧力設定最大値+α」に設定することによ
り、従来装置にみられた多量のエネルギー損失を少量に
抑制し、省エネルギーを実現するようになっている。こ
の場合、前記αは流量制御に必要な数値であり、具体的
には流量制御弁前後差圧であり(通常は例えば10kg
f/cm2前後)、本実施例におけるエネルギー損失分
はαのみに抑制することができるようになっている。
尚、本実施例では射出成形機のアクチュエータとして射
出シリンダを例に取り説明しているが、これに限定され
ず、型締シリンダ・エジェクタシリンダ・フィードシリ
ンダ・スクリュー回転モータ等にも適用可能である。Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a configuration diagram of a flow rate matching circuit of an injection molding machine according to the present embodiment, which includes a hydraulic pump 20 for discharging pressure oil, a relief valve 21 for controlling injection pressure, a switching valve 22, and a check for preventing backflow of pressure oil. Valve 23, accumulator 24 for accumulating pressure oil energy, accumulator 23
Pressure sensor 25 for detecting the filling pressure, process control device 26 for performing process control, pressure reducing valve 27 for reducing the hydraulic pressure to a predetermined pressure and maintaining the hydraulic pressure after depressurization constant, flow rate adjusting valve 28 for adjusting the injection speed, injection A solenoid valve 29 for controlling the operating direction of the cylinder and an injection cylinder 30 for driving an injection screw (not shown) are provided. In the present embodiment, for example, focusing on setting the injection pressure (hydraulic pressure) as the molding condition in the injection process, and setting the filling pressure of the accumulator 24 to the “injection pressure setting maximum value + α”, it can be seen in the conventional apparatus. In addition, a large amount of energy loss is suppressed to a small amount to realize energy saving. In this case, α is a numerical value required for flow control, specifically, the differential pressure across the flow control valve (usually 10 kg, for example).
f / cm 2 ), the energy loss in this embodiment can be suppressed to only α.
In this embodiment, the injection cylinder is explained as an example of the actuator of the injection molding machine, but the present invention is not limited to this, and is applicable to a mold clamping cylinder, an ejector cylinder, a feed cylinder, a screw rotation motor, and the like. .
【0008】また、図2は本実施例による射出成形機の
プロセス制御装置26のブロック図であり、射出圧力設
定器31、射出圧力設定最大値判定回路32、α設定器
33、アキュムレータ24、圧力センサ25、圧力セン
サ入力回路34、演算比較回路35を備える構成とされ
ている。前記射出圧力設定器31からは射出シリンダ3
0の射出圧力SVp1〜SVp4が設定され、射出圧力
設定最大値判定回路32へ出力されるようになってい
る。前記射出圧力設定最大値判定回路32は射出圧力設
定器31から設定された射出圧力SVp1〜SVp4の
うち何れが射出圧力設定最大値SVpmaxであるかを
判定し、射出圧力設定最大値SVpmaxを演算比較回
路35へ出力するようになっている。前記α設定器33
からは上述のαが設定され、演算比較回路35へ出力さ
れるようになっている。前記圧力センサ入力回路34
は、アキュムレータ24の充填圧を検出する圧力センサ
25の出力に基づくアキュムレータ圧力PVを演算比較
回路35へ出力するようになっている。前記演算比較回
路35は、SVA=SVpmax+αなる式に基づきア
キュムレータ24の充填圧SVAを演算し、アキュムレ
ータ圧力PV=SVAの場合には切換弁22(DV1)
をOFFとする一方、アキュムレータ圧力PV<SVA
の場合には切換弁22(DV1)をONとするようにな
っている。この場合、本実施例の射出成形機における射
出圧力設定例としては射出圧力設定値SVp1、SVp
2、SVp3、SVp4の異なる4圧に設定されてお
り、図3の例では射出圧力設定最大値SVp3に設定値
αを加算した値がアキュムレータ24の充填圧SVAで
あることを示している。FIG. 2 is a block diagram of the process control device 26 of the injection molding machine according to the present embodiment. The injection pressure setting device 31, the injection pressure setting maximum value determination circuit 32, the α setting device 33, the accumulator 24, and the pressure. The configuration includes a sensor 25, a pressure sensor input circuit 34, and a calculation comparison circuit 35. From the injection pressure setting device 31, the injection cylinder 3
The injection pressures SVp1 to SVp4 of 0 are set and output to the injection pressure setting maximum value determination circuit 32. The injection pressure setting maximum value determination circuit 32 determines which of the injection pressures SVp1 to SVp4 set by the injection pressure setting device 31 is the injection pressure setting maximum value SVpmax, and compares the injection pressure setting maximum value SVpmax by operation comparison. It is adapted to output to the circuit 35. The α setting device 33
Is set to the above-mentioned α and is output to the operation comparison circuit 35. The pressure sensor input circuit 34
Is configured to output the accumulator pressure PV based on the output of the pressure sensor 25 that detects the filling pressure of the accumulator 24 to the calculation comparison circuit 35. The calculation comparison circuit 35 calculates the filling pressure SVA of the accumulator 24 based on the formula SVA = SVpmax + α, and when the accumulator pressure PV = SVA, the switching valve 22 (DV1).
Is turned off, while accumulator pressure PV <SVA
In this case, the switching valve 22 (DV1) is turned on. In this case, as an example of the injection pressure setting in the injection molding machine of this embodiment, the injection pressure set values SVp1 and SVp are set.
It is set to four different pressures of 2, SVp3, and SVp4, and in the example of FIG. 3, it is shown that the value obtained by adding the set value α to the injection pressure setting maximum value SVp3 is the filling pressure SVA of the accumulator 24.
【0009】次に、上記構成による本実施例の動作につ
いて説明する。射出圧力設定器31から射出シリンダ3
0の射出圧力SVp1〜SVp4を設定すると共に、α
設定器33からαを設定する。これにより、射出圧力設
定最大値判定回路32は、射出圧力設定器31から出力
される射出圧力SVp1〜SVp4の何れが射出圧力設
定最大値SVpmaxであるかを判定し、判定した射出
圧力設定最大値SVpmaxを演算比較回路35へ出力
する一方、α設定器33は設定値αを演算比較回路35
へ出力する。他方、圧力センサ入力回路34は、圧力セ
ンサ25によるアキュムレータ24の充填圧の検出に伴
い、アキュムレータ圧力PVを演算比較回路35へ出力
する。これにより、演算比較回路35は、SVA=SV
pmax+αなる式に基づきアキュムレータ24の充填
圧SVAを演算すると共に、この演算値SVAを圧力セ
ンサ入力回路34から入力されたPV値とを比較する。
そして、演算比較回路35は、上記比較をしてPV=S
VAと判定した時は、切換弁22(DV1)をOFFと
なり、リリーフバルブ21はそのベント回路が開放され
て設定値を下げ、アキュムレータ24への圧油の充填が
停止され、また、PV<SVAと判定した時は、切換弁
22(DV1)をONとなり、リリーフバルブ21はそ
のベント回路が閉じられて所定の高圧の設定圧になっ
て、アキュムレータ24に圧油の充填が行われる。この
ようにアキュムレータ24の充填圧SVAを射出工程の
成形条件に連動させて決定するため、省エネルギーを達
成することができる。Next, the operation of this embodiment having the above configuration will be described. Injection pressure setter 31 to injection cylinder 3
The injection pressures SVp1 to SVp4 of 0 are set and
The α is set from the setter 33. Thus, the injection pressure setting maximum value determination circuit 32 determines which of the injection pressures SVp1 to SVp4 output from the injection pressure setting device 31 is the injection pressure setting maximum value SVpmax, and the determined injection pressure setting maximum value is determined. While the SVpmax is output to the operation / comparison circuit 35, the α setter 33 outputs the set value α to the operation / comparison circuit 35.
Output to. On the other hand, the pressure sensor input circuit 34 outputs the accumulator pressure PV to the arithmetic comparison circuit 35 in accordance with the detection of the filling pressure of the accumulator 24 by the pressure sensor 25. As a result, the operation / comparison circuit 35 determines that SVA = SV.
The filling pressure SVA of the accumulator 24 is calculated based on the expression pmax + α, and the calculated value SVA is compared with the PV value input from the pressure sensor input circuit 34.
Then, the operation comparison circuit 35 makes the above comparison and PV = S
When it is determined to be VA, the switching valve 22 (DV1) is turned off, the vent valve of the relief valve 21 is opened to reduce the set value, the filling of the accumulator 24 with the pressure oil is stopped, and PV <SVA If it is determined that the switching valve 22 (DV1) is turned on, the vent circuit of the relief valve 21 is closed to a predetermined high set pressure, and the accumulator 24 is filled with the pressure oil. In this way, the filling pressure SVA of the accumulator 24 is determined in association with the molding conditions of the injection process, so that energy saving can be achieved.
【0010】即ち、上述した如く本実施例によれば、例
えば射出工程における成形条件として射出圧力を設定す
ることに着目し、アキュムレータ24の充填圧を「射出
圧力設定最大値+α(流量制御に必要な値)」に設定す
ることにより、従来の射出成形機における多量のエネル
ギー損失を少量に抑制することができ、省エネルギーを
実現することが可能となる。That is, according to the present embodiment, as described above, focusing on setting the injection pressure as the molding condition in the injection process, for example, the filling pressure of the accumulator 24 is set to "the maximum injection pressure value + α (necessary for flow rate control). Value) ”, it is possible to suppress a large amount of energy loss in the conventional injection molding machine to a small amount, and it is possible to realize energy saving.
【0011】[0011]
【発明の効果】以上説明したように本発明によれば、射
出成形機を動作させる各種アクチュエータと、各種アク
チュエータへ供給する圧油を一時的に蓄積するアキュム
レータと、前記アクチュエータの作動油圧を設定するた
めの作動油圧設定手段と、前記作動油圧設定手段により
設定された作動油圧のうち最大作動油圧を判定する最大
作動油圧判定手段と、射出成形動作の流量制御に必要な
流量制御弁前後差圧を設定するための所要油圧設定手段
と、前記最大作動油圧判定手段により判定された最大作
動油圧に前記所要油圧設定手段により設定した油圧を加
算した値を、前記アキュムレータの充填圧として決定す
る制御手段とを具備する構成としたので、下記の効果を
奏することができる。 射出成形機のアキュムレータの充填圧を、射出工程等
に使用するアクチュエータの作動油圧と当該工程に係る
必要油圧とに基づき決定するため、省エネルギーを実現
することができる。 これにより、従来の如くアキュムレータの充填圧と動
作圧との差に相当する分がエネルギー損失分となり省エ
ネルギーに逆行するという不具合を解消することがで
き、射出成形機の性能を向上させることができる。As described above, according to the present invention, various actuators for operating the injection molding machine, accumulators for temporarily accumulating pressure oil to be supplied to the various actuators, and operating hydraulic pressures of the actuators are set. For determining the maximum working oil pressure among the working oil pressures set by the working oil pressure setting means, and the differential pressure across the flow control valve necessary for controlling the flow rate of the injection molding operation. A required hydraulic pressure setting means for setting, and a control means for determining a value obtained by adding the hydraulic pressure set by the required hydraulic pressure setting means to the maximum operating hydraulic pressure determined by the maximum operating hydraulic pressure determination means as a filling pressure of the accumulator. Since it is configured to include, the following effects can be obtained. Since the filling pressure of the accumulator of the injection molding machine is determined based on the working hydraulic pressure of the actuator used in the injection process and the necessary hydraulic pressure related to the process, energy saving can be realized. As a result, it is possible to solve the problem that the difference between the filling pressure of the accumulator and the operating pressure becomes an energy loss and goes backward to save energy as in the conventional case, and the performance of the injection molding machine can be improved.
【図1】本発明の実施例の射出成形機の流量マッチ回路
の構成例を示す油圧回路図である。FIG. 1 is a hydraulic circuit diagram showing a configuration example of a flow rate match circuit of an injection molding machine according to an embodiment of the present invention.
【図2】本実施例の射出成形機のプロセス制御系のブロ
ック図である。FIG. 2 is a block diagram of a process control system of the injection molding machine of this embodiment.
【図3】本実施例の射出成形機の射出圧力の設定例を示
す特性図である。FIG. 3 is a characteristic diagram showing an example of setting the injection pressure of the injection molding machine of this embodiment.
【図4】従来のリリーフ回路の構成例を示す油圧回路図
である。FIG. 4 is a hydraulic circuit diagram showing a configuration example of a conventional relief circuit.
【図5】従来の流量マッチ回路の構成例を示す油圧回路
図である。FIG. 5 is a hydraulic circuit diagram showing a configuration example of a conventional flow rate matching circuit.
20 油圧ポンプ 24 アキュムレータ 25 圧力センサ 26 プロセス制御装置 30 射出シリンダ(アクチュエータ) 31 射出圧力設定器(作動油圧設定手段) 32 射出圧力設定最大値判定回路(最大作動油圧判定
手段) 33 α設定器(所要油圧設定手段) 34 圧力センサ入力回路 35 演算比較回路(制御手段)20 Hydraulic Pump 24 Accumulator 25 Pressure Sensor 26 Process Control Device 30 Injection Cylinder (Actuator) 31 Injection Pressure Setting Device (Operating Hydraulic Pressure Setting Means) 32 Injection Pressure Setting Maximum Value Judging Circuit (Maximum Operating Hydraulic Pressure Judging Means) 33 α Setting Device (Required) Hydraulic pressure setting means) 34 Pressure sensor input circuit 35 Calculation comparison circuit (control means)
Claims (1)
ータと、 各種アクチュエータへ供給する圧油を一時的に蓄積する
アキュムレータと、 前記アクチュエータの作動油圧を設定するための作動油
圧設定手段と、 前記作動油圧設定手段により設定された作動油圧のうち
最大作動油圧を判定する最大作動油圧判定手段と、 射出成形動作の流量制御に必要な流量制御弁前後差圧を
設定するための所要油圧設定手段と、 前記最大作動油圧判定手段により判定された最大作動油
圧に前記所要油圧設定手段により設定した油圧を加算し
た値を、前記アキュムレータの充填圧として決定する制
御手段と、を具備することを特徴とする射出成形機の油
圧制御装置。1. Various actuators for operating an injection molding machine, accumulators for temporarily accumulating pressure oil to be supplied to the various actuators, hydraulic pressure setting means for setting the hydraulic pressure of the actuators, and the hydraulic pressures. A maximum operating oil pressure determining means for determining the maximum operating oil pressure among the operating oil pressures set by the setting means, and a required oil pressure setting means for setting the differential pressure across the flow control valve necessary for flow control of the injection molding operation, Controlling means for determining a value obtained by adding the hydraulic pressure set by the required hydraulic pressure setting means to the maximum operating hydraulic pressure determined by the maximum operating hydraulic pressure determining means, as the filling pressure of the accumulator. Machine hydraulic control device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3134466A JPH0767725B2 (en) | 1991-06-05 | 1991-06-05 | Hydraulic control system of injection molding machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3134466A JPH0767725B2 (en) | 1991-06-05 | 1991-06-05 | Hydraulic control system of injection molding machine |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0592462A true JPH0592462A (en) | 1993-04-16 |
JPH0767725B2 JPH0767725B2 (en) | 1995-07-26 |
Family
ID=15128986
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP3134466A Expired - Fee Related JPH0767725B2 (en) | 1991-06-05 | 1991-06-05 | Hydraulic control system of injection molding machine |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0767725B2 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2004111465A1 (en) * | 2003-06-11 | 2004-12-23 | Sumitomo Heavy Industries, Ltd. | Molding machine and molding method |
CN103174687A (en) * | 2013-03-25 | 2013-06-26 | 王文雯 | Pressurized and energy storing type energy-saving hydraulic pumping unit |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS4833277A (en) * | 1971-08-30 | 1973-05-08 | ||
JPS644621U (en) * | 1987-06-30 | 1989-01-12 | ||
JPS6446299A (en) * | 1987-08-13 | 1989-02-20 | Nec Corp | Memory integrated circuit |
-
1991
- 1991-06-05 JP JP3134466A patent/JPH0767725B2/en not_active Expired - Fee Related
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS4833277A (en) * | 1971-08-30 | 1973-05-08 | ||
JPS644621U (en) * | 1987-06-30 | 1989-01-12 | ||
JPS6446299A (en) * | 1987-08-13 | 1989-02-20 | Nec Corp | Memory integrated circuit |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2004111465A1 (en) * | 2003-06-11 | 2004-12-23 | Sumitomo Heavy Industries, Ltd. | Molding machine and molding method |
CN100346079C (en) * | 2003-06-11 | 2007-10-31 | 住友重机械工业株式会社 | Forming machine and forming method |
CN103174687A (en) * | 2013-03-25 | 2013-06-26 | 王文雯 | Pressurized and energy storing type energy-saving hydraulic pumping unit |
Also Published As
Publication number | Publication date |
---|---|
JPH0767725B2 (en) | 1995-07-26 |
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