JP3154385B2 - Injection compression molding method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a method of filling a mold cavity of a low-pressure mold with a molten resin, slightly opening the mold by the filled resin pressure, and then increasing the mold pressure by a mold clamping mechanism. The present invention relates to an injection compression molding method for compressing.

[0002]

2. Description of the Related Art In injection compression molding in an injection molding machine, (1) mechanically controlling the retreat limit of the movement of a mold (movable mold) when the mold is slightly opened by injection-filled resin pressure. (2) The amount of mold opening movement of the mold is detected, and the mold clamping pressure and the injection speed of the mold clamping device are controlled so as to achieve the set mold opening amount and mold opening speed. (3) In the step of compressing the mold, precision molding and complicated shapes are performed by changing the mold clamping pressure such that the mold clamping operation proceeds at the set moving speed from the set mold opening amount. It is intended to mold a molded article or a thin-walled molded article. As described above, in the injection compression molding, the mold opening movement amount of the mold during molding is constantly detected, and based on the detection signal, the mold clamping mechanism and the injection mechanism are controlled so as to attain the set mold opening amount and the set mold opening speed. The feedback control which sends a command simultaneously to is implemented.

When performing injection compression molding by controlling the mold clamping operation, the amount of mold opening during injection filling becomes excessive depending on the initial mold clamping force setting conditions. When switching between the process and the compression process, the process becomes discontinuous, and as a result, a defect such as a flow mark occurs.
For this purpose, injection / mold-clamping interlocking control that overlaps the mold-clamping operation with the injection-filling operation is necessary, and this timing control of mold-clamping start is an important control for stably supplying high-quality molded products. Becomes

On the other hand, as the interlocking control of the injection and the mold clamping, various patterns as described below have been tried. (1) When the retreat amount ≧ set value by monitoring the retreat amount of the movable platen or the mold during injection filling, or by monitoring the change amount of the mold clamping driving force during injection filling ≧ change amount. When the value reaches the value, the mold clamping operation is started. … Mold clamping side signal reference (2) Monitor the filling state (for example, pressure and temperature) of the molten resin in the mold cavity during injection filling, and when the monitoring value ≥ the set value, start the mold clamping operation I do. ... mold side signal reference (3) The stroke of the injection cylinder or injection screw during injection filling is monitored, and when the stroke position ≧ set value, the mold clamping operation is started. Injection-side signal reference (4) The mold clamping operation is started based on a time-out signal of a timer to be started with reference to an arbitrary step in the molding step such as completion of the initial mold clamping operation or start of injection filling. …
Timer signal reference

[0005]

However, the above methods (1) to (4) have the following problems, respectively. That is, (1) The retracting behavior of the movable platen or the mold during the injection filling is to maintain the mold opening reaction force generated by the increase of the resin pressure filled in the mold cavity by the injection filling and the set mold opening amount. This is caused by the balance with the controlled mold clamping force on the mold clamping side. Therefore, depending on the control state (control accuracy / responsiveness) of the mold clamping force, the retreating behavior is greatly changed. Furthermore, the movable platen and the mold (actually mounted integrally) have a considerable weight, and it is difficult to accurately express the mold opening reaction force accompanying the injection filling, and the response is low. . This significantly affects the change in the mold clamping driving force, and as a result, in many cases, the detection is delayed and the optimal mold clamping start timing is shifted. Therefore, in order to solve the above problem, it is conceivable to set the reference value of the timing control to a low value in anticipation of detection delay, but it is difficult because there is no determination standard of the degree of consideration, and conversely, By starting the mold clamping operation early due to over-down, the compression action from both the injection filling and the mold clamping operation achieves low distortion due to the effect of reducing the resin pressure inside the mold cavity, which is one of the effects of injection compression molding. It is expected that it will not be obtained.

(2) Although it can be said that the detection accuracy is higher than that of the above method (1), the detection signals from the detection sensors such as pressure and temperature are all pinpoint measurements, and depending on where the sensor is attached (actually, the ejector (The installation place is limited due to the presence of pins and the like.) It is extremely likely that a completely different judgment will be made. It is conceivable to respond to the above problem by increasing the number of sensors, but since it is a mere aggregate detection signal of pinpoint data, it is impossible to observe the resin behavior in the mold cavity as a whole,
Because both software and hardware for signal processing become complicated, no great merit can be found.
Further, the disadvantages are large because special processing is required for the dies for mounting the sensors and the like on the dies, and the number of mounting steps is required for each of the dies.

(3) In the place where the injection filling amount is controlled,
By directly detecting the filling behavior, the injection / mold-clamping interlocking control in which the mold-clamping operation is overlapped with the injection-filling operation is the most accurate among the conventional methods (1) to (4). This is a high control method. However, in the conventional method in which the timing control is performed only based on the injection stroke position, the detection method includes a variation in the filling amount due to a variation in the measured value and a variation in the operation state of the check ring. It cannot be said that the behavior has been accurately detected. Furthermore, in the conventional method, it is not possible to simultaneously grasp the filling behavior of the resin in the mold, and therefore, it is necessary to cope with fluctuations in the resin temperature during molding (total temperature from the injection cylinder to the mold). It is difficult, and high-quality molded products cannot be supplied stably. (4) Among the conventional methods (1) to (4), this is the simplest control method, but has the lowest control level. Therefore, when used alone, high-precision injection / molding interlocking control of injection compression molding is performed. Is poorly adapted.

[0008]

In order to solve the above problems, according to the present invention, in a first invention, in a method of injection compression molding of a resin, a cooling solidification shrinkage amount of a resin is calculated in advance, and the shrinkage amount is calculated. Is injected into the mold cavity, and a low mold clamping force that allows the mold to open due to the filled tree finger pressure is applied to the mold in advance. After detecting that the injection pressure of the mechanism has reached the set value, the mold clamping pressure is increased, and the mold clamping pressure of the mold clamping mechanism and the injection pressure of the injection mechanism are synchronously controlled. Further, in the second invention, in the first invention, the injection filling is performed by the injection speed control until the injection pressure in the injection filling step reaches the set value, and the injection pressure control is performed by the injection pressure control after reaching the set value. Was decided. Further, in the third invention, in the first invention or the second invention, the detection of the injection pressure during the injection-filling step is performed by detecting a forward limit of the injection cylinder stroke and a region near the completion of the injection filling up to the forward limit. At the stroke position of the injection cylinder.

[0009]

After detecting that the injection pressure of the injection mechanism in the injection filling process has reached the set value, the pressure is increased by the mold clamping pressure to perform the compression process, thereby increasing the mold clamping in the injection / mold clamping interlocking control. The detection of the pressure start timing signal is directly detected at the point where the injection filling process is controlled, and the change in the injection pressure is used as the timing signal, so that the filling behavior of the molten resin in the mold cavity is also combined. By performing the detection, the filling behavior of the resin from the injection mechanism side to the inside of the mold cavity can be comprehensively grasped, and extremely accurate injection / mold clamping interlock control can be realized.

As a result, high-precision injection compression molding can be controlled without being affected by disturbance factors such as variations in the filling amount due to variations in the operation of the measurement value check ring and variations in the resin temperature during molding. High quality molded products can be supplied stably. The injection filling process up to the mold clamping pressure increase is performed by injection speed control, and after the mold clamping pressure increase, switching to the injection pressure control is performed, and the compression by the mold clamping operation is performed by performing synchronous control of the mold clamping force and the injection pressure. In the process, the backflow of resin from the mold cavity to the injection side, which has been particularly problematic in the process, can be prevented, so that the weight of the molded product is stable, and the deformation of the molded product caused by the backflow of resin can be prevented, resulting in high quality Stable molded products can be supplied stably. Further, since a shut-off valve or the like conventionally provided for preventing backflow is not required, cost reduction can be achieved. Further, by detecting the timing signal within a range near the completion of injection filling near the forward limit of the injection cylinder stroke, the correlation between the filling behavior on the injection mechanism side and the filling behavior in the mold cavity can be detected most accurately. Since the timing control of the mold clamping start can be performed in the region, the injection / mold clamping interlocking control in which the mold clamping operation is overlapped with the injection filling operation can be accurately realized.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below in detail with reference to the drawings. 1 to 3 relate to an embodiment of the present invention,
FIG. 1 is an overall configuration diagram of an injection compression molding apparatus, FIG. 2 is an explanatory view of an injection filling operation, and FIG. 3 is a flowchart of an injection compression molding method.

As shown in FIG. 1, the injection compression molding apparatus 100 includes a mold clamping device 1, an injection device 40, and a control unit 60. The mold clamping device 1 includes a moving cylinder 2, a mold clamping cylinder 3, a tie bar 7, a fixed plate 10, a screw engagement adjusting device 11, a movable plate 20, a half nut 22, a tie bar locking device 26, a fixed mold 30a, and a movable metal. It is composed of a mold 30b, a connecting plate 50, and the like. A central convex portion of the movable mold 30b is fitted in a central concave portion of the fixed mold 30a, so that the movable mold 30b can move forward and backward slidably. Reference numeral 5a denotes a piston rod chamber, 8 denotes a screw portion (or groove portion), and 28 denotes a mold cavity.

Next, the injection device 40 will be described. In the injection device 40 in this embodiment, a screw 42 is provided in a barrel 41, and a resin material in a hopper 43 is heated and compressed in a supply zone and a compression zone, melted and weighed in a measurement zone, and passed through an injection zone to a nozzle 44.
It is configured to be injected into the interior. A heater for externally heating the resin material is provided on the outer peripheral surface of the barrel 41, and the resin material is sent forward by the rotation of the screw 42. Reference numeral 46 denotes an injection cylinder, and 47 denotes a forward / reverse rotation motor.
, So that the screw 42 rotates forward and backward.

Next, the control unit 60 will be described. The control unit 60 includes an injection control unit 61, a synchronization control unit 62, a comparison control unit 63, a timer 63a, an injection pressure detection unit 64, a position setting unit 65, a mold clamping control unit 66, a hydraulic control valve 67, and a hydraulic control valve 68. , And hydraulic supply sources 68a, 68b. The injection control unit 61 is connected to a control device (not shown) that controls the operation of the forward / reverse rotation motor 47 via a hydraulic control valve 68, and is also connected to a synchronization control unit 62. The synchronization control unit 62 is connected to the injection pressure detection unit 64 of the injection cylinder 46 via the comparison control unit 63,
The comparison control unit 63 is connected to a timer 63a, and the injection pressure detection unit 64 is connected to a position setting unit 65. On the other hand, the mold clamping control section 66 is connected to a hydraulic control valve 67 for controlling the operation of the mold clamping cylinder 3. Note that 68
a and 68b are simplified hydraulic supply sources.

The operation of the injection compression molding apparatus 100 configured as described above will be described. First, after confirming the mold clamping operation and the unloading operation usually performed before the production molding operation, the test molding operation is performed. In this test molding operation, several test shots, which are usually called "discarding", are performed.
The appropriate values of the injection filling amount, the injection pressure and the mold clamping pressure according to the characteristics of the resin are grasped to obtain information on the condition setting.

In particular, in injection compression molding by injection-clamping interlocking control in which a mold-clamping operation is overlapped with an injection motion, it is important to set conditions for mold-clamping start timing. More specifically, as shown in FIG. 2, the conditions of the appropriate timing signal for starting the mold clamping are set according to the following procedure. Injection filling is performed based on a preset injection filling amount (a resin amount obtained by adding a cooling solidification shrinkage amount of the resin) and an injection speed (single-stage or multi-stage injection speed). The range in which the timing signal for starting the mold clamping pressure increase is detected is defined as the forward limit (point E) and forward limit (E) of the injection cylinder stroke.
The injection cylinder stroke position in the region near the completion of the injection filling up to the point (point) is set via the position setting unit 65 as the position set value (point V). By doing so, the correlation between the filling behavior on the injection mechanism side and the filling behavior in the mold cavity can be detected most accurately, and the injection / mold clamping interlocking where the mold filling operation overlaps the injection filling operation. Control can be controlled accurately. At the same time, a timing signal for starting the mold clamping pressure increase is set via the comparison control unit 63 as a comparison set value (K value) based on the injection pressure. By setting the timing signal with the injection pressure, the injection mechanism side can comprehensively grasp the filling behavior of the resin in the mold cavity. The timing signal can be detected stably and accurately without being affected by disturbance factors such as temperature fluctuation.

Based on the set values (V point, K point),
Timing control for starting mold clamping pressure increase is performed. When the injection cylinder stroke reaches point V, the injection pressure detector 64 starts monitoring the injection pressure. In order to maintain the injection speed set with the progress of injection filling, increase the injection pressure in accordance with the pressure increase due to the filling behavior in the mold cavity,
When the detection signal of the injection pressure detection unit 64 reaches the K value (set pressure reaching point P), the injection filling operation is switched from injection speed control to injection pressure control (V → P switching), and the mold clamping pressure is started. (Compression step). Simultaneous control of the mold clamping force and the injection pressure is performed simultaneously with the start of the mold clamping pressure increase (start of the injection / mold clamping interlocking section). By doing so, in the compression step by the mold clamping operation, the backflow of the resin from the mold cavity to the injection side can be prevented. No need for an off valve or the like. The cycle control is to maintain the resin pressure balance in the injection cylinder and the mold cavity, and the injection cylinder is retracted in consideration of the compression conditions (mold speed, mold pressure) by mold clamping. The pressure control on the mold clamping side and the injection side is performed at the same time so as not to occur. That is, the injection pressure is increased simultaneously with the start of the increase in the mold clamping force, and the resin pressure in the mold cavity is made equal to the injection pressure to prevent the resin from flowing backward.

After completing the initial setting centering on the setting of the mold clamping pressure increasing start timing signal described above, the molding operation is started. The molding operation is performed according to the following procedure as shown in FIG.

The movable platen 20 and the like are moved and advanced toward the fixed platen 10 using the movable cylinder 2. Both molds 30a, 30
After “b” is touched, the driving of the movable cylinder 2 is stopped. The half nut opening / closing cylinder 26 is driven to completely mesh and fix the half nut 22 and the thread or groove on the tie bar 7. Here, in advance, the mold thickness (die height value: H) of both the molds 30a and 30b and the pitch (Pi) of the screw portion or the groove portion are set.
Then, the sprocket is rotated by rotating a motor connected by a chain in advance so that the half nut 22 and the screw portion or groove portion on the tie bar 7 are completely meshed with each other to adjust the amount of forward and backward movement of the adjustment shaft. Keep it.

The mold clamping is performed by controlling the oil pressure by the mold clamping control unit 66 based on the mold clamping force set value (S ₁ value) that allows the mold to be opened by the filled resin pressure (initial mold clamping). ). After the initial mold clamping is completed, injection filling is performed. At the same time, the mold clamping pressure increase is started based on the previously set position set value (point V) and comparison set value (K value). After the injection cylinder stroke reaches the point V, the injection pressure detector 64 starts monitoring the injection pressure. After detecting that the detection signal of the injection pressure detection unit 64 has reached the K value, the comparison control unit 63 synchronizes the V → P switching signal to the injection control unit 61 and the mold clamping pressure increasing start signal to the mold clamping control unit 66. The transmission is performed via the control unit 62, and the timer 63a is started. The synchronization control unit 62 performs synchronous control of the mold clamping force and the injection pressure, and performs injection compression molding in conjunction with injection and mold clamping.

Here, the weighing start time (t ₁ ) and the mold clamping completion time (t ₂ ) are set in the timer 63a in advance. The measurement start time (t ₁ ) is set based on the time of the gate seal, and the mold closing time (t ₂ ) is calculated from the resin temperature, the mold cooling capacity, the shape of the molded product, and the like. And set. The injection and the mold clamping after the start of the mold clamping pressure increase are controlled based on the timeout signal of the timer 63a.

[0022]

As described above, in the present invention,
The following excellent effects can be exhibited. (1) After detecting that the injection pressure during the injection filling process has reached the set value in the vicinity of the completion of the filling, the mold clamping pressure increase is started to perform the compression process, so that the measured value and the check ring operation are performed. The correlation between the filling behavior on the injection mechanism side and the filling behavior inside the mold cavity can be accurately detected without being affected by disturbance factors such as variations in the filling amount due to fluctuations and fluctuations in the resin temperature during molding. Since high-precision injection compression molding can be controlled, a high-quality molded product can be supplied stably. (2) In the compression step, by controlling the injection pressure and the mold clamping pressure synchronously, the backflow of the resin from the mold cavity to the injection side can be prevented, so that the quality accuracy of the molded product is extremely improved, and the backflow is prevented. Cost can be reduced by omitting the shut-off valve and the like.

[Brief description of the drawings]

FIG. 1 is an overall configuration diagram of an injection compression molding apparatus according to an embodiment of the present invention.

FIG. 2 is an explanatory view of an injection filling operation according to the embodiment of the present invention.

FIG. 3 is a flowchart of an injection compression molding method according to an embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Mold clamping device 2 Moving cylinder 3 Mold clamping cylinder 7 Tie bar 8 Screw part (groove part) 10 Fixed platen (fixed platen) 20 Movable platen (movable platen) 22 Half nut (half nut) 26 Tie bar locking device (half nut) (Opening / closing cylinder) 28 Mold cavity 30a Fixed mold 30b Movable mold 40 Injection device 41 Barrel 42 Screw 43 Hopper 44 Nozzle 46 Injection cylinder 47 Forward / reverse rotation motor 48 Piston 60 Control unit 61 Injection control unit 62 Synchronous control unit 63 Comparative control part 63a timer 64 injection pressure detector 65 position setting unit 66 clamping controller 67 hydraulic control valve 68 the hydraulic pressure control valve 68a hydraulic supply source 68b hydraulic supply source 100 injection compression molding apparatus K injection pressure comparing set values S ₁ clamping force setting Value V Position set value (monitoring start point) E Forward limit P Set pressure Goal Pi pitch H die height value t ₁ measurement start time t ₂ Clamping completion time

Claims (3)

(57) [Claims] In a method of injection compression molding of a resin, a cooling solidification shrinkage amount of a resin is calculated in advance, a resin amount obtained by adding the shrinkage amount is injection-filled into a mold cavity, and the metal is pressed by a filled tree finger pressure. A low mold clamping force that allows the mold to open is applied to the mold in advance, and after detecting that the injection pressure of the injection mechanism reaches the set value during the injection filling process, the mold clamping pressure is increased. And an injection compression molding method characterized by synchronously controlling a mold clamping pressure of a mold clamping mechanism and an injection pressure of an injection mechanism. 2. The injection compression according to claim 1, wherein the injection filling is performed by injection speed control until the injection pressure in the injection filling step reaches a set value, and the injection compression control is performed by injection pressure control after reaching the set value. Molding method. 3. The injection pressure detection during the injection and filling step is performed at an injection cylinder stroke position in a region near the advance limit of the injection cylinder stroke and the completion of injection filling up to the advance limit. 3. The injection compression molding method according to 2.