JP2005144802A - Mold clamping device and tie bar extracting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To extract a tie bar even if a mold opening and closing cylinder is eliminated from the space between a fixed platen and a movable platen. <P>SOLUTION: The other end parts of a plurality of tie bars 10, which are fixed to the fixed platen 2 for supporting a fixed mold 3 at one end parts thereof in a detachable manner, are inserted in the movable platen 4 for supporting a movable mold 5 to be extended and the mold opening and closing cylinder 20 mounted on the movable is connected to the other end parts of the respective tie bars in an operative state. Further, a tie bar fixing device 12 for fixing the tie bars 10 to the fixed platen 4 and a mold clamping cylinder 25 for bringing a piston 27 into contact with a split nut 18 in the fixing device 12 to propel the movable platen 4 to produce mold clamping force are arranged to the rear side of the movable platen 4. When it is necessary to replace the molds 3 and 5, the fixation to the fixed platen 2 is released in a mold opening state to subject an upper cylinder 20A to extending operation and the two upper tie bars 10 are extracted from the fixed platen 2 while a large mold replacing space is ensured between the fixed platen 2 and the movable platen 4. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a horizontal mold clamping apparatus applied to a die casting machine, an injection molding machine, and the like, and a diver removing method performed using the mold clamping apparatus.

  2. Description of the Related Art Conventionally, die casting machines and injection molding machines generally include a fixed plate that supports a fixed die, a movable plate that supports the movable die, and a support base, and a plurality of (usually four) extending through the movable plate. Both ends of the tie bar are fixed to the fixed platen and the support plate, and the movable platen is moved along the tie bar to the fixed platen side by a mold clamping device disposed between the support plate and the movable platen. The mold was closed and clamped. As the mold clamping device, since a strong mold clamping force against a large pressure inside the mold can be obtained, a toggle type mold clamping device is often used in large die casting machines and injection molding machines.

  By the way, in recent production lines, high-mix low-volume production has become commonplace, and the mold exchange cycle has become shorter. In addition, the demand for product accuracy and productivity has become stricter, and the injection pressure and the injection speed tend to increase more and more, and this shortens the life of the mold and increases the frequency of replacement. ing. However, in the conventional general die casting machine and injection molding machine, as described above, since there are a plurality of tie bars around the fixed mold and the movable mold, there is a problem that these tie bars become an obstacle to the replacement work of the mold. there were.

  Recently, various mold clamping devices incorporating a tie bar extraction mechanism have been studied. For example, in Patent Document 1, the movable plate is moved forward and backward with respect to the fixed plate between the fixed die plate (fixed plate) and the movable die plate (movable plate), and the movable die is opened and closed to the fixed die. A mold opening / closing cylinder to be mounted, and a coupling fixing means (tie bar fixing means) for removably fixing a tie bar to the movable platen at the mold closing position on the back side of the movable plate. A mold clamping device is provided in which the movable plate is provided with a mold clamping cylinder that generates a mold clamping force by propelling the movable plate toward the stationary platen with the tie bar fixing means as a reaction point. According to the mold clamping apparatus described in Patent Document 1, if the mold opening / closing cylinder is extended after releasing the fixation on the fixed plate side with respect to the tie bar, the tie bar comes out of the fixed plate and is not obstructed by the tie bar. The mold can be exchanged.

  In Patent Document 2, a tie bar fixing means and a mold clamping cylinder are provided on the fixed platen side, and a clamp is provided on the movable platen side to fix the tie bar to the movable platen at the mold closing position. A mold clamping device for an injection molding machine having a tie bar pulling cylinder operatively connected to the tip of a tie bar through which the movable plate is inserted is described. According to the mold clamping apparatus described in Patent Document 2, after the mold is opened, the fixed platen side of the tie bar is fixed and the clamp on the movable platen side is released. As described above, the mold can be changed without being disturbed by the tie bar.

JP-A-8-72113 JP-A-7-148807

However, according to the mold clamping devices described in Patent Documents 1 and 2, in both cases, the mold opening / closing cylinder is disposed between the fixed platen and the movable platen. There was a problem that was not enough.
The present invention has been made in view of the above-described conventional problems, and the problem is that the tie bar can be removed without the mold opening / closing cylinder between the fixed platen and the movable platen. Accordingly, an object of the present invention is to provide a mold clamping device that greatly contributes to the expansion of a mold replacement space, and to provide a tie bar removing method that is performed using the mold clamping device.

In order to solve the above-described problem, a mold clamping device according to the present invention includes a fixed plate that supports a fixed die, a movable plate that supports a movable die, and one end portion that is detachably fixed to the fixed plate, and the other end. A plurality of tie bars extending through the movable plate, a mold opening / closing cylinder for moving the movable plate forward and backward with respect to the fixed plate, and opening and closing the movable die to the fixed die; Tie bar fixing means for detachably fixing each tie bar to the movable platen in the closed position, and provided on the movable plate, and propelling the movable plate toward the fixed platen with the tie bar fixing unit as a reaction point. In a mold clamping device comprising a mold clamping cylinder that generates a mold clamping force, at least two mold opening / closing cylinders corresponding to an upper tie bar and a lower tie bar are prepared, and each is mounted on the movable platen, Upper mold opening / closing cylinder and other end of upper tie bar The called lower mold opening and closing cylinder and the other end portion of the lower tie bars, characterized in that the operatively connected.
In the mold clamping device configured as described above, during the normal casting cycle, the tie bar is fixed to the fixed platen, while the tie bar is fixed to the movable platen to release the mold. The movable plate moves forward / backward with respect to the fixed platen according to the expansion / contraction operation of the open / close cylinder, and the mold is opened and closed. When the mold is replaced, if the tie bar is fixed to the fixed plate while the movable plate is fixed at the mold opening position, the tie bar comes out of the fixed plate according to the extension operation of the mold opening / closing cylinder.
In the mold clamping apparatus, four mold opening / closing cylinders corresponding to four tie bars are prepared, and each mold opening / closing cylinder and each tie bar may be operatively connected. By moving the base mold opening / closing cylinder in a telescopic manner, the movable plate moves smoothly and the mold opening / closing is stabilized. In addition, the four tie bars can be pulled out individually or individually.
Of the above mold opening / closing cylinders, as the mold opening / closing cylinder operatively connected to a tie bar that requires tie bar removal, it is desirable to employ a cylinder that generates a stroke larger than the mold opening / closing stroke. The tie bar can be greatly retracted from the fixed plate by using a cylinder.

In order to solve the above-mentioned problems, a tie bar removing method according to the present invention is a tie bar removing method using the above-described mold clamping device, wherein a plurality of mold opening / closing cylinders are shortened in synchronization to retract the movable plate to the mold opening position. After that, the fixation on the fixed platen side with respect to the upper or lower tie bar is released, and then the mold opening / closing cylinder on the release side of the fixation is extended and connected to the mold opening / closing cylinder. The tie bar is extracted from the fixed platen.
In the tie bar removal method performed in this way, the movable platen is fixed in position by the mold opening / closing cylinder on the side where tie bar removal is not performed, so that the upper or lower tie bar requiring extraction can be smoothly extracted.

According to the mold clamping apparatus according to the present invention, the mold opening / closing cylinder is mounted on the movable platen, and this is shared by the mold opening / closing and the tie bar removal, so that the space between the fixed platen and the movable platen is greatly opened. Exchange can be performed easily. Further, since there is no open / close cylinder between the movable platen and the fixed platen, the durability of the cylinder is not impaired even in a severe heat environment such as a die casting machine.
Further, according to the tie bar removing method according to the present invention, the upper or lower tie bar can be smoothly removed while the movable platen is fixed in position.

The best mode for carrying out the present invention will be described below with reference to the accompanying drawings.
1-3 show one embodiment of a mold clamping apparatus according to the present invention applied to a die casting machine. In these drawings, 1 is a base plate, 2 is a fixed plate that supports the fixed mold 3, 4 is a movable plate that supports the movable mold 5, and the fixed plate 2 is fixed to one end on the base plate 1, The movable platen 3 is disposed on the base plate 1 so as to be able to move forward and backward with respect to the fixed platen 2 via a slide shoe 6. Reference numeral 10 denotes four tie bars, which extend through the tie bar insertion holes 7 and 8 formed at the four corners of the fixed platen 2 and the movable platen 4.

  On the rear surface of the fixed platen 2, four first tie bar fixing devices (consolidating means) 11 for detachably fixing one end of each tie bar 10 to the fixed platen 2 are disposed, On the back surface of the movable platen 4, four second tie bar consolidation devices (consolidating means) 12 are arranged to solidify the intermediate portion of each tie bar 10 to the movable platen 4 so as to be detachable.

  The first tie bar fixing device 11 on the fixed platen 2 side includes a screw portion 13 formed on the outer peripheral surface of the tie bar 10 and a split nut disposed in a bag-closed box 14 fixed to the back surface of the fixed platen 2. 15 and a drive mechanism (not shown) for opening and closing the split nut 15. When the split nut 15 is closed by the drive mechanism, the split nut 15 is screwed onto the screw portion 13 of the tie bar 10. The one end of the tie bar 10 is fixed to the fixed platen 2.

  The second tie bar consolidation device 12 on the movable platen 4 side includes a multi-groove portion 16 formed on the outer peripheral surface of the tie bar 10, a split nut 18 disposed in a box 17 fixed to the back surface of the movable platen 4, and a cylinder. The drive mechanism is configured to open and close the split nut 18 using 19 as a drive source. The box 17 of the second tie bar consolidation device 12 has a through hole 17a on its bottom surface, and the tie bar 10 is extended through the through hole 17a. The tie bar 10 is configured so that the multi-groove groove portion 16 is positioned in the box 17 in the mold closed state shown in FIG. 2, and the split nut 18 is closed by the operation of the cylinder 19 in this state. The split nut 18 meshes with the multi-groove portion 16 of the tie bar 10, and as a result, the tie bar 10 is firmly fixed to the movable platen 4.

  On the other hand, four mold opening / closing cylinders 20 corresponding to the four tie bars 10 are mounted on the movable platen 4. Of the four mold opening / closing cylinders 20, the upper two mold opening / closing cylinders (hereinafter referred to as upper cylinders) 20A are attached to the upper surface of the movable platen 4 in parallel with the tie bar 10, and each rod 20a is attached to the upper surface. It extends in the direction opposite to the fixed platen 2. On the other hand, two lower mold opening / closing cylinders (hereinafter referred to as lower cylinders) 20B are attached in parallel to the tie bar 10 with a part of the movable platen 4 being housed in the slide shoe 6 below the movable platen 4, Each rod 20b extends in the opposite direction to the fixed platen 2. Thus, the other end of each tie bar 10 is connected to the tip of the rod 20a of each upper cylinder 20A and the rod 20b of each lower cylinder 20B via a connecting member 21. As a result, as shown in FIG. 3, the tie bar 10 is maintained consolidated by the first tie bar consolidation device 11 and the tie bar 10 is not consolidated by the second tie bar consolidation device 12. When the mold opening / closing cylinders 20 are extended and contracted in synchronization, the tie bar 10 is fixed in position, so that the movable platen 4 moves forward and backward with respect to the fixed platen 2, and the movable die 5 is accordingly moved to the fixed die 3. The mold is closed (FIG. 2) or opened (FIG. 3).

  A mold clamping cylinder 25 is disposed in each tie bar insertion hole 8 of the movable platen 4. The mold clamping cylinder 25 includes a cylinder portion 26 formed around the tie bar insertion hole 8 and a ring-shaped stepped piston 27 slidably fitted into the cylinder portion 26. A tie bar 10 is inserted through the piston 27. In the cylinder portion 26, two oil chambers 28 and 29 are defined in the extending direction of the tie bar 10 by a piston 27. In these two oil chambers 28 and 29, pressure oil is supplied from a hydraulic circuit (not shown). Being supplied and discharged.

  One end of the piston 27 in the mold clamping cylinder 25 extends toward the second tie bar fixing device 12, and its end face is opposed to the split nut 18. The split nut 18 in the second tie bar fixing device 12 is closed in the mold closed state as described above and meshes with the multi-groove portion 16 of the tie bar 10, and this meshed state (state shown in FIG. 2). ), When the pressure oil is supplied to the one oil chamber 28, the piston 27 slightly moves in the left direction in FIG. 2 and comes into contact with the split nut 18 to fix its position. Therefore, when pressure oil is further supplied to one of the oil chambers 28 thereafter, the movable platen 4 is propelled toward the fixed platen 2 by using the split nut 18 as a reaction point, whereby the fixed die 3 and the movable die 5 closed by the mold are driven. A large mold clamping force is generated at the mating part.

  The movable platen 4 is positioned at the mold opening position at the shortened end of the mold opening / closing cylinder 20 as shown in FIG. Therefore, after the mold is opened, when the first tie bar fixing device 11 is released from the upper two tie bars 10 and then only the two upper cylinders 20A are extended, the lower cylinders 20B are movable. Since the board 4 is fixed in position, the upper two tie bars 10 come out of the stationary board 2 as shown in FIG. Here, the upper cylinder 20A has a function of generating a stroke larger than the stroke necessary for opening and closing the mold, and at the maximum extension end of the upper cylinder 20A, as shown in FIG. Is largely retracted, so that the space between the fixed platen 2 and the movable platen 4 is largely opened. Examples of the cylinder that strokes in two stages, such as the upper cylinder 20A, include a double-acting cylinder and a two-position cylinder that can be stopped in an intermediate manner.

Hereinafter, an operation of the mold clamping device configured as described above will be described.
At the start of die casting, the movable platen 4 is positioned at the mold opening position as shown in FIG. At this time, in the second tie bar fixing device 12 on the movable platen 4 side, the split nut 18 is in the open position, and each tie bar 10 is released from solidification with respect to the movable platen 4. First, the four mold opening / closing cylinders 20 extend in synchronization with each other, and the movable platen 4 moves forward with respect to the fixed platen 2, whereby the movable die 5 is closed to the fixed die 3. Then, when the mold closing is completed, the cylinder 19 in the second tie bar fixing device 12 is operated, and the split nut 18 in the second tie bar fixing device 12 is closed. As a result, as shown in FIG. 2, the split nut 18 meshes with the multi-groove groove portion 16 of the tie bar 10, and each tie bar 10 is fixed to the movable platen 4.

Thereafter, pressure oil is supplied to one oil chamber 28 in the mold clamping cylinder 25. Then, the piston 27 in the mold clamping cylinder 25 moves and contacts the split nut 18 in the second tie bar fixing device 12, and then the movable platen 4 is propelled toward the fixed platen 2, thereby closing the die. A large clamping force is generated at the joint between the fixed mold 3 and the movable mold 5.
When the mold clamping is completed, the molten metal is injected into a cavity formed between the fixed mold 3 and the movable mold 5 from an injection mechanism (not shown) attached to the fixed platen 2 to perform casting. When the casting is completed, the inside of one oil chamber 28 in the mold clamping cylinder 25 is first opened to the tank, and at the same time, the pressure oil is supplied into the other oil chamber 29, whereby the movable platen 4 is slightly retracted, The casting in the mold is released.

  Next, the cylinder 19 in the second tie bar caulking device 12 is actuated to open the split nut 18, and the caulking of each tie bar 10 to the fixed platen 4 is released. Subsequently, the four mold opening / closing cylinders 20 are synchronously shortened, whereby the movable platen 4 is retracted from the fixed platen 2, and the movable die 5 is opened with respect to the fixed die 3 as shown in FIG. The Thereafter, the cast product stuck to the movable mold 5 is removed by an extrusion mechanism built in the movable mold 5 and delivered to a work unloading means (not shown), thereby completing one cycle of casting.

  Here, when the dies 3 and 5 need to be replaced, in the mold opening state shown in FIG. 3, first, the split nut 15 in the first tie bar fixing device 11 is opened with respect to the upper two tie bars 10. Then, the upper two tie bars 10 are released from being fixed to the fixed platen 2, and then the upper cylinder 20A is extended to the maximum extent. Then, since the position of the movable platen 4 is fixed by the lower cylinder 20B, the upper two tie bars 10 come out of the fixed platen 2 as shown in FIG. The space between is greatly opened. Therefore, the fixed mold 3 and the movable mold 5 can be exchanged without being obstructed by the upper tie bar 10.

Here, in the mold replacement, the fixed mold 3 and the movable mold 5 may be integrated and replaced. In this case, the mold is once closed and the fixed mold 3 and the movable mold 5 are integrated. The mold is opened, and the molds temporarily fixed to the fixed platen 2 or the movable platen 4 are collectively replaced (set-up).
In the mold exchange, the mold may be transferred into and out of the machine from the side to perform automatic setup change. In this case, instead of the two upper tie bars 10, the lower two tie bars 10 may be used. Just exit the tie bar 10. In this case, it is desirable to adopt a cylinder capable of a long stroke as the lower cylinder 20B.

In the present invention, the number of tie bars 10 to be extracted is arbitrary, and three tie bars 10 or four tie bars 10 may be extracted instead of the upper two or the lower two. However, when the four tie bars 10 are removed, the mold opening / closing cylinder and the tie bar for fixing the movable platen 4 are eliminated. In this case, a means for detaching the fixed platen 4 from the base plate 1 is necessary. .
In the above-described embodiment, four mold opening / closing cylinders 20 are provided corresponding to the four tie bars 10, but the mold opening / closing cylinder 20 includes two upper tie bars 10 and two lower tie bars 10. You may make it provide two sets corresponding to the tie bar 10 of a book. In this case, only one upper cylinder 20A and one lower cylinder 20B are provided, and each of them is operatively connected to the upper two tie bars 10 and the lower two tie bars 10 in common.

It is sectional drawing which shows the structure of the mold clamping device which concerns on this invention, and the tie bar removal state by this mold clamping device. It is sectional drawing which shows the mold closing and mold clamping state of this mold clamping apparatus. It is sectional drawing which shows the mold closing and mold clamping state of this mold clamping apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Base plate 2 Fixed platen 3 Fixed type 4 Movable platen 5 Movable type 7,8 Tie bar insertion hole 10 Tie bar 11 1st tie bar solidification apparatus (consolidation means)
12 Second tie bar consolidation device (consolidation means)
16 Multi-slot groove (second tie bar consolidation means)
18 Nut (second tie bar consolidation means)
20 type opening / closing cylinder 20A upper cylinder 20B lower cylinder 21 connecting member 25 mold clamping cylinder 27 piston

Claims (4)

  A fixed plate that supports the fixed mold, a movable plate that supports the movable mold, and a plurality of tie bars that have one end portion detachably fixed to the fixed plate and the other end portion extending through the movable plate. And a mold opening / closing cylinder that moves the movable plate forward and backward relative to the fixed plate to open and close the movable die to the fixed die, and a tie bar that can be attached to and detached from the movable plate at the mold closing position. A horizontal mold comprising: a tie bar fixing means for binding; and a mold clamping cylinder which is provided on the movable platen and which pushes the movable plate toward the fixed platen using the tie bar fixing means as a reaction point to generate a clamping force. In the clamping device, at least two mold opening / closing cylinders corresponding to the upper tie bar and the lower tie bar are prepared, and each is mounted on the movable platen. Side mold opening and closing cylinder and lower tie bar Mold clamping apparatus being characterized in that activated connecting the end.   4. The mold clamping apparatus according to claim 1, wherein four mold opening / closing cylinders corresponding to four tie bars are prepared, and each mold opening / closing cylinder and each tie bar are operatively connected to each other.   3. The mold clamping apparatus according to claim 1, wherein the mold opening / closing cylinder operatively connected to the tie bar that requires tie bar removal generates a stroke larger than the mold opening / closing stroke. The tie bar removal method by the mold clamping device according to any one of claims 1 to 3, wherein a plurality of mold opening / closing cylinders are shortened synchronously to retract the movable plate to the mold opening position, and then the upper side. Alternatively, the fixation on the fixed platen side with respect to the lower tie bar is released, and then, the mold opening / closing cylinder on the release side of the fixation is extended, and the tie bar operatively connected to the mold opening / closing cylinder is moved to the fixing platen. A tie bar extraction method characterized by being extracted from a tie bar.

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