JPS6372515A - Attaching/detaching device for fluid passage and electrically connecting part of molding mold - Google Patents

Abstract

PURPOSE:To permit the shortening of the time of mold replacement, by a method wherein one side of a connecting coupler and a contact type joint is fixed to a mold side connecting part while the other side of the same is supported by a connection holding block and the same block is made movable by a link mechanism. CONSTITUTION:Before a mold 16 is set, a connection holding block 1 is moved to the position of the attaching surface 17 of the mold by a link mechanism 3. The mold being attached to a molder is transferred to the side of said block 1 by transfer rollers 18 (not shown) to send it to next mold releasing process and, subsequently, the mold 16 to be set is carried into the predetermined position of the molder. Then, said block 1 is moved to the connecting part 2 of the side of the mold and a coupler as well as the side of supplying electricity are connected to the side of load simultaneously. When the mold is to be exchanged, the lock of the link mechanism 3 is released, said block 1 is moved to the position of the attaching surface 17 of the mold and the molds 16 are carried out or carried in into the same direction, whereby the molds 16 may be exchanged.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a device for attaching and detaching fluid flow paths and electrical connections of a molding die.

[Conventional technology]

During molding, the inside of the hot kunner block in the mold is kept at a constant temperature by an electric heater to prevent the injected raw material from solidifying midway through.

In addition, in order to quickly cool and solidify the raw material in the cavity after injection and speed up the removal of the product, a cooling fluid flow path is provided inside the mold. Several molds are prepared and produced by replacing them with other molds according to the order of production instructions.

When replacing and attaching the mold, it is necessary to attach and detach the fluid flow path and electrical connection.

In order to improve productivity, it is necessary to shorten the time required for the above-mentioned attachment and detachment as much as possible.

As a conventional attachment/detachment means, there is a method of simultaneously attaching/detaching the electrical connection at the same time as opening/closing the mold.
Publication No. 190726).

Further, as a means for attaching and detaching the fluid flow path, a fluid flow path is formed in a clamp device that locks the mold to the molding machine, and the fluid flow path is connected via the clamp device at the same time as the mold is clamped to the molding machine. There is a device that connects the
255514).

As another means, the mold is heated to an elevated temperature (pre-temperature vI4) before being installed in the molding machine. Then, in this pre-temperature-controlled state, the mold is carried in on a trolley, set in a molding machine, and injection-molded as is using a pre-temperature control device (Japanese Patent Laid-Open No. 61-66620) ).

[Problem that the invention seeks to solve]

In the above conventional attachment/detachment means, firstly, Japanese Patent Application Laid-open No. 60-907
What is shown in Japanese Patent Application No. 26 is automatic operation α of an electric heater to adjust the temperature of the mold, and the connection of the fluid flow path for cooling is not solved.
What is shown in Publication No. 4 is that the connection of the fluid flow path for cooling is not solved, only the connection of the temperature control flow path, and the clamp device is attached to the mold mounting surface of the molding machine. However, even if the temperature control channel can be attached and detached in a short time, there is a problem in that it takes time to replace the mold.

Furthermore, the device shown in %Open fJf361-66620 uses the preliminary temperature control as is, and does not solve the problem of attaching and detaching the cooling flow path.

As described above, none of the above-mentioned conventional technologies simultaneously satisfies both the temperature control of the mold required for injection molding and the cooling required to accelerate demolding, and the connection and disconnection of either one must be done manually. In the end, there was a problem in that it was not possible to automate mold replacement.

The present invention automates the installation and removal of both temperature control and cooling of the mold,
Furthermore, it is an object of the present invention to provide a device for attaching and detaching the fluid flow path and electrical connection portion of a molding die, which makes it possible to easily replace the mold and shorten the time.

[Means to solve the problem]

In order to solve the above-mentioned problems, the present invention fixes one side of the turnip for fluid flow path connection and one side of the contact type diode 1 for electrical connection to the metal connection part, and fixes the other side of the turnip 2 and the contact Support the other side with a face-holding block. This close reading holding block is attached to the molding/machine side via a link mechanism, and this link mechanism allows the connection holding block to be moved from the mold mounting surface of the molding machine die rate to the mold side connection part. Subject to special requirements.

[For production]

With the above configuration, by pressing the connection holding block against the mold side connection portion using the link mechanism, the cooling fluid flow path coupler and the heater contact joint are brought into contact at the same time.

When you disconnect the above connection and replace the mold, click the link F! ! The mechanism moves the connection holding block away from the mold side connection part.

This movement moves to the mold mounting surface of the molding machine.

As a result, there are no attachments on the mold mounting surface of the molding machine, making it easy to carry in and out of the metal wheel.

〔Example〕

An embodiment of the present invention will be described in detail below. In FIG. 1, 1 is a connection holding block supported by a link mechanism 5. In FIG. This link mechanism 4=3 is supported by a bracket 15 attached to the molding machine.

That is, as shown in FIG. 2, the member 8 is attached to the vial 9 provided on the bracket 15 and the vial 10 provided on the connection holding block 1, and the member 8 is attached to the vial 5 provided on the bracket 15 and the connection holding block 1. The contact α holding block 1 is supported on the molding machine via a linkage mechanism 3 by an L-shaped member 4 attached by a provided pin 7. A rod 11 is connected to the end of the member 4 via a pin 6. 12 is an actuator.

By operating this actuator 12, the connection holding block 1 can be moved from the connected state with the mold side connecting portion 2 shown in FIG. 2 to the position of the mold mounting surface 17 shown in FIG. 3. 13 is a locking cylinder), and the state in which the connection holding block 1 and the mold side connection part 2 are connected (the second
In the state shown in the figure), the rod 14 is inserted into the hole provided in the member 4, and the connected state is locked. 1B is mold 1
6 to the mold mounting surface 17 of the molding machine. 19 is a fluid hose.

Next, the connection holding block 1 will be explained in more detail.

In FIG. 5, the connection block 1 incorporates a coupler and a contact type diode for electrical connection.

First, the coupler is divided into two parts, a male type 23 and a female type 24. In this embodiment, the male type 23 is supported by the mold side connection part 2, while the female type 24 is connected and held. It is supported by block 1.

The one-sided contact joint also has an electrical supply side 33 and a load side 32.
In this embodiment, the electricity supply side 33 is supported by 2+7 (1f4747), and the load side 32 is supported by the mold side connection part 2.

The coupler is a one-touch type as shown in FIGS. 6 and 7, and when the female 24 and male 23 are not connected, the valves 2B, 2? Both are closed, and fluid flow is blocked. Then, as shown in FIG. 7, when the female 24 and male 25 are fitted together and the ball 25 is inserted until it is fitted into the groove 27, the valves 28 and 29 are opened and the fluid flows as shown by the arrow. flows. Then, by pressing the connection holding block 1 through the link mechanism 3 until it hits the mold side connection part 2, the ring 26 moves and the ball 2
5 is pressed against the groove 27, and the fitted state of the female 24 and male 23 is maintained. The link mechanism 3 is also locked by the lock cylinder 15 and is completely fixed.

Then, as shown in FIG. 4, the position of the mold body is fixed by fitting the rod 21 of the lock cylinder 22 into the positioning groove 20 of the mold, and the coupled state of the female 24 and male 25 of the coupler is maintained. .

To release this connection when replacing the mold, release the lock cylinder 13 and move the connection holding block 1 away from the mold side connection part 2 using the link 3, so that the ring 26 is released from the state shown in FIG. The state shown in FIG. 6 is returned. As a result, the lock of the ball 25 is released, and the fitting between the female 24 and the male 23 is easily released. By this release, the valves 28 and 29 are returned to the closed state by the elastic force of the springs 55, 56.

In this way, this coupler is constructed so that the fluid flow path can be opened and closed by a one-touch fitting operation between the female 24 and the male 25. Further, as the contact type joint, a conventional type commonly used is used.

The operation of this embodiment configured as above will be explained next.

First, when setting the metal amount 16 in the molding machine, the connection holding block 1 is placed on the mold mounting surface 17 of the molding machine as shown in FIG.
It is moved by the link mechanism 3 at the 0 position d''!. As a result, there are no protruding parts etc. on the metal ferrule mounting surface 17, and it becomes a completely flat surface. The mold is carried out to the connection holding block 1 side by the conveyance roller 18 as shown by the arrow in FIG. The concealed equipment is carried in to a predetermined level.In this way, the panoramic view 16 is replaced by being carried out and carried in at the same time.

Next, the mold 16 is correctly positioned and locked on the mounting surface 17 of the molding machine by the actuator 22 and the lock pin 21. Then, by operating the actuator 12, the contact α holding block 1 is moved to the mold side connection part 2 side as shown in FIG. Connecting.

Next, it is locked with the locking cylinder 15.

When replacing the mold after injection molding is completed, the link mechanism and mechanism 3 are unlocked using the lock cylinder 13, the connection holding block 1 is moved to the position of the mold mounting surface 17 using the actuator 12, and then the next step is performed. The actuator 22 is operated to unlock the mold 16, and the mold 16 is carried in and out in the same direction to be replaced. [Effects of the Invention] As detailed above, according to the present invention, the coupler for fluid flow path and the contact type electric heater are supported by the mold-side connection part and the contact-reading holding block, and the connection holding block is attached to the molding machine side via a link mechanism, and the connection block is removed from the mold mounting surface. By making it possible to move up to the mold side connection part, the fluid flow path (cooling) and the electrical connection part of the electric heater can be attached and detached at the same time.

In addition, when replacing molds, the old mold and new mold can be transported in and out in the same direction.
It is now possible to perform the process continuously without waiting for the previous mold attached to the molding machine to be taken out as in the past.

In this way, by simultaneously attaching and detaching fluid channels and electrical connections, and by continuously replacing molds, mold replacement is completely automated, greatly reducing the time required for this, and increasing productivity. I was able to improve my sexuality.

[Brief explanation of the drawing]

1 to 7 are diagrams showing an embodiment of the present invention,
Fig. 1 is a perspective view showing the whole of this embodiment, Fig. 2 is a plan view showing a state where the connection holding block and the mold side connection part are joined, and Fig. 3 is the connection holding block up to the mold mounting surface. FIG. 4 is a front view of the molding machine showing the replacement of the mold, FIG. 5 is a uIWr side view showing the relationship between the connection holding block and the mold side connection part, and FIG. 6 is a plan view showing the moved state. 7 is a longitudinal sectional view of the coupler showing the state before the female and male are coupled, and FIG. 7 is a longitudinal sectional view of the coupler showing the coupled state. 1... Close reading holding block, 2... Mold side connection part, 3
...link mechanism, 16...mold, 17..., metal wheel mounting surface (and 2 others) Fig. 1 1... 1 sales block 2 food mold side connection 3... 1 Lua JiI Tank 16・tL type 17...tL growth surface 2 Figure 3 Figure 6 Figure 7

Claims (1)

[Claims] One side of the coupler for fluid flow path connection and one side of the contact type joint for electrical connection are fixed to the mold side connection part, and the other side of the coupler and the other side of the contact type joint are supported by a connection holding block. , the connection holding block is attached to the molding machine side via a link mechanism, and the connection holding block is movable from the mold mounting surface of the molding machine die plate to the mold side connection part by the link mechanism. Attachment/disconnection device for fluid flow paths and electrical connections.