JPH02151414A - Cassette type mold - Google Patents

Abstract

PURPOSE:To make respective cassette molds compact and to reduce processing cost by dispensing with a temp. control hole by respectively dividing each of cassette molds on fixed and movable sides into two molds and respectively arranging the divided molds on the left and right sides of the intermediate parts of respective mold bases provided with temp. control holes. CONSTITUTION:Each of cassette molds on fixed and movable sides is respectively divided into two molds and the divided molds are respectively arranged on the left and right sides of the intermediate parts 45, 65 of respective mold bases 44, 64, and a sprue 48 and a part 49 of a runner are taken in the intermediate part 45 of the mold 44 on the fixed side. All of the side surfaces of the cassette molds 52a, 52b, 72a, 72b are respectively brought into contact with the mold basis 44, 46 by fitting and temp. control holes 56, 54, 76, 70 are respectively provided to both mold bases 44, 64 so as to hold the cassette molds 52a from the inside and outside. By this method, it becomes unnecessary to provide temp. control holes to the respective cassette molds and the cassette molds become compact and manufacturing cost is lowered and maintenance and management become also easy.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a cassette mold for injection molding of, for example, thermoplastic resin or thermosetting resin.

[Conventional technology]

FIG. 3 is a cross-sectional view showing a conventional cassette-type mold in a combined state, and FIG. 4 is a front view of the stationary mold shown in FIG. 3, viewed from below.

This cassette type mold consists of a fixed mold 2 and a movable mold 22. 20 is the parting line for both. A nozzle 18 for injecting molding material is brought into contact with the mold 2 .

The mold 2 includes a mold base 4 having a recess 6, and a mold base 4 having a recess 6.
The cassette mold 12 is removably fitted into the cassette mold 12.

The cassette mold 12 has a sprue 8 connected to the nozzle 18 in its center, and a plurality of sprues (
In the illustrated example, four cavities 14 are provided, and a runner 9 is provided that connects each cavity 14 and the sprue 8.

In addition, a temperature regulating medium (for example, water, oil, air, etc.) is passed into the mold base 4 and the cassette mold 12 to cool the cassette mold 12 (if the molding material is thermoplastic) or heat it (if the molding material is thermoplastic). Temperature control hole 101 (for thermosetting)
16 are provided respectively. 17 in FIG. 4 is a connector for a pipe through which the medium passes.

On the other hand, the mold 22 includes a mold base 24 having a recess 26, and a cassette mold 32 that is removably fitted into the recess 26.

The cassette mold 32 is provided with a cavity 34 corresponding to the cavity 14, and ejector bins for ejecting the molded product are provided below the cavity 34, respectively.

Moreover, inside the mold base 24 and the cassette mold 32,
Temperature regulating holes 30.36 similar to the temperature regulating holes 10.16 are provided respectively.

Simply put, the reason why each mold 2.22 is divided into a mold base 4.24 and a cassette mold 12.32 as described above is as follows.
By doing so, you will only need to replace the cassette mold 12.32 side when it wears out or when changing molding, which is more rational and economical than replacing the entire mold. be.

[Problem to be solved by the invention]

However, in the conventional cassette mold as mentioned above, even if only the cassette mold 12.32 needs to be replaced,
Since it is necessary to process the temperature control holes 16, 36 in all the cassette molds 12, 32, and also to process the sprues 8, etc. in the fixed side cassette mold 12, the processing cost will be reduced accordingly. There was a problem that it took a while.

There was also a request to further reduce the size of each cassette mold 12.32.

Therefore, an object of the present invention is to provide a cassette mold that improves the above-mentioned points.

[Means to solve the problem]

The cassette type mold of this invention consists of a fixed side mold and a movable side mold, and each mold can be attached to and removed from a mold base having recesses on the left and right sides of the middle part, respectively. Each is equipped with two cassette molds that are inserted into the
A sprue and a part of a runner connected to the cassette molds on both sides are provided in the middle part of the mold base on the fixed side, and a 8M hole is provided in the middle part of at least one mold base to pass a temperature regulating medium. It is characterized by being provided with.

[Effect]

According to the above structure, the temperature can be adjusted from the inside of the mold by using the temperature control hole provided in the middle part of the mold base, so there is no need to provide a temperature control hole in each cassette mold.

In addition, each of the fixed side and movable side cassette molds is divided into two parts and placed on the left and right sides of the middle part of each mold base, and the sprues and runners are placed in the middle part of the fixed side mold base. Since the parts are incorporated, each cassette mold becomes more compact.

〔Example〕

FIG. 1 is a sectional view showing the assembled state of a cassette type mold according to an embodiment of the present invention, and FIG. 2 is a front view of the stationary mold shown in FIG. 1 viewed from below.

The cassette mold of this embodiment consists of a fixed mold 42 and a movable mold 62. 20 is a parting line for both, and 18 is the above-mentioned nozzle.

The mold 42 includes a mold base 44 having recesses 46a and 546b on the left and right sides of the intermediate portion 45, and two cassette molds 52a that are removably fitted into the recesses 46a and 46b, respectively.
, 52b.

A middle portion 45 of the mold base 44 is provided with a sprue 48 connected to the nozzle 18 at the center thereof, and runners 49 connected to the respective cassette molds 52a and 52b on both sides thereof.

Inside this intermediate part 45 and inside the side part of the mold base 44,
Temperature adjusting medium (for example, water, oil, air, etc.) is used to sandwich each cassette mold 52a, 2b from both the inside and outside sides.
Temperature control holes 56, 50 are provided through which each cassette mold 52a, 52b is cooled (if the molding material is thermoplastic) or heated (if the molding material is thermosetting).

Each of the cassette molds 52 a and 52 b has a plurality of (four in the illustrated example) cavities 54 that form the molded product, and a runner 5 that connects them to the runner 49 of the intermediate portion 45 .
3 are provided respectively.

On the other hand, the mold 62 has concave portions 66a and 6 on the left and right sides of the intermediate portion 65.
6b, and each recess 66a, 66b.
Two cassette molds 72a and 72b are provided, each of which is removably fitted into the mold.

Inside this intermediate part 65 and inside the side part of the mold base 64,
A temperature control hole 76 similar to the temperature control hole 56, 50 above is provided so as to sandwich each cassette mold 72a, 72b from both the inside and outside sides.
．． 70 are provided respectively.

Each of the cassette molds 72a and 72b is provided with a cavity 74 corresponding to the cavity 54, and an ejector bin 68 for ejecting the molded product is provided below the cavity 74.

An example of the means for fixing the cassette mold to the mold base will be described with reference to FIG. 2, taking the mold 42 side as an example.
A presser block 58 that can be opened and closed in the direction of arrow A around a fulcrum 78 is provided at the entrance of each of the cassette molds 52a and 46b, and after inserting the cassette molds 52a and 52b, they are fixed with this presser block 58. There is. 59 is a clamp for fixing the presser block 5. Also, when taking out each cassette mold 52a, 52b, the extrusion rod 6 behind it
I'm trying to push it out with 0.

Incidentally, it is preferable to provide a temperature control hole as described above also in the presser block 58. In addition, each cassette mold 52a,
52b is inserted into the recesses 46a and 46b of the mold base 44 with a clearance of, for example, about 0.01 mm.

The mold 62 side also employs, for example, the same fixing structure as described above.

In the cassette type mold of this embodiment, all sides of each cassette mold 52a, 52b and 72a, 72b are in contact with the mold bases 44 and 64, respectively, and both mold bases 44 and 64 are in contact with each other. Since the temperature control holes 56, 54 and 76, 70 are respectively provided to sandwich each cassette mold 52a etc. from the inside and outside, the temperature of each cassette mold 52a etc. can be adjusted from both the inside and outside. . Therefore, unlike the conventional example, there is no need to provide temperature control holes for each cassette mold, and the manufacturing cost of each cassette mold can be reduced accordingly.

In addition, each of the fixed side and movable side cassette molds is divided into two parts, and this is divided into two parts, and the two are divided into two parts, and these are divided into two parts, and the two are divided into two parts.
．． Since the sprue 48 and a part of the runner 49 are placed in the middle part 45 of the mold base 44 on the fixed side, each cassette mold 52a, 52b
and 72a, ? 2b becomes very compact. For example, each cassette mold 52a etc. can be made less than half the size of the conventional cassette mold 12 or 32, respectively. Also, each cassette mold has 48 sprues.
Since there is no need to provide the fixed side cassette mold 52a,
52b design time is also reduced.

As a result, from this point of view, each cassette mold 52a
, 52b, 72a, and 72b can be manufactured at lower cost. Furthermore, since each cassette mold 52a and the like are made compact, maintenance and management thereof becomes easier.

In addition, each cassette mold on the fixed side and movable side is divided into two parts, so if one of the cassette molds becomes defective during mass production, you can simply replace the defective cassette mold. can continue. In other words, since it is divided into two parts, only half the parts need to be replaced compared to the conventional example, and therefore the cost as a consumable item is also reduced.

In addition, in the above, the intermediate part 45.6 of both full types 42.62
An example was shown in which temperature control holes 56 and 76 were provided respectively in 5.
If the required temperature adjustment is possible with one of the temperature control holes 56 or 76 depending on the position of the parting line 20 or the cavities 54, 74, only one of the temperature control holes 56 or 76 may be provided.

In addition, each cassette mold 52a, 52b and 72a, 7
2b to the mold bases 44 and 64, respectively, may be other than peeling off using the presser block 58. For example, instead of using the presser foot block 58,
Each cassette mold 52a and the like may be fixed to the mold base 44, 64 by pressing from the side.

〔Effect of the invention〕

As described above, according to the present invention, the temperature can be adjusted from the inside of the mold by using the temperature control hole provided in the middle part of the mold base, so the temperature control hole is provided in each cassette mold. The need disappears.

Therefore, the manufacturing cost of each cassette mold can be reduced.

In addition, each of the fixed side and movable side cassette molds is divided into two parts and placed on the left and right sides of the middle part of each mold base, and the sprues and runners are placed in the middle part of the fixed side mold base. By incorporating the parts, each cassette mold becomes compact and its design time is also shortened.

As a result, from this point of view as well, the manufacturing cost of each cassette mold can be reduced, and the maintenance and management of the cassette molds can also be facilitated.

In addition, since each cassette mold on the fixed side and movable side is divided into two parts, only the defective cassette mold needs to be replaced, and the parts to be replaced are half of the conventional ones, reducing the cost of consumables. It's also cheap.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing a state in which a cassette mold according to an embodiment of the present invention is assembled. FIG. 2 is a front view of the stationary mold shown in FIG. 1, viewed from below. FIG. 3 is a sectional view showing a state in which a conventional cassette mold is assembled. FIG. 4 is a front view of the stationary mold shown in FIG. 3, viewed from below. 42... Fixed side mold, 44... Mold base, 45
... Middle part, 46a, 46b - recessed part, 48, ... Sprue, 49 ... Runner, 50.56 ... Temperature control hole, 52
a, 52b...Cassette mold, 62...Movable side mold, 64...Mold base, 65...Intermediate part, 66a
, 66b... recess, 70, 76,... temperature control hole, 72a
, 12b---cassette mold.

Claims (1)

[Claims] (1) Consisting of a fixed side mold and a movable side mold, each mold consists of a mold base with recesses on the left and right sides of the middle part, and two molds that are removably fitted into each of the recesses. A sprue and a part of a runner connected to the cassette molds on both sides are provided in the middle part of the mold base on the fixed side, and in the middle part of at least one mold base. A cassette type mold characterized by being provided with a temperature control hole through which a temperature control medium passes.