JPH0234815Y2 - - Google Patents

Description

[Detailed description of the invention] (a) Industrial application field The present invention relates to a mold clamping device for a magnetic field injection molding machine.

(b) Prior Art Some magnetic field injection molding machines for injection molding plastic magnets use tie bars as part of the magnetic circuit. For example, the magnetic circuit has the following structure: fixed platen → tie bar → movable platen → ferromagnetic steel block on the movable platen side → ferromagnetic steel part of the mold → ferromagnetic steel block on the fixed platen side → fixed platen. This allows a magnetic field to be generated in the mold cavity.

(c) Problems that the invention aims to solve However, the above-mentioned mold clamping device of a magnetic field injection molding machine has a problem that the magnetic resistance between the tie bar and the movable platen is large and the efficiency of the magnetic circuit is not good. The dot was hot. That is, the movable platen is guided by the tie bars and moves in the axial direction, and the contact portion thereof is provided with a cylindrical bush made of, for example, copper. This bush has a relatively large wall thickness for its function of sliding on the tie bar, and has low magnetic permeability. As a result, the magnetic resistance of the bush increases, causing the above-mentioned problems. This idea is
The aim is to solve the problems mentioned above.

(d) Means for Solving the Problems The present invention solves the above problems by providing an auxiliary plate separately from the bushings, thereby configuring a magnetic circuit between the tie bar and the movable platen. In other words, an auxiliary plate made of ferromagnetic steel that has a hole that allows the tie bar to pass through is fixed to the end face of the movable platen, and the gap between the outer diameter of the tie bar and the hole in the auxiliary plate is kept very small to the extent that they do not interfere with each other. It has been made smaller.

(E) Effect By providing the above-mentioned auxiliary plate, the magnetic flux flow between the tie bar and the movable plate will pass through the auxiliary plate. The gap between the hole in the auxiliary plate and the tie bar is made as small as possible without interference between the two to reduce magnetic resistance. This greatly improves the efficiency of the magnetic circuit compared to the case where the magnetic circuit is configured via a conventional bush.

(F) Embodiment A tie bar 12 made of ferromagnetic steel is connected to a fixed platen 10 made of ferromagnetic steel, and a movable plate 14 made of ferromagnetic steel is guided by this tie bar 12. A cylindrical bush 16 made of copper, for example, is attached to the movable plate 14, and the bush 16 slides on the tie bar 12. An auxiliary plate 18 made of ferromagnetic steel is fixed to the right end face of the movable platen 14 in FIG. The auxiliary plate 18 has a hole 18a, through which the tie bar 12 passes. The inner diameter of the hole 18a is slightly larger than the outer diameter of the tie bar 12, and the gap 20 between them is very small. A fixed plate side block 22 made of ferromagnetic steel is attached to the fixed plate 10, and a movable plate side block 2 made of ferromagnetic steel is attached to the movable plate 14.
4 can be installed. Magnetic field generating coils 26 and 28 are provided on the outer peripheries of the fixed plate side block 22 and the movable plate side block 24, respectively. A fixed mold 30 and a movable mold 32 are attached to the fixed platen side block 22 and the movable platen side block 24, respectively, and a cavity 34 is formed between them. The fixed mold 30 and the movable mold 32 both have ferromagnetic steel parts 30a and 32.
a, and non-magnetic steel parts 30b and 32b.

By passing a predetermined current through the magnetic field generating coils 26 and 28, a magnetic flux flow as shown by the dotted line in FIG. 1 is formed. The magnetic flux flow is fixed plate 10 → tie bar 1
2 → Gap 20 → Auxiliary plate 18 → Movable plate 14
→ Movable platen side block 24 → Ferromagnetic steel part 32a of movable mold 32 → Cavity 34 → Ferromagnetic steel part 30a of fixed mold 30 → Fixed platen side block 22 → Fixed platen 10
It constitutes a magnetic circuit called. The gap 20 between the tie bar 12 and the auxiliary plate 18 is very small, and the auxiliary plate 18 is
4, tie bar 12 and movable plate 1
4, the magnetic resistance becomes very small. Therefore, the magnetic resistance of the entire magnetic circuit of the mold clamping device is reduced, and efficiency can be improved.

(g) Effects of the invention As explained above, according to the invention, the magnetic circuit is constructed by the auxiliary plate with a very small gap between it and the tie bar.
Magnetic resistance can be reduced to improve the efficiency of the magnetic circuit.

[Brief explanation of the drawing]

FIG. 1 is a view showing a mold clamping device of a magnetic field injection molding machine according to the present invention, and FIG. 2 is an enlarged perspective sectional view showing an auxiliary plate mounting portion. 10... Fixed plate, 12... Tie bar, 14...
Movable platen, 16... Bush, 18... Auxiliary plate, 20... Gap, 22... Fixed platen side block, 24... Movable platen side block, 26... Magnetic field generation coil, 28... Magnetic field generation coil, 30 ...Fixed type, 32...Movable type, 34...Cavity.

Claims (1)

[Scope of Claim for Utility Model Registration] A mold clamping device for a magnetic field injection molding machine in which a tie bar and a movable plate constitute part of a magnetic circuit, and the movable plate is slidably guided with respect to the tie bar via a bush. An auxiliary plate made of ferromagnetic steel with a hole that allows the tie bar to pass through is fixed to the end face of the movable platen, and the gap between the outside diameter of the tie bar and the hole in the auxiliary plate is made extremely small to the extent that the two do not interfere. Features a mold clamping device for magnetic field injection molding machines.