JPH09262884A - Injection molding machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To hold the degree of parallelism between a movable plate and a fixed plate even if offset injection pressure acts on a mold and to also easily adjust a core. SOLUTION: The movable plate 24 of an injection molding machine 20 constituted of a fixed plate 21, the movable plate 24, a mold clamping housing 22 or the like is guided by linear guide devices 1, 1. The linear guide devices 1, 1 are constituted of the track rails 2, 2 fixed to a base and the housings 10 guided axially while prescribed in up and down movement by the track rails 2, 2 through a plurality of steel balls. The movable plate 24 is supported on the housings 10 of the linear guide devices 1, 1 through eccentric shafts 42.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a fixed plate, a movable plate,
The present invention relates to an injection molding machine including an injection molding machine including a mold clamping housing, a movable plate of the injection molding machine, and a linear guide device that guides the mold clamping housing in an axial direction.

[0002]

2. Description of the Related Art An injection molding machine is well known in the art, as shown in FIG. 4, and has a fixed platen 51 fixed on an injection bed 50 and is movable in the axial direction with respect to the fixed platen 51. A movable platen 52 provided, a mold clamping housing 54 to which a crosshead of a toggle type mold clamping mechanism 53, which is a mold clamping device, is attached, and a plurality of mold plates provided between the mold clamping housing 54 and the fixed platen 51. Book tie bars 55, 55, ...
And so on. Further, the fixed plate 51 is provided with a fixed mold 56, and the movable plate 52 is provided with a movable mold 57. The toggle mold clamping mechanism 53 is driven by, for example, a hydraulic piston / cylinder mechanism 58. The wheels 60, 6 are provided at the lower ends of the movable platen 52 and the mold clamping housing 54 of the injection molding machine configured as described above.
0 are provided, and these wheels 60, 60, ... Ride freely on the injection bed 50, and the movable plate 52 and the mold clamping housing 54 are axially movable.

As described above, since the mold clamping housing 54 is supported by the wheels 60, 60 so as to be movable on the injection bed 50 in the axial direction, the tie bar nuts 55 ', 5'.
The mold clamping force can be adjusted by appropriately rotating 5 ′, ... Further, since the movable platen 52 is also supported by the wheels 60, 60 on the injection bed 50 so as to be movable in the axial direction, the movable platen 52 is fixed by supplying / discharging pressure oil to / from the hydraulic piston / cylinder mechanism 58. For 51, the mold can be clamped to inject the molten resin, or the mold can be opened to take out the molded product.

[0004]

As described above, also in the conventional injection molding machine, the movable platen 52 and the mold clamping housing 54, which move in the axial direction, use the wheels 60, 60, ...
Since it is supported on 0, it is possible to move it in the axial direction in relation to the forming operation and form it for the time being. However, there are drawbacks or problems in obtaining high quality molded products. That is, since the movable platen 52 and the mold clamping housing 54, which are movable, are simply supported on the injection bed 50 by the wheels 60, 60, ... The parallelism between the board 52 and the fixed board 51 may decrease. More specifically, the cavities of the dies 56 and 57 are generally formed in a symmetric shape in consideration of the injection pressure, but the cavities may not necessarily be formed in a symmetric shape depending on the shape and number of molded products. In this case, the injection pressure acts on the molds 56 and 57 unevenly. Then, mold 5
Rotational moment acts to tilt 6,57. By the way, since the fixed platen 51 is fixedly supported by the injection bed 50, the movable platen 52 is inclined. Since the movable plate 52 is inclined, the mold clamping housing 54 is also inclined. As a result, the quality of the molded product deteriorates, making it impossible to mold a molded product that requires high-precision molding, such as an information recording disk.

Further, the movable platen 52 needs to be adjusted for centering with respect to the fixed platen 51. However, since the conventional injection molding apparatus is not provided with special adjusting means, it is troublesome to adjust the core. There is also such a problem. Furthermore, the movable plate 52
The mold clamping housing 54 is supported by the wheels 60, 60, ..., However, the rotation or movement resistance is relatively large, and there is a problem in high speed movement, which is an obstacle to achieving shortening of the molding cycle. Has become. The above-mentioned drawbacks and problems also apply to an injection molding machine supported by a plurality of rollers or slide shoes instead of the wheels 60, 60, .... Therefore, the present invention provides an injection molding apparatus which maintains the parallelism between the movable platen and the fixed platen even when an injection pressure biased to the mold acts, and is also suitable for high-speed injection molding. It is an object. Another object of the present invention is, in addition to the above object, to provide an injection molding apparatus capable of easily adjusting a core of a movable plate relative to a fixed plate.

[0006]

Since the fixed plate is fixed to the injection bed or the track rail and the movable plate and the mold clamping housing are connected by a mold clamping mechanism such as a toggle type mold clamping mechanism, This is achieved by preventing at least one of the movable plate and the mold clamping housing from tilting under the action of a rotational moment due to non-uniform injection pressure. That is, the present invention, in order to achieve the above objects,
An injection molding machine comprising an injection molding machine including a fixed platen, a movable platen, and a mold clamping housing, and a linear guide device for axially guiding the movable platen and the mold clamping housing of the injection molding machine. The linear guide device includes a track rail fixed to a base, and a housing that is guided in the axial direction by the track rail, the movement of which is restricted in the vertical direction through a plurality of steel balls. At least the movable plate of the molding machine is fixed to the housing of the linear guide device. According to a second aspect of the present invention, there is provided an injection molding machine including a fixed platen, a movable platen, a mold clamping housing, and the like, and a linear guide device for axially guiding the movable platen and the mold clamping housing of the injection molding machine. In the injection molding apparatus, the linear guide apparatus is axially guided with a track rail fixed to a base and a vertical movement restricted by the track rail via a plurality of steel balls. Consisting of a housing,
At least the movable plate of the injection molding machine is supported by the housing of the linear guide device via an eccentric shaft arranged in the horizontal direction.

[0007]

Embodiments of the present invention will be described below. With reference to FIG. 1, as is apparent, the injection molding apparatus according to the present embodiment is provided on a pair of linear guide devices 1 and 1 on a base B and on the linear guide devices 1 and 1. It is composed of an injection molding machine 20.

Since the pair of linear guide devices 1 and 1 have the same structure, one linear guide device 1 will be mainly described below. As shown in detail in FIGS. 2 and 3, the linear guide device 1 includes one track rail 2 and a plurality of housings 10, 10 that move in the axial direction while straddling the track rail 2. ... and is roughly configured. The track rail 2 has a substantially rectangular cross section. The lower surface is fixed to the base B, and the housing 10 is axially guided by the upper portion thereof. On both side walls 3, 3 of the track rail 2,
Grooves 4 and 4 having a semicircular cross section that are open to the outside are formed in the axial direction. These recessed grooves 4, 4 cooperate with the recessed grooves of the housing 10 described later to form guide holes for a plurality of steel balls.

The housing 10 has a flat support 11 on which the movable platen 24 of the injection molding machine 20 is mounted via brackets 44, and downwardly from this support, as shown in FIG. The track rail 2 is configured to have a pair of legs 13 and 13 which are adjacent to and extend over the peripheral wall of the track rail 2. On the inner side of the legs 13, 13, there are also axially formed semi-circular grooves 14, 14 which cooperate with the semi-circular grooves 4, 4 of the track rail 2. These recessed grooves 4, 4, 14, 14 form guide holes 14 ', 14' of steel balls having a substantially circular cross section. A plurality of steel balls 15, 15, ... Are put in these guide holes 14 ', 14'. The steel balls 15, 15, ... Guide the housing 10 on the track rail 2 with a small resistance. Further, since the housing 10 and the track rail 2 are coupled through the steel balls 15, 15, ... In the guide holes 14 ′, 14 ′, the vertical movement of the housing 10 is restricted by the track rail 2. Will be done. In addition, the other reference numeral 12 in FIGS.
Reference numeral 6 denotes a lower surface seal, 17 denotes a side plate, 18 denotes a steel ball support band, and 19 denotes a grease nipple.

The injection molding machine 20 is equipped with a toggle type mold clamping mechanism 30 in the embodiment shown in FIG. 1. However, as is well known in the art, a fixed plate fixed to the track rails 2 and 2. 21, a mold clamping housing 22 provided on the track rails 2, 2 so as to be movable in the axial direction, four tie bars 23, 23 provided between the fixed plate 21 and the mold clamping housing 22 ,. These tie bars 23, 23, ...
A movable platen 24 that is inserted and is movable in the axial direction, a toggle mold clamping mechanism 30 provided between the mold clamping housing 22 and the movable platen 24, a piston / cylinder unit 28 that drives the toggle mold clamping mechanism 30, and the like. It consists of

The fixed plate 21 is provided with a fixed mold 25, the movable plate 24 is provided with a movable mold 26, and the tie bars 23, 2 are provided.
Adjustment nuts 27, 2 for adjusting the mold clamping force are provided at the left end portions of 3 ,.
, ... Are provided in a known manner. As is well known, the toggle mold clamping mechanism 30 includes one crosshead 3
1, a pair of cross links 32, 32, a pair of short links 33, 33, a pair of long links 34, 34, and the like. As is well known, these links 31 to 34 are rotatably connected to each other by pins, and the ends of these links 33 and 34 are at the mold clamping housing 22.
Similarly, it is rotatably connected to the movable plate 24 by pins.

FIG. 2 is a sectional view taken along the line A--A in FIG. 1. As shown in FIG.
A concave portion or groove 40 whose lower side is opened is provided on the lower surface of the. Then, the side wall 4 forming the groove 40
An eccentric shaft 42 having an eccentricity of "e" is supported on both sides of the shafts 1, 41. On the other hand, a bracket 44 is attached to the support portion 11 of the linear guide device 1 by a plurality of bolt holes 12 and 12, and a bearing 45 is fixed to the upper surface of the bracket 44. The bearing 45 bears the eccentric shaft 42 described above. Therefore, the movable plate 24
Is supported by the track rails 2 and 2 via the eccentric shaft 42, the bearing 45, the bracket 44 and the linear guide device 1, and when the eccentric shaft 42 is rotated, the movable platen 24 and the linear guide device 1 are separated from each other. The interval h will change.

In the illustrated embodiment, the movable platen 24 is supported by the linear guide device 1 and the eccentric shaft 42 on the two track rails 2 and 2 so as to be movable in the axial direction at four positions, front and rear, and both sides. Has been done. Since the movable platen 24 is supported by the linear guide devices 1 and 1 at a predetermined interval in the front-rear direction, it is possible to more strongly counteract the force that tends to tilt the movable platen 24. Further, the mold clamping housing 22 can also be supported by the linear guide device 1 and the eccentric shaft 42. However, in the illustrated embodiment, the mold clamping housing 22 is bracketed by the four linear guide devices 1, 1 ,. It is directly supported via 46, 46, ....

Next, the operation of the above embodiment will be described. The center of the movable platen 24 is adjusted by rotating the eccentric shafts 42, 42. When the eccentric shafts 42, 42 rotate, the bearings 45, 4
.. are fixed to the linear guide devices 1, 1 via the brackets 44, 44, .., the distance h between the movable plate 24 and the bracket 44 changes. That is, the movable platen 2
4 moves up and down. This adjusts the core. The adjusting nuts 27, 27, ... Adjust the mold clamping force in a conventional manner. During this adjustment, the mold clamping housing 22 is guided by the linear guide devices 1 and 1 and moves in the axial direction. Pressure oil is supplied to one oil chamber of the piston / cylinder unit 28 to drive the crosshead 31 of the toggle mold clamping mechanism 30. As a result, the movable mold 26 is clamped to the fixed mold 25 with a predetermined mold clamping force. Molten resin is injected into the cavity in a known manner.

At this time, even if a biased tree pressure is applied between the molds 25 and 26 and a rotational moment such that the movable movable platen 24 is tilted is received, the housings 10 and 10 of the linear guide devices 1 and 1, , Are restricted from moving in the vertical direction with respect to the track rails 2 and 2 via a plurality of steel balls 15, 15 ,. That is, the movable platen 24 is the housing 10, 1.
0, ..., Brackets 44, 44, ..., Bearings 45, 4
5, ..., The eccentric shafts 42, 42, ... Are integrated so that they do not tilt. Therefore, the parallelism between the movable platen 24 and the fixed platen 21 is maintained, and a high quality molded product can be obtained. Pressure oil is supplied to the other oil chamber of the piston / cylinder unit 28, the movable platen 24 is opened, and the molded product is taken out. At this time, the movable platen 24 is opened with a small driving force by the linear guide devices 1 and 1 having a small sliding resistance. According to the present embodiment, since the resistance is small, the mold can be opened and closed at high speed, and the molding cycle can be shortened.

[0016]

As described above, according to the present invention, the injection molding machine composed of the fixed platen, the movable platen, the mold clamping housing and the like is guided in the axial direction by the linear guide device. However, this linear guide device is composed of a track rail fixed to the base and a housing that is guided axially by the track rail through vertical movements of a plurality of steel balls and is guided by an injection molding. At least the movable plate of the machine is fixed to the housing, so even if an unbalanced load acts between the fixed plate and the movable plate, and a force that tilts the movable plate acts, the movable plate does not tilt, that is, it is fixed. The parallelism between the platen and the movable platen is maintained, and a high quality molded product can be obtained, which is an effect peculiar to the present invention. Further, even if the injection resin pressure that tilts the movable plate acts, the movable plate does not tilt, so that an effect of facilitating the design of the cavity layout can be obtained. Further, since the linear guide device is composed of a track rail fixed to the base and a housing guided by the track rail through a plurality of steel balls, the friction resistance is small and the movable plate is small. Can be driven at high speed by force,
It is also possible to shorten the molding cycle. According to the invention of claim 2, since the movable plate is supported by the housing of the linear guide device via the eccentric shaft arranged in the horizontal direction, in addition to the above-mentioned effect, only the eccentric shaft is rotated. Thus, the effect that the core of the movable plate can be adjusted can be obtained.

[Brief description of drawings]

FIG. 1 is a front view showing an embodiment of the present invention in a partial cross section.

FIG. 2 is a sectional view taken along the line AA in FIG.

FIG. 3 is a perspective view of a linear guide device.

FIG. 4 is a front view showing a conventional example with a partial cross section.

[Explanation of symbols]

1 Linear guide device 2
Track rail 4, 14 Groove 15
Steel ball 20 Injection molding machine 24
Movable plate 42 Eccentric shaft

Claims (2)

[Claims] 1. An injection molding machine (20) comprising a fixed platen (21), a movable platen (24), a mold clamping housing (22), and the movable platen (2) of the injection molding machine (20).
4) and a linear guide device (1, 1) for axially guiding the mold clamping housing (22), wherein the linear guide device (1, 1) is fixed to a base. A track rail (2, 2), and a housing (10) in which the track rail (2, 2) restricts vertical movement through a plurality of steel balls (15, 15) and is guided in the axial direction. The injection molding machine, characterized in that at least the movable plate (24) of the injection molding machine (20) is fixed to the housing (10) of the linear guide device (1, 1). 2. An injection molding machine (20) comprising a fixed platen (21), a movable platen (24), a mold clamping housing (22), and the movable platen (2) of the injection molding machine (20).
4) and a linear guide device (1, 1) for axially guiding the mold clamping housing (22), wherein the linear guide device (1, 1) is fixed to a base. A track rail (2, 2), and a housing (10) in which the track rail (2, 2) restricts vertical movement through a plurality of steel balls (15, 15) and is guided in the axial direction. At least the movable plate (24) of the injection molding machine (20) includes a housing (10) of the linear guide device (1, 1) via an eccentric shaft (42) arranged in a horizontal direction. Injection molding apparatus characterized in that it is supported by.