KR101752043B1 - Injection molding machine - Google Patents

Abstract

An injection molding machine capable of suppressing deformation caused by gravity of a motor is provided.
An injection molding machine comprising a motor, a mounting frame on which the axial end of the motor is mounted, and a support member for supporting the motor so that the mounting frame is pivotable about the pivot axis.

Description

[0001] INJECTION MOLDING MACHINE [0002]

This application claims priority based on Japanese Patent Application No. 2014-061892 filed on March 25, 2014. The entire contents of which are incorporated herein by reference.

The present invention relates to an injection molding machine.

The injection molding machine has a mold clamping device for mold closing, mold clamping and mold opening of a mold device, and an injection device for filling a molding material in the mold device. The mold clamping device and the injection device have a motor and a mounting frame on which the axial end of the motor is mounted (see, for example, Patent Document 1).

International Publication No. 2005/037519

Since the motor of the injection molding machine is supported on one side, it is sometimes deformed by gravity.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and its main object is to provide an injection molding machine capable of suppressing deformation caused by gravity of a motor.

In order to solve the above problems, according to one aspect of the present invention,

A motor,

A mounting frame on which an axial end of the motor is mounted,

There is provided an injection molding machine including a support member for supporting the motor such that the mounting frame is pivotable about a pivot axis.

According to one aspect of the present invention, there is provided an injection molding machine capable of suppressing deformation caused by gravity of a motor.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a partially cutaway view of an injection molding machine according to a first embodiment of the present invention. Fig.
Fig. 2 is a partially cutaway view of an injection molding machine according to a second embodiment of the present invention. Fig.
Fig. 3 is a partially broken view of the injection molding machine according to the third embodiment of the present invention. Fig.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. In the drawings, the same or corresponding constituent elements are denoted by the same or corresponding reference numerals, and a description thereof will be omitted. The description will be made assuming that the moving direction of the screw 24 at the time of filling (left direction in each figure) is forward and the moving direction of the screw 24 at the time of metering (right direction in each figure) is rearward.

[First Embodiment]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially broken view of an injection molding machine according to a first embodiment of the present invention. FIG. The injection molding machine has a base frame 12 and an injection apparatus 20. The injection apparatus 20 charges the molding material in the mold apparatus. The injection apparatus 20 is capable of advancing and retreating along the guide 14 laid on the base frame 12, and can be connected to and detached from the mold apparatus.

1, the injection apparatus 20 includes a cylinder 22, a screw 24, a metering motor 26, an injection motor 28, an injection frame 30, a slide base 38, A pivot shaft 40, a swing plate 42, a support member 60, and the like.

The cylinder 22 heats the molding material (e.g., resin). A supply port 22a for the molding material is formed at the rear portion of the cylinder 22. On the outer circumference of the cylinder 22, a heating source such as a heater is provided. A nozzle (23) is provided at the front end of the cylinder (22).

The screw (24) is rotatable in the cylinder (22) and arranged so as to be movable forward and backward. When the screw 24 is rotated, the molding material is forwardly conveyed along the spiral groove of the screw 24. The molding material is gradually melted while moving forward. The liquid molding material is gathered in front of the screw 24. Thereafter, when the screw 24 is advanced, the molding material in front of the screw 24 is injected from the nozzle 23 and filled in the mold apparatus.

The weighing motor 26 rotates the screw 24. The rotary motion of the weighing motor 26 is transmitted to the screw 24 through the bearing holder 46, the coupling 48, and the like. The bearing holder 46 rotates together with the rotor of the metering motor 26. The bearing holder 46 is spline-coupled to the rotor of the weighing motor 26 so that it can move forward and backward with respect to the weighing motor 26. The coupling 48 connects the bearing holder 46 and the screw 24.

The injection motor 28 advances and retreats the screw 24. The rotational motion of the injection motor 28 is converted into a rotational linear motion in the ball screw mechanism 50 and then converted into a linear motion of the bearing holder 46 before being transmitted to the screw 24. The ball screw mechanism 50 is composed of a ball screw nut 52 fixed to the rear support 34 and a ball screw shaft 54 screwed to the ball screw nut 52. A rotary shaft 56 is formed at the front end of the ball screw shaft 54 and the bearing holder 46 supports a bearing 58 for rotatably supporting the rotary shaft 56. [

The center line of the cylinder 22, the center line of the screw 24, the center line of the metering motor 26, and the center line of the injection motor 28 are arranged on the same straight line.

However, the mechanism for transmitting the rotational motion of the weighing motor 26 to the screw 24 may be variously varied. For example, the center line of the weighing motor 26 may be offset from the center line of the screw 24, and the rotational motion of the weighing motor 26 may be transmitted to the screw 24 through a pulley, a timing belt, or the like.

The mechanism for converting the rotational motion of the injection motor 28 into the linear motion of the screw 24 may be variously varied. For example, the ball screw mechanism 50 may convert the rotational motion of the injection motor 28 into rotational linear motion, but may convert it into linear motion.

The injection frame 30 is composed of a front support 32, a rear support 34, and a connection rod 36. The front support 32 is mounted on the axial front end of the metering motor 26 and the rear support 34 is mounted on the axial front end of the injection motor 28. [ The connection rod 36 connects the front support 32 and the rear support 34 at intervals. The injection frame 30 corresponds to the mounting frame described in the claims.

The slide base 38 can be moved back and forth along the guide 14 laid on the base frame 12. [ The injection frame 30 moves forward and backward together with the slide base 38. Thereby, the injection apparatus 20 can be moved forward and backward with respect to the mold apparatus, and the nozzle 23 can be connected to and separated from the mold apparatus. At the retreat limit position of the injection apparatus 20, the injection motor 28 may protrude rearward from the base frame 12.

The pivot shaft 40 is disposed between the slide base 38 and the injection frame 30 and the injection frame 30 pivots about the pivot shaft 40 with respect to the slide base 38. The pivot shaft 40 may be provided integrally with the slide base 38 or integrally with the injection frame 30. [ The mold clamping device is disposed in front of the injection apparatus 20 so that the maintenance of the cylinder 22 or the screw 24 and the like can be facilitated by changing the direction of the injection frame 30. [

The swivel plate 42 is disposed between the injection frame 30 and the slide base 38. The injection frame 30 is mounted on the swivel plate 42 and the swivel plate 42 becomes slidable with respect to the slide base 38. [ A film of lubricant is formed between the swivel plate 42 and the slide base 38. However, the injection frame 30 may be slidably mounted on the swivel plate 42, and the swivel plate 42 may be fixed to the slide base 38.

The support member 60 supports the injection motor 28 so that the injection frame 30 can be pivoted about the pivot shaft 40. The direction of the injection frame 30 can be changed, and maintenance is easy. It is also possible to suppress deformation of the injection motor 28, which is supported on one side by the injection frame 30, due to gravity. In the case where the injection motor 28 protrudes rearward from the base frame 12, since the axial length of the injection motor 28 is long, the effect of suppressing deformation is remarkable. In this case, the support member 60 may protrude rearward from the base frame 12 as well.

The support member 60 is fixed to the injection frame 30 as shown in Fig. The positional relationship between the support member 60 and the injection motor 28 is not changed at the time of turning of the injection frame 30 and during forward and backward movement,

The support member (60) has an adjusting mechanism (62) for adjusting the position of the center line of the injection motor (28) with respect to the injection frame (30). The adjustment mechanism 62 is composed of, for example, a female screw 64 and a male screw 66 screwed to the female screw 64. [ The male screw 66 presses the injection motor 28 from below to suppress the deformation caused by the gravity of the injection motor 28. By rotating the male screw 66 with respect to the female screw 64, the position of the center line of the injection motor 28 can be adjusted in the vertical direction.

[Second Embodiment]

Fig. 2 is a partially cutaway view of an injection molding machine according to a second embodiment of the present invention. Fig. The support member 60A shown in Fig. 2 supports the injection motor 28 such that the injection frame 30 can pivot about the pivot shaft 40, like the support member 60 shown in Fig. The direction of the injection frame 30 can be changed, and maintenance is easy. It is also possible to suppress deformation of the injection motor 28, which is supported on one side by the injection frame 30, due to gravity. In the case where the injection motor 28 protrudes rearward from the base frame 12, since the axial length of the injection motor 28 is long, the effect of suppressing deformation is remarkable. In this case, the support member 60A may also protrude from the base frame 12 rearward.

As shown in Fig. 2, the support member 60A is supported by the slide base 38 and moves forward and backward together with the slide base 38. As shown in Fig. The positional relationship between the support member 60A and the injection motor 28 is not changed at the time of moving the injection frame 30 forward and backward so that abrasion or the like can be suppressed.

The support member 60A may be fixed to the slide base 38. [ In this case, the injection motor 28 is placed on the support member 60A, and is able to pivot about the pivot shaft 40 with respect to the support member 60A. The injection motor 28 may be supported by the support member 60A at the time of injection molding and may be separated from the support member 60A at the time of maintenance. When the injection motor 28 is separated from the support member 60A at the time of maintenance, at least one of the injection motor 28 and the support member 60A (the support member 60A in FIG. 2) The injection motor 28 can be lifted up onto the support member 60A when the injection frame 30 is pivoted from the maintenance position to the injection molding position and the tapered portion 68A ), A rounded curved surface portion may be formed.

Further, the support member 60A may be connected to the injection motor 28. [ In this case, the support member 60A is placed on the slide base 38 and can be pivoted about the pivot shaft 40 with respect to the slide base 38. [ The support member 60A may be pivotable along the pivot guide provided on the slide base 38. [ However, the support member 60A may be fixed to the swivel base that moves along the swivel guide.

The support member 60A has an adjusting mechanism 62A for adjusting the position of the center line of the injection motor 28 relative to the injection frame 30. [ The adjusting mechanism 62A is composed of, for example, a female screw 64A and a male screw 66A screwed to the female screw 64A. The male screw 66A presses the injection motor 28 from below to suppress the deformation of the injection motor 28 due to gravity. By rotating the male screw 66A with respect to the female screw 64A, the position of the center line of the injection motor 28 can be adjusted in the vertical direction.

[Third embodiment]

Fig. 3 is a partially cutaway view of an injection molding machine according to a third embodiment of the present invention. Fig. The support member 60B shown in Fig. 3 supports the injection motor 28 so that the injection frame 30 can be pivoted about the pivot shaft 40, like the support member 60 shown in Fig. The direction of the injection frame 30 can be changed, and maintenance is easy. It is also possible to suppress deformation of the injection motor 28, which is supported on one side by the injection frame 30, due to gravity. In the case where the injection motor 28 protrudes rearward from the base frame 12, since the axial length of the injection motor 28 is long, the effect of suppressing deformation is remarkable. In this case, the support member 60B may also project beyond the base frame 12 rearward.

The support member 60B may be supported by a slide block 69B which moves back and forth along the guide 14 on the base frame 12 as shown in Fig. The support member 60B is supported on the base frame 12 via the slide block 69B and the guide 14. [ However, the support member 60B may be placed on the base frame 12 or may be directly supported on the base frame 12.

The support member 60B may be fixed to the slide block 69B. In this case, the injection motor 28 is placed on the support member 60B, and can pivot about the pivot shaft 40 with respect to the support member 60B. The injection motor 28 may be supported by the support member 60B at the time of injection molding and may be separated from the support member 60B at the time of maintenance. In the case where the injection motor 28 is detached from the support member 60B during maintenance, at least one of the injection motor 28 and the support member 60B (the support member 60B in Fig. 3) The injection motor 28 can be lifted onto the support member 60B when the injection frame 30 is pivoted from the maintenance position to the injection molding position. The tapered portions 68B ), A rounded curved surface portion may be formed.

Further, the support member 60B may be connected to the injection motor 28. [ In this case, the support member 60B is placed on the slide block 69B and is capable of pivoting about the pivot shaft 40 with respect to the slide block 69B. The support member 60B may be capable of pivoting along the pivot guide provided in the slide block 69B. However, the support member 60B may be fixed to the swivel base that moves along the swivel guide.

The support member 60B has an adjusting mechanism 62B for adjusting the position of the center line of the injection motor 28 relative to the injection frame 30. [ The adjustment mechanism 62B is composed of, for example, a female screw 64B and a male screw 66B screwed to the female screw 64B. The male screw 66B presses the injection motor 28 from below to suppress the deformation of the injection motor 28 due to gravity. The centerline position of the injection motor 28 can be adjusted in the vertical direction by rotating the male screw 66B with respect to the female screw 64B.

Although the embodiments of the injection molding machine have been described above, the present invention is not limited to the embodiments and the like, and various modifications and improvements are possible within the scope of the present invention described in the claims.

For example, the support member of the above embodiment may support the injection motor from below, but it may be supported from above, from the side, or from behind. A plurality of support members for supporting the injection motors from different directions may be used.

The support member of the above embodiment supports the injection motor but may also support the weighing motor. The support member may be applied to an apparatus other than the injection apparatus, and may be applied to, for example, a mold clamping apparatus or an ejector apparatus.

The adjustment mechanism of the above embodiment may adjust the position of the center line of the injection motor relative to the injection frame in the vertical direction, but may be adjusted in the horizontal direction (vertical direction in the drawing).

The adjustment mechanism of the above-described embodiment is composed of a female screw and a male screw but may further include a spring or the like, and the configuration is not particularly limited. For example, the adjustment mechanism may be constituted by an extension cylinder such as a hydraulic cylinder.

The injection apparatus of the above embodiment is an in-line screw system, but may be a pre-plasticizing system. In the injection apparatus of the preplasticating system, molten molding material is supplied to the injection cylinder in the plasticizing cylinder, and the molding material is injected from the injection cylinder into the mold apparatus. In the plasticizing cylinder, a screw is rotatably or rotatably arranged so as to be movable forward and backward, and a plunger is arranged so as to be movable forward and backward in the injection cylinder.

12 base frame
14 Guide
69B slide block
20 Injection device
22 cylinders
24 screw
26 Weighing motor
28 Injection motor
30 Injection Frame
32 front support
34 Rear support
36 Connection Load
38 slide base
40 pivot shaft
42 turning plate
60 Support member
62 Adjustment mechanism
64 female thread
66 male threads

Claims (7)

A motor,
A mounting frame on which the axial end of the motor is mounted in a cantilever manner,
And a support member for supporting the motor so that the mounting frame can pivot about a pivot axis,
The support member supports the motor at a position spaced axially from the mounting frame,
Wherein the motor is detachable from the support member when the mounting frame is swung. The method according to claim 1,
Wherein the support member has an adjusting mechanism for adjusting a centerline position of the motor relative to the mounting frame. The method according to claim 1 or 2,
A base frame,
And a slide base which moves back and forth with respect to the base frame,
Wherein the mounting frame moves forward and backward with the slide base and turns about the pivot shaft with respect to the slide base. delete The method of claim 3,
Wherein the support member is supported by the slide base. The method of claim 3,
Wherein the support member is supported by the base frame. The method of claim 3,
Wherein the motor protrudes rearward from the base frame.

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