JP2989116B2 - Method and apparatus for driving half-nut of mold clamping device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for driving a half-nut of a mold clamping device, particularly a direct pressure type (ie, not a toggle type).

[0002]

2. Description of the Related Art As a conventional half-nut driving device of a direct pressure type mold clamping device, there is one as shown in FIG. The half nut driving device of this mold clamping device is provided with a pair of half nuts for each one of the four tie bars, and a driving cylinder for driving one (driven side) half nut is provided. I have. Therefore, four drive cylinders are required for the entire apparatus. By driving the piston of each drive cylinder in the half nut engagement direction (upward in the upper drive cylinder in the figure, and downward in the lower drive cylinder in the figure) or in the opposite half nut release direction, Half nuts connected to the pistons engage with the corresponding tie bars.
It is possible to withdraw.

[0003]

However, in the conventional half-nut driving device of the mold clamping device as described above, the number of driving cylinders for driving the half nut is required to be the same as the number of tie bars. In addition to the high number of pipes and the number of pipes, there is a problem that not only the price of the device is increased, but also the size of the device is increased. An object of the present invention is to solve such a problem.

[0004]

According to the present invention, one half nut of two pairs of adjacent half nuts is integrally connected by a connecting member, and these are driven by one drive cylinder. Solve the problem. That is, in the method for driving a half nut of a mold clamping device according to claim 1 of the present invention, the movable platen is fixed to an arbitrary position in the tie bar axial direction by engaging or disengaging the tie bar and the half nut of the mold clamping device. Of the two pairs of half nuts that respectively engage or disengage with two tie bars adjacent to each other in the left-right direction or the up-down direction when making them movable, each pair of half nuts located at the same arrangement position side with respect to each tie bar Of the two sets of half nuts, one half nut is connected to the cylinder body of the drive cylinder, and the other half nut is connected to the piston rod of the drive cylinder. ,
By actuating the drive cylinder, one half-nut and the other half-nut are relatively close to or separated from each other to engage or disengage the tie bar and the half-nut. And An apparatus according to claim 2, which performs the above method, comprises two pairs of half nuts (14a and 14b, 16a and 16b) for two tie bars (10, 12) adjacent in the horizontal direction or the vertical direction. Among them, each pair of half nuts (14a and 16a) on the same arrangement position side with respect to the tie bars (10, 12)
a, 14b, and 16b) are integrally provided, respectively, and a connecting member (18a, 18b) is provided. The drive cylinder (20) is provided for each of two pairs of half nuts (14a, 14b, 16a, and 16b). , Only one is provided between the two half nuts (14a, 16b) located inside, and the cylinder body (20a) of this is provided with two sets of half nuts (14a and 16a, 14b and 16b). One of the sets of half nuts (14a and 16a) is connected to the other set of half nuts (14b and 16a).
b). further,
The device according to claim 3 is formed on a tie bar (10).
Drive a pair of half nuts (14a and 14b)
To engage or disengage with the dynamic cylinder (21)
The movable platen at an arbitrary position in the tie bar axis direction.
In a mold clamping device that can move,
Of two tie bars (10, 12) vertically adjacent to each other
Pairs of half nuts (14a and 14b, 16a
And 16b) for the tie bars (10, 12)
Each pair of half nuts (14a and 16a) on the same arrangement position side
a, 14b and 16b) are integrally connected to each other
A connecting member is provided, and the drive cylinder (21)
Is a tandem type having one piston rod (21b) and the other piston rod (21d), and the connecting member connects the one set of half nuts (14a, 16a) to each other. Connecting rods (2
3a, 23b) and the other set of half nuts (14
b, 16b) and a plurality of connecting rods (19a, 19b) having one end connected to one half nut (14b).
And a connecting plate (22) to which the other ends of the plurality of connecting rods (19a, 19b) are connected and the other piston rod (21d) of the drive cylinder (21) is connected. It is characterized by:

[0005]

One half nut of two pairs of adjacent half nuts is driven by one drive cylinder via a connecting member. Therefore, all the half nuts are driven by a smaller number (half number) of drive cylinders than in the past.

[0006]

【Example】

(First Embodiment) FIG. 1 shows a first embodiment of the present invention. This is a view in which the mold clamping device is viewed from the rear of the movable platen (left side in FIG. 3), and shows the vicinity of two pairs of half nuts on one of the upper side and the lower side of the mold clamping unit. Things. Two tie bars 10 and 12 having an axis perpendicular to the plane of the drawing are arranged on both left and right sides in the figure. These tie bars 1
A threaded portion is formed at the shaft end of each of the half nuts 0 and 12 so as to be able to engage with the male threaded portion.
4a and 14b, 16a and 16b are arranged.
The right half half nuts 14a and 16a located on the right side in the figure with respect to the tie bars 10 and 12, respectively, are integrally connected by a lower connecting rod (connection member) 18a in the figure. Half nut 14 in the left half located at the left position in the figure with respect to FIGS.
b and 16b are integrally connected by a connecting rod 18b on the upper side in the figure. The lower connecting rod 18a penetrates the right-half left half nut 16b, and the upper connecting rod 18b similarly penetrates the right-half half nut 14a. The cylinder body 20a of the drive cylinder 20 is fixed to the lower connecting rod 18a at a position slightly to the left of the intermediate point thereof in the drawing. The piston rod 20b of the drive cylinder 20 is connected to the half nut 16b on the right and left half.
Is linked to That is, the two sets of the half nuts (one set of the half nuts 14a and 16a and the other set of the half nuts 14b and 16b) are configured to relatively approach or separate from each other.
Thus, by supplying the pressure fluid to the engagement side pressure chamber A on the piston head side of the drive cylinder 20, the half nuts 14a and 14b engage with the tie bar 10 on the left side in the drawing, and the half nuts 16a and 16b It is designed to engage with the tie bar 12 on the right side in the figure. Further, by supplying a pressure fluid from the engaged state to the detachment side pressure chamber B on the piston rod 20b side of the drive cylinder 20, the half nuts 14a and 14b are detached from the tie bar 10 on the left side in the drawing, and the half nut 16a And 16b are detached from the tie bar 12 on the right side in the figure. FIG. 1 shows each half nut 1
4a, 14b, 16a, and 16b are shown detached from the tie bars 10 and 12 (the half nuts 14a, 14b, 16a, and 16b are not separated further by stoppers not shown). , The separation position is regulated). Also, as a whole mold clamping device,
A combination similar to that shown in FIG. 1 is arranged at a predetermined interval on the upper side (or lower side) in the figure.

Next, the operation of the first embodiment will be described.
A pressure fluid from a pressure source (not shown)
When the piston 2 is supplied to the engagement side pressure chamber A, the piston 2
0c is pushed rightward in the figure, and the piston rod 20b, the right-half left half nut 16b, the upper connecting rod 18b, and the left-half half nut 14b move rightward in the figure in an integrated state, The cylinder body 20a, the lower connecting rod 18a, the left-hand right half half nut 14a, and the right-hand right half half nut 16a move integrally to the left in the drawing, thereby forming a pair of left half in the drawing. Nut 14
a and 14b are engaged with the tie bar 10 on the left side in the figure, and a pair of half nuts 16a and 16b on the right side are engaged with the tie bar 12 on the right side in the figure. Similarly, another two pairs of half nuts, not shown, will be engaged with their respective tie bars. In addition, by supplying the pressure fluid to the disengagement side pressure chamber B of the drive cylinder 20 from the engaged state, the pair of half nuts 14a and 14b on the left side in the figure are disengaged from the tie bar 10 on the left side in the figure, A pair of half nuts 16a and 16b on the right side in the figure are detached from the tie bar 12 on the right side in the figure, and another two pairs of half nuts (not shown) are also detached from the corresponding tie bars.

(Second Embodiment) FIG. 2 shows a second embodiment of the present invention. The difference of the second embodiment from the first embodiment is that, instead of the ordinary single rod drive cylinder 20,
A tandem drive cylinder 21 is provided, and instead of connecting rods 18a, 18b, connecting rods 19a, 19b, 23a, 23b are provided for every two pairs of half nuts, and a new connecting plate 22 is provided. It is. One ends (right ends in the figure) of connecting rods 19a and 19b are connected to the connecting plate 22, and the left and right half nuts 14a are passed through the connecting rods 19a and 19b, respectively. (The left end in the figure) is connected to the left half half nut 14b. Also, the connecting rod 23a
And 23b are the half nuts 16 on the right and left halves, respectively.
b and the connecting plate 22, one end (right end in the figure) is connected to the right-half half nut 16 a, and the other end (left end in the figure) is the left-right half nut 14 a. Is linked to Tandem drive cylinder 2
The first cylinder body 21a is fixed to a substantially middle position between the connecting rods 23a and 23b, and the right (one) piston rod 21b in the figure is
b and the left (other) piston rod 21d in the figure is connected to the connection plate 22. Also in the second embodiment, as the mold clamping device, the same combination as that shown in FIG. 2 is provided at a predetermined interval above (or below) the drawing. .

The operation of the second embodiment will be described. When a pressure fluid from a pressure source (not shown) is supplied to the engagement-side pressure chamber A of the drive cylinder 21, the piston 21c is pushed rightward in the drawing, and one of the piston rods 21b, the right-hand left half Half nut 16b, the other piston rod 2
1d, connecting plate 22, upper and lower left connecting bars 19a, 19 in the figure
b and the left-half half nut 14b move to the right in the figure in an integrated state, while the cylinder body 21a, the upper and lower right connecting rods 23a and 23b in the figure, the right-half half nut 16a, and Half nut 14a on left and right half
Are moved to the left side in the figure in an integrated state, whereby the pair of half nuts 14a and 14b on the left side in the figure engage with the tie bar 10 on the left side in the figure, and the pair of half nuts 16a and 16b on the right side in the figure It is engaged with the tie bar 12 on the middle right side. Similarly, another two pairs of half nuts, not shown, will be engaged with their respective tie bars. In addition, by supplying a pressure fluid to the disengagement side pressure chamber B of the drive cylinder 21 from the engaged state, the pair of half nuts 14a and 14b on the left side in the figure is disengaged from the tie bar 10 on the left side in the figure. The middle right pair of half nuts 16a and 16b are detached from the right tie bar 12 in the drawing, and another two pairs of half nuts (not shown) are also detached from the corresponding tie bars. In the configuration of the second embodiment, the number of connecting rods is larger than that of the first embodiment, and the movement of the half nut can be guided more reliably. The effect unique to the second embodiment, that is, prevention can be obtained.

In each of the above embodiments, each pair of half nuts on the left and right sides in each figure is driven by one drive cylinder. However, each pair of half nuts in the vertical direction is driven by one drive cylinder. It can also be done.

[0011]

As described above, according to the present invention, a total of four pairs of half nuts of the mold clamping device can be driven by two driving cylinders, respectively.
The number of drive cylinders and pipes can be respectively reduced by half compared with the conventional case, and the cost of the device can be reduced.
Further, the device can be downsized. Claim 3
In the case of such a configuration, the malfunction of the half nut can be prevented more reliably.

[Brief description of the drawings]

FIG. 1 is a diagram showing a half nut driving device of a mold clamping device according to a first embodiment of the present invention.

FIG. 2 is a view showing a half nut driving device of a mold clamping device according to a second embodiment of the present invention.

FIG. 3 is a diagram showing a conventional half nut driving device together with a mold clamping device and the like.

[Explanation of symbols]

10, 12 Tie bar 14a, 14b, 16a, 16b Half nut 18a, 18b, 19a, 19b, 23a, 23b Connecting rod (connecting member) 20, 21, Drive cylinder 20a, 21a Cylinder body 20b, 21b, 21d Piston rod 22 Connecting plate A engagement side pressure chamber B disengagement side pressure chamber

Claims (3)

(57) [Claims] When a movable platen is fixed or movable at an arbitrary position in a tie bar axial direction by engaging or disengaging a tie bar and a half nut of a mold clamping device,
Of the two pairs of half nuts that engage or disengage with two tie bars adjacent to each other in the left-right direction or the up-down direction, respectively, each pair of half nuts that are located at the same arrangement position side with respect to each tie bar are integrally connected to each other. Then, of the two sets of half nuts, one set of half nuts is connected to the cylinder body of the drive cylinder, and the other set of half nuts is connected to the piston rod of the drive cylinder to operate the drive cylinder. The mold clamping device, characterized in that the half nut of one set and the half nut of the other set are relatively approached or separated from each other to engage or disengage the tie bar and the half nut. Half-nut driving method. 2. A movable platen is moved to an arbitrary position in the tie bar axial direction by engaging or disengaging a pair of half nuts (14a and 14b) with a male screw portion formed on the tie bar (10) with a drive cylinder (20). In a mold clamping device that can be fixed or movable, two tie bars (1
0, 12) for two pairs of half nuts (14a and 1)
4b, 16a and 16b), tie bars (10, 1
2) Each pair of half nuts (1
4a and 16a, 14b and 16b) are provided with connecting members (18a and 18b) for integrally connecting each other. The drive cylinder (20) is provided with two pairs of half nuts (1).
4a and 14b, 16a and 16b), only one is provided between the two half nuts (14a and 16b) located inward, and the cylinder body (20a) of which is provided with the half nuts (14a and 16a, 16a, 16b). 14b and 16b)
The half nut (14) of one of the two sets
a and 16a), and the piston rod (20b) thereof is connected to the other set of half nuts (14b and 16b). 3. An external thread formed on a tie bar (10).
Drive a pair of half nuts (14a and 14b)
Can be engaged or disengaged with the
The moving platen can be fixed or movable at any position in the tie bar axis direction.
In the mold clamping device, two tie bars (1
0, 12) for two pairs of half nuts (14a and 1)
4b, 16a and 16b), tie bars (10, 1
2) Each pair of half nuts (1
4a and 16a, 14b and 16b)
A connection member for connecting to the body is provided, and the drive cylinder (21) is a tandem type having one piston rod (21b) and the other piston rod (21d); The connecting member is the one set of half nuts (14
a, 16a) and a plurality of connecting rods (23a, 2a,
3b) and the other set of half nuts (14b, 16
b) a plurality of connecting rods (19a, 19b), one end of which is connected to one half nut (14b), and the other end of the plurality of connecting rods (19a, 19b) are connected and driven. The other piston rod (2) of the cylinder (21)
1d) and a connecting plate (22) to which the half-nut driving device is connected.