JPH04112000A - Die height adjusting device for press machine - Google Patents

Abstract

PURPOSE:To surely hold the die height after adjustment by supplying the oil pressure which locks two pieces of adjusting nuts nonrotatably relative to an adjusting screw shaft and nondisplaceably in an axial direction to a hydraulic chamber formed below the adjusting nuts within a cylinder. CONSTITUTION:The adjusting screw shaft 2 and the adjusting nuts 11, 12 rotate relatively a turning body 10 is turned by rotating the worm screw shaft 9. The adjusting nuts 11, 12 are then mounted nonrotatably to a slide 7 and, therefore, the die height can be adjusted by vertically moving the slide 7. The two adjusting nuts 11, 12 and the adjusting screw shaft 2 are locked nonrotatively relative when the prescribed oil pressure is supplied from an oil pressure supply means 30 to the hydraulic chamber 21 after the die heigh adjustment. Then, the press operation is executed by exactly maintaining the adjusted die height.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to a die-hide adjusting device for a press machine.

Specifically, the present invention relates to a device that adjusts die hide by rotating an adjustment screw shaft to change the position of a slide relative to a connecting rod.

[Prior Art] A connecting rod and a slide of a press machine are connected via a suspension point structure. This suspension point structure can be roughly divided into a ball type and a stop pin type, but it is well known that the ball type is widely adopted because of its advantages such as small size, low cost, and less deflection.

Such a ball suspension point structure is shown in FIG.

In FIG. 2, an adjustment screw shaft 2 is attached to the connecting rod 1 by screwing together screws la and 2a.
A ball 3 is fixed to the lower end of the adjusting screw shaft 2.

On the other hand, a ball cup 5 is incorporated in a slide 7 that is slidably guided by a column or the like so as to be vertically movable. In addition, 7a
is a cylindrical body that is integrated with the slide 7 and houses the worm wheel 8, 7b is a slide component that transmits the vertical movement of the ball 3 to the slide 7, and 6 is a hydraulic chamber forming an overload safety device. It is.

Here, the connecting rod 1 and the slide 7 are connected via a spherical bearing structure, that is, a point structure, formed by the ball 3 and the ball cup 5, so the swinging movement of the connecting rod 1 causes the slide 7 to move in the vertical direction. can be moved in a straight line.

By the way, in a press machine, it is necessary to accurately adjust the distance between the bolster and the slide 7, that is, the die height, depending on the mold used, etc., so the worm wheel 8, which is rotated by a worm screw 9, is attached to the cylindrical body 7a of the slide 7. On the other hand, a pin 4 extending in the radial direction is attached to the ball 3,
A die height adjusting device is provided in which the pin 4 is inserted into the vertical groove 8a of the worm wheel 8 to connect both 38 so as to rotate synchronously.

Therefore, when the worm screw 9 is rotated automatically or manually, the worm wheel 8 is rotated.

This rotation is caused by the ball 3, that is, the adjustment screw shaft 2, via the pin 4.
is transmitted to. Then, the connecting rod 1 (female thread Ia) and the adjustment screw shaft 2 (male thread 2a) rotate relative to each other, so the slide 7 is moved up and down with respect to the connecting rod 1 connected to the crankshaft, and the die-hide Increase/decrease adjustments can be made.

Thereafter, when the crankshaft is rotated, it is oscillated around the connecting rod 1 or the ball 3, thereby making it possible to stroke the slide 7 in the vertical direction and press-molding a predetermined product with the adjusted die height.

[Problems to be Solved by the Invention] However, according to the above conventional structure, it is necessary to attach the drive motor for the worm screw shaft 9 to the slide 7.
The wiring required to have a vibration-proof structure also becomes complicated. Also,
Since the screw (adjusting nut) la of the connecting rod 1 and the adjusting screw shaft 2 (2a) are a combination of one each, they tend to loosen, and there is a risk that the die height may change during press operation.

In order to avoid this, the apparatus must be complicated in that it is necessary to provide the nut 1' and to form a locking hydraulic chamber on the side of the connecting rod 1 that swings.

Furthermore, if sticking occurs, the connecting rod 1 will be put-locked in a vertical position, and in order to pull out the upper die from the lower die, it will be necessary to loosen the tie rod, resulting in the inconvenience of consuming a great deal of labor and time. .

Here, the present invention has an application in which the die bite can be reliably held after the die height is adjusted, and when stickiness occurs, the connecting rod and slide can be separated to enable quick processing, and the drive motor is disposed on the crown side. The purpose of the present invention is to provide a die-hydride adjustment device for press machines with wide flexibility.

[Means for Solving the Problems] The present invention provides a ball formed at the lower end of a connecting rod, a ball cup that slides and guides the ball,
A rotary body that carries this ball cup and has an adjustment screw shaft formed at its lower end, and a crown side that is rotatably connected to the connecting rod and is rotatably driven via a worm wheel. A worm screw shaft is provided, two adjustment nuts are screwed onto the adjustment screw shaft, and are mounted in a cylinder formed on the slide side so as to be non-rotatable and displaceable in the axial direction within a constant stroke; The adjusting nut is configured to include hydraulic pressure supply means for supplying hydraulic pressure for locking the adjusting nut to the adjusting screw shaft so that it cannot rotate relative to the adjusting screw shaft and cannot be displaced in the axial direction to a hydraulic chamber formed below the adjusting nut within the cylinder.

[Function] In the present invention, when the worm screw shaft is rotated to rotate the rotating body, the adjusting screw shaft and the adjusting nut rotate relative to each other. Then, since the adjustment nut is non-rotatably attached to the slide, the die-hide can be adjusted by moving the slide up and down.

When a predetermined hydraulic pressure is supplied from the hydraulic pressure supply means to the hydraulic chamber after the die height adjustment, the two adjusting nuts and the adjusting screw shaft are locked so that they cannot rotate relative to each other. Therefore, by rotating the crankshaft, press operation can be performed while accurately holding the adjustment tie-highs 1 to 1.

If a stick occurs in which the upper mold meshes with the lower mold, the adjusting nut can be displaced within a predetermined stroke by discharging the hydraulic pressure from the hydraulic chamber. In other words, the connection between the connecting rod and the slide is released. Therefore, when the crank shirts 1 to 1 are rotated, the connecting rod can start swinging, so that a tensile force sufficient to pull out the upper die can be generated in the connecting rod.

Therefore, the stick can be quickly and easily removed.

[Example] Hereinafter, one embodiment of the present invention will be described with reference to the drawings.

As shown in FIG. 1, this die-hide adjustment device includes a ball 3 formed at the lower end of a connecting rod 1, a ball cup 5 that forms a suspension point structure together with the ball 3, and a ball cup 5 that supports and supports the ball cup 5. A rotating body 10 having an adjusting screw shaft 2 at its lower end, a worm screw shaft 9 for rotating the rotating body 10 via a worm wheel 8, and two adjusting nuts 11, 12 screwed onto the adjusting screw shaft 2. , a hydraulic pressure supply means 30 for supplying and discharging hydraulic pressure for locking and unlocking the adjusting nut 11, 12 and the adjusting screw shaft 2, and a worm screw shaft 9 and a motor (not shown) as a power source for the shaft 9. (omitted) is arranged on the crown 101 side, and the adjusting screw shaft 2 and the adjusting nut 11.12 are arranged by the hydraulic pressure supply means 30.
It is configured so that the adjusting die-hide can be reliably held and the stick can be removed during press operation.

That is, in FIG. 1, the rotating body 10 is
A is rotatably attached to the connecting rod 1 by engaging the ball 3, and the worm wheel 8.
The worm screw shaft 9 is rotated by a predetermined angle or number of revolutions by a drive mechanism.

The rotating body 10 is provided with a connecting pin 4 that is inserted into the vertical groove 8a of the worm wheel 8. Therefore, if the worm screw shaft 9 is rotated by a motor (not shown) disposed on the crown 101 side, the rotating body 1
0 can be rotated.

Further, 11 is a lower adjustment nut, 12 is an upper adjustment nut, and both 11 and 12 are screwed onto the adjustment screw shaft 2 with a constant clearance CI. These adjustment nuts 1 to ii
, 12 are housed in a cylinder 20 disposed on the slide 7 side, and are non-rotatable and movable in the vertical direction over a constant stroke C by means of rotation stop pins 15 and 16.

These two adjusting nuts11. ．． 12 (more specifically, the upper limit position of the upper adjustment nut 12 is restricted by the abutment between the inner end surface 14 of the cylinder 20 and the upper edge 13 of the adjustment nut 12. Therefore, when the rotating body 10 is rotated, the adjustment screw shaft 2 and the two adjusting nuts 1 provided on the slide 7 side
．． 1, 1.2 are rotated relative to each other, the die height can be adjusted by moving the slide 7 up and down with respect to the connecting rod 1.

Here, if a predetermined hydraulic pressure is applied to the hydraulic chamber 21 provided below the lower adjustment nut 11 in the cylinder 20, the lower adjustment nut 11 is pushed upward, and the upper adjustment nut 1
Since the upper limit position of 2 is restricted by the inner end surface 14, the adjustment screw shaft 2 can be adjusted using the so-called double name method (the nuts 11 and 12 press and lock the adjustment screw shaft 2).
The relative rotation between the adjusting nuts 11 and 12 can be locked so that the relative rotation between the adjusting nuts 11 and 12 cannot be locked.In other words, the adjusted die heights 1 to 1 can be accurately held.

Therefore, when the crankshaft 100 is rotated, the connecting rod 1 swings around the ball 3, and this swinging motion is caused by the rotation of the rotating body 10 (adjusting screw shaft 2, both adjusting nuts 11).
, 12 and cylinder 20), and the slide 7 can be moved in a stroke motion.

If a stick that engages with either the upper die or the lower die occurs during press operation, the connecting rod 1 is in the vertical position as shown in FIG. 1 and becomes locked. Conventionally, the tie rod was loosened while the connecting rod 1 and the slide 7 were still integrated to reduce the apparent jamming load and the connecting rod 1 could be swung by the power of the crankshafts 1 to 100, and the subsequent crankshafts were loosened. The rotational power of the shirts I-100 made it easier to pull out the upper model.

Here, in the present invention, in order to discharge hydraulic pressure from the hydraulic chamber 21, the slide 7 is connected to both adjusting nuts 11 and 12° adjusting screw shaft 2.
It becomes possible to move upwardly across the clearance C. That is, the adjustment nut 11. ．． The connection between the connecting rod 1 and the slide 7 is separated by utilizing the vertical displacement of the connecting rod 12, and the adjustment nuts 11, 1.2 can be relatively moved by a predetermined stroke (C2), so that the stick can be removed without loosening the tie rod.

Next, a hydraulic pressure supply means 30 for supplying and discharging hydraulic pressure to and from the hydraulic chamber 21 is connected through an oil passage 22 bored in the cylinder 20, and supplies hydraulic pressure during press operation, and during die height adjustment and stick separation. It is designed to discharge hydraulic pressure.

Specifically, as shown in FIG. 1, the means 30 includes a regulator 31. Three-way valve 32. It consists of a pressure booster pump 33, a pressure switch 34, and a shutoff valve 35, and the shutoff valve 35 is turned on to release the hydraulic pressure when adjusting the die height and when the stick is removed.

Next, the effect will be explained.

(die height adjustment) The hydraulic pressure is released by the hydraulic pressure supply means 30.

Then, the motor on the crown 101 side rotates the worm screw shaft 9.
When rotated, the rotating body 10, that is, the adjustment screw shaft 2, and the wheel 8. It is rotated via the connecting pin 4.

Then, since the adjustment nuts 11 and 12 are prevented from rotating relative to the cylinder 20, that is, the slide 7, the slide 7 can be moved up and down relative to the connecting rod 1 (that is, the bolster).

Therefore, by rotating the worm wheel 8 by a predetermined angle, the slide 7 can be moved up and down by a predetermined height.
Can be adjusted to the specified diehide.

(Press operation) First, when hydraulic pressure is supplied from the hydraulic pressure supply means 30 into the hydraulic chamber 21, the adjusting nut 11 is urged upward, and the upper adjusting nut 12 is urged upward via the adjusting screw shaft 2. At the same time, the upper limit position is restricted to the inner end surface 14 of the cylinder 20. Adjustment screw shaft 2 due to frictional force of each threaded part
Relative rotation of both adjusting nuts 11 and 12 is disabled, and the adjusting die-hide can be held accurately.

After that, the crank shirt l-100 is rotated.
, the slide 7 can be vertically stroked through the integral adjusting screw shaft 2, both adjusting nuts 11, 12 and the cylinder 20 by being oscillated around the connecting rod 1 or the pole 3; Press operation with adjustable die height is possible.

(Stick detachment process) If a stick gets caught in the upper or lower die near the slide bottom dead center position due to various circumstances, at least the shaft off valve 35 is operated to the oil drain side and the hydraulic chamber 21
Discharge the hydraulic pressure inside.

Then, both adjustment nuts 11, 12 . The cylinder 20, that is, the slide 7 moves with respect to the adjustment screw shaft 2 at a predetermined stroke (
C2) It becomes possible to move upward within the range.

Therefore, when the crankshaft 100 is rotated, the rotating body 10 can move up and down, so the connecting rod 1 can start swinging without any load, and the chit-lock state can be eliminated.

According to this embodiment, the rotating body 10 having the adjusting screw shaft 2 is rotatably connected to the ball 3 of the connecting rod 1, and is threaded 8 fL with the adjusting screw shaft 2 and is not rotatable within the cylinder 20. Since the two adjustment nuts 11 and 12 that can be vertically displaced are provided, and the hydraulic pressure supply means 30 is provided to bias the adjustment nuts 11 to lock and unlock them, the die height after adjustment can be reliably maintained.
At the same time, the stick detachment process can be performed quickly and easily.

In addition, since the motor for rotating the adjustment screw shaft 2 and the worm screw shaft 9 are provided on the crown 101 side,
This eliminates the need for anti-vibration measures for the conventional device in which a motor is disposed on the slide 7 that undergoes stroke motion, and also simplifies wiring.

Further, there are two adjusting nuts (11, 12), and the structure is such that the slides are locked by applying a predetermined hydraulic pressure to the hydraulic chambers 21 in the cylinders 20 of the seven slides, so that they can be automatically locked after the die-hide adjustment.

[Effects of the Invention] As described above, according to the present invention, a rotating body having an adjusting screw shaft can be rotated by a motor attached to the crown side, and the locking of the adjusting screw shaft is a hydraulically operated double-nullato method. Since the two adjustment nuts are screwed onto the adjustment screw shaft and can be moved up and down with respect to the slide, but are not rotatable, it is possible to reliably hold the adjusted tie-high 1~.
The stick can be removed quickly and easily, and the structure is simple and has wide applicability, such as eliminating the need for anti-vibration measures for the motor.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing one embodiment of the present invention, and FIG. 2 is a sectional view of a conventional example. DESCRIPTION OF SYMBOLS 1... Connecting rod, 2... Adjustment screw shaft, 3... Ball, 4... Connecting pin, 5... Pole cup, 7... Slide, 8... Worm wheel, 9... ...Worm screw shaft, 10...Rotating body, ■...Lower adjustment nut)~, 2...Upper adjustment nut, 5.16...Rotation stop pin, 0...Cylinder, ■... - Hydraulic chamber, 0...Hydraulic pressure supply means, 00...Crankshaft, 01...Crown.

Claims (1)

[Claims] (1) A ball formed at the lower end of the connecting rod, a ball cup that slides and guides the ball, a rotating body that supports the ball cup and has an adjustment screw shaft formed at the lower end, and the connecting rod. A worm screw shaft provided on the crown side for rotationally driving the rotatably connected rotating body via a worm wheel, and a cylinder formed on the slide side that is threaded onto the adjustment screw shaft. Two adjustment nuts are attached to the adjustment screw shaft so that they cannot rotate and can be displaced in the axial direction within a certain stroke, and hydraulic pressure is applied within the cylinder to lock the two adjustment nuts so that they cannot rotate relative to the adjustment screw shaft and cannot be displaced in the axial direction. Hydraulic pressure supply means for supplying a hydraulic pressure chamber formed below the adjustment nut;
Die height adjustment device for press machines.