JPH08174297A - Die height adjusting device of press - Google Patents

Abstract

PURPOSE: To provide a die height adjusting device of a press which adjusts a die height easily and press-forms precisely. CONSTITUTION: In the press in which a die height adjusting device A is installed on a point part of a slide being moved freely up and down with a slide driving mechanism, nuts 10, 11 being divided to upper and lower parts, and being screwed to a screw shaft 2a of a plunger 2, and a worm wheel 8 rotating as one body with these nuts 10, 11 are installed inside a cylinder block 6 installed on the point part of the slide 5, and hydraulic pressing means are installed on the upper part and lower part of the cylinder block 6. By clamping and attaching the nuts 10, 11 from the upper and lower directions, the nuts 10, 11 are locked at the die height adjusting position. By releasing the hydraulic pressing means and rotating the worm wheel 8, the adjustment of the die height is executed easily, because the clearance inside the point is eliminated by locking the nuts 10, 11 from the upper and lower direction with the hydraulic pressing means after adjusting, highly precise press forming can be executed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a die height adjusting device for a press machine.

[0002]

2. Description of the Related Art As a die height adjusting device for a conventional press machine, for example, Japanese Utility Model Publication No. 3-24318 and Japanese Unexamined Patent Publication No. Hei.
The thing described in -112000 gazette is known.
The former die height adjusting device adjusts the die height by rotating the screw nut screwed to the connection rod with the worm and moving the position of the screw nut with respect to the connection rod, and at the same time, the hydraulic pressure for fixing the screw nut. A lock mechanism and a cylinder device that constantly gives a weak torque to the screw nut are provided, and the die height can be finely adjusted by adjusting the pressure in the oil chamber of the lock mechanism and finely moving the screw nut. Is configured. In the latter die height adjusting device, the adjusting screw shaft of the rotating body connected to the lower end of the connecting rod is screwed with two adjusting nuts that are non-rotatably provided on the slide side, and the adjusting nut is hydraulically upper limit. It is designed so that it can be restrained in position, and the adjustment die height can be held accurately.

[0003]

However, in the former die height adjusting device, when a so-called stick occurs in which the upper die is caught in the lower die and cannot be detached near the slide bottom dead center position during the press operation, the stick detaching mechanism is used. Since it does not have it, there was a problem that it took a lot of time to separate the upper mold and the lower mold. In addition, the latter die height adjusting device does not have the problem of the former because it has a stick detaching function, but since it has a structure that locks two adjusting nuts, it does not vibrate due to the gap created between the connecting rod and the rotating body. In addition to noise and noise, the axial length of the press is long, which increases the breathing volume of the press body, which adversely affects the molding accuracy. The present invention has been made to solve such a problem, and provides a die height adjusting device for a press machine that enables easy and accurate die height adjustment, and that enables high-precision molding by eliminating a gap inside a point. That is the purpose.

[0004]

In order to achieve the above object, the present invention provides a press machine in which a die height adjusting device is provided at a point portion of a slide which can be moved up and down by a slide drive mechanism. A nut that is vertically divided and screwed into the screw shaft of the plunger and a worm wheel that rotates integrally with these nuts are provided in the cylinder block, and hydraulic means is provided above and below the cylinder block. hand,
The screw shaft is locked at the die height adjusting position by sandwiching the nut from above and below by these hydraulic pressurizing means.

[0005]

[Operation] With the above configuration, it is possible to eliminate the gap between the nut and the screw shaft or inside the point, so that the molding accuracy is improved. In addition, since the axial length can be shortened, the amount of breathing that occurs during press molding can be reduced, and a stick condition that makes it difficult for the upper mold to bite into the lower mold during molding and to be removed occurs. Also, the stick state can be avoided by operating the slide drive mechanism in a state where the lower pressurizing means is drained of oil to allow the slide to move upward.

[0006]

Embodiment An embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a cross-sectional view showing a die height adjusting device provided at a point portion of a press machine, and FIG. 2 is XX of FIG.
Sectional drawing which follows the line, FIG. 3 is a circuit diagram. In these figures, 1 is a press main body, 2 is a plunger supported in a bush 3 fixed to the upper part of the press main body 1 so as to be vertically slidable, and the lower end of a connecting rod 24 provided in a slide drive mechanism (not shown) at the upper end. Are connected via pin 4. Reference numeral 5 is a slide that is vertically movable, and a cylinder block 6 of the die height adjusting device A is fixed to a point portion of the slide 5 by a fixing tool 7.

The cylinder block 6 is divided into upper and lower parts by a dividing line 6a, and a gear chamber 6b is provided inside. A worm wheel 8 is rotatably supported in the gear chamber 6b. A worm 9 rotated by a die height adjusting motor (not shown) is meshed with the worm wheel 8, and a pair of upper and lower nuts 10 and 11 are housed in the central portion of the worm wheel 8 in two stages. These nuts 10 and 11 are connected to the pin 12 and rotate integrally, and the lower nut 11 is engaged with the worm wheel 8 by the key 13, so that the nuts 10 and 11 and the worm wheel 8 are integrated. It is designed to rotate and each nut 10, 11
A screw shaft 2a formed on the lower end side of the plunger 2 is screwed from above.

On the other hand, in the cylinder block 6, an annular first cylinder 6c is formed above the worm wheel 8 and the upper nut 10, and a second cylinder 6d is formed below the worm wheel 8 and the lower nut 11. Has been done. A first piston 16 whose rotation is locked by a pin 15 is accommodated in the upper first cylinder 6c, and is supplied from the low-pressure pump 17 into the first cylinder 6c via a pipe line 18 and a throttle valve 22. The hydraulic pressure causes the first piston 16
Is pressed against the nut 10.

A second piston 19 is accommodated in the lower second cylinder 6d and is supplied from the high pressure pump 17 'through a pipe line 20, for example, 110 to 140 kg /.
The second piston 19 is pressed against the lower surface of the nut 10 by the preload hydraulic pressure of cm ² , and is pressed against the lower surface via the annular pressing ring 23, and the overload protector valve 21 is connected in the middle of the pipe 20. Has been done. It should be noted that 10a and 11a in FIG. 1 are oil holes provided so as to penetrate the nuts 10 and 11 in the vertical direction. The worm wheel 8 is rotatably supported with a slight gap between the cylinder block 6 and the pressing ring 23, but this slight gap is not affected by the gap of the connecting portion of the press vertical drive unit. .

Next, the operation of the die height adjusting device constructed as described above will be explained. In adjusting the die height amount as the die is replaced, first, the hydraulic pressure in the cylinder 6c is released to rotate the nuts 10 and 11 respectively. When the worm wheel 8 is rotated by the worm 9 in the free state, the nuts 10 and 11 in the worm wheel 8 also rotate and the screw shaft 2 is rotated.
Since it moves in the vertical direction of a, the die height of the slide 5 can be freely adjusted. Next, when the die height adjustment is completed, the low pressure pump 17 supplies a low pressure of, for example, 35 Kg / cm ² into the first cylinder 6c as a preload pressure. As a result, the upper and lower nuts 10 and 11 are first,
It is sandwiched and fixed between the second pistons 16 and 19 and the pressing ring 23, and the screw shaft 2a and the ats 10 and 1
1 backlash and cylinder block 6
The gap between the nut and the nuts 10 and 11 is eliminated, and the die height can be adjusted accurately.

If an excessive load acts on the slide 5 during the press work, the hydraulic pressure in the second cylinder 6d rises,
When this hydraulic pressure exceeds a preset hydraulic pressure, the overload protector valve 21 is opened and the hydraulic pressure in the second cylinder 6d is released, so that the slide drive mechanism and the mold are prevented from being damaged by the overload. can do. Further, during the pressing operation, when the upper die is caught in the lower die near the bottom dead center of the slide 5 and a sticking state occurs in which the upper die becomes difficult to separate, the overload protector valve 21 is opened to open the second cylinder 6d. Remove the hydraulic pressure inside. As a result, the slide 5 can be displaced upward by a certain stroke, so that by rotating the crankshaft (not shown) in this state, the deadlock state can be escaped.

On the other hand, when punching or the like, when the slide 5 starts descending from the top dead center, the hydraulic pressure in the first cylinder 6c to which the preload is applied is constant as shown in FIG. The hydraulic pressure in the second cylinder rises as shown in FIG. 4B when the punching is started. When the punching of the work is completed near the bottom dead center, the hydraulic pressure in the second cylinder 6d decreases, but the hydraulic pressure in the first cylinder 6c rapidly increases due to the breakthrough that occurs during the punching. Then, this hydraulic pressure is attenuated by the throttle 22a of the throttle valve 22 connected to the pipe line 18 which supplies the hydraulic pressure to the first cylinder 6c, whereby the impact due to breakthrough can be alleviated.

FIG. 5 shows another embodiment,
In this embodiment, a retainer 25 is provided below the cylinder block 6 to lock the nuts 10 and 11 between the first piston 16 and the second piston 19, and such a structure is adopted. However, the same function as in the above embodiment can be obtained. The same parts as those in the above embodiment are designated by the same reference numerals, and the description thereof will be omitted.

[0014]

As described above in detail, the present invention is provided in the cylinder block provided at the point portion of the slide.
A nut that is divided into upper and lower parts and that is screwed into the screw shaft of the plunger, and a worm wheel that rotates integrally with these nuts are provided, and hydraulic pressurizing means are provided at the upper and lower parts of the cylinder block to apply these pressures. Since the nut is locked in the die height adjustment position by sandwiching the nut from above and below by means of a means, the axial length is longer than that of the conventional screw shaft provided with the adjustment nut below the screw shaft. Since it can be shortened, the breathing volume during molding can be reduced, and since the gap between each nut and the screw shaft and the gap inside the point are eliminated by clamping and locking from the top and bottom direction, highly accurate molding Will be possible.

When a stick condition occurs in which the upper mold bites into the lower mold near the slide bottom dead center during molding and it is difficult to remove the upper mold, the stick condition can be avoided by releasing the hydraulic pressure of the second cylinder. At the same time, even if an excessive load is generated during molding, the overload protector valve connected to the second cylinder releases the pressure in the second cylinder to avoid an excessive load, so the mold and press itself are damaged by the excessive load. It can be prevented from being done. Furthermore, even if breakthrough occurs in punching, etc., the throttle valve connected to the first cylinder side attenuates this,
It is also possible to significantly reduce the shock and vibration caused by breakthrough.

[Brief description of drawings]

FIG. 1 is a sectional view showing a die height adjusting device of a press machine according to an embodiment of the present invention.

FIG. 2 is a sectional view taken along line XX of FIG.

FIG. 3 is a circuit diagram of a hydraulic circuit provided in a die height adjusting device of a press machine according to an embodiment of the present invention.

FIG. 4 is an operation explanatory view of the die height adjusting device of the press machine according to the embodiment of the present invention.

FIG. 5 is a sectional view showing a die height adjusting device of a press machine according to another embodiment of the present invention.

[Explanation of symbols]

 2 ... Plunger 2a ... Screw shaft 5 ... Slide 6 ... Cylinder block 8 ... Worm wheel 10, 11 ... Nut 21 ... Overload protector valve.

Claims (3)

[Claims] 1. In a press machine in which a die height adjusting device A is provided at a point portion of a slide 5 which can be moved up and down by a slide drive mechanism, a cylinder block 6 provided at the point portion of the slide 5 is vertically divided. In addition, the nuts 10 and 11 screwed onto the screw shaft 2a of the plunger 2 and the worm wheel 8 that rotates integrally with the nuts 10 and 11 are provided, and hydraulic pressurizing means is provided on the upper and lower portions of the cylinder block 6. A die height adjusting device for a press machine, characterized in that the screw shaft 3a is locked at a die height adjusting position by sandwiching the nuts 10 and 11 from above and below by the hydraulic pressurizing means. 2. The die height adjusting device for a press machine according to claim 1, wherein the lower hydraulic pressure applying means is provided with an overload protector valve 21 for avoiding an overload occurring during molding. 3. The die height adjusting device for a press machine according to claim 1, wherein the upper pressing means is provided with breakthrough mitigating means for damping breakthrough generated during molding.