JPH0353827Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a slide stroke variable device in a press machine.

(Prior Art) The stroke of a slide is the distance of movement of the slide from the top dead center position to the bottom dead center position, and this determines the maximum height or maximum length of the product that can be processed. That is, the maximum drawing depth is determined in the drawing process, the maximum height of the container is determined in the edge cutting process, and the maximum length of the product is determined in the backward extrusion process.

Some crankshafts have been developed to have variable strokes, and a conventional example is listed in "Press Handbook, Maruzen Co., Ltd., Figure 3, 26 Crankshaft Types W, X, Y, Z" on pages 261 and 262. There are several known types of strokes, all of which utilize double eccentricity and change the stroke stepwise between the sum and difference of both eccentricities.

And the type W of the crankshaft according to the above document,
Crank type X is a type in which the outer eccentric is adjusted and then fixed using a circular key, and crank types Y and Z are fixed by radial engagement.

The above structure is convenient because the stroke of the slide can be changed in stages, but there is a problem in that the stroke adjustment method is time-consuming and the stroke cannot be changed or adjusted quickly.

(Problem to be solved by the invention) The problem to be solved by the invention is to incorporate an eccentric sheave into the crankshaft, and by connecting and releasing the crankshaft and the eccentric sheave, two strokes can be selected, long and short. An object of the present invention is to provide a slide stroke variable device.

(Means for solving the problem) The means for solving the problem in this invention are as follows:
An eccentric shaft formed on the crankshaft, a connecting rod attached to the outer periphery of the eccentric shaft via an eccentric sheave, the eccentric sheave is eccentrically downward at the bottom dead center position of the crankshaft, and in this state, the eccentric A main cylinder that penetrates the sheave and is provided so that its upper part reaches the eccentric shaft and its lower part reaches the connecting rod, a lock pin housed in the main cylinder, and when the lock pin reaches the lower limit position, the eccentric sheave and the an upper piston housed above the lock pin in the main cylinder to connect the eccentric shaft; and a lock pin in the main cylinder to connect the eccentric sheave and the connecting rod when the lock pin reaches its lower limit position. It is characterized by comprising a lower piston housed in the lower part of the cylinder, and a hydraulic passage connected to the main cylinder for sliding the upper piston and the lower piston.

(Example) An eccentric shaft 2 is formed on the crankshaft 1,
An eccentric sheave 3 is rotatably mounted on the outer periphery of the eccentric shaft 2. A connecting rod 4 is rotatably attached to the outer circumference of the eccentric sheave 3, and the center of the hole diameter of the connecting rod 4 is the same as the center of the outer diameter of the eccentric sheave 3. At the same time, each member is arranged so that the eccentric sheave 3 is unfavorably eccentric when the crankshaft 1 is at the bottom dead center.

In the assembled state as described above, a main cylinder 5 is provided which passes through the eccentric sheave 3 from the lower part of the eccentric shaft 2 to the upper part of the connecting rod 4, and a lock pin 6 is slidably housed in the main cylinder 5. ing. Further, an upper piston 7 is disposed in the main cylinder 5 above the lock pin 6.
Further, lower pistons 8 are housed below in a connected state.

When the lock pin 6 is pushed up by the lower piston 8 and reaches its upper limit, the lock pin 6 is pushed up by the eccentric shaft 2.
and the eccentric sheave 3 (as shown), and when the upper piston 7 pushes down and reaches the lower limit position, the eccentric sheave 3 and the connecting rod 4 are connected.

In order to drive the upper piston 7, an auxiliary cylinder 9 having a diameter smaller than that of the main cylinder 5 in the extending direction of the main cylinder 5 is provided at the upper end portion of the eccentric shaft 2 and the eccentric sheave 3. It communicates with the cylinder 9 through a through hole 10. Further, an auxiliary piston 11 is housed in the auxiliary cylinder 9, and an upper piston 7
and the auxiliary piston 11 are connected by a connecting rod 12 inserted into the through hole 10. In addition, a hydraulic passage 13 opened at the shaft end of the crankshaft 1 is provided toward the through hole 10, and pressure oil is supplied from the hydraulic passage 13 to the main cylinder 5 and the auxiliary cylinder 11.

On the other hand, for the lower piston 8, the main cylinder 5 in which the lower piston 8 is accommodated is
A stopper 14 is provided at the opening at the lower end of the piston, and the upper end of a connecting rod 15 that passes through the stopper 14 is connected to the lower piston 8. Further, the main cylinder 5 is provided with a hydraulic passage 16 passing through the connecting rod 4, and pressure oil is supplied from the hydraulic passage 16 to the main cylinder 5.

In addition, the crankshaft 1 is mounted on a housing 20 via a bearing body 21. Further, the lower end of the connecting rod 4 is formed into a sleeve 41 having an internal thread.
A connecting screw 42 is screwed to the connecting screw 1.
A sphere 43 formed at the tip of the press is connected to a press slide (not shown).

Next, the operation will be explained. The illustrated state is
At the bottom dead center of the press, the lock pin 6 has reached its upper limit, and the eccentric shaft 2 and the eccentric sheave 3 are fixed by the lock pin 6. That is,
The eccentric sheave 3 becomes a part of the eccentric shaft 2 and rotates together with the crankshaft 1.

At this time, the center of the crankshaft is O ₀ , the center of the eccentric pin is O ₂ , the stroke length is (O ₀ -O ₂ )×2, and the slide stroke is a long stroke.

Next, the press is stopped at the bottom dead center, and the hydraulic passage 13
When pressure oil is supplied to the main cylinder 5 from the main cylinder 5 to lower the upper piston 7 and move the lock pin 6 downward, the upper part of the lock pin 6 is removed from the eccentric shaft 2 and the lower part enters the connecting rod 4. . Therefore, the eccentric sheave 3 and the connecting rod 4 are fixed by the lock pin 6, the eccentric sheave 3 becomes a part of the connecting rod 4, and the hole in the eccentric sheave 3 and the outer diameter of the eccentric shaft 2 are free. Rotate to .

At this time, the center of the crankshaft is O ₀ , the center of the eccentric pin is O ₁ , the stroke length is (O ₀ -O ₁ )×2, and the stroke of the slide is a short stroke. That is, the stroke in this case is the stroke of the eccentric shaft 2 itself.

In this way, the press slide is driven by a connecting rod that has two strokes, long and short, so the slide stroke is limited to two types, long and short, but it does not rotate the crankshaft or eccentric sheave. The stroke can be switched and adjusted.

(Effects of the invention) The invention interposes an eccentric sheave between the eccentric shaft formed on the crankshaft and the connecting rod,
It has the effect of being able to switch and adjust the slide stroke into two strokes, long and short, by selecting whether the eccentric sheave is to be a part of the eccentric shaft or a part of the connecting rod, and Since the stroke switching is adjusted at the bottom dead center of the crankshaft, there are advantages that the position of the bottom dead center does not change and that the die height can be kept constant.

[Brief explanation of drawings]

FIG. 1 is a side view of the entire assembly, and FIG. 2 is a longitudinal sectional view. 1... Crankshaft, 2... Eccentric shaft, 3... Eccentric sheave, 4... Connecting rod, 5... Main cylinder, 6... Lock pin, 7... Upper piston, 8... Lower piston, 9 ... Auxiliary cylinder, 10 ... Through hole, 11 ... Auxiliary piston, 12
...Connecting rod, 13, 16...Hydraulic passage, 14...
Plug body, 15... connecting rod, 20... housing.

Claims (1)

[Scope of utility model registration request] An eccentric shaft formed on the crankshaft, a connecting rod attached to the outer periphery of the eccentric shaft via an eccentric sheave, the eccentric sheave is eccentrically downward at the bottom dead center position of the crankshaft, and in this state, the eccentric A main cylinder that penetrates the sheave and is provided so that its upper part reaches the eccentric shaft and its lower part reaches the connecting rod, a lock pin housed in the main cylinder, and when the lock pin reaches the lower limit position, the eccentric sheave and the an upper piston housed above the lock pin in the main cylinder to connect the eccentric shaft; and a lock pin in the main cylinder to connect the eccentric sheave and the connecting rod when the lock pin reaches its lower limit position. A slide stroke variable device for a press machine, comprising a lower piston housed in a lower part of the press machine, and a hydraulic passage connected to the main cylinder for sliding the upper piston and the lower piston.