JPS63158304A - Double speed cylinder device - Google Patents

Abstract

PURPOSE:To reduce the size and simplify the structure of the device in the caption by planting an end rod on the piston of a large diameter cylinder and installing a stopper on the end part of the end rod. CONSTITUTION:On a piston 11 in a large diameter cylinder 2 is fixed as one body an end rod 14 which penetrates, in a liquid-tight way, through a rod guide 8 and a cylinder end 10, and extends outward from the cylinder 2. On the shaft end of the end rod 14 is screwed a stopper 15 which adjustably controls the amount of an axial movement of the end rod 14. It is, therefore, unnecessary in this case, to provide a guide bar and a bracket as required in the conventional case, for the purpose of, installing a stopper, so that the device can be reduced in its size and simplified in its structure.

Description

DETAILED DESCRIPTION OF THE INVENTION FIELD OF INDUSTRIAL APPLICATION The present invention relates to a two-speed cylinder device used in small tabletop hydraulic presses and the like.

2. Description of the Related Art Conventionally, small tabletop hydraulic presses and the like have been equipped with two-speed cylinder devices in order to efficiently perform press operations. FIG. 2 shows such a conventional two-stage speed cylinder device 30.
0 is 0 when hydraulic oil is sent from the boat 31, the piston rod 32 is rapidly traversed to a predetermined position, and when the piston rod 32 reaches the predetermined position, hydraulic oil is supplied from the boat 33 and a large output can be obtained. ing.

When such a two-speed cylinder device 30 is used as a small hydraulic press for caulking work or engineering work, a stopper is required to accurately stop the operation of the piston rod 32 at the caulking end or the compression end. . This stopper is preferably provided outside the cylinder 34 so that the position can be easily changed depending on the work content and the stroke of the piston rod 32 can be adjusted. High rigidity is required so that the piston rod 32 can be accurately stopped at a predetermined position when a large output is generated and the work is completed. Therefore, as shown in FIG.
A pair of guide bars 36 are fixed to both ends of the holder 35 that engages with the boat 31 , and a bracket 37 is fixed to the other end of the guide bar 36 .
A stopper 38 is installed so as to be adjustable in the axial direction (in the vertical direction in the figure) at a position that does not interfere with the cylinder block 39.
The downward movement of the piston rod 32 in the figure was avoided.

Problems to be Solved by the Invention The two-stage speed cylinder device 30 described above has a stopper 38.
In order to install the piston rod 32, a holder 35, a bracket 37, and a pair of guide bars 36, 36 are required, and in order to accurately stop the piston rod 32 at a predetermined position, it is necessary to ensure the rigidity of the holder 35, bracket 37, etc. Since then, there has been a problem that the overall structure has become larger and more complex.

Means for Solving the Problems Therefore, in order to solve the problems of the prior art, the two-stage speed cylinder device of the present invention includes a pair of large and small cylinders arranged in parallel, and a cylinder head that seals one end of these cylinders. a pair of piston rods penetrating the piston rods in a fluid-tight manner; a holder that integrally engages these piston rods; an end rod that is installed in the piston and passes through the cylinder end that seals the other end of each cylinder in a fluid-tight manner; and an axial position R at the end of the end rod. The stopper is arranged to be adjustable and restricts the axial movement of the end rod.

When oil is supplied into the working small diameter cylinder, the small diameter cylinder's rapid-feeding piston rod is rapidly traversed, and in conjunction with this rapid-feeding piston rod, the large-diameter cylinder's piston rod is rapidly traversed.

When the piston rod moves to a predetermined position, oil is supplied to one chamber of the large-diameter cylinder separated by the piston, and the piston rod moves slowly while generating a large output to perform tasks such as caulking. conduct. When the piston rod moves further and the stopper attached to the end rod comes into contact with the highly rigid cylinder end, the movement of the piston rod is reliably stopped and the work is completed. Thereafter, when oil is supplied to the other chamber of the large-diameter cylinder separated by the piston, the piston rod and the rapid-feed piston rod return to their original positions.

Example Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 shows a sectional view of the two-stage speed cylinder device 1 of the present invention. In this figure, 2 is a large diameter cylinder, and the large diameter cylinder 2 is arranged concentrically with a predetermined gap 3 on the outside. An outer cylinder 4 is provided. And large diameter cylinder 2
The outer cylinder 4 is sealed at one end by a cylinder head 7 fixed to the casing 5 with bolts 6, and at the other end is engaged with a rod guide 8 and the outer cylinder 4 is closed to the casing 5.
It is sealed by a cylinder end lO fixed with a bolt 9 to the cylinder end lO. 11 is a piston equipped with a piston ring 12 on the outer periphery, and this piston 11 is attached to a large diameter cylinder 2.
It is separated into two upper and lower chambers: an upper chamber A and a lower chamber B. A piston rod 13 is integrally fixed to one axial end of the piston 11 and extends to the outside of the large-diameter cylinder 2 by penetrating the cylinder head 7 in a fluid-tight manner. is the rod guide 8 and cylinder end lO
An end rod 14 is integrally fixed to extend outside the large diameter cylinder 2 by penetrating the large diameter cylinder 2 in a fluid-tight manner. A stopper 15 that adjustably restricts the amount of axial movement of the end rod 14 (downward movement fi1 in the figure) is screwed onto the shaft end of the end rod 14. 16 is a gap formed between the large diameter cylinder 2 and the piston rod 13, and this gap 1G is communicated with the cavity 3 via a communication passage 17 formed at the lower end of the large diameter cylinder 2. And void 3
A lifting boat 18 is formed in the rod guide 8 in order to communicate the two-speed cylinder device 1 with a pump or a hydraulic oil tank (not shown) outside the two-speed cylinder device 1 . Further, the rod guide 8 on which the lifting boat 18 is formed has a structure for communicating the upper chamber A of the large diameter cylinder 2 with a pump or a hydraulic oil tank (not shown) outside the two-stage speed cylinder device 1. , a pressurizing boat 19 is formed, and a pre-feel valve boat 20 that communicates the upper chamber A with a hydraulic oil tank (not shown) is formed. This pre-feel valve boat 2
0 is equipped with a one-way valve (not shown) that opens due to negative pressure in the upper chamber A when the piston rod 13 moves rapidly and allows oil to flow from a hydraulic oil tank (not shown) to the upper chamber A. ing. On the other hand, 21 is a small diameter cylinder arranged in parallel and adjacent to the outer cylinder 4, and one end of this small diameter cylinder 21 has a cylinder head 23 fixed to the casing 5 with a bolt 22.
The other end is sealed by the cylinder end 10. A rapid-feeding piston rod 24 is fitted inside the small-diameter cylinder 21 and extends to the outside of the small-diameter cylinder 21 by penetrating the cylinder head 23 in a liquid-tight manner.

One end of the rapid-feeding piston rod 24 and one end of the piston rod 13 are located outside each cylinder 2, 21.
They are integrally engaged by a holder 25. The holder 25 is fixed to the piston rod 13 by a bolt 26, and the fast-feeding piston rod 2 is attached to a nut 27.
4 is fastened and fixed. Reference numeral 28 denotes a fast-forwarding boat formed at the cylinder end lO, and this fast-forwarding boat 28 is connected to a pump or hydraulic oil tank (not shown) and a small-diameter cylinder 2.
1 communicates with the inside.

The two-stage speed cylinder device 1 configured as described above is connected to a pump (not shown) that discharges a certain amount of hydraulic oil to a fast-feed boat 2.
When the actuation i+b is supplied to the inside of the small-diameter cylinder 21 through 8, the fast-feeding piston rod 24 moves rapidly downward in the drawing, and the piston rod 13 moves downward in the drawing in conjunction with the fast-feeding piston 24. Move to.

At this time, the pressurizing bow 19 is closed, and communication between the upper chamber A of the large diameter cylinder 2 and the outside is cut off.

Therefore, the pressure in the upper chamber A of the large diameter cylinder 2 decreases, and oil from a hydraulic oil tank (not shown) is sucked into the upper chamber A via the pre-feel valve boat 20.

On the other hand, the lower chamber B (gap 16) of the large diameter cylinder 2 is
Communication path 17. It is returned to a hydraulic oil tank (not shown) via the air gap 3 and the rising bow 18. When the piston rod 13 moves (descends) to a predetermined position and performs caulking work, oil is supplied from a pump (not shown) to the lower chamber A of the large diameter cylinder 2 via the pressurizing boat 19. At this time, the fast-feeding boat 28 of the small-diameter cylinder 21 is communicated with a hydraulic oil tank (not shown), and the inside of the small-diameter cylinder 21 is replenished with oil equivalent to the amount of oil discharged from the fast-feeding piston rod 24 via the fast-feeding boat 28. Therefore, both the piston rod 13 and the rapid-feeding piston rod 24 move slowly downward,
Generates large output to ensure caulking work, etc. The speed ratio (V t/v l') between the speed (vl) of the piston rod 13 during rapid forwarding and the speed (■,) of the piston rod 13 during caulking work is determined by the diameter of the large diameter cylinder 2 (
It is expressed as the ratio (D+"/Dt') of the square of D, ) and the square of the diameter (D, ) of the small diameter cylinder 21. Therefore, if the diameters of the large diameter cylinder 2 and the small diameter cylinder 21 are appropriately selected, , a two-stage speed cylinder device 1 having a desired speed ratio can be obtained.

Then, the stopper 15 installed on the end rod 14 comes into contact with the cylinder end 10, and the operation of the piston rod 13 is stopped. After the caulking work etc. is completed, oil is discharged from the lifting boat 18 into the 3-degree gap communication passage. Lower chamber B via 17
(gap 16). On the other hand, the upper chamber A of the large-diameter cylinder 2 and the inside of the small-diameter cylinder 21 are communicated with a hydraulic oil tank (not shown) via a pressurizing boat 19 and a fast-feeding boat 28, respectively. Therefore, the piston rod 13
As the pressure rises, the oil in the upper chamber A of the large-diameter cylinder 2 and the oil in the small-diameter cylinder 21 are returned to a hydraulic oil tank (not shown), and the piston rod 13 returns to a predetermined position above the large-diameter cylinder 2.

Effects of the Invention As described above, the present invention comprises a pair of large and small cylinders arranged in parallel and adjacent to each other, a pair of piston rods that liquid-tightly penetrate a cylinder head that seals one end of these cylinders, and these piston rods. a holder that integrally engages the
A piston that is fixed to one end of a piston rod fitted in the large diameter cylinder of the cylinders and separates the large diameter cylinder into two wheels, and a piston that is implanted in this piston and seals the other end of each cylinder. The device consists of an end rod that passes through the cylinder end in a liquid-tight manner, and a stopper that is arranged at the end of the end rod so that its axial position can be adjusted, and that restricts the axial movement of the end rod. In order to attach the slider, members such as guide bars and brackets are not required as in the conventional example, and the sliding structure can be made smaller and simpler, and accurate operation can be obtained. It has great practical effects.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing an embodiment of the present invention, FIG. 2 is a sectional view of a conventional two-speed cylinder equipment before a stopper is attached, and FIG. 3 is a sectional view of the same after the stopper is attached. l... Two-stage speed cylinder device, 2... Cylinder (large diameter cylinder), 7.23... Cylinder head, 10...
... Cylinder end, 11... Piston, 13...
Piston rod, 14... End rod, 15...
Stopper, 21... Cylinder (small diameter cylinder), 24
... Piston rod (piston rod for rapid traverse), 2
5...Holder, A...chamber (upper chamber), B...chamber (
lower chamber). 2 outsiders 1.2fi! 1 2 Cylinder (7, 1 cylinder) 7.23...
1815...stopper
-2-21・・Cylinder (finely crushed cylinder) 1124・
・・Piston 071s (for early, strike, 7 de > i s, (s
25 Holder 1-2' A...! (GoF￥) 3B-t(r
apt) 4. -Figure 1Figure 3

Claims (1)

[Claims] (1) A pair of large and small cylinders arranged adjacent to each other in parallel, a pair of piston rods that fluid-tightly penetrate the cylinder head that seals one end of these cylinders, and a holder that integrally engages these piston rods; A piston is fixed to one end of a piston rod fitted in the large-diameter cylinder of the cylinders and separates the inside of the large-diameter cylinder into two chambers, and a piston is implanted in the piston and seals the other end of each of the cylinders. An end rod that liquid-tightly penetrates the cylinder end to be stopped, and an end rod that is arranged at the end of the end rod so that its position can be adjusted in the axial direction.
A two-stage speed cylinder device comprising a stopper that restricts axial movement of an end rod.