JPH0419216Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) This invention relates to a cylinder in which a piston is reciprocated by pneumatic or hydraulic pressure.

(Prior Art) A conventional cylinder has a body having a circular cross-sectional shape.

(Problems to be Solved by the Invention) When the body has a circular cross-sectional shape, the installation space requires at least the diameter of the body in all directions.

However, depending on the mounting position of the cylinder,
Although the cylinder has sufficient length in the vertical direction, there may be insufficient space in the width direction, and in such a case, there is a problem that the cylinder cannot be attached.

Moreover, the output of a cylinder is proportional to the pressure-receiving area of the piston, so if you try to increase the output, you have to increase the diameter of the cylinder.
Even if the diameter of the cylinder was slightly increased, there would be insufficient space in either direction, which sometimes made it impossible to mount the cylinder.

A possible solution to this situation would be to use multiple cylinders with small pressure receiving areas, but increasing the number of cylinders would require a linkage mechanism or control mechanism to operate them simultaneously. There was a problem in that the mechanism became more complicated and the installation space became substantially larger.

Further, when the cross-sectional shape of the cylinder is made circular as described above, the piston rod can easily rotate, but this has the disadvantage that a special mechanism such as a guide is required to prevent this rotation.

The object of this invention is to provide a cylinder whose body can be made rectangular and which prevents the piston rod from rotating.

(Means for solving the problem) This invention forms a rod side chamber corresponding to the stroke of the piston in the body, forms a pair of continuous bores in this rod side chamber, and houses a piston in each of these bores. On the other hand, it is characterized in that the rod side chamber and bottom side chamber of the pair of pistons are integrated, one end of the piston facing the rod side chamber is connected by a connecting member, and a piston rod is provided on this connecting member.

(Function) This device integrates the rod side chamber and the bottom side chamber, so when pressure is introduced into both chambers,
That pressure acts on both pistons simultaneously. Therefore, the pressure receiving area of this cylinder is the sum of the pressure receiving areas of both pistons. In particular, in the rod side chamber, the connecting member that connects both pistons also serves as a pressure receiving area.

(Effects of the present invention) Since the shape of the body of the cylinder can be made into a narrow rectangular shape, even if the installation space is rectangular, a cylinder with a maximum pressure receiving area and a large output can be installed.

Further, if the side surface of another device that requires the cylinder is rectangular, the cylinder can be attached as an extension of the other device, so the area occupied by the device can be reduced.

Furthermore, since the plurality of pistons are interconnected, there is no possibility of rotation of the piston rod.

(Embodiment of the present invention) There are two bores 1 on one half side of the body a,
2, and pistons 3 and 4 are housed in these bores 1 and 2, respectively. One side of these pistons 3, 4 faces the bottom side chambers 5, 6, and the other side faces a common rod side chamber 7. The bottom chambers 5 and 6 thus configured communicate with each other via a communication path 8. And this passage 8
As is clear from Fig. 2, the bores 1,
It has a width equal to 2 diameters, and as is clear from FIG. 1, it also maintains a sufficient width in the axial direction. Further, a supply/discharge port 9 is opened in the communication path 8 thus constructed.

Since the bottom side chambers 5 and 6 are communicated with each other through the communication passage 8 of sufficient size as described above, these bottom side chambers 5 and 6 function as if they were substantially integrated.

Further, the rod side chamber 7 is communicated with the supply/discharge port 10, and within the rod side chamber 7, both pistons 3 and 4 are connected by a connecting member 11. A piston rod 12 is attached to this connecting member 11.
is provided, and this piston rod 12 is made to protrude outward from the body a. Therefore, the area obtained by subtracting the cross-sectional area of the piston rod 12 and the area corresponding to the overlapping portion with both pistons 3 and 4 from the area of this connecting member functions as the pressure receiving area.

Next, the operation of this embodiment will be explained.

Now, both bottom side chambers 5,
When pressure fluid is supplied to the pistons 6, the pistons 3 and 4 protrude from the bores 1 and 2 and move toward the rod side chamber 7.

Therefore, even when the pistons 3 and 4 reach their stroke ends, the pistons 3 and 4 remain in the bores 1 and 4.
The lengths of the bores 1, 2 and the pistons 3, 4 must be determined so that they do not escape from the pistons 2. Further, since the connecting member 11 also moves as the pistons 3 and 4 move, the axial length of the rod side chamber 7 must be the same length as the piston stroke.

In this way, connect the two pistons 3 and 4 to the connecting member 1.
1, pistons 3 and 4 do not rotate, and as a matter of course piston rod 12
It doesn't rotate either.

In addition, since the pistons 3 and 4 can be arranged vertically and the body a can be made into a narrow rectangular shape, the cylinder can be installed even if the space in the width direction is narrow, as long as there is sufficient space in the vertical direction. is possible.

[Brief explanation of the drawing]

The drawings show an embodiment of this invention; FIG. 1 is a sectional view, and FIG. 2 is a sectional view taken along the line -- in FIG. a... Body, 1, 2... Bore, 3, 4... Piston, 5, 6... Bottom side chamber, 7... Rod side chamber, 8... Communication passage, 11... Connection member, 12...
piston rod.

Claims (1)

[Scope of utility model registration request] A rod side chamber corresponding to the stroke of the piston is formed in the body, and a pair of continuous bores are formed in the rod side chamber, and a piston is housed in each of these bores. What is claimed is: 1. A cylinder which is characterized in that one end of a piston facing a rod side chamber is connected by a connecting member, and a piston rod is provided on this connecting member.