JPS6231201B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a cylinder stop device that locks and stops a piston rod of a fluid pressure cylinder at an arbitrary position.

Conventionally, as a cylinder stop device that locks and stops the piston rod of a fluid pressure cylinder, a collect chuck type or a hydraulic lock device has been used, but both have short lifespans, complex structures, and high manufacturing costs. There were drawbacks such as:

Therefore, Figures 1 and 2, which have a relatively simple structure,
A cylinder stop device as shown in the figure has been proposed. In this device, a cylindrical housing 2 is fixed eccentrically to a piston rod 3 at the front end of a cylinder body 1, a brake disc 4 is rotatably fitted into the housing 2, and the brake disc 4 is drilled in the axial direction. The piston rod 3 is inserted into the provided eccentric hole, and a lever 6 fixed to the outer periphery of the brake disc 4 is further provided in an opening 5 provided in a part of the housing 2.
It is constructed by protruding from the Then, by pushing down the lever 6 in the direction of the arrow and slightly rotating the brake disc 4, the brake disc 4 presses the piston rod 3 and locks it.
As shown in FIG. 2, the pressing force F due to the rotation of the brake disc 4 is applied upward to the lower part of the piston rod 3, and this force is received only at the upper part of the bearing metal 7. 6 is applied. Therefore, when the piston rod 3 is locked, a shearing force is applied to the piston rod 3 due to the pressing force F and the drag forces F ₁ and F ₂ generated in the bearing metal 7, and torsion due to rotation also acts on the piston rod 3 and the bearing metal 7. There was a problem of wear and deformation.

The present invention has been made in consideration of the above points, and provides a cylinder stop device with a simple structure that can lock the piston rod etc. without causing deformation or wear.The present invention is constructed as follows. Ru.

That is, the cylinder stop device of the present invention divides a thick-walled cylinder whose outer circumference and inner circumference are eccentric into two parts in the axial direction at the maximum thickness part and the minimum thickness part to form two thick-walled semi-cylindrical bodies. A piston rod of a fluid pressure cylinder is slidably fitted into the inner periphery of the two semi-cylindrical bodies, and these semi-cylindrical bodies are rotatably fitted into the housing. The piston rod is configured to be locked by rotating each semi-cylindrical body in opposite directions by means of a protruding lever connected to the piston rod.

Embodiments of the present invention will be described below based on the drawings.

FIG. 3 shows an axial cross-sectional view of the hydraulic cylinder 11 provided with a cylinder stop device, and FIG. 4 shows a cross-sectional view thereof. Fluid pressure cylinder 11
A piston rod 12 protrudes from the front surface of the stopper, and a cylindrical housing 1 of the stop device is located at the front surface of the piston rod 12.
3 is fixed. A piston rod 12 is eccentrically inserted into the housing 13, and two semi-cylindrical bodies 14 and 15 forming a brake shoe are fitted therein. The two semi-cylindrical bodies 14 and 15 are formed by dividing a thick-walled cylinder with eccentric outer and inner circumferential parts into two parts in the axial direction into a maximum inner thickness part and a minimum thickness part,
It is fitted into the housing 13. The piston rod 12 is eccentrically fitted inside the semi-cylindrical bodies 14 and 15, and the joining part of the two semi-cylindrical bodies 14 and 15 is slightly cut out so that both can rotate relative to each other to some extent. They are fitted together so that a space 16 is formed. With the semi-cylindrical bodies 14 and 15 inserted into the housing 13, the piston rod 12 is slidable, and the semi-cylindrical bodies 14 and 1
5 are connected to levers 17 and 18 for lock operation, respectively, and the levers 17 and 18 protrude outward from a notch 19 provided in a part of the housing 13.

Next, to explain the operation of the above-mentioned cylinder stop device, first, as shown in FIG. When the parting line is located within a horizontal plane passing through the center of the piston rod 12, the piston rod 12 is not locked and can freely slide.

On the other hand, when the piston rod 12 is to be locked and stopped, the levers 17 and 18 are moved to open in the directions of the arrows in FIG. 4, respectively. Then, the rotation centers of the semi-cylindrical bodies 14 and 15 and the piston rod 12
Since the center of the piston is eccentric, the upper semi-cylindrical body 14 presses the piston rod 12 downward, and the lower semi-cylindrical body 15 presses the piston rod 12 upward. Therefore, the piston rod 12 is sandwiched and locked between the semi-cylindrical bodies 14 and 15, and the inner peripheral surface of the housing 13 and the semi-cylindrical bodies 14, 1 are locked.
The locked state is maintained by the frictional resistance between the inner and outer circumferential surfaces of the piston rod 5 and the outer circumference of the piston rod 12. Further, in the locking operation using the levers 17 and 18, the lever principle works and the locking operation can be performed with a relatively small force. Furthermore, two semi-cylindrical bodies 14,1
Since the piston rod 12 is clamped and locked by the piston rod 5, no shearing force or rotational force is generated, and the piston rod 12 can be ideally locked.

As explained above, according to the cylinder stop device of the present invention, the piston rod is sandwiched and locked between two semi-cylindrical bodies, so the structure is simpler and more compact than the conventional device, and It is possible to lock the piston rod without generating shearing force or rotational force, prevent deformation and wear of the piston rod and bearing portion, and ensure that the piston rod is stopped.

[Brief explanation of the drawing]

Fig. 1 is a cross-sectional view of a conventional cylinder stop device, Fig. 2 is a - cross-sectional view of Fig. 1, Fig. 3 is a cross-sectional view showing an embodiment of the present invention, and Fig. 4 is a - cross-sectional view of Fig. 3. It is. 12... Piston rod, 13... Housing, 14, 15... Semi-cylindrical body, 17, 18... Lever.

Claims (1)

[Claims] 1 A thick-walled cylinder with eccentric outer and inner circumferences is divided into two parts in the axial direction by the maximum thickness part and the minimum thickness part.
two thick-walled semi-cylindrical bodies are formed, a piston rod of a hydraulic cylinder is slidably fitted into the inner periphery of the two semi-cylindrical bodies, and the semi-cylindrical body is rotatably fitted into the housing. and a cylinder stop device configured to lock the piston rod by rotating each of the semi-cylindrical bodies in opposite directions using a protruding lever connected to the semi-cylindrical bodies.