JPS6332403Y2 - - Google Patents

Description

[Detailed description of the invention] The present invention relates to a cylinder device with a locking mechanism.
In particular, the present invention relates to a cylinder device with a lock mechanism, in which a lock cylinder capable of clamping a piston rod is removably attached to the end of a conventional cylinder device.

Depending on the purpose of use of the cylinder device, it may be necessary to stop the piston rod at a predetermined position and to hold it so that it does not move from that position, that is, to lock it. Conventionally, in order to lock a piston rod in a cylinder device during its operation, it is customary to cut off fluid supplied to or discharged from the cylinder device using a control valve provided in an operating circuit. However, when it is stopped, it is difficult to lock it in a predetermined position due to leakage in the control valve and cylinder. For this reason, various types of devices are available, such as those that lock by providing a groove in the piston rod and locking a locking member in the groove, and those that clamp and lock the piston rod by moving wedges of locking members placed on both sides of the outer periphery of the piston rod. A locking mechanism has been proposed. However, these conventional locking mechanisms have complicated structures, lack flexibility in use due to limited locking locations, lack sufficient locking force, or use wedges. Even though the locking force was sufficient, there were various problems such as it was not easy to release the lock, or it could not be attached to a standard general-purpose cylinder device without special modification.

The present invention was developed against the background of these circumstances, and the purpose of the present invention is to provide a cylinder with a simple structure, which can be attached and detached as an attachment without requiring major modifications to a standard general-purpose cylinder device, and which allows the piston rod to be attached or removed as desired. The rod can be locked in the position where the locking force is sufficient and the entire rod is
It is an object of the present invention to provide a cylinder device with a locking mechanism which can apply a clamping force more uniformly and can be easily locked and unlocked.

The gist of the present invention, which was made to achieve the above object, is that two lock cylinders are installed at the end of the main cylinder device on the rod end side, perpendicular to the axis of the piston rod of the main cylinder device, and A cylinder device with a locking mechanism, which is attached with a piston rod in between and clamps the piston rod of the main cylinder device by two pistons in both lock cylinders, the two lock cylinders being integrally formed, Each piston in the lock cylinder is removably attached to the main cylinder device, and each piston in the lock cylinder is provided with a shaft-like protrusion that faces each other, and a V-shaped groove is provided at the tip of the shaft-like protrusion. The piston rod of the main cylinder device can be held at any position by the inclined surface coming into contact with the piston rod of the main cylinder device and clamping the piston rod of the main cylinder device.

According to the present invention, the lock cylinder is attached to the end of the cylinder device, which simplifies the structure and reduces costs.Furthermore, the lock cylinder can be easily attached and detached, so it can be used as a standard general-purpose device. It is also possible to attach it to the cylinder device as an attachment, and since the two lock cylinders are integrally formed, the axes of both cylinders will not shift even if they are repeatedly attached and detached, and the piston of the lock cylinder will not move. The rod of the main cylinder is not bent, and uneven wear of the main cylinder is less likely to occur. Furthermore, since the piston rod is clamped and locked between the two piston shaft-shaped spaces of the lock cylinder, the locking position is not limited and is flexible.
Since the piston rod of the main cylinder is clamped from four directions at four locations, the rod can be clamped more widely and is less likely to be damaged, and the V-shaped groove generates sufficient clamping force even when the pressure of the lock cylinder is small.
Furthermore, by supplying or removing working fluid from the lock cylinder, both piston shaft-like protrusions can be pressed or the pressing can be stopped, making it easy to lock and unlock the piston rod. Moreover, by appropriately selecting the piston diameter of the lock cylinder, the locking force can be increased.

An embodiment of the present invention will be described in detail below with reference to the drawings. In FIG. 1, 2 is a main cylinder device, and a lock cylinder 4 is attached to the end of the main cylinder device on the rod end side at right angles to the axis. The main cylinder device 2 is a standard general-purpose hydraulic cylinder device that is normally used, and has a head cover 8 and a rod cover 10 attached to both ends of a cylinder tube 6, and a piston 14 with a piston rod 12 attached inside the cylinder tube 6. The piston rod 12 is slidably fitted and protrudes outward from the rod cover 10. The head cover 8, rod cover 10, and cylinder tube 6 are assembled together with the lock cylinder 4 by tightening with four tie rods 16 and nuts 18, and the tip of the piston rod 12 is attached to the piston 14 with a piston nut 20. Each joint and sliding part has a U packing 22 and an O gasket 22.
Rings 24, 26, and 28 are attached to maintain liquid tightness within the cylinder tube 6. The rod cover 10 and the head cover 8 are provided with ports 30 and 32, and the piston 14 is supplied with pressure oil from one port and discharged from the other port.
is allowed to reciprocate within the cylinder tube 6.
Further, a stepped positioning member 36 with a circular cross section is fitted into a fitting hole of a constant depth formed in the rod cover 10, and the piston rod 12 is slidable into the fitting hole penetrating inside the positioning member 36. Fitted.

The lock cylinder 4 has a pair of pistons 4 in cylinder holes 40 formed on both sides of the cylinder body 38.
2 are slidably fitted together, and the intermediate portion thereof is attached to the end of the main cylinder 2 at right angles. That is, a through hole 44 is formed near the center of the cylinder body 38 that is integrally formed.
is formed, and the piston rod 12 is slidably fitted therein, and the lock cylinder 4 is positioned by fitting the positioning member 36 into the fitting hole 46 formed on the end side of the through hole 44. The above-mentioned tie rod 16 is inserted into the bolt hole passing through the cylinder body 38, and is attached by tightening with a nut 18. In addition,
O-rings 48, 50, 5 are attached to each sliding part and fitting part.
2 is attached to maintain liquid tightness. Further, a seal 54 is attached near the protruding side of the piston rod 12.

The axis of the cylinder hole 40 provided at both ends of the cylinder body 4 is located on one axis that intersects at right angles with the axis of the piston rod 12 passing through the cylinder body 4.
2 are slidably fitted, end covers 56 and 58 are attached to the openings thereof, and are tightened and fixed with bolts 59. End cover 56,5
O-rings 60 and 61 are attached to the cylinder hole 8 and the piston 42 to maintain liquid tightness within the cylinder hole 40. Axial protrusions 62 are provided on both pistons 42 and protrude in directions facing each other, and are slidably fitted into through holes 64 that are concentric with both cylinder holes 40 and communicate with them. A locking member 66 is joined to the tip of 62. That is, as shown in FIGS. 2 and 3, the shaft-like protrusion 62 of the piston 42 has a V-shaped groove 68 formed at its tip, to which a half-cylindrical locking member 66 is adhesively fixed. Ru. The inner peripheral surface of the locking member 66 is connected to the piston rod 1.
It has a shape that fits the outer peripheral surface of No. 2. In addition,
The locking member 66 is fitted into a hole 70 formed concentrically with the through-hole 44 with some clearance, and is adhesively fixed to both slopes of the groove 68 of the shaft-like protrusion 62 of the piston fitted into the through-hole 64. Ru. As shown in FIG. 2, the cylinder body 4 is formed with a pressure oil passage 72 that communicates the two cylinder holes 40, and the end cover 58 is further formed with a port 74 that communicates with one of the cylinder holes 40. When pressurized oil is supplied from the port 74, the pistons 54 are pushed toward each other, and the piston rod 12 is held and locked by the locking members 66. As shown in FIG. 3, the shaft-like protrusion 62 is provided with an oil groove 76 of a certain depth, and the hydraulic oil leaking from between the shaft-like protrusion 62 and the through hole 64 is drained through the drain port 78. It is designed to be excreted after a period of time.

In the embodiment device configured as described above, pressure oil is supplied from one of the ports 30 and 32 of the main cylinder device 2, and when the piston rod 12 moves to a predetermined position, the supply of pressure oil is cut off and its movement is stopped. After the port 74 of the lock cylinder 4
When pressure oil is supplied from the piston rod 12, the piston rod 12 is strongly clamped between the two locking members 66, and the piston rod 12 is locked and its movement is restricted.
Furthermore, the V-shaped groove 68 that clamps the piston rod 12 via the lock member 66 has a wedge effect due to its slope, and generates a pressing force that is greater than simply pressing, so even if the hydraulic pressure of the lock cylinder 4 is small. , a larger clamping force can be generated. When the supply of pressure oil is stopped, the lock is released and the piston rod 12 is free to move.
That is, it is easy to lock and unlock. The piston rod 12 may be stopped at a predetermined position by bringing the tip of the piston rod 12 or a member attached to the tip into contact with another member, or by using a limit switch or the like to stop the piston rod 12 at the port 30, Various means such as controlling the supply of pressure oil from 32 may be adopted. Therefore, there is great flexibility in the position in which the piston rod 12 is locked. Further, the main cylinder device 2 can be easily attached and detached using the lock cylinder 4 as an attachment without requiring much modification, and can be made to have a simple structure to reduce costs. Moreover, lock cylinder 4
Since they are integrally formed, the axes of the left and right lock cylinders 4 of the piston rod 12 will not shift even if they are repeatedly attached and detached.
No force is applied to bend 2. Furthermore, by appropriately selecting the inner diameter of the cylinder hole and the hydraulic pressure, it becomes possible to lock with a large force.

According to experiments conducted by the present inventors, _{the cylinder inner diameter D 1 of} the main cylinder device ₂ shown in FIG. When the pressure of the hydraulic pressure supplied to the piston rod P ₁ Kg/cm = P ₂ Kg/cm, the ratio of the force for locking the piston rod 12 to the operating force of the cylinder device 2 was approximately 0.15.
In other words, it was possible to lock with approximately 15% of the operating force of the cylinder device.

In the above embodiment, the main cylinder device can be used in various positions such as horizontally and vertically, and the device in this embodiment can be used not only for hydraulic cylinders but also for other hydraulic and pneumatic cylinders. be.

Although one embodiment of the present invention has been described above, the present invention is not limited to this embodiment in any way, and it goes without saying that it can be implemented in various forms without departing from the gist of the present invention.

As described in detail above, according to the present invention, since the lock cylinder is attached to the end of the cylinder device, the structure is simple and costs can be reduced, and it is also possible to modify the standard general-purpose cylinder device. It can be attached as an attachment without the need for an attachment, it is easy to attach and detach, and the clamping force does not always shift from the axis. Furthermore, since the piston rod is clamped and locked between both piston shaft-like protrusions of the lock cylinder, there is no restriction on the locking position, providing great flexibility, and the V-shaped groove provides even greater clamping force. In particular, if the center position of the V-shaped groove at the tip of the lock cylinder piston shifts, a stronger force will act on the axis of the piston rod of the main cylinder than in the conventional case where the tip is flat. Therefore, the combination of the V-shaped groove and the integral formation of the lock cylinder provides a truly beneficial locking mechanism. Furthermore, since the piston rod is locked or unlocked by supplying or stopping the working fluid to the lock cylinder, locking and unlocking are easy. Furthermore, it is possible to increase the locking force by appropriately selecting the piston diameter of the lock cylinder and the pressure of the working fluid.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of one embodiment of the present invention, FIG. 2 is a cross-sectional view of FIG.
The figure is a front view of the lock cylinder piston used in the same embodiment, and FIG. 4 is an explanatory diagram of the cylinder device used in the experiment of the present invention. 2... Main cylinder device, 4... Lock cylinder, 12... Piston rod, 14, 42...
Piston, 62...shaft-shaped protrusion, 68...V-shaped groove.

Claims (1)

[Claims for Utility Model Registration] Two lock cylinders are installed at the end of the rod end side of the main cylinder device, perpendicular to the axis of the piston rod of the main cylinder device, and with the piston rod of the main cylinder device in between. A cylinder device with a lock mechanism that clamps a piston rod of a main cylinder device by two pistons in the cylinder, the two lock cylinders being integrally formed and detachably attached to the main cylinder device, Each piston in the lock cylinder is provided with a shaft-like protrusion that faces each other, and a V-shaped groove is provided at the tip of the shaft-like protrusion, so that when the lock cylinder is locked, both slopes of the groove come into contact with the piston rod of the main cylinder device. 1. A cylinder device with a locking mechanism, characterized in that the piston rod of the main cylinder device can be held at any position by clamping the piston rod of the main cylinder device.