JPS61223372A - Cylinder lock device - Google Patents

Abstract

PURPOSE:To eliminate the need to use a high oil pressure, by providing an electromagnet device, which produces a magnetic repulsion force in a direction, in which it is separated from a plunger, when energized, and a resilient body which deviates the electromagnet device toward the plunger. CONSTITUTION:An electromagnet device 20 is formed with a yoke 15, a coil 19, and a shoe 21. A resilient body 14 is inserted between the rigid yoke 15, disposed in a state in that pole-faces 17 are positioned facing each other, and a rigid housing 10 in a state in that it is compressed against its resilient force. Thus, the resilient force of the resilient body 14 is transmitted to the outer peripheral surface of a plunger 4 through the yoke 15 and the shoe 21, an extremely high pressure is exerted between the plunger 4 and the shoe 21, and an extremely high drag is exerted when the plunger 4 is about to move from the shoe 21.

Description

[Detailed description of the invention]

[Industrial Application Field] The present invention relates to a cylinder locking device, and particularly to a cylinder locking device for selectively controlling the relative movement between a cylinder and a plunger when used with a hydraulic cylinder device. It is related to. ”

BACKGROUND OF THE INVENTION Hydraulic cylinder locking devices for use with hydraulic cylinder devices to selectively close relative movement between a cylinder and a plunger are known. This cylinder lock device places a steel locking member around the plunger, applies pressure due to the elasticity of the locking member to the plunger, and locks the plunger by the opening friction force between the plunger and the locking member. It is something. To release such a lock, a large hydraulic pressure is applied between the plunger and the locking member to slightly deform the locking member and form an oil film between the plunger and the locking member. Make it torturous by moving against it,

[Problems to be solved by this invention]

Although this type of cylinder lock device works satisfactorily, it uses extremely large hydraulic pressure, which means that the hydraulic equipment is large-scale, and the range of use is limited.For example, it cannot be used in air cylinders. is inappropriate. Further, since hydraulic pressure is used, the temporal and positional accuracy of locking and releasing operations cannot be made sufficiently high.

[Means to solve the problem]

According to the present invention, the above-mentioned problem can be solved by using a housing that is provided in the housing so as to be able to move towards and away from the plunger in the radial direction of the plunger, and when energized, generates a magnetic repulsion force that tends to move the plunger away from the plunger. The problem is solved by a cylinder locking device that includes an electromagnetic device that moves the electromagnetic device, and an elastic body that is provided between the electromagnetic device and the housing and biases the electromagnetic device toward the plunger.

【Example】

Next, an embodiment shown in the accompanying drawings will be described. 1 and 2 show the cylinder locking device 1 of the present invention being used together with a hydraulic cylinder device 2. FIG. The illustrated hydraulic cylinder device 2 may be of a well-known type, and includes a hollow cylindrical cylinder 3, a planter 4 that moves in and out of the cylinder 3, and a seal between the cylinder 3 and the planter 4 while allowing the planter 4 to slide. ``A sealing device rtt 5 for sealing.
The seventh flange 11 of the housing 10 of the cylinder lock device 1 of the present invention is fixed to the seventh flange 6 with bolts 12. The housing 10 is an annular, strong member that opens radially inward and has a single-shaped cross-section. The central opening 13 of the housing 10 is slightly larger than the outer diameter of the plunger 4 and is arranged in concentric relation with the plunger 4 so as not to impede its movement. An annular elastic body 1 is provided inside the U-shaped cross section of the housing 10.
4 is provided in a compressed state. The elastic body 14 is a member made of a material with an extremely large bone constant, such as steel, alloy, rubber, or synthetic resin. Inside this elastic body 14, a semi-annular yoke 15 divided into two in the circumferential direction is arranged with their magnetic pole faces 17 facing each other. A coil 19 is wound in the opposite direction on the yoke 15, and when energized, the magnetic pole faces of the same pole face each other as shown in the figure, and a magnetic field is created between the magnetic pole faces 17 of each yoke 15. This is to generate a repulsive force. Further inside the yoke 15, a semi-annular rigid shoe 21 is fixed, and the end surfaces of the shoes 21 face each other. The radius of the inner circumferential surface of the shoe 21 is set to be smaller than the outer diameter of the portion of the plunger 4 to be locked when the end surfaces of the shoes are butted together. In this way, the yoke 15, the coil 19, and the shoe 21 constitute an electromagnet device 2.0. The elastic body 14 is inserted between a rigid yoke 15 and a rigid housing 10, which are arranged with their magnetic pole faces 17 facing each other, in a compressed state against the elastic force of the elastic body 14. . In this state, a slight air gap is formed between the magnetic pole faces 17 that meet each other and between the end faces of the yoke 15. Therefore, the elastic force of the elastic body 14 is transmitted to the outer circumferential surface of the plunger 4 via the yoke 15 and the shoe 21, and an extremely large pressure is applied between the plunger 4 and the shoe 21, causing the plunger to When the jar 4 tries to move relative to the shoe 21, an extremely large frictional force acts.Also, when the coil 19 is energized, the outer polarity shown in FIG. 1 appears on the magnetic pole surface, and they magnetically repel each other. A force acts on the yoke 15. This force is to compress the elastic body 14 against the elastic force of the elastic body 14 and to move the shoe 21 1 mF10 away from the outer peripheral surface of the plunger 4. The jar 4 is free to move and torsion against the shoe 21.The electromagnetic devices of the cylinder locking device shown in FIGS. 1 and 2 repel each other when energized.
However, it may also be as shown in FIG. 3, in which the two electromagnetic devices attract each other when energized.・

【Effect of the invention】

The cylinder lock device of the present invention is provided within a housing so that it can move toward and away from the plunger in the radial direction of the plunger, and when energized, generates a magnetic repulsion force that tends to separate the plunger from the plunger. Since it is equipped with an electromagnet device that generates electricity and an elastic body that is installed between the electromagnet device and the housing to bias the electromagnet device toward the plunger, there is no need to use extremely large hydraulic pressure, and it can be used over a wide range. For example, it is suitable for use in air cylinders. Further, since the locking operation and the releasing operation are performed electrically by one step, the temporal and positional accuracy of the locking operation can be sufficiently increased.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal cross-sectional view of the cylinder lock device of the present invention, FIG. 2 is a cross-sectional view of the cylinder lock device of FIG. 1, and FIG.
The figure is a cross-sectional view showing another embodiment of the invention. 1... Cylinder lock device 2... Fluid pressure cylinder device 3... Cylinder 4... Plunger... Cylinder lock device 10... Housing grid

Claims (1)

Claims: A cylinder locking device for use with a hydraulic cylinder device to selectively prevent relative movement between a cylinder and a plunger of the hydraulic cylinder device, the cylinder locking device being affixed to said cylinder. and an electromagnetic device that is provided in the housing so as to be movable toward and away from the plunger in the radial direction of the plunger, and that generates a magnetic repulsion force that tends to separate the plunger from the plunger when energized. and a cylinder lock device including an elastic body provided between the electromagnet device and the housing and biasing the electromagnet device toward the plunger.