JPH0310423Y2 - - Google Patents

Description

[Detailed explanation of the idea] [Industrial application field]

The present invention includes a piston that is slidably fitted into the cylinder body, and an incompressible fluid that is enclosed in the cylinder body.
This invention relates to a shock absorber that applies a retraction-direction load applied to a piston rod to an incompressible fluid and damps it by a damping effect when the incompressible fluid passes through an orifice in a cylinder body.

[Conventional technology]

This type of shock absorber is generally used in industrial machinery to stop a moving workpiece while cushioning it. Conventionally, to electrically detect the stoppage of a workpiece, the workpiece was directly detected using a phototube or the like.

[Problem that the idea aims to solve]

For this reason, there are problems such as requiring a large installation space as a whole and causing detection errors due to vibration of the workpiece, etc. The purpose of this invention is to solve these problems and enable the shock absorber to detect workpiece stoppage, thereby reducing installation space and simplifying handling. The purpose is to make it easy to understand.

[Means to solve the problem]

In the shock absorber according to the present invention, a cylindrical switch holder made of non-magnetic material is extended and attached to one end of the cylinder body, and a proximity switch that is turned on and off by magnetic action is attached to the outer peripheral surface of the switch holder along the axis of the piston rod. An operation indicator lamp is installed on the outside of this proximity switch so that its position can be adjusted in the direction, and an operation indicator lamp that lights up and goes out when turned on and off is provided at the tip of the piston rod. It is equipped with a cap that operates a proximity switch.

[Effect]

When the workpiece collides with the cap at the tip of the piston rod, the piston rod is retracted while being cushioned, and the cap enters the cylindrical switch holder and faces the proximity switch on the outside of the switch holder.When this proximity switch is turned on and the workpiece is It is detected that the engine has stopped due to buffering, and this is notified by lighting the operation indicator lamp. The detection position can be changed by adjusting the mounting position of the proximity switch in the axial direction of the piston rod. The proximity switch is attached to a cylindrical switch holder attached to one end of the cylinder body, and the operation indicator lamp is provided on the outside of the proximity switch, so if you add a switch holder and proximity switch to a ready-made shock absorber, you can ,
Detection as described above can be performed.

【Example】

Hereinafter, one embodiment of the present invention will be described in detail based on the drawings. In FIG. 1, the cylinder body 1 of this shock absorber has an inner tube (not shown) in an outer tube 2, for example, in
Similar to the conventional one disclosed in Japanese Patent No. 33274, these tubes are arranged concentrically, and the openings at both ends of both tubes are closed by a head cover 3 and a rod cover 4. Inside the inner tube, a piston is slidably fitted as in the conventional case, and a return spring that urges the piston toward the rod cover 4 is housed, and between the inner tube and the outer tube 2 A storage chamber is formed, and a number of orifices are bored in the peripheral wall of the inner tube, spaced apart in the axial direction of the inner tube, for introducing the incompressible fluid (for example, oil) into the storage chamber while squeezing it. There is. When the piston rod 5 retracts, a damping effect is provided by the damping effect when the incompressible fluid passes through the orifice. A magnetic cap 6 is screwed onto the tip (outer end) of the piston rod 5. A male thread 7 is formed on the outer peripheral surface of the outer tube 2, and a mounting nut 8 is screwed into this male thread 7. Further, a cylindrical switch holder 9 made of a non-magnetic material such as aluminum is screwed onto the male screw 7 at the end thereof on the rod cover 4 side, and a lock nut 10 that locks the switch cover 9 onto the outer tube 2 are screwed together. The switch holder 9 covers the rod cover 4 and is sized to receive the cap 6. At the outer opening edge of this switch holder 9,
As shown in FIG. 3, a scraper 11 made of an elastic material such as rubber is attached to slide on the outer circumferential surface of the cap 6, and air vent holes 12 are bored at predetermined positions in the peripheral wall of the switch holder 9. A filter 13 is disposed within the air vent hole 12. A proximity switch 14 is attached to the outer peripheral surface of the switch holder 9 so that its position can be adjusted in the axial and circumferential directions of the piston rod 5 as follows. That is, as shown in FIGS. 1, 2, and 4, an elastic seat plate 15 such as a rubber plate is installed on the outer peripheral surface of the switch holder 9, and the proximity switch 14 is placed on it. A U-shaped band 16 is wrapped around the outer peripheral surface of the switch holder 9, and the holes 17 at both ends thereof are engaged with the grooves 19 on both sides of the holding piece 18.
The screw 2 screwed into the screw hole 20 of this holding piece 18
1, the proximity switch 14 is pushed from above and tightened onto the switch holder 9. Proximity switch 14
In this example, the switch is of a type that turns on when a magnetic substance approaches a predetermined position, and there is a switch on the front of the case that turns on and off depending on whether the proximity switch 14 is turned on or off.
An operation indicator lamp 22 that turns off is attached, and a lead wire 23 is drawn out from the rear surface. Note that the proximity switch 14 may be of a type that is turned on by an external magnetic field generated by a magnet. Therefore, when a work collides with the cap 6 and the piston rod 5 is retracted while being buffered,
The cap 6 plunges into the switch holder 9 while its outer peripheral surface is cleaned by the scraper 11. When the piston rod 5 reaches the head side stroke end or the work collides with the tip of the switch holder 9, the magnetic cap 6 enters the detection range of the proximity switch 14 via the non-magnetic switch holder 9. Therefore, it is detected that the proximity switch 14 is turned on and the workpiece has stopped, and the operation indicator lamp 22 is lit to display this fact. This detection position can be adjusted by loosening the screw 21 and moving the fixed position of the proximity switch 14 in the axial direction.

[Effect of the idea]

As described above, according to the shock absorber of the present invention, a cylindrical switch holder made of non-magnetic material is attached to one end of the cylinder body, and a proximity switch is attached to the outside of the cylindrical switch holder so that the position can be adjusted in the axial direction of the piston rod, so that the work can be stopped. can be detected by the shock absorber itself, making it possible to reduce the installation space and simplify handling. Further, the stoppage of the workpiece can be notified by lighting an operation indicator lamp provided outside the proximity switch. Furthermore, the detection position can be changed by adjusting the mounting position of the proximity switch in the axial direction of the piston rod.
The proximity switch is attached to a cylindrical switch holder attached to one end of the cylinder body, and the operation indicator lamp is provided on the outside of the proximity switch, so if you add a switch holder and proximity switch to a ready-made shock absorber, you can , the above detection can be performed.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway side view of an embodiment of the present invention.
Figure 2 is its front view, Figure 3 is a partially enlarged sectional view showing the relationship between the switch holder and the cap, and Figure 4
The figure is an enlarged sectional view taken along the - line in FIG. 1. 1... Cylinder body, 5... Piston rod,
6...Cap, 9...Switch holder, 14...
... Proximity switch, 22... Operation indicator lamp.

Claims (1)

[Scope of utility model registration request] A piston is slidably fitted into the cylinder body, and an incompressible fluid is enclosed, and a load applied to the piston rod in the retraction direction is applied to the incompressible fluid, and the incompressible fluid presses the orifice in the cylinder body. In a shock absorber that provides damping by a damping effect when passing, a cylindrical switch holder made of a non-magnetic material is extended and attached to one end of the cylinder body, and on the outer peripheral surface of the switch holder,
A proximity switch that is turned on and off by magnetic action is installed so that its position can be adjusted in the axial direction of the piston rod, and an operation indicator lamp that turns on and off when the proximity switch is turned on and off is provided on the outside of the proximity switch. A shock absorber further comprising a cap that switches the proximity switch when the cap is inserted into the switch holder and faces the proximity switch.