JPH09144712A - Mounting structure of sensor switch - Google Patents

Abstract

PROBLEM TO BE SOLVED: To surely fix a sensor switch to a mounted member without displacement by fixing a sensor holder to a mounted member by a screw, positioning the screw by a tapered fastening surface and pressing the sensor switch against the sensor holder. SOLUTION: A sensor holder 14 is movable in the radial direction of a through hole 18 in the state that a screw 16 is loosened, and a space which is larger than the width of a sensor switch 13 is produced between a pressing part 14a and a sensor mounting surface 12b. The fastening surface 16a1 of the head part of the screw 16 is made in a tapered form, and a tapered surface 17 is formed in the periphery of the through hole 18. Accordingly, when the screw 16 is fastened in order to fix the sensor holder 14 to a mounting base 12, the fastening surface 16a1 is pressed against the tapered surface 17 and the central axis of the screw 16 is positioned to the center of the through hole 18. Therefore, the pressing part 14a comes nearer to the sensor mounting surface 12b, and a space formed of the pressing part 14a and the sensor mounting surface 12b is narrowed, so that the sensor switch 13 is surely pressed against the sensor mounting surface 12b by the sensor holder 14 and fixed thereto.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technique effectively applied to a sensor switch mounting structure for controlling the operation of a moving body such as an actuator.

[0002]

2. Description of the Related Art Hydraulic pressure (pneumatic pressure) for performing linear motion, for example
In an actuator that converts fluid energy such as hydraulic pressure or pneumatic pressure into mechanical energy, such as a cylinder or a hydraulic (pneumatic) motor that performs continuous rotary motion, its operating position is detected and detection information is sent to a solenoid valve. A sensor switch may be used to control the direction of movement by using a sensor switch.

The sensor switch is mounted directly on the actuator housing or on a mounting base provided separately, and the mounting structure therefor is, for example, as described in Japanese Utility Model Laid-Open No. 64-25712. It is fixed by a fixture formed according to the shape, or the sensor switch itself is directly screwed.

[0004]

However, in the technique of fixing with a mounting tool, the sensor switch is pressed against a mounted member such as a housing by this mounting tool, so that the sensor switch is securely fixed with sufficient force. May not be possible,
There was a case where a position shift occurred after the start of use and accurate switching could not be performed.

Further, in such a mounting structure, since the mounting position is limited to the place where the screw hole is formed, the sensor switch cannot be installed at an arbitrary place, which is not convenient.

Therefore, an object of the present invention is to provide a technique capable of securely fixing a sensor switch to a member to be attached without displacement.

Another object of the present invention is to provide a technique capable of freely setting the mounting position of the sensor switch.

The above and other objects and novel features of the present invention will become apparent from the description of the present specification and the accompanying drawings.

[0009]

SUMMARY OF THE INVENTION Among the inventions disclosed in the present application, the outline of a representative one will be briefly described.
It is as follows.

That is, in the mounting structure of the sensor switch according to the present invention, a mounting member having a mounting groove having a substantially T-shaped cross section in the width direction is formed on the holder mounting surface, and a penetrating member facing the mounting groove. The sensor holder is provided with a hole, and the pressing portion for pressing the sensor switch for controlling the operation of the moving body against the sensor mounting surface adjacent to the holder mounting surface and the tightening surface of the head are formed in a tapered shape. It also consists of a screw with a gap between the main body part with the external thread cut off and the through hole, and a nut that is screwed to this screw.The screw passed from the through hole to the mounting groove and the sensor holder contacted the holder mounting surface. At the same time as fixing it to the predetermined position of the mounted member in the state
And a fastening means for positioning the central axis of the screw at the center of the through hole with the tapered fastening surface to bring the pressing portion closer to the sensor mounting surface and pressing and fixing the sensor switch on the sensor mounting surface. It is a thing. In this sensor switch mounting structure, a tapered surface corresponding to the tightening surface may be formed around the through hole.

According to the above means, the sensor holder moves in the direction orthogonal to the screw tightening direction and the pressing portion approaches the sensor mounting surface of the mounted member, so that the sensor switch is securely pressed and fixed.

Also, the sensor switch mounting position can be freely set by sliding the sensor switch together with the sensor holder to a desired position on the mounted member and tightening the screw.

[0013]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a plan view showing a fluid pressure device to which a sensor switch mounting structure according to an embodiment of the present invention is applied, FIG. 2 is a sectional view taken along line II--II in FIG. 1, and FIG. FIG. 1 is a partial cross-sectional view, and FIG. 4 is a cross-sectional view showing a sensor switch mounting structure.

The fluid pressure device shown in the figure is for, for example, mounting a work (not shown) on a slide table (moving body) 1 and transferring the work. The slide table 1 has a pair of guide rails 2a extending parallel to each other. It is slidably attached to 2b. Then, the guide rails 2a,
A double-acting cylinder device 3 is attached to the central portion of the lengthwise direction 2b.

A piston 5 is provided in the housing 4 of the cylinder device 3 so as to be slidable in the axial direction. The piston 5 is partitioned into the first and second fluid chambers 6a and 6b.
Are formed. In addition, the piston 5 has a housing 4
A rod 7 is attached so as to project from one end to the outside. A first port 8a communicating with the first fluid chamber 6a and a second port 8b communicating with the second fluid chamber 6b are formed at the other end of the housing 4, respectively. Therefore, in FIG. 2, when air is introduced into the first fluid chamber 6a from the first port 8a, the piston 5 slides to the left and the rod 7 makes a stroke so as to project to the maximum length outside. Further, when air is introduced into the second fluid chamber 6b from the second port 8b, the piston 5 slides to the right and the rod 7 strokes in the opposite direction to the state described above and slightly protrudes to the outside. .

The above-mentioned slide table 1 is fixed to the rod 7 which makes such a reciprocating motion by the connecting tool 11. Therefore, the slide table 1 is guided by the guide rails 2a and 2b by the stroke of the rod 7 to reciprocate. Be moved.

As shown in FIG. 1, the guide rail 2
Shock absorbers 9 are provided on both sides of a and 2b in the longitudinal direction.
a and 9b, and stoppers 10 that abut the shock absorbers 9a and 9b at their moving ends on the side surface of the slide table 1, respectively, to alleviate the impact at the moving end of the slide table 1. The movement length is regulated.

A mounting base (member to be mounted) 12 is provided on one of the guide rails 2a so as to follow the movement path of the slide table 1. The mounting base 12 detects its operating position from the change in the magnetic field of a magnet (not shown) mounted on the slide table 1, sends detection information to a solenoid valve (not shown), and sends the detection information shown in FIG. A sensor switch 13 that performs switching so as to supply air to one fluid chamber 6 a is installed via a sensor holder 14. Then, when the slide table 1 moves to the position shown by the chain double-dashed line in FIG. 1 and this is detected by the sensor switch 13, this detection information is sent to the solenoid valve and air is supplied to the first port 8a
Flows into the first fluid chamber 6a. As a result, the piston 5 slides to the left as shown in FIG. 2, the rod 7 is projected to the outside of the maximum length, and the slide table 1 fixed to the rod 7 moves to the left in the drawing.

In FIG. 1, the sensor switch 13 is shown only on one side of the guide rail 2a, but the same sensor switch is also mounted on the other side. And
When this sensor switch detects the operating position, the solenoid valve switches the air flow path to pressurize the second fluid chamber 6b this time, and as a result, the slide table 1 is moved by the rod 7 as shown in FIG. It is moved to the position indicated by the dotted line.

Therefore, the work on the slide table 1 is transferred from one moving end to the other moving end by such a switching operation.

As shown in FIG. 4, a mounting groove 15 having an approximately T-shaped cross section in the width direction is formed in the holder mounting surface 12a of the mounting base 12 to which the sensor holder 14 is joined. . Further, a through hole 18 having a tapered surface 17 corresponding to a tightening surface 16a ₁ of a screw 16 described later is formed at a position facing the mounting groove 15 of the sensor holder 14, and the holder mounting of the mounting base 12 is further performed. A pressing portion 14a for pressing the sensor switch 13 is formed on the sensor mounting surface 12b adjacent to the surface 12a. As a result, when the pressing portion 14a is moved across the sensor switch 13 in the direction approaching the sensor mounting surface 12b, the sensor switch 13 is fixed to the mounting base 12 by the sensor holder 14.

Since the sensor holder 14 is mounted on the mounting base 12 while being in contact with the holder mounting surface 12a, the screw 16
A fixture (fastening means) 20 including a nut 19 and a nut 19 is provided. Then, the sensor holder 14 is fixed at a predetermined position of the mounting base 12 by passing the screw 16 from the through hole 18 to the mounting groove 15 and tightening the screw. In order to prevent the nut 19 from rotating as the screw 16 rotates,
The nut 19 is a square nut that comes into contact with the side surface of the mounting groove 15 to prevent further rotation.

A body portion 16b in which the male thread of the screw 16 is cut
Has a diameter such that a gap is formed when it passes through the through hole 18 of the sensor holder 14. Therefore, FIG.
As shown in (a), when the screw 16 is loosened, the sensor holder 14 is movable in the radial direction of the through hole 18, and the width of the sensor switch 13 is larger than the width of the sensor switch 13 between the pressing portion 14a and the sensor mounting surface 12b. Space is generated.

Head 1 provided on one side of main body 16b
The tightening surface 16a ₁ of 6a is formed in a tapered shape. Further, as described above, the tapered surface 17 is formed around the through hole 18.
Are formed. Therefore, when the screw 16 is tightened to fix the sensor holder 14 to the mounting base 12, the tapered tightening surface 16a ₁ and the tapered surface 17 are brought into pressure contact with each other so that the central axis of the screw 16 is the through hole of the sensor holder 14. It is positioned at the center of 18, and as shown in FIG. 4 (b), this causes the pressing portion 14 a to move closer to the sensor mounting surface 12 b of the mounting base 12. This approaching movement narrows the space formed by the pressing portion 14a and the sensor mounting surface 12b, and the sensor holder 13 reliably presses and fixes the sensor switch 13 on the sensor mounting surface 12b.

The tapered tightening surface 16a of the screw 16 is formed without forming the tapered surface 17 around the through hole 18.
Such positioning and press-fixing can be performed by only _one .

As described above, according to the mounting structure of the sensor switch 13 in the present embodiment, the sensor holder 14 is mounted on the mounting base 12 by screwing, and
The sensor holder 14 moves in the direction orthogonal to the tightening direction of the screw, and the pressing portion 14 a causes the sensor mounting surface 1 of the mounting base 12.
Since the sensor switch 13 is surely pressed and fixed by approaching 2b, accurate switching can be performed without causing a positional shift after the use of the fluid pressure device.

Here, when changing the mounting position of the sensor switch 13, the screw holder 16 is slid to the desired position of the mounting base 12 together with the sensor holder 14 in a loosened state.
Tighten the screw 16 again. Therefore, the mounting position of the sensor switch 13 can be freely set.

Although the invention made by the inventor has been specifically described based on the embodiment, the invention is not limited to the embodiment, and various modifications may be made without departing from the gist of the invention. It goes without saying that it is possible.

For example, the mounting structure of the sensor switch 13 in this embodiment is applied to the movement of the slide table 1, but it can be applied to various other moving bodies other than this.

Further, the mounting base 12 to which the sensor switch 13 is mounted need not have a certain length along the movement locus of the slide table 1 which is a moving body as shown in the present embodiment. . That is, the mount 1
2 may have only the minimum necessary length to which the sensor holder 14 can be fixed.

Further, the sensor switch 13 does not have to be provided with the mounting base 12 as in the present embodiment, but has a cross-section of approximately T directly on the housing of the actuator such as the cylinder device.
It is also possible to form a character-shaped mounting groove and directly mount the groove.

[0033]

The effects obtained by typical ones of the inventions disclosed in the present application will be briefly described as follows.

(1) That is, according to the sensor switch mounting structure of the present invention, the sensor holder moves in the direction orthogonal to the screw tightening direction and the pressing portion approaches the sensor mounting surface of the mounted member. , The sensor switch is securely pressed and fixed. As a result, accurate switching can be performed without causing a positional shift after the use of the fluid pressure device.

(2) Further, the mounting position of the sensor switch can be freely set by sliding the sensor switch together with the sensor holder to a desired position on the mounted member and tightening the screw.

(3) The effect of surely fixing the sensor switch and setting the free mounting position can be realized with a relatively simple structure in which the central axis of the screw is positioned at the center of the through hole. Therefore, the cost does not increase.

[Brief description of the drawings]

FIG. 1 is a plan view showing a fluid pressure device to which a sensor switch mounting structure according to an embodiment of the present invention is applied.

FIG. 2 is a sectional view taken along the line II-II in FIG.

FIG. 3 is a partial cross-sectional view of FIG.

4A and 4B are cross-sectional views showing a mounting structure of a sensor switch, in which FIG. 4A shows a screw before tightening and FIG. 4B shows a screw after tightening.

[Explanation of symbols]

1 slide table (moving body) 2a, 2b guide rail 3 cylinder device 4 housing 5 piston 6a first fluid chamber 6b second fluid chamber 7 rod 8a first port 8b second port 9a, 9b shock absorber 10 stopper 11 Connecting Tool 12 Mounting Base (Mounted Member) 12a Holder Mounting Surface 12b Sensor Mounting Surface 13 Sensor Switch 14 Sensor Holder 14a Pressing Part 15 Mounting Groove 16 Screw 16a Head 16a ₁ Tightening Surface 16b Main Body 17 Tapered Surface 18 Through Hole 19 Nut 20 Fixture (fastening means)

Claims (2)

[Claims] 1. An operation of a moving body, wherein a mounting member having a substantially T-shaped cross section in a width direction is formed on a holder mounting surface by opening, and a through hole facing the mounting groove is formed. A sensor holder having a pressing portion for pressing the sensor switch for controlling the sensor mounting surface adjacent to the holder mounting surface, and a main body portion having a tapered head clamping surface and a male screw A screw having a gap between the through hole and the through hole, and a nut screw-coupled to the screw, the screw is passed from the through hole to the mounting groove, and the sensor holder is in contact with the holder mounting surface. The sensor switch is fixed at a predetermined position of the mounted member, and at the same time, the central axis of the screw is positioned at the center of the through hole by the tapered tightening surface to bring the pressing portion closer to the sensor mounting surface. Mounting structure of the sensor switch, characterized in that it comprises a fastening means for pressing fixed to the sensor mounting surface. 2. The sensor switch mounting structure according to claim 1, wherein a tapered surface corresponding to the tightening surface is formed around the through hole.