JP3399163B2 - Stopper device for linear guide device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention prevents a slider from falling off a guide rail when a linear guide device is carried, and as a mechanical stopper when the linear guide device is operated. The present invention relates to a stopper device for a linear guide device that is attached to a guide rail to function. 2. Description of the Related Art As a conventional stopper device of a linear guide device, for example, the one shown in FIGS. 4 to 6 is known. The conventional example shown in FIG. 4 utilizes a rail mounting bolt hole 6 near the end of the guide rail 1 to form the bolt hole 6.
The rubber stopper member 7 is fitted into the stopper member. In FIG. 5 , a stopper pin 8 is provided upright by making a pin hole in the end of the upper surface 1a of the guide rail 1. As shown in FIG. FIG. 6 shows an example in which a screw hole 9b is provided at the center of a stopper member 9 having a pair of hooks 9a in which both ends of a strip-shaped steel plate are curved in a C-shape.
The hook 9a is hooked on the rolling element rolling grooves 3 provided on both side surfaces of the guide rail 1, and the top surface 1a of the guide rail is pressed by the tip end of the screw member N screwed into the screw hole 9b. The engagement force between the hook 9a and the rolling element rolling groove 3 is increased by the reaction force of
Is fixed to the guide rail 1 to prevent undesired movement of the slider (Japanese Patent Laid-Open No. 2-300517). [0004] However, such a conventional stopper device of a linear guide device has the following problems. The rubber stopper member 7 using the mounting bolt hole 6 of the guide rail in FIG. 4 is effective for preventing the slider from coming off the guide rail 1 during transportation of the linear guide device. However, since the guide rail 1 must be removed from the mounting bolt hole 6 when the guide rail 1 is mounted on the machine base, it cannot be used as a stopper after the linear guide device is mounted on the mechanical device. The stopper pin 8 shown in FIG . 5 can be used not only during transportation of the linear guide device but also as a stopper when the linear guide device is mounted on a machine. However, since it is necessary to make a pin hole in the guide rail 1, it cannot be applied to the case where the surface hardness of the guide rail 1 is increased by quenching or the like. The hook type stopper member 9 shown in FIG. 6 can be used not only during transportation of the linear guide device but also as a stopper in a state where the linear guide device is attached to the machine. However, in this case, since the screw hole 9b is formed in the stopper member 9 and the steel plate is press-formed in a C-shape, the number of processing steps is increased, and the leading end is caught in the rolling element rolling groove 3 of the guide rail 1. Since high processing accuracy is required, the manufacturing cost is high and expensive. Further, when the screw member N is screwed in a direction perpendicular to the hook 9a hooked on the rolling element rolling groove 3 of the rail, the center portion of the stopper member 9 is pulled upward. An attempt is made to secure a fixing force for clamping the guide rail 1 by a bending moment in a direction in which the hook 9a is elastically deformed and the hook 9a bites into the rolling element rolling groove 3. For this reason, when the screw member N is excessively tightened, the groove surface of the rolling element rolling groove 3 of the important guide rail 1 or the rail upper surface 1a is formed by the tip of the screw member 9 or a steel hook 9a that is hooked on the rolling element rolling groove 3 of the guide rail. Is hurt. Conversely, if the screw member N is loosely tightened, it is easy to loosen and simply presses the upper surface of the rail, and the strength as a stopper against repeated collisions of the slider is insufficient, preventing the slider from falling off and preventing movement. Be certain . Therefore, the present invention has been made to solve the above-mentioned conventional problems, and has no danger of damaging the guide rail at the time of mounting, can be easily attached and detached, and has sufficient strength as a stopper. Another object of the present invention is to provide a stopper device for a linear guide device which is easy to form and which is inexpensive. [0007] The stopper device of the linear guide device of the present invention, which achieves the above object, is provided on one of the upper and lower surfaces of a guide rail having axial rolling element rolling grooves on both side surfaces. It has a notch in the rail width direction provided, and a locking member that engages with the notch, the locking member is a plate-shaped member, and protruding pieces are provided at left and right side edges on one end side of the plate portion. A mounting portion bent inward so as to sandwich the guide rail is provided, and a notch engaging portion bent inward is provided on the other end side, and the mounting is performed such that at least a part of the plate portion is hung on an end surface of the guide rail. part of the engage and the notch engaging portion rolling element rolling grooves of the guide rail in the notch, the mounting portion
The bent portion of the end of the
The collision site where the slider moving on the inner rail comes into contact
To be mounted on the guide rail. The stopper device of the linear guide device according to the present invention comprises:
The present invention can be applied to both the case where the linear guide device is attached to the guide rail during transportation and the case where the linear guide device is used as a mechanical stopper for preventing the slider from overrunning during operation. In any case, the stopper can be mounted almost one-touch by inserting the engaging member of the stopper device into the notch at the end of the guide rail and engaging it. Guide rail surface of locking member thus mounted
The part protruding from the
Contact, and the slider comes off from the guide rail end or is over
Runs are prevented. [0010] The guide rail is usually used by cutting a long one to a required length with a cutting machine. In the stopper device of the present invention, a notch crossing in the rail width direction is provided. In forming the guide rail, the notch can be formed using the cutting machine, so that the notch can be formed easily and inexpensively. Embodiments of the present invention will be described below with reference to the drawings. Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of the linear guide device viewed from the lower surface side.
is there. The guide rail 1 of the linear guide device has both side surfaces 1b.
Has a ball rolling groove 3 in the axial direction. The slider 2 straddled on the long guide rail 1 has a rolling element rolling groove 4 on the inner surface thereof which faces the rolling element rolling groove 3 of the guide rail 1. A large number of balls 5 (or rollers), which are rolling elements, are rotatably fitted into the rolling element rolling grooves 3 and 4. When the slider 2 relatively moves on the guide rail 1 in the axial direction, these balls 5 move while rolling, and circulate through a circulation path provided in the slider 2. The guide rail 1 is used by being fixed to a machine base such as a machine tool, a robot, a measuring instrument, a precision positioning table, or the like with a mounting bolt through a mounting bolt hole 6. On the upper surface of the slider 2, for example, a driven body such as a tool post for a machine tool is screwed with a mounting bolt through a mounting bolt hole (not shown). Then, the linear movement of the driven body is guided through a slider 2 that can move smoothly along the guide rail 1. FIG . 2 shows a stopper device 1 according to the first embodiment.
FIG. 2 is a diagram showing a stop device 10 according to the present embodiment.
In the vicinity of the end face 1d of the inner rail 1, the guide rail 1
Notch 11 crossing the upper surface 1a in the width direction, and this notch
And a locking member 12 that engages with the engaging member 11. Locking member
Reference numeral 12 is a plate member such as a steel plate or a synthetic resin plate, and is bent in an L-shape at the center of a plate portion 12a having a width smaller than the rail width. The upper half portion contacts the end surface 1d and the upper surface 1a of the guide rail 1. A mounting portion Q is formed by bending inwardly protruding pieces 12b protruding from left and right side edges on the lower end side of the plate portion 12a so as to sandwich the guide rail 1. Also,
A notch engaging portion P that is bent inward at the upper end of the plate portion 12a and engages with the notch 11 is formed to protrude inward. Next, the operation will be described. The stopper device 1
0 indicates that the slider 2 is used to transport the linear guide device.
Used to prevent the guide rail 1 from falling off the end.
Used. Also runs on the guide rail 1 attached to the machine base
Slider 2 overruns and ends of guide rail 1
It is also used to prevent falling off. Its use
In doing so, the notch engaging portion P is hooked on the notch 11 on the upper surface of the guide rail 1 to be engaged, and the mounting portion Q
Is engaged with the rolling element rolling groove 3 of the guide rail 1 so as to sandwich the side surface of the guide rail, and is attached to the end of the guide rail 1 so that the lower half surface of the plate portion 12a hangs on the end surface of the guide rail 1. I do. The bent end of the notch engaging portion P of the plate portion 12a and the end of the mounting portion Q engaged with the rolling element rolling groove 3 are collision sites T in contact with the slider moving on the guide rail. According to this embodiment, the lower half of the plate portion 12a
Guide rail so that the surface hangs on the end face of guide rail 1
1 is firmly attached to the end of the
No displacement or dropout occurs even if the
There is an advantage that. The stopper device 10 shown in FIG.
FIG. 4 shows a second embodiment of the present invention.
1 crosses the lower surface 1b of the guide rail 1 in the width direction.
You. The locking member 12 has a plate portion 12 having substantially the same width as the rail width.
A mounting portion Q is formed by bending inwardly protruding pieces 12b protruding from the left and right side edges on the upper end side of “a” so as to sandwich the guide rail 1. A notch 1 is provided at the lower end of the plate portion 12a.
A notch engaging portion P engaging with No. 1 is formed to protrude inward. The notch engaging portion P is hooked and engaged with the notch 11 on the lower surface of the guide rail 1, and the mounting portion Q is engaged with the rolling element rolling groove 3 of the guide rail 1. It is mounted on the end of the guide rail 1 such that the side surface is sandwiched and the entire surface of the plate portion 12a is hung on the end surface of the guide rail 1. The bent end of the notch engaging portion P of the plate portion 12a and the end of the mounting portion Q engaged with the rolling element rolling groove 3 are collision sites T in contact with the slider moving on the guide rail. In each of the above embodiments, the linear guide device having one rolling element rolling groove 3 on the guide rail 1 on one side has been described. However, the present invention is not limited to this. The same can be applied to the above. As described above, the liner according to the present invention is
The stopper device of the guide device is horizontal in the guide rail width direction.
Notch, and at least part of the notch is
Guide rail outer surface so that it can contact the slider of the near guide device
Locking member consisting of a plate-like member projecting from
Part of the plate of the engaging member is hooked on the end face of the guide rail.
In this way, it is firmly attached to the end of the guide rail
Fixed to the guide rail using screws, etc.
Can be mounted securely and may damage the guide rail
And can be easily attached and detached.
Has sufficient strength as a package and is easy to manufacture and low cost
The guide rail can be easily attached to the guide rail.
Stopper device of linear guide device that does not have to be damaged
Is provided.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a linear guide device according to the present invention from below .
FIG. FIG. 2 (a) is a view of mounting the stopper device of the first embodiment.
, (B) is a front view after mounting, (c)
Is a side view. FIG. 3A shows how to attach a stopper device according to a second embodiment.
The perspective view shown, (b) is a front view after the attachment. FIG. 4 shows an example of a stopper device of a conventional linear guide device.
FIG. FIG. 5 shows another stopper device of the conventional linear guide device.
It is a perspective view showing an example. FIG. 6 shows another stopper device of the conventional linear guide device.
It is a perspective view showing an example. [Description of Signs] 1 Guide rail 2 Slider 3 Rolling element rolling groove (of guide rail) 10 Stopper device 11 Notch 12 Locking member P Notch engaging portion Q Mounting portion

Continuation of the front page (56) References JP-A-5-60130 (JP, A) JP-A-62-255612 (JP, A) JP-A-5-164129 (JP, A) JP-A-5-27337 (JP, A) , U) (58) Fields investigated (Int. Cl. ⁷ , DB name) F16C 29/00-31/06

Claims (1)

(57) [Claims 1] A notch in the rail width direction provided on one of the upper and lower surfaces of a guide rail having axial rolling element rolling grooves on both side surfaces.
Can and includes a locking member that engages the notch, locking member is made of plate-like members, inside so as to sandwich the guide rail protruding piece on the left and right side edges of the one end of the plate portion And a notch engaging portion bent inwardly on the other end side, and the mounting portion is turned so that at least a part of the plate portion is hung on the end surface of the guide rail. The notch engaging portion is provided in the moving body rolling groove and the notch
Engage the can, the end of the mounting portion and the notch engaging portion
The bending position of the slide on the guide rail.
A stopper device for a linear guide device, wherein the stopper device is configured to be mounted on the guide rail as a collision portion where the damper contacts .