JP2563048Y2 - Limit switch operation mechanism - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a limit switch operating mechanism of an electric drive device that rotates or linearly moves.

[Prior Art] FIG. 6 is a configuration diagram showing a conventional limit switch operating mechanism. In the figure, (1) is a housing, (2) is a gear assembly, which is a gear shaft (2A), a retainer (2B), and a ball bearing. (2C), and the ball bearing (2C) is fixed by caulking the shaft end. The gear shaft (2A) is composed of a screw portion at the shaft end and a helical gear portion. (3) is a worm that meshes with the helical gear of the gear shaft (2A). (4) is a traveler having a key groove on an outer diameter, which can be restricted in rotation by a key (5) and can move in the axial direction. Gia shaft (2A) on the inside diameter
There is a female thread with the same specifications as the threaded part. (6) is a spacer which is inserted into a gap between the ball bearing (2C) of the gear assembly (2) and the cover (7) and is fixed to the housing (1) with a screw (8). (9) Adjusts the end play of the gear assembly (2) by holding the mentor part of the retainer (2B) at the tip of the set screw with the set screw and adjusting and fixing the end play. (10) is a switch plate assembly. A micro switch (10B) is screwed to a plate (10A) having a long hole for attachment to the housing (1), and a washer (10
The screw (10C) is prevented from rotating with the lock wire (10E) attached with D). Switch plate assembly (10) with spring washer (11) in housing
And screw (12).

 An operation diagram is shown in FIG. 7 to explain the operation.

Rotation of motor shaft (15) is intermediate sparger (16)
It is transmitted to the jack screw (18) via (17). The rotation of the jack screw (18) is converted to the axial movement of the acme nut (19) by the lead of the screw part, and the contraction direction (20E) is changed by the rotation direction of the motor shaft (15).
And move in the extension direction (21E). Jack screw (1
The rotation is transmitted from the worm (3) integrated with the shaft of (8) to the ga shaft (2A) of the stroke adjusting gear system, and the traveler is moved by the lead of the screw part of the ga shaft (2A) like the jack screw (18). The movement is converted into the axial movement of (4), and the plunger of the micro switch for stroke position (10B) attached to the housing (1) is operated by the traveler (4), as shown in FIGS. 8 and 9. Turn off the drive motor power. The movement of this traveler (4) and the adjustment of the micro switch (10B)
Using the long hole (10F) of the plate (10A) of the plate assembly (10), finely adjust the mounting position of the housing (1) and adjust the operating point of the plunger of the microswitch (10B) to the slot of the acme nut (19). Adjust to match.

[Problem to be solved by the invention] When adjusting the conventional limit switch operating mechanism to the specified stroke, the position of the micro switch (10B) must be moved and changed several times in accordance with the long hole of the plate. It requires a lot of adjustment time and poor work efficiency.
In addition, when changing the stroke after the finished product, there is a problem that adjustment cannot be performed unless the unit is disassembled.

The present invention has been made to solve the above-described problems, and has as its object to obtain a limit switch operating mechanism that can easily adjust a position of an adjusting portion outside the unit.

[Means for Solving the Problems] A limit switch operating mechanism according to the present invention includes a worm mounted on an output shaft, first and second gyass shafts screwed to the worm and arranged in parallel with each other. It is composed of a traveler that is screwed to each of the gyass shafts and reciprocated in different axial directions of the ga shaft by the rotation of the worm, and a limit switch that performs contact or non-contact operation with the traveler by the reciprocation of the traveler. A limit switch actuating mechanism, a unit that houses the limit switch actuating mechanism, an adjusting means that includes a knob and a screw, wherein the knob is disposed outside the unit, and the screw is screwed with the traveler. Wherein the adjusting means rotates the knob to move the traveler arbitrarily in the axial direction. In addition, it is configured such that the operating positions of the traveler and the limit switch can be adjusted.

[Operation] The adjusting means in the present invention adjusts the operating positions of the traveler and the limit switch by an operation from outside the unit.

[Embodiment of the invention] An embodiment of the invention will be described with reference to the drawings.

In FIG. 1, (1) is a housing, and (2) is a gear assembly, which is composed of a gear shaft (2A), a retainer (2B), and a ball bearing (2C). The ball bearing (2C) is fixed by pushing it into the shaft (2A) and then caulking the end of the shaft (2A). The gear shaft (2A) is composed of a screw portion at the shaft end and a helical gear portion.
(3) is a worm that meshes with the helical gear of the gear shaft (2A). (4) is a traveler having a helical gear on the outer periphery and a female screw on the inner side corresponding to the gear shaft (2A), which can freely move through a hole in the housing (1). (6) is a spacer which is inserted into a gap between the ball bearing (2C) of the gear assembly (2) and the cover (7) and is fixed to the housing (1) with a screw (8).
(9) is a set screw and the tip of Togari is Litina (2
B) The end play of the holding gear assembly (2) is adjusted and fixed to the mentry portion of (2). (10B) is a micro switch attached to the housing (1) with a washer (11) and a screw (12), and the screw (12) is prevented from rotating by a lock wire (10E).

In FIG. 2, (22) is an adjusting screw having a helical gear on the outer peripheral portion of the traveler (4), a matching unify screw, and a groove for preventing falling off, and a knurled head. The groove is fixed with a screw (13) and the end play is eliminated by a shim (14). (23) is a screw for preventing the adjustment screw (22) from rotating, and (23) is a screw for locking wire.

Next, the operation will be described with reference to FIG. The rotation of the jack screw (18) in FIG. 7 is converted as the travel of the traveler (4) according to the rotation ratio.
The plunger of the microswitch (10B) shown in FIGS. 2 and 3 is operated to turn off the drive motor. At this time, the movement of the traveler (4) is controlled by the screw (22) of the adjusting screw (22) as an adjusting means consisting of the knob (22A) and the screw (22B).
The linear motor is restricted by B), but if the power of the drive motor is cut off halfway and the adjusting screw (22) is rotated, the traveler (4) moves as shown in FIG. By performing this moving operation, the distance between the micro switch (10B) and the plunger changes, and the acme nut (1) shown in FIG.
Adjust the contraction or extension position arbitrarily within the absolute stroke (mechanical stroke) of 9). Screw (22)
Can be adjusted depending on the direction of rotation.

In the above embodiment, the operation mechanism in which the traveler (4) directly operates the plunger of the microswitch (10B) is shown. However, when the operation stroke of the unit is long, when the stroke position is detected, or when the switch mounting portion is independent. It is only necessary that the rotation transmission mechanism can be adjusted even when it is desired to perform the operation. For example, FIGS.
The structure shown in FIG.

 FIG. 4 is a front sectional view, and FIG. 5 is a partial sectional view.

In the figure, (1) is a housing, (24) and (24A) are ball bearings, and (25) and (26) hold a gear shaft. (3) is fixed to a jack screw (not shown) by a worm, and meshes with the gyass shafts of (25) and (26). (9) is a set screw which abuts against and presses the end face of the ball bearing of (24) to eliminate the movement in the pushing direction. (27) is a guide having a groove portion corresponding to the outer diameter of the pin (28) on the outer periphery and a spline tooth inside, and the traveler (29) is connected by the spline tooth and can move freely in the axial direction. (30) is a plate. A block (31) is attached with a screw (44). A switch actuator (33) and a micro switch (34) are fixed via an insulator (32) with a screw (35) and a self-locking nut (36). doing. (8) is a screw fixing the plate (30) to the housing (1).
(37) is connected to the position control device shaft by a spur gear, and meshes with the gear shaft (25) of the rotation transmitting unit.
An adjusting screw (38) is inserted from the outside through a hole formed in the housing (1) to prevent dust and the like from entering. The plate (40) is attached to the housing (1) with the screw (41) via the O-ring (39). The adjusting screw (38) and the guide (42) have a screw portion for turning, and the guide (42) is fixed by a pin (8) in a cylindrical portion of the housing (1) and is rotatably held. The adjusting screw (38) is adjusted using a driver from outside. After adjustment, screw (41) onto lock wire (41).
Fix each other using A).

Next, the operation of the embodiment shown in FIGS. 4 and 5 will be described. The rotation of the direct function transmission output shaft is reduced through the worm (3) and transmitted to the gear shafts (25) and (26). At this time, the traveler (29) tries to rotate with the threaded portion of the gear shaft (25), but the spline of the guide (27) is prevented from rotating, and the traveler (29) is arranged to move linearly with each other. Switch actuator (3
3) is operated, that is, the drive motor (not shown) is stopped by the change of the contact point of the micro switch (34). If the adjustment screw (43) is adjusted in each rotation direction, by rotating the guide (42), this rotation also rotates the traveler (29) through the spline portion. At this time, it is possible to change the mounting position of the traveler (29) on the gear shafts (25) and (26), and the micro switch (34) can adjust the operating displacement arbitrarily.
In the direction of rotation.

In addition, the micro shaft (2A) that operates the micro switch (10B) is installed in parallel with each other, and the adjusting screw (22) adjusts each traveler (4), so the operating range is set independently for each rotation direction. can do.

[Effects of the invention] As described above, according to the invention, the limit switch operating mechanism, the unit for storing the limit switch operating mechanism, the knob and the screw are provided, and the knob is disposed outside the unit. Adjusting means for screwing the traveler with the traveler, the adjusting means arbitrarily moving the traveler in the axial direction by rotating the knob, and operating the traveler and the limit switch. Since the position can be adjusted, the operating range of the limit switch can be finely adjusted from outside the unit, and the predetermined position can be controlled with extremely high accuracy. Also,
If the stroke is changed after assembly, adjustment can be made without disassembling the unit.

[Brief description of the drawings]

1 to 3 relate to a limit switch operating mechanism according to an embodiment of the present invention. FIG. 1 is a configuration diagram, and FIG. 2 (a).
Is a detailed view of the adjustment portion, FIG. 2 (b) is a view as viewed from the arrow A in FIG. 2 (a), FIG. 3 is a view showing the traveling state of the traveler, FIG. 4 and FIG. FIG. 4 shows a configuration of a limit switch operating mechanism, FIG. 5 (a) is a detailed view of an adjustment portion, and FIG. 5 (b) is a view of FIG. 5 (a). 6 to 9 relate to a conventional limit switch operating mechanism. FIG. 6 (a) is a sectional view of the operating mechanism, and FIG. 6 (b) is a view of FIG. 6 (a). FIG. 7 is a sectional view taken along the line AA, FIG. 7 is an explanatory view of the operation of the limit switch, FIG. 7 (a) is a front view, FIG. 7 (b) is a side view,
FIG. 7C is a bottom view, and FIGS. 8 and 9 are circuit diagrams of the limit switch. In the figure, (1) is a housing, (2) is a gear assembly, (3) is a worm, (4) is a traveler, (6) is a spacer, (8) is a screw, (10B) is a microswitch, (12) Is a screw, and (22) is an adjusting screw.

Claims (1)

(57) [Scope of request for utility model registration] 1. A worm mounted on an output shaft, first and second gyshafts screwed to the worm and juxtaposed to each other, and each of the gyshafts is screwed to the worm to rotate the worm. A limiter switch operating mechanism comprising a traveler reciprocated in different axial directions of the gaif shaft, a limit switch operated or contacted by the traveler by the reciprocal movement of the traveler, and the limit switch operating mechanism is housed. A unit comprising: a knob portion and a screw portion; wherein the knob portion is disposed outside the unit; and a screw portion is provided with adjusting means for screwing with the traveler. The adjusting portion rotates the knob portion. This allows the traveler to move arbitrarily in the axial direction and adjusts the operating positions of the traveler and the limit switch. Limit switch operating mechanism, characterized in that that can.