JP2712204B2 - Joystick controller - Google Patents

Description

The present invention relates to a joystick-type controller used for teaching a robot, for example. [Prior Art and Problems Thereof] FIGS. 7 to 10 show a conventional joystick-type controller.
Is connected at its lower end to a universal bearing mechanism (3) by a pin (4). The lower end (1b) of the handle (1) is an operation transmitting member (8) for transmitting an operating force in the direction A shown in the figure and the other operation for transmitting an operating force in the direction B perpendicular to the arrow A direction. It is engaged with the force transmission member (7). As shown in FIGS. 7 and 8, cutouts (7a) and (8a) having a width almost equal to the lower end (1b) of the handle are formed in these operating force transmitting members (7) and (8). Notch (7
a) The handle (1) can be operated in the directions of arrows A and B in (8a), but the operating force transmitting member (8) is a shaft pin (5a) supported by the casing (20).
(5b), and these rotating powers are
The cam member (11) and the gear (13) shown in FIGS. 9 and 10 are rotated through (a) and (6b). The cam member (11) is normally engaged with the actuator (12a) of the microswitch (10a) in its recess (11a). The gear (13) has a fan shape, and a gear (13a) is formed at the lower edge of the gear (13). The gear (13) is fixed to a rotating shaft of a potentiometer (10b) fixed to the casing (20). (14a). As for the other operating force transmitting member (7), the notch (7a) having substantially the same width is engaged with the lower end (1b) of the handle (1), and the operating force transmitting member (7) can rotate in the B direction within this range. The rotational power is transmitted to shaft pins (5a) and (5b) shown in FIG. 7, and includes a cam member (11) and a gear similar to those shown in FIGS. 7 and 8. (13) are attached, and a gear (21a) fixed to the rotation shaft of the microswitch (9a) and the potentiometer (9b) is engaged with them. In addition, in FIGS. 7 and 8, reference numeral (15) denotes a rubber bellows for dust prevention, which is fixed between the handle (1) and the bellows mounting member (22). A spacer (18) integrally connects the casing (20) and the cover (17), and the casing (20) is fixed to the frame (2) stably so as not to vibrate. (19)
Is the harness cord outlet, and the micro switch (9
a) (10a) and potentiometer (9b) (10b) ON, O
A voltage proportional to the FF signal or resistance or a current inversely proportional to the voltage is taken out. The conventional joystick-type controller is configured as described above. As shown by a dashed line or a two-dot chain line in FIG. 7, the handle (1) is provided with a knob (1a) fixed to the upper end thereof. The direction of the arrow A or B, or other direction,
That is, when the handle (1) is operated in the direction of arrow A, the micro switch (10a) is turned on, and the potentiometer (10b) is rotated by engagement of the gear when the handle (1) is operated in the direction of arrow A. Can be When operated in the direction B perpendicular to the direction of the arrow A, the micro switch (9a) is turned on and the potentiometer (9b) is rotated. When operated in a so-called universal direction other than A and B, the micro switches (9a) and (10a) are both turned on, and the potentiometers (9b) and (10b) are both rotated. The conventional joystick-type controller is configured as described above and operates as described above. However, as is apparent from the above, there are a large number of components such as bearings, and it is very difficult to assemble these components. Therefore, its assembly accuracy is not very good. In addition, the number of assembly steps is large in combination with the large number of parts, so that the cost is high. Also, since there are many friction parts, the durability is poor. [Problems to be Solved by the Invention] The present invention has been made in view of the above problems and has a simple structure with a reduced number of components, easy assembly, reduced cost, and reduced friction. It is an object of the present invention to provide a joystick type controller capable of improving durability. [Means for Solving the Problems] The above object is to fix a movable member including at least a spring support portion and a potentiometer operating portion to a lower end portion of an operation rod, and to support the movable member with respect to a stationary portion by a universal bearing. A plurality of coil springs are disposed between the spring support portion and the stationary portion in a compressed or tensioned state with the bearing substantially at the center, and a ball provided in the stationary portion and having a built-in ball is provided in the movable member. Two positioning screw bodies that hold the neutral position of the operation rod by engaging with the operation rod are disposed, and the potentiometer operating section activates a pair of linear operation type potentiometers according to rotation of the operation rod, When no force is applied to the operation rod, the operation rod is automatically returned by the spring force of the coil spring so as to be at the neutral position, and the ball is engaged with the hole. This is achieved by a joystick-type controller. [Operation] Since a pair of potentiometers can be operated by one movable member, and since a plurality of springs are arranged around the universal bearing, the number of parts can be greatly reduced compared to the conventional case. Meanwhile, the ball incorporated in the positioning screw body provided in the stationary portion is fitted into the hole of the movable member to maintain the neutral position of the operation rod, so that the neutral position is reliably secured. Can be easily assembled and cost can be reduced. Embodiment Hereinafter, details of a joystick-type controller according to an embodiment of the present invention will be described with reference to FIGS. In the figure, the controller of this embodiment is (3
0), the rod-shaped handle (31) is attached to the frame (3
2) through the opening (32a) and its lower end (31b)
A bearing (33) as a universal mechanism that allows universal movement of the handle (31) is fitted via various members described later. The bearing (33) is fixed to a fixed frame or frame (32) via members described later for supporting the bearing (33). The frame (32) has a shape as shown in FIG. 6, which is fixed to a machine frame (35) shown in FIGS. 1 and 2 by bolts (not shown). The frame (32) has downward projecting portions (36) (37) (3) as apparent from FIGS. 1, 2 and 4.
8) and (39), one of which has a downward projection (3
From 6), a universal bearing support plate (40) is formed so as to protrude in the horizontal direction integrally therewith. At the lower end of the handle (31), a hat-shaped movable member (41) as shown in FIG. 6 is fixed, which mainly comprises a cylindrical portion (42) and a flat plate portion (43). Also, the flat plate (43) is partially cut out, and this part is
The ears (44) and (45) are integrally formed 90 ° apart. The opposite surface is a convex curved surface, on which openings (73) and (73) for positioning the movable member (41) at the neutral position are formed as described later. As shown in FIG. 6, the handle (31) is formed with annular grooves (31c) (31d), and a spherical knob (31a) is formed at the upper end thereof. An E-ring (56) is fitted in the groove (31c), and the handle (31) is attached to the hole (54) of the rubber dust cover (54) with a washer (57) interposed.
a). An E-ring (58) is fitted in the lower groove (31d) with a washer (59) interposed. In other words, the upper wall (54b) of the dust cover (54) is
7) It is fixed to the handle (31) by E-rings (56) and (58) via (59). Further, the handle (31) is provided with a protrusion (4) as a handle mounting portion of the movable member (41).
The screw (31e) at the lower end of the handle (31) is inserted into the hole (47) of (6), and the washer (82) is inserted into a vertical screw hole formed in the cylindrical portion (60a) of the universal bearing member (60). )
The handle (31), the movable member (41), and the universal bearing member (60) are integrated by screwing and tightening through. That is, these constitute the movable side of the joystick controller. The universal bearing support plate (40) formed below the frame (32) has a round hole (62) formed therein, and the screw portion (61a) of the ball bearing member (61) is provided with the first hole. The upper washer (6
3) The nut (64) is integrated with the frame (32). As shown in FIGS. 1 and 2, the bearing ball portion at the tip of the ball bearing member (61) is fitted into a hemispherical recess (60b) formed at the lower end of the universal bearing member (60). Let me do. Thus, the above-described universal bearing (33) is configured. That is, the handle (31) is rotatably supported in the universal direction by the universal bearing (33). The dust cover (54) is made of rubber and flexible, but has an annular mounting portion (55) made of metal fixed at the lower end thereof, and is attached to the column-shaped projection (34) of the frame (32). After applying the dust cover mounting ring (52) to the mounting part (55) and aligning the screw holes,
The dust cover (54) is attached to the frame (32) by inserting 3) and screwing it into the screw hole of the attachment portion (34). The dust cover (54) is attached to the opening (32
Since a) is closed, foreign substances and dust are prevented from entering the inside from outside (the machine frame (35) is in the form of a closed casing). Also, since this is flexible, the handle (3
It does not hinder the rotatable movement of 1). The flat portion (43) of the movable member (41) has an angular arrangement as shown in FIG. 3, that is, a universal bearing portion (33).
The coil springs (48), (49), (50), and (51) are disposed in a compressed state around this at 90 ° intervals. These are the lower surface of the upper wall portion of the frame (32) and the flat plate portion (4
The projections formed in (3) prevent them from falling off and are positioned. The equally compressed state of the four coil springs (48) to (51) allows the handle (31) to automatically assume an upright position as a neutral position as shown in FIGS. ing. Next, positioning screw bodies (67) and (68) for accurately positioning the neutral position of the above-mentioned movable member (41) shown in FIG. 5 will be described. These are arranged at angular intervals as clearly shown in FIG. 4, but this is a cylinder (6) having a thread formed on the outer wall.
9), the spring (70) provided in this bore, this spring (7
It comprises a ball (71) biased by (0) and an adjusting screw (72) for adjusting the spring force of the spring (70).
A screw is also formed on the inner peripheral wall of the cylinder (69), and an adjusting screw (72) is screwed onto the screw. The ball (71) is shown in FIG. 5 from the tip of the cylinder (69). The adjustment force of the adjustment screw (72) adjusts the force with which the ball (71) is pressed into the hole (73) as shown in FIG. The positioning screw bodies (67) and (68) are configured in exactly the same manner, and these are screw body mounting portions (65) formed integrally with the lower projecting portions (36) and (39) of the frame (32).
Screwing into the screw hole formed in (66) as shown in FIG.
The ball (71) is inserted into the holes (73) of the ears (44) (45) formed in the movable member (41).
In the neutral state in (73), the movable member (41), that is, the handle (31) is accurately positioned in the neutral state as shown in FIGS. 1 and 2 by engaging and pressing. As shown in FIGS. 1 and 2, the movable member (4
Indentations (80) (8) on the outer wall of ears (44) (45)
1) is formed, and micro switches (78) (79)
When the rollers of the actuators (78a) and (79b) are in the neutral state, they are engaged as shown. Handle (31)
Is turned in either direction from the neutral position shown in the figure, either or both of the actuators (78a) and (79a) of the microswitches (78) and (79) are indented (8
0) By exiting (81), one of these,
Alternatively, when both switches are turned on, it is detected that the handle (31) has been turned in either direction. Alternatively, the switch is OFF because both the actuators (78a) and (79a) of the microswitches (78) and (79) are fitted in the recesses (80) and (81). Depending on the condition, handle (3
1) has detected that it is in a neutral state. Potentiometer operating plates (74) and (75) are attached to the lower protruding portions (37) and (38) of the frame (32) with screws, and straight lines are inserted into the round holes of these plates (74) and (75). The main body of the actuating potentiometer (76) (77) is inserted and fixed by the mounting member, and the actuating rod (76a)
(77a) is vertically movable and is in contact with the flat plate portion (43) of the movable member (41) in FIGS. 1 and 2 showing a neutral state. Even if not specified, the linear actuating potentiometers (76) and (77) have a known structure, and have a spring inside to bias the actuating rods (76a) and (77a) and always move the movable member (41). ) Is kept in contact with the flat plate portion (43), and the operating rods (76a) (77a) project upward from the neutral position in accordance with the rotation of the movable member (41).
Alternatively, the resistance value is changed by being pushed downward. In other words, the neutral rod has a certain resistance value in the neutral state, but the operating rod (76a) (77a)
Is located above the neutral state, the resistance value is increased, and when it is located below, the resistance value is decreased. Or you may comprise so that this may be reversed. The operation of the joystick-type controller according to the embodiment of the present invention has been described above. FIGS. 1 and 2 show the upright state of the handle (31), which consists of four springs (48)-
The neutral position is automatically set by the spring force of (51). Further, as shown in FIG. 5, the balls (71) of the positioning screw bodies (67) and (68) are
4) It is positioned to automatically and accurately take the neutral position by engaging and pressing the hole (73) of (45). As shown in FIG. 1 and FIG.
8) Actuators (78a) (79a) of (79) are ears (44) (45)
The joystick controller detects that the joystick controller is in the neutral position when both switches (78) and (79) are both OFF by getting stuck in the hollows (80) and (81). . The resistance values of the potentiometers (76) and (77) take a certain value because the handle (31) is in the neutral position. Assuming that the handle (31) is turned in any direction from the above neutral position, the micro switches (78) and (79)
It is detected that one or both of the actuators (78a) and (79a) are displaced from the neutral position by detaching from the recesses (80) and (81). Also, at this time, the positioning screw bodies (67) and (68) for accurately positioning the neutral position are separated from the holes (73) of the ears (44) and (45). Since the ears (44) and (45) are convex as is apparent in FIG. 6, the contact of the ball (71) follows the inclination of the movable member (41). The contact state with the ears (44) and (45) is maintained so that the contact force is constant by (70). According to the rotation of the handle (31) in the universal direction, the operating rod (76) of the potentiometer (76) (77)
a) When (77a) protrudes or pushes in or out of the neutral position, these resistance values change, and this resistance value detects which direction and how much the handle (31) is tilted It is supposed to. After the desired operation is completed, when the operating force on the handle (31) is released, the handle (31) automatically takes an upright state by the spring force of the compression springs (48) to (51). , Set screw (67) (68) ball (71)
Are the holes (73) and (73) in the ears (44) and (45) of the movable member (41)
5 is accurately positioned at the neutral position. Further microswitches (78)
As shown in Fig. 1 and Fig. 2, both switches (78) and (79) are turned off, as shown in Fig. 1 and Fig. 2.
Then, it is detected that the handle (31) has returned to the neutral position. The embodiment of the present invention performs the above-described operations, and further has the following effects. That is, the handle (31) is rotatably supported in a universal direction by one universal bearing (33), and the spring force of the springs (48) to (51) around the universal bearing (33). Although the automatic return is performed, the return mechanism and the mechanism for universally supporting are much simpler than before, and the number of parts is much smaller than before. Further, according to the present embodiment, the positioning screw (67)
(68) allows the handle (31) to be accurately positioned at its neutral position. Furthermore, according to the present invention, as the potentiometer,
Although a linear actuating potentiometer is used, this operation is very simple. Therefore, the structure for operating the potentiometer does not require any special members. The lower surface of the flat part (43) is used, which on the other hand is used for disposing the springs (48) to (51). That is, since one member is used for supporting the spring and for operating the potentiometer, this also reduces the number of parts. Further, according to the present embodiment, the ears (4
4) At (45), the ball (7) of the set screw (67) (68)
A hole (73) for engaging with 1) is formed. Above and below this, the ears (44) and (45) are not flat, but have a convex shape, so that the handle ( Three
When 1) moves from the neutral state to the universal direction, the force with which the ball (71) of the positioning screw (67) (68) abuts against the ears (44) (45) becomes almost constant, and the stable When the movable handle (31) returns to the upright state by being in the contact state, the movable handle (31) is easily engaged with the hole (73) of the ear (44) (45). The embodiments of the present invention have been described above. However, the present invention is not limited thereto, and various modifications can be made based on the technical idea of the present invention. For example, in the above embodiment, the springs (48) to (51) are provided in a compressed state on the flat plate portion (43) of the movable member (41). However, the springs (48) to (51) may be provided in a tensioned state. Obviously, the same effect as described above can be obtained. Further, the number of the springs (48) to (51) is not limited to four but may be three.
Or four or more. In any case, a universal bearing (3
3) is arranged to be located. [Effects of the Invention] As described above, according to the joystick-type controller of the present invention, the number of parts is reduced, the assembly is simple, the cost can be reduced, and the durability is reduced. Can be improved. When no force is applied to the operation rod, the operation rod can be returned to its neutral position, and the neutral state can be reliably ensured.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal sectional view of a joystick-type controller according to an embodiment of the present invention, FIG. 2 is a longitudinal sectional view of the same embodiment seen from another direction, and FIG. FIG. 4 is a sectional view taken along line III-III, FIG. 4 is a sectional view taken along line IV-IV in FIG. 1, FIG. 5 is an enlarged sectional view taken along line VV in FIG.
6 is an exploded perspective view of the same embodiment, FIG. 7 is a cross-sectional view of a conventional joystick-type controller, FIG. 8 is a cross-sectional view taken along the line VIII-VIII in FIG. 7, and FIG. FIG. 10 is a sectional view taken along the line IX-IX in FIG. 8 and FIG. 10 is a sectional view taken along the line XX in FIG. In the figures, (31) ... handle (33) ... universal bearing (48) (49) (50) (51) ... coil spring (41) ... movable member (76) (77) ... straight line Actuated potentiometer

Claims (1)

(57) [Claims] A movable member comprising at least a spring support portion and a potentiometer operating portion is fixed to a lower end portion of the operation rod, the movable member is supported by a universal bearing with respect to a stationary portion, and a plurality of coil springs are compressed or compressed around the bearing. The tension member is disposed between the spring support portion and the stationary portion in a tensioned state, and is provided in the stationary portion, and a built-in ball is engaged with a hole of the movable member to maintain a neutral position of the operation rod. Two positioning screw bodies are provided, and a pair of linear operation type potentiometers are operated by the potentiometer operating section in accordance with the rotation of the operation rod. When no force is applied to the operation rod, the operation rod is neutralized. A joystick-type controller, wherein the ball is engaged with the hole by automatically returning to the position by the spring force of the coil spring.