GB2145199A

GB2145199A - X-Y input device

Info

Publication number: GB2145199A
Application number: GB08417878A
Authority: GB
Inventors: Junichi Hosogoe; Yuichi Ida; Motoyuki Suzuki
Original assignee: Alps Electric Co Ltd
Current assignee: Alps Alpine Co Ltd
Priority date: 1983-07-14
Filing date: 1984-07-13
Publication date: 1985-03-20
Also published as: JPS6016239U; DE3425948A1; DE3425948C2; JPS6230103Y2; GB8417878D0; GB2145199B; KR890002616Y1

Abstract

An X-Y input device (4) known as a "mouse" includes a casing (8) having a lower opening through which a rotatable ball (53) partially projects downwardly for rolling movement on a base. The casing (8) further includes an annular holder (28) holding first and second driven rollers (59 and 60), first and second rotation detector means (64, 65), and a frictional-force imposing roller (61). The annular holder (28) has a dome-shaped protective cover (33) extending along an upper surface of the ball (53). <IMAGE>

Description

SPECIFICATION X-Y input device Background of the invention The present invention relates to an X-Y input device, and more particularly to an X-Y input device suitable for use as an input device associated with a graphic display apparatus.

Graphic display apparatus basically include a display screen, a display controller, a data channel, and an input device which may be of various types.

One known input device is a "joystick" having a lever supported by a gimbal mechanism and tiltable by the operator in any direction. A control device detects the direction and angle of tilt of the lever and generates voltages or digital signals indicative of coordinate values in X and Y directions. This type of input device is disadvantageous however in that the range of angular movement of the lever is limited and data signals entered by the operator are relatively unstable.

In an effort to climinate the above shortcomings, there has in recent years been developed an input device called a "mouse". One type of the mouse has a rotatable member such as a steel ball, and first and second driven rollers held in contact with the ball are rotated in response to rotation thereof. The first and second driven rollers have their axes of rotation extending substantially perpendicularly to each other. The mouse also includes first and second angle detectors means often comprised of variable resistors or encoders for separately detecting the angles or rotation of the first and second driven rollers. The ball, first and second driven rollers, and first and second angle detector means are all housed in a casing.

The casing has an opening defined in its bottom with the ball partly projecting through the opening.

In use, the casing is held by the operator to place the ball against a given base or surface. By moving the casing to cause the ball to roll on the surface in any desired direction, the first and second driven rollers are rotated about their own axes through angles dependent on the rolling movement of the ball. The directions and angles of rotation of the driven rollers are converted by the first and second angle detector means into voltages or digital signals corresponding to the rolling movement of the ball representative of coordinate values in X and Y directions. The generated signals are then entered into a display apparatus.

Summary ofthe invention It is an object of the present invention to provide an X-Y input device of the type known as a mouse, which includes mens for protecting the rotatable ball against damage when the X-Y input device is dropped or turned over, thereby ensuring stable contact of the rotatable ball with driven rollers for enabling generation of highly accurate input signals.

Another object of the present invention is to provide an X-Y input device including a casing having an upper case protected against damage from a rotatable ball disposed in the casing.

According to the present invention, there is provided an X-Y input device including a rotatable ball, and first and second driven rollers held in contact with the rotatable ball for activating respective detector means signalling the movement of the ball in X and Y coordinates. A casing for the X-Y input device has a lower opening through which the ball partially projects for rolling movement on a base, and an annular holder is provided with a domeshaped protective cover extending along an upper surface of the ball.

The above and other objects, features and advantages of the present invention will become more apparent from the following description when taken in conjunction with the accompanying drawings in which a preferred embodiment of the present invention is shown by way of illustrative example.

Brief description of the drawings Figure 1 is a perspective view of a graphic display apparatus including an X-Y input device according to the present invention; Figure 2 is a side elevational view of the X-Y; Figure 3 is a plan view of the lower case of a casing of the X-Y input device; Figure 4 is a vertical cross-sectional view of the lower case; Figure 5 is a bottom view of the lower case; Figure 6 is a plan view of an annular holder in the X-Y input device; Figure 7 is a vertical cross-sectional view of the annular holder; Figure 8 is a side elevational view of the annular holder; Figure 9 is a plan view of the upper casing Figure 10 is a verticle cross-sectional view of the upper case; Figure 10 is a vertical cross-sectional view of the upper case; Figure 11 is a cross-sectional view taken along line A - A of Figure 9; Figure 12 is a bottom view of the upper case;; Figure 13 is a plan view of a switch lever in the X-Y input device; Figure 14 is a vertical cross-sectional view of the switch lever; Figure 15 is a bottom view of the switch lever; Figure 16 is a vertical cross-sectional view of the assembled X-Y input device; Figure 17 is a side elevational view, partly in cross-section, of the X-Y input device, showing the switch lever as attached; and Figure 18 is a schematic diagram illustrative of the principle of operation of the X-Y input device to detect the rotation of the ball.

Description of the preferred embodiment Figure 1 shows in perspective a graphic display apparatus incorporating therein an X-Y input device according to the present invention.

The graphic display apparatus illustrated in Figure 1 comprises a display unit 2 mounted on a table 1 and having a screen, a controller, a data channel, an input device 3 having function keys, and an X-Y input device 4 having according to the present invention.

The X-Y input device 4 is operated by the operator on a sheet 5 placed on the table 1 to move a cursor 7 to any desired position on a screen 6 of the display unit 2.

Figure 2 shows the X-Y input device 4 in its side elevation.

The X-Y input device 4 has a casing 8 comprised of a lower case 9 and an upper case 10, the lower and upper cases 9 and 10 being molded on an ABS resin.

The upper and lower cases 9 and 10 have stepped mating peripheral edges held in interfitting engagement with each other to prevent dust, water and other foreign matter from entering into the casing 8 through the joint between the lower case 9 and the uppercase 10.

The upper case 10 is of a size which can be held by one hand of the operator. The upper case 10 includes an upper wall 11 having elongate slots 12 defined in a front position thereon and extending longitudinally of the uppercase 10. Rectangular switch levers 13 are disposed in the casing 8, and have actuating portions 14 fitted respectively in the slots 12 within the upper case 10 and projecting slightly through the upperwall 11.

As described below, pushbutton switches are located below respective switch levers 13 for deleting a portion of a displayed pattern immediately above or below the cursor 7, moving such a displayed pattern portion to another location, or effecting various other signal processing modes such as switching and control on the display unit 2.

The displayed pattern can also be processed by the input device 3 itself. The display unit 2 and the X-Y input device 4 are interconnected by a cord 15 and a plug 16.

Figures 3 through 5 illustrate the lower case 9. The lower case 9 includes a bottom wall having an upstanding peripheral wall 18 extending continuously along the outer peripheral edge thereof. The bottom wall has small holes 19 and 20 at two front corners and a rear central portion thereof. The three holes 19,20 and 21 are positioned such that an isosceles triangle would be formed by lines intercon necting the centers of these three holes 19,20 and 21.

The bottom wall also has a central larger-diameter opening 22 and an annular step 22a formed along a lower edge of the larger-diameter opening 22. A rectangular recess 22b is defined in a portion of the lower edge of the opening 22. Four threaded holes 23 are defined in the bottom wall around the opening 22.

Holes 24, 25 and 26 for receiving screws are defined in the bottom wall at the front central portion and two rear corners thereof. The bottom wall also includes integral stiffener ribs 27 extending between the screw-insertion hole 24, the opening 22, and the peripheral wall 18.

Figure 6 through 8 shown an annular holder 28 on which a rotatable ball is held.

The annular holder 28 is integrally molded of synthetic resin and has a central cavity 29 having an inside diameter larger than the diameter of the rotatable ball, and three recesses 30, 31 and 32 defined around the central cavity 29. The recesses 30,31 and 32 serve to hold the position the driven rollers and frictional-force imposing roller and open into the central cavity 29.

The annular holder 28 has an integral domeshaped protective cover 33 extending over the central cavity 29 for preventing the rotatable ball from wobbling in the cavity 29. T-shaped projections 34 are disposed on an upper surface of the protective cover 33 and serve as seats 34 against which lower surfaces of the switch levers 13 bear, the T-shaped projections 34 providing top surfaces of the annular holder 28, as shown in Figure 8.

As illustrated in Figure 6, the annular holder 28 has four threaded holes 35 defined in lateral sides of the recess 30 and ends of the recesses 31 and 32. The annular holder 28 can be fastened to the lower case 9 by screws extending threadedly into the threaded holes 23 in the lower case 9.

Figure 9 through 11 show the upper case 10. The upper wall 11 of the upper case 10 has an upwardly covex curved configuration such that it can be held in the hand of the user. The upper wall 11 has windows 36 defined in front portions thereof through which the actuating portions 14 of the two switch levers 13 extend. The upper wall 11 has threaded holes 37,38 and 39 defined in inner surfaces thereof in registry with the screw-insertion holes 24,25 and 26, respectively, in the lower case 9.

The upper wall 11 also has recessed bosses 40,41 and 42 formed on inner surfaces thereof in registry with the holes 19, 20 and 21, respectively, in the lower case 9.

The upper wall 11 also has an annular ridge 43 formed on an inner surface thereof in registry with the opening 22 in the lower case 9 and held in abutment against an upper surface of the protective cover 33 of the annular holder 28 to press the protective cover 33 downwardly for reinforcing the same. The upper wall 22 includes two integral T-shaped pressers 44 identical in shape to and in registry with the seats 34 on the annular holder 28.

The switch levers 13 are fixed in position by two sets of three fused pins 45 adjacent to the pressers 44 and their ends being sandwiched between the pressers 44 and the seats 34.

The upper case 10 has a peripheral wall 46 extending along an outer peripheral edge thereof.

The upper case 10 also has integral stiffener ribs 47 extending between the peripheral wall 46, the bosses 40,41 and 42, and the threaded holes 37,38 and 39.

Figures 13 through 15 illustrate one of the switch levers 13, the two switch levers 13 being of an identical configuration.

The switch lever 13 is integrally molded of synthetic resin and has an angularly bent cross section. The end forming the actuating portion 14 is generally cup-shaped and has a top wall from which an actuator 14a extends obliquely downwardly. The other end of the switch lever 13 has a narrower pinched portion 48, three small holes 49 defined therein and located inwardly of the pinched portion 48, and a thinned portion 50 located inwardly of the three small holes 49 for allowing the switch lever 13 to operate easily. The actuating portion 14 has a flange 14b directed away from the actuator 14afor abutment against an edge of the inside of the window 36 so as to serve as a stop against return movement of the switch lever 13 after it has been depressed. The switch lever 13 also includes stiffener ribs 51 formed on bent portions thereof.

Figure 16 shows the X-Y input device 4 as assembled.

The lower case 9 and the upper case 10 are fastened to each other by screws threaded through screw holes 24,25 and 26 into the threaded holes 37, 38 and 39. The rotatable ball, designated at 53, is made of steel and disposed centrally in the casing 8.

The ball 53 is retained in the casing 8 by the annular holder 28 and a cover 54 fitted in the step 22a around the opening 22 and secured to the lower case 9 by screws (not shown). The ball 53 has a lower end exposed downwardly through an opening in the cover 54 and is rotatable within the cavity 29 in the annular holder 28 by rolling movement on the base 5 (Figure 1).

Claims

1. An X-Y input device comprising a casing supporting a rotatable ball extending partially through a lower wall of said casing and means including first and second driven rollers held against said rotatable ball with their axes of rotation extending orthogonally for generating signals corresponding to the X and Y coordinates of the movement of said ball, and an annular holder secured to said casing and having a domed portion covering the upper portions of said ball for protecting the surface of the said ball.

2. An X-Y input device according to claim 1, said generating means, additionally including first and second detector means associated with a respective one of said first and second driven rollers for generating said signals, and means including a forceroller held against said ball for forcing it into frictional contact which said first and second driven rollers, said annular holder having recessed portions receiving said first and second driven roller and said force roller, respectively.

3. An X-Y input device according to claim 1, said casing being formed of an upper half and a lower half, said annular holder being disposed between said two halves.

4. An X-Y input device according to claim 1, the lower wall of said casing receiving a cover member having a circular opening receiving said ball and having a smaller diameter whereby said ball is held between said domed portion and said cover member.

5. An X-Y input device substantially as hereinbefore described with reference to any one of Figures 1 to 18 of the accompanying drawings.