FLEXIBLE ARM

Abstract

The present invention provides a flexible arm that is easily bendable yet capable of maintaining a bent state thereof. The flexible arm 8 is constituted with a coil 80 and a tube 90 provided on an outer periphery thereof. The coil 80 is formed as a double-strand coil containing a wire rod (SUS304WPB) 82 having a round cross-section and an SUS wire rod (SUS304) 84 having a triangular cross-section. On the outer periphery of the coil 80, the tube 90 made of silicone is provided so as to be in close contact therewith. By making an outside diameter of the coil 80 slightly larger than the inside diameter of the tube 90 (approximately 10% of the tube diameter), the tube 90 fits tightly to the outer periphery of the coil 80. The tube 90 is fitted over the coil 80 in a state stretched from a natural state thereof in a direction A in the figure. Accordingly, the flexible tube 90 attempts to move in the contraction direction, and therefore force in a direction compressing the coil 80 can be applied. Thus, the bent state of the flexible arm 8 can be maintained.

Claims

1. A flexible arm comprising: a coil formed by winding a wire rod in a hollow shape; a covering tube that is in contact with an outer periphery of the coil and stretched so as to generate contracting force in a direction of pressing the adjacent wire rods into contact, or that is formed with a smaller inside diameter than an outside diameter of the coil in a natural state thereof and stretched so as to generate contracting force in a radial direction.

2. The flexible arm according to claim 1, wherein the coil is formed by a wire rod having a round cross-section and a wire rod having a rectangular cross-section, and the wire rods are wound in multi-strands in a hollow coil shape such that the adjacent wire rods are in contact with each other.

3. The flexible arm according to claim 1, wherein the covering tube is formed with a silicone tube.

4. A movable device comprising: a main unit; a flexible arm having one end attached to the main unit; and a movable portion attached to the other end of the flexible arm; wherein the flexible arm comprises: a coil formed by winding a wire rod in a hollow shape; and a covering tube that is in contact with an outer periphery of the coil and stretched so as to generate contracting force in a direction of pressing the adjacent wire rods into contact, or that is formed with a smaller inside diameter than an outside diameter of the coil in a natural state thereof and stretched so as to generate contracting force in a radial direction.

5. The movable device according to claim 4, wherein a wiring is provided between the main unit and the movable portion; and the wiring is accommodated in a hollow portion of the flexible arm.

6. The movable device according to claim 4, wherein the movable portion is provided with a head-mounted display.

7. The movable device according to claim 4, wherein the coil is formed by a wire rod having a round cross-section and a wire rod having a rectangular cross-section, and the wire rods are wound in multi-strands in a hollow coil shape such that the adjacent wire rods are in contact with each other.

8. The movable device according to claim 4, wherein the covering tube is formed with a silicone tube.

9. A method for maintaining a bent state of a flexible arm having a coil when the flexible arm is bent, wherein the bent state is maintained by causing urging force to act in a direction of pressing adjacent wire rods of the coil into contact.

10. A head-mounted display provided with a prism, the head-mounted display comprising: a light intercepting cover that covers parts other than a light irradiation portion of the prism.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0028] FIG. 1 is an exterior view of a wearable computer 2 that employs a flexible arm according to one embodiment of the present invention;

[0029] FIG. 2 is a view illustrating a state where the wearable computer 2 is attached to a pair of glasses 40 via a mounting fixture 20;

[0030] FIG. 3 is a detailed view of the mounting fixture 20;

[0031] FIG. 4 is a hardware configuration diagram of the wearable computer 2;

[0032] FIG. 5 is a configuration diagram of a flexible arm 8;

[0033] FIG. 6a is a perspective view of a tube 90;

[0034] FIG. 6b is a cross-sectional view of the tube 90;

[0035] FIG. 7 is a view illustrating an internal structure of a main unit 4 and a movable portion 6;

[0036] FIG. 8a is a cross-sectional view of the tube 90 fitted over a coil 80;

[0037] FIG. 8b is a cross-sectional view, in which the tube 90 is fitted over the coil 80 and then a flange 94 is fixed;

[0038] FIG. 8c is a cross-sectional view, in which the tube 90 is fitted over the coil 80 and then flanges 92, 94 are fixed;

[0039] FIG. 9 is a view illustrating a state where the flexible arm 8 is attached;

[0040] FIG. 10 is a view illustrating a state where the flexible arm 8 is bent;

[0041] FIG. 11 is a view illustrating the wearable computer 2 according to another embodiment; and

[0042] FIGS. 12a, 12b, 12c, 12d are detailed views of a cover 200.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0043] FIG. 1 shows a wearable computer 2 having a head-mounted display as a movable device according to one embodiment of the present invention. As shown in FIG. 2, the wearable computer 2 is attached to a pair of glasses 40 via a mounting fixture 20 in use.

[0044] FIG. 3 shows details of the mounting fixture 20. The mounting fixture 20 includes a U-shaped band 22 made of metal and a retaining member 24 made of synthetic resin which is attached to a tip of the U-shaped band 22. A connecting portion 28 is provided at a rear end of the retaining member 24, and the tip of the U-shaped band 22 is slidably inserted into the connecting portion 28. The mounting fixture 20 can be fit firmly to a wearer by sliding the U-shaped band 22 and making the U-shaped band 22 contact the back side of the neck of the wearer. At a tip of the retaining member 24, a sandwiching portion 26 is formed in a U-shape which is open on a lower side thereof. In addition, an attachment guide 30 is formed on a side surface of the retaining member 24.

[0045] As shown in FIG. 2, a temple 44 of the glasses 40 is sandwiched by the sandwiching portion 26 of the mounting fixture 20 from above to fix the mounting fixture 20 to the glasses 40. A guide member 14 of the wearable computer 2 is slidingly fitted to the attachment guide 30 of the mounting fixture 20 to be fixed thereon. Thus, the mounting fixture 20 is attached to the temple 44 of the glasses 40, and the wearable computer 2 is fixed to the mounting fixture 20.

[0046] A display 12 of the wearable computer 2 may be adjusted to be in an optimum position in front of an eye of the wearer by bending the flexible arm 8.

[0047] In FIG. 1, the wearable computer 2 includes a main unit 4, the flexible arm 8, and a movable portion 6. A CPU is accommodated in the main unit 4. The main unit 4 is also provided with the guide member 14 for fixing itself to the mounting fixture 20.

[0048] A camera 10 and a head-mounted display 12 provided with a liquid crystal display panel, a backlight, and a prism are accommodated in the movable portion 6.

[0049] FIG. 4 shows a circuit block diagram of the wearable computer 2. A CPU 52 is provided in the main unit 4. An image processing circuit 50, a memory 54, a flash memory 56, an image processing circuit 58, a touch pad 60, a microphone 62, and a switch 64 are connected to the CPU 52. These circuits are driven by the power supplied by a battery (not shown) accommodated in the main unit 4.

[0050] An operating system, a control program, and the like are recorded in the flash memory 56. The switch 64 is provided for turning the power on and off and for displaying a menu on the display 12. The microphone 62 is provided for acquiring ambient sound. The touch pad 60 is a capacitance touch sensor provided for detecting a position touched by a finger and moving a cursor on the display 12.

[0051] The display 12 and the camera 10 are provided at the movable portion 6. The display 12 receives and displays an image signal from the image processing circuit 50 of the main unit 4. An image captured by the camera 10 is transmitted to the image processing circuit 58 of the main unit 4, and processed by the CPU 52 of the main unit 4.

[0052] Connection from the image processing circuit 50 to the display 12, connection from the camera 10 to the image processing circuit 58, and power connection from the main unit 4 to the display 12 and the camera 10 are provided by thin coaxial cables.

[0053] Referring back to FIG. 1, the orientation of the movable portion 6 relative to the main unit 4 is adjustable by bending the flexible arm 8. As shown in FIG. 5, the flexible arm 8 is constituted with a coil 80 and a tube 90 provided on an outer periphery thereof.

[0054] The coil 80 is formed as a double-strand coil containing a wire rod (SUS304WPB) 82 having a round cross-section and an SUS wire rod (SUS304) 84 having a triangular cross-section. In this embodiment, a diameter of the wire rod 82 is 0.8 mm and a length of a side of the wire rod 84 is 1.0 mm. The SUS wire rod (spring material) 82 and the SUS wire rod (spring material) 84 adjacent thereto are in contact with each other. The SUS wire rod 84 having a triangular cross-section is arranged such that one side of the triangle is along the outer periphery thereof and a width of the SUS wire rod 84 is narrower toward an inner side (or the SUS wire rod 84 may be arranged the other way around). A thin coaxial cable (not shown) that connects the main unit 4 and the movable portion 6 is inserted in a hollow portion 86 of the coil 80.

[0055] On the outer periphery of the coil 80, the tube 90 made of silicone is provided so as to be in contact with the coil 80. In this embodiment, while an outside diameter of the coil 80 is 54 mm, an inside diameter of the tube 90 in a natural state is 50 mm. By making the outside diameter of the coil 80 slightly larger than the inside diameter of the tube 90 (approximately 5 to 15% of the tube diameter), the tube 90 fits tightly to the outer periphery of the coil 80.

[0056] Further, in this embodiment, the tube 90 is in close contact with the coil 80 in a state where the tube 90 is stretched from the natural state thereof in a direction A in FIG. 5. Accordingly the flexible tube 90 attempts to move in the contraction direction, and therefore a force in a direction of contracting the coil 80 can be applied to the coil 80.

[0057] FIG. 6a shows details of the tube 90. In this embodiment, the tube 90 is formed by molding flexible silicone. A flange 92 is provided on one end of the tube 90. A flange 94 is provided on the other end of the tube 90.

[0058] FIG. 6b shows a cross-sectional view of the tube 90. On the end of the tube 90 provided with the flange 94, a stopper portion 96 forming a small-diameter hollow portion is provided. This stopper portion 96 prevents the coil 80 from falling off.

[0059] FIG. 7 shows an internal structure of the main unit 4 and the movable portion 6 (with lids removed). A recessed portion 100 for inserting the flange 92 of the tube 90 is provided in the main unit 4. Although not shown, a similar recessed portion is also provided on the lid side. A stopper 110 is provided adjacent to the recessed portion 100. The stopper 110 is provided for retaining the coil 80, located inside the flexible arm 8, at a predetermined position when the flexible arm 8 is attached to the main unit 4.

[0060] A recessed portion 102 for inserting the flange 94 of the tube 90 is provided in the movable portion 6. Although not shown, a similar recessed portion is also provided on the lid side.

[0061] Procedures for attaching the flexible arm 8 to the main unit 4 and the movable portion 6 will now be described. First, as shown in FIG. 8a, the coil 80 is accommodated in the tube 90. At this time, the coil 80 is inserted until one end of the coil comes in contact with the stopper portion 96 of the tube 90.

[0062] In this embodiment, a length LC (60 mm, for example) of the coil 80 is made longer than a length LT (50 mm, for example) of the tube 90 (approximately 10 to 50% longer than a total length of the tube 90). Thus, as shown in FIG. 8a, the coil 80 protrudes from the tube 90. As shown in FIG. 8b, if, in this state, the flange 94 of the tube 90 is fitted to the recessed portion 102 of the movable portion 6 so as to be fixed therein and the other end of the coil 80 is brought into contact with the stopper 110 of the main unit 4, the flange 92 of the tube 90 does not fit in the recessed portion 100 of the main unit 4.

[0063] Accordingly, as shown in FIG. 8c, the tube 90 is pulled in a direction indicated by an arrow B to fit the flange 92 of the tube 90 into the recessed portion 100 of the main unit 4. Then, the lids having the similar recessed portions therein are placed over the main unit 4.

[0064] FIG. 9 shows a state where the tube 90 is attached in this way. Note that the lids are omitted in FIG. 9.

[0065] In this embodiment, the coil is a double-strand coil, in which a wire rod with a round cross-section and a wire rod with a triangular cross-section are adjacent to each other. Thus, as shown in FIG. 10, a bent state of the flexible arm 8 can be maintained more securely when the flexible arm 8 is bent. This is because a returning resistance of a coil formed by the round and triangular wire rods adjacent to each other is larger than that of a coil formed by the round wire rods adjacent to each other when the coils are bent. Thus, the bent state can be better maintained. Further, because the inside diameter of the tube 90 is made smaller than the outside diameter of the coil 80 and the tube 90 is fitted over the coil 80 in the stretched state, the bent state can be maintained.

[0066] Accordingly, the present invention has an effect that an angle and a position of the flexible arm 8 can be easily adjusted and the adjusted position can be maintained. In this embodiment, advantageous function is obtained by the following two techniques; namely, by making the inside diameter of the tube 90 smaller than the outside diameter of the coil 80 (causing force to act in a radial direction), and by fitting the tube 90 over the coil 80 in the stretched state (causing force to act in a direction compressing the adjacent wire rods). These may be employed at once as described above. However, these may be employed separately. The function can be obtained by employing one of these two independently.

[0067] In the above-described embodiment, the double-strand coil is used as the coil 80, however, the coil 80 may be a single-strand coil. By the close contact and stretch of the tube 90, the single-strand coil also produces a function of maintaining the bent.

[0068] Further, instead of the double-strand coil, a multi-strand coil having three strands or more may also be used. However, in this case as well, the coil is preferably wound such that the adjacent wire rods consist of the round and triangular wire rods.

[0069] In the above-mentioned embodiment, the coil 80 is formed with the round and triangular wire rods. However, the coil 80 may also be formed with a round wire rod and a polygonal wire rod having four or more sides. Instead, horn-shaped wire (such as trapezoids and parallelograms) that are not regular polygonal shapes may also be used.

[0070] In the above-mentioned embodiment, the tube 90 applies force in the direction of compressing the coil 80. However, urging means (a flexible member, a spring material, or the like), which is urged in a contracting direction of the coil 80 and fixed at both ends of the coil 80, may be provided instead.

[0071] As shown in FIG. 1, in the above-mentioned embodiment, the prism of the display 12 is exposed. Therefore, sometimes the displayed image is not clear due to effect of external light. Accordingly, as shown in FIG. 11, a cover 200 may be placed over the prism. Thus, effects of the external light can be eliminated and the displayed image can therefore be made clear.

[0072] FIGS. 12a to 12d show details of the cover 200. FIG. 12b shows a plan view. As illustrated in the rear view of FIG. 12a, a side opposing the eye of the user is open. In addition, a left end (the side of the movable portion 6) shown in FIG. 12a is open for wearing. FIG. 12c is a front view and FIG. 12d is a side view.

[0073] While light is intercepted by the cover 200 in the above description, paint for intercepting light may be applied to a surface of the prism.

[0074] In the above-mentioned embodiment, a case where the flexible arm 8 is applied to the wearable computer was described. However, the flexible arm 8 may be applied to, for example, medical equipment, home electrical appliances, and industrial equipment at portions that require positional adjustment by bending. More particularly, the flexible arm 8 is highly effective when used with devices such as cameras, displays, and sensors that require positional adjustment.