JPH07240617A - Antenna angle adjusting mechanism - Google Patents

Abstract

PURPOSE:To shorten direction adjustment time and to improve wind-speed resistance and destruction resistance by increasing the holding strength of a means for holding an antenna at an optional angle, performing fixing and releasing a fixing function when more than prescribed force is applied. CONSTITUTION:The elevation angle of a planar antenna 1 is adjusted and held by a hinge mechanism by a stay 9 with a tilting mechanism and a bracket. The stay main body 41 of the stay 9 with the tilting mechanism is attached through a rotatable spindle 42 to a transmitter-receiver 2, is provided with a lock part 45, a cam 46, a lock screw 47, a leaf spring 48 and a plunger 49 and holds the planar antenna 1 at an optional position. Fixing strength is also increased further than a holding state by the lock screw 47 and the fixing is performed. When the external force larger than the frictional force of the leaf spring 48 is also applied to a sliding part 42, by pushing back the cam 46 and releasing the fixing mechanism, destruction due to mechanical pressure applied to the stay main body 41 and the planar antenna 1 is prevented.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an angle adjusting mechanism for a wireless device with a planar antenna, and more particularly to a stay with a tilt mechanism and a planar antenna adjusting mechanism with a hinge for adjusting the elevation angle direction.

[0002]

2. Description of the Related Art A conventional radio device with a planar antenna is shown in FIG. In the figure, 1 is a plane antenna, and 2 is a radio transmitter / receiver. The angle θ between the center line 4 shown on the planar antenna 1 and the line 5 on the upper surface of the wireless transmission / reception device 2 is set to about 0 by the angle adjustment unit 3 provided in the wireless transmission / reception device 2.
It has a structure that can be adjusted up to 90 °. By adjusting the angle adjusting unit 3, the elevation angle of the planar antenna can be adjusted. For example, in satellite communication, hygiene can be captured at a required angle.

A conventional flat antenna angle adjusting device using the angle adjusting unit 3 is described in Japanese Patent Application No. 5-239084, and its configuration is shown in FIG. That is, FIG. 7 shows an exploded perspective view of the entire conventional antenna angle adjusting apparatus. Further, FIG. 8 shows a front view at the time of assembly. In the figure, the apparatus main body support portion 10 includes an antenna support portion 20 arranged in parallel with the apparatus main body support portion 10, and an operation portion 30 supported by the apparatus main body support portion 10 and the antenna support portion 20. Has been done.

The device body supporting portion 10 is a device body supporting plate 1.
1 and a stopper 12 attached to the side surface of the device body support plate 11, and the device body support plate 11 is fixed to the device body (not shown).

The stopper 12 is rotatably attached to a side surface of the apparatus main body support plate 11 facing an antenna support plate 21 described later by a pin 13 implanted in the apparatus main body support plate 11.

Further, the antenna support plate 2 of the stopper 12
On the side surface facing 1 is provided a claw portion 12a formed like a tooth tip of a gear near one end side and a guide groove 12b near the other end side. The guide groove 12b is located at one end 12b ₁ on the circumference of the pin 32a of the arm 32 to be described later is moved, the other end 12b ₂ is positioned in the clockwise direction from the one end there in the inside of the circle Is formed.

The antenna supporting portion 20 is the antenna supporting plate 2
1 and a meshing portion 22 fixed to the side surface of the antenna support plate 21, and the antenna support plate 21 supports an antenna (not shown).

The meshing portion 22 is formed by curving a rack, and is fixed to a side surface of the antenna supporting plate 21 facing the apparatus main body supporting plate 11 by a screw 22a, and is centered on a shaft 31 described later as shown in the drawing. It is curved and formed in a circular arc shape on the circumference.

The operating portion 30 includes a rod-shaped shaft 31, an arm 32 having one end fixed to the shaft 31, and a spring stretched between the other end of the arm 32 and a side surface of the apparatus body support plate 11. 33 and a knob 34 fixed to the end of the shaft 31 on the antenna support plate 21 side.

The shaft 31 is rotatably supported by holes formed substantially in the center of the side faces of the apparatus main body support plate 11 and the antenna support plate 21, respectively.

The arm 32 is arranged between the apparatus main body support plate 11 and the stopper 12 in parallel with them, and the shaft 31 is inserted into a hole formed at one end of the arm 32 to set the screw 32.
It is fixed to the shaft 31 by b.

A pin 32a that engages with the guide groove 12b of the stopper 12 and slides in the guide groove 12b is provided on the other end of the arm 32.

A spring 33 stretched between the end of the arm 32 on the pin 32a side and the side surface of the apparatus main body support plate 11.
Always pulls the arm 32 counterclockwise.
As a result, the stopper 12 is pulled toward the meshing portion 22, and the claw portion 12a of the stopper 12 meshes with the meshing portion 22.

The knob 34 is fixed to a set screw 34a at the end of the shaft 31 on the antenna support plate 21 side,
By operating the knob 34, the stopper 12 and the engagement portion 22 are engaged and released.

[0015]

In this conventional planar antenna angle adjusting mechanism, the meshing portion 22 is used in the angle adjusting portion 3. However, due to the limitation of the meshing dimension that can be standardly processed, the elevation angle adjusting angle step is set. Was 5 °. In this elevation angle adjusting step, there is a drawback in that the height cannot be adjusted to an optimum angle in terms of actual satellite capture, and the height of the main body of the transmitter / receiver device 2 is changed or the main body is moved.

Further, in the conventional plane antenna angle adjusting mechanism, the angle adjusting section 3 has the lock mechanism and the hinge mechanism for the shaft 31, so that many complicated components are required. In addition, in order to satisfy the wind speed strength of the planar antenna, the parts related to the lock mechanism and the hinge mechanism described above are increased in total weight to strengthen the strength, and when the wireless device with the planar antenna is portable or portable. Had a big problem.

[0017]

SUMMARY OF THE INVENTION An antenna angle adjusting mechanism of the present invention includes a holding means for holding a planar antenna at an arbitrary angle, a fixing means for further increasing the holding strength and fixing the flat antenna, and the fixing means. It has a holding means for holding at a predetermined angle, a fixing means for further increasing the holding strength of the holding means and fixing the holding means, and a means for releasing the holding means with a force applied with a predetermined force or more.

[0018]

The present invention will be described below with reference to the drawings.

FIG. 1 is a sectional view of a radio device with a planar antenna according to the present invention.

In the figure, 1 is a plane antenna, 2 is a transmitting / receiving device, 6 and 7 are brackets, 8 is a shaft, and 9 is a stay with a tilt mechanism. The planar antenna 1 has a structure in which the elevation angle can be adjusted and fixed by a hinge mechanism including a stay 9 with a tilt mechanism and brackets 6 and 7.

FIG. 2 shows the structure of the stay 9 with a tilt mechanism of the present invention.

The stay 9 with a tilt mechanism includes a stay body 41.
And a slide portion 42 housed in the stay body 41.

The stay main body 41 is attached to the transmitting / receiving device 2 via a rotatable support shaft 42. The slide portion 42 has a mechanism capable of rotating via a mounting bracket 43 mounted on the back surface of the planar antenna 1 and a support shaft 44.

The slide portion 42 is a flat antenna 1.
It can be slid up and down from the stay body 41 by moving.

The stay body 41 has a lock portion 45 and a cam 4 for holding or fixing the planar antenna 1 at an arbitrary position.
6, it has a lock screw 47, a leaf spring 48, and a mechanism for holding and fixing the plunger 49.

That is, the holding mechanism for the planar antenna 1 is a mechanism for automatically holding the planar antenna 1 when the planar antenna 1 is moved and stopped at an arbitrary position.

Further, the fixing mechanism of the planar antenna 1 is such that by moving the lock screw 47 of the stay main body 41 from the state of being held by the holding mechanism, the fixing strength is further increased as compared with the holding state, and it is completely at an arbitrary position. It is called a fixing mechanism.

FIG. 3 is a view showing a holding and fixing mechanism inside the stay main body 41.

In the figure, the lock portion 45 is attached to the stay main body 41 by a fixing metal fitting 50, and comprises a pressing metal fitting 51, a leaf spring 48, a steel ball 52 and a plunger 49 composed of a spring 53. It

A slide portion 42 is housed inside the stay body 41. The slide portion 42 has inward bends 54 and 55 in the longitudinal direction, and the slide portion bend portion 55 has a plurality of bends. Because of the uneven surface, the steel ball 52 in the lock portion 45 can come into contact with the uneven surface.

When the planar antenna 1 is moved, the slide portion 42 moves up and down, and at the same time moves on the uneven surface of the slide portion bend 55, so that the steel ball 52 of the plunger 49 rotates and the spring 53 expands and contracts. Let

Next, when the planar antenna 1 stops moving, the steel ball 52 of the plunger 49 is pushed by the spring 53 and enters the bottom of the recess closest to the slide portion bend 55. At this time, since it is further pushed by the spring 53, it does not move to the adjacent concave portion, so that the slide portion 42 can be automatically held by the force of the spring 53.

Further, when the lock screw 47 described below with respect to the mechanism for fixing the planar antenna 1 is rotated in the clockwise direction, the cam 46 that moves in conjunction with the lock screw 47 at the center of the lock portion 45 holds the lock portion 45. Metal fittings 51
The leaf spring 48 fixed by is pushed open.

Since the shape of the concave portion of the leaf spring 48 is the same as the shape of the concave portion of the sliding portion bend 55, it enters the concave portion of the sliding portion bend 55,
It works so that the slide portion 42 does not move.

As a result, the steel ball 5 by the plunger 49
The fixing mechanism is provided by stopping with a greater frictional force against the holding force between the second and the bent portion 55 of the slide portion.

Further, when an external force larger than the frictional force of the leaf spring 48 is applied to the slide portion 42, the cam 46 can be pushed back to release the above-mentioned fixing mechanism, so that the stay main body and the plane antenna 1 are mechanically operated. It is possible to prevent the holding mechanism and the fixing mechanism from being destroyed by applying the dynamic pressure.

Next, the hinge mechanism of the present invention will be described below.

FIG. 4 is a perspective view showing details of the hinge mechanism of the present invention.

In the figure, one of the brackets 7 is fixed to the planar antenna 1 and the other has a structure rotatable about a rotary shaft 8.

One of the brackets 6 is attached to the transmitter / receiver 2, and the other has a structure rotatable about a rotation shaft 8. As a result, the spring 60 between the bracket 6 and the bracket 7 has a hinge structure having some cushioning force.

As described above, the planar antenna adjusting mechanism of the present invention can be held by the plunger 49 of the lock portion 45 in the stay main body 41 and the uneven surface of the slide portion 42 contacting each other, and , And cam 46
Showed that the holding strength can be increased and fixed.

Since the uneven surface of the slide bending portion 55 of the slide portion 42 and the steel ball 52 of the plunger 49 both have a structure that is mechanically easy to process, they can be made very small, so that the adjustment angle step can be made smaller than before. It can be set much smaller than.

Since the leaf spring 48 also has a very simple structure, it can be fixed in a very small angle step.

The planar antenna angle adjusting mechanism described above has been described with respect to the angle adjustment of the planar antenna, but the present invention is not limited to the planar antenna and can be applied to other parabolic antennas and the like.

FIG. 5 shows a sectional view of a second embodiment in which the angle adjusting mechanism of the present invention is applied to a radio device with a parabolic antenna.

In this figure, the description of the same symbols as in FIG. 1 is omitted. The parabolic antenna 25 is a fixing bracket 2
It is attached to a stay 9 with a tilt mechanism via 7. In addition, it has a hinge mechanism inside the transmitter / receiver via the bracket 26. Also in the case of this embodiment, the parabolic antenna can be held and fixed at an arbitrary angle.

[0047]

As described above, according to the present invention, since the stay with the tilt mechanism and the hinge structure are provided as the plane antenna direction adjusting mechanism, the plane antenna direction adjusting mechanism is provided by having the holding mechanism at any position. The time required for the above can be greatly shortened, and since it has a fixing function of fixing it in that position after adjusting the direction, it is possible to obtain remarkably excellent wind speed resistance characteristics. Further, since the fixing function can be released when an external force of a predetermined value or more is applied to the planar antenna, it has a structure excellent in breakage resistance.

Further, since the structure is simpler than the conventional one, it is effective in reducing the number of parts and reducing the total weight.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a first embodiment of a wireless device with a planar antenna according to the present invention.

FIG. 2 is a cross-sectional view of a first embodiment of a stay with a tilt mechanism according to the present invention.

FIG. 3 is a detailed view of the first embodiment of the stay with a tilt mechanism of the present invention.

FIG. 4 is a perspective view of the first embodiment of the hinge mechanism of the present invention.

FIG. 5 is a sectional view of a wireless device with a parabolic antenna according to a second embodiment of the present invention.

FIG. 6 is a perspective view of a conventional wireless device with a planar antenna.

FIG. 7 is an exploded perspective view of a conventional antenna angle adjusting mechanism.

FIG. 8 is a front view of a conventional antenna angle adjusting mechanism during assembly.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Planar antenna 2 Transmitter / receiver 3 Angle adjustment unit 4 Center axis of planar antenna 5 Top and bottom line of transmitter / receiver 6,7 Bracket 8 Rotation axis 9 Stay with tilt mechanism 10 Device body support 11 Device body support plate 12 Stopper 13 Pin 20 Antenna Support part 21 Antenna support plate 22 Engagement part 25 Parabolic antenna 26 Bracket 27 Fixing bracket 30 Operating part 31 Shaft 32 Arm 33 Spring 34 Knob 40 Spring 41 Stay body 42 Sliding part 43 Mounting bracket 44 Spindle 45 Lock part 46 Cam 47 Lock screw 48 Leaf spring 49 Plunger 50 Fixing metal fitting 51 Holding metal fitting 52 Steel ball 53 Spring 54 Bending of sliding part 55 Bending of sliding part

Claims (5)

[Claims] 1. An angle adjusting mechanism for an antenna, which is attached to a wireless device and rotates in an elevation direction, comprising: holding means for holding the antenna at an arbitrary angle, and fixing means for further increasing the holding strength and fixing the antenna to the holding means. An antenna angle adjusting mechanism, which has a means for releasing the fixing means when a force of a predetermined amount or more is applied. 2. The holding means according to claim 1, wherein the transmitting device, a stay main body attached via a rotation shaft, a plunger formed of a steel ball and a spring attached inside the stay main body. , A slide part that is combined with the stay body and slides up and down, and is attached at the tip end through the antenna and the rotating shaft, and in the slide part, the uneven surface of the bending part in the longitudinal direction and the uneven surface. An antenna angle adjusting mechanism, characterized in that the steel ball is held by being inserted into the recess. 3. The fixing means according to claim 1, a leaf spring mounted inside the stay body, a cam mounted inside the stay body, rotatable, and pressing the leaf spring when rotating, and the cam. An antenna angle adjusting mechanism, characterized in that, when the leaf spring is pressed against the leaf spring, the leaf spring fixes the bent portion by pushing the concave portion of the bent portion. 4. The antenna angle adjusting mechanism according to claim 3, wherein the cam moves in conjunction with a lock switch mounted on the surface of the wireless device. 5. The antenna angle adjusting mechanism according to claim 1, wherein a rotation shaft inside the wireless device, a first bracket fixed to the antenna attached to the rotation shaft, and a first bracket fixed to the wireless device. 2 brackets,
An antenna angle adjusting mechanism comprising a hinge structure having a spring between the first and second brackets.