JPS59119905A - Lifting device of antenna - Google Patents

Abstract

PURPOSE:To prevent the damage due to burning of a motor by providing a movable draw-out structure of an antenna driving cord and turning off the driving motor with a shift of said draw-out structure. CONSTITUTION:A worm wheel of a draw-out mechanism 5 engages with a worm shaft 7 provided to an output shaft of a motor 2. A driving cord 12 is held with pressure between a V-shaped groove wheel which is coaxial to the worm wheel and a pinch roller 11 to move up and down an antenna. A housing 8 of the mechanism 5 is held by a spring mechanism so that the mechanism 5 can move forward and backward to the draw-out direction of the cord 12. If an abnormal load is applied to the code 12, the revolutions of a V-groove wheel 10 are restricted to move the housing 8. This shift of the housing 8 actuates a switching mechanism 29 to stop the revolution of the motor 2.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a method for raising an antenna by rotation of a drive motor.
The present invention relates to an antenna lifting and lowering device equipped with a feeding mechanism for feeding out or rewinding a drive for moving a wire.

Various antenna devices of this type have already been proposed, but
In both cases, the feeding mechanism is fixed inside the antenna holder. Therefore, if the drive cord becomes loose or the exposed antenna freezes in a cold region and the drive resistance is large, the initial load of motor drive becomes excessive and the motor may burn out. In particular, these conditions are very important recently, as antenna devices have become smaller and motors have also become smaller.

The present invention has been made based on the above circumstances, and can prevent motor burnout during overload, can automatically stop the antenna at the upper or lower limit, and can obtain these functions with a simple structure. The present invention aims to provide an antenna casting device that can reduce the size and weight of the entire device.

For this purpose, the present invention provides an Ilt IFJ that feeds out a drive cord for raising and lowering an antenna so that it can move forward and backward in the direction in which it is fed out, and that applies a load greater than a predetermined load to the feeding mechanism via the drive cord. When it happened,
The present invention is characterized in that a switching mechanism is disposed corresponding to the feeding mechanism so as to move the feeding mechanism and turn off the drive motor of the drive cord.

Hereinafter, one embodiment of the present invention will be specifically described with reference to the drawings.

In Figures 1 to 3, there is a J3, and the issue 1 has an antenna device... body C, and inside, depending on the person, a motor 2, a drive cord storage part 3. A transmission system 4 and a feeding mechanism 5 are equipped. The varnish motor 2 has an output shaft 6 connected to a shaft 7 that constitutes a transmission system 4, and a worm wheel 9 that is pivotally supported by a housing 8 of a feeding mechanism 5 meshes with the worm shaft 7. has been done. A Vg wheel 10 that constitutes a feeding mechanism ji is coaxially attached to the worm wheel 9, and a drive cord 12 that lifts and lowers the antenna is connected to a pinch roller 11 disposed opposite the worm wheel 9. is held under pressure. The pinch roller 11 is pivotally connected to an arm 13, one end of which is pivotally supported to the housing 8 by a pin 14, and the other end connected to a tension spring 15. The tension spring 15 is engaged with a spring hook 1G provided at another location of the housing 8 in order to push the binder 11 toward the V-groove wheel 10. The drive cord 12 held between the groove wheel 10 and the pinch roller 11 is guided outward through one guide tube 17 and into the drive cord storage section 3 through the other guide tube 18. The guide tube 18 is curved in an arc shape and connected to the drive cord storage section 3, and the guide tube 18 is connected to the drive cord storage section 3, and the guide tube 18 is connected to the drive cord storage section 3.
Guide it so that it is rolled up into the drive cord storage section 3 shown in the figure. The drive code storage section 3 is a disc-shaped container with one end open, and is equipped with a pivot 19 in the center so that it can rotate within the target object 1.

The housing 8 is resiliently supported by a resilient mechanism 20 so as to be movable in the direction in which the drive cord 12 is fed out (see FIG. 4). That is, switching units 21 and 22 are attached to the housing 8 at the front and rear of the forward and backward directions, and are fitted into support members 23 and 24 provided in the target object 1 so as to be slidable in the axial direction. ,”-Note support part $J2
Compression coil springs 25 and 26 are interposed between 3.24 and the base of the slide rod 1.22 shown in -b. In response to this, the housing 8 is held in the forward and backward direction.

In order to enable this forward and backward movement, the slide rons 21 and 22 are movable parallel to the arm shaft 7. In Figure 83, reference numeral 27 indicates A-arm shaft 7, which is supported by J.
It is a bearing that is fixed to one piece 1.

A switch operator 28 is integrally attached to the housing 8, and corresponds to a switch mechanism 29 having a 4R configuration of a three-pole switch. That is, the switch device IF η29 has a fixed contact plate 30 on the medium heat (not shown in FIG. 5), and movable contact plates 31 and 32 on both sides thereof.
One end of the switch operator 28 is located between the two movable contact plates 31 and 32. When the switch operator 28 moves in accordance with the movement of the housing 8, one of the movable contact plates 31 and 32 is separated from the fixed contact plate 30. , this J: By switching the switching operation of the switch mechanism 29, the motor 2 is switched to A.
On/Off operation is performed. J5 In this embodiment, when the movable contact plate 32 is moved away from the fixed contact plate 30, the motor 2
When the movable contact plate 31 separates from the fixed contact plate 30, the rotation of the motor 2 in the retracting direction is turned off.

In such a configuration, when the motor 2 is started, the worm shaft 7 rotates and the worm wheel 9 is rotated at a reduced speed with a relatively large torque. Therefore, the V-groove wheel 10 (numbered) installed coaxially with this operates in a manner that does not feed out the drive cord 12, and by the action of this V-groove wheel 10 and the pinch roller 11, the drive cord 12 is fed outward. I can put it out. At this time, the groove wheel 10 and the pinch roller 11 perform a feeding action by pinching the straight portion of the drive cord 12, so that the drive cord 12 does not buckle and the drive cord 12 is strongly operated. It can be sent outside. Therefore, if you are in a cold region with J'3 and the drive code is 12.
Even if the antenna iron that is attached to the tip of the antenna iron hardens or freezes, the antenna iron can be extended relatively smoothly.If the drive cord 12
When an abnormal load is applied to the V-groove wheel 10, the rotation of the V-groove wheel 10 is restricted, and the housing 8 moves backward against the spring 25, causing the switch to move against the movable contact plate 32 on the side 29 of the switching machine. The operator 28 operates to stop the motor 2. Such automatic stopping of the motor 2 is similarly performed when the antenna rod reaches its extension limit.

When the rotation direction of the mower 92 is reversed, the V-groove wheel 10 operates to retract the drive cord 12. In this case as well, even if the drive cord 12 is hardened or the antenna [Irad is frozen], the retraction operation of the antenna rod can be performed relatively smoothly. When an excessive load is applied to the drive cord 12, such as when the antenna rod reaches its contraction limit, the housing 8 moves forward against the spring 26, and the switch operator 28 presses the movable contact plate 31, causing the motor to move. Stop 2.

As described in detail above, according to the present invention, when a load exceeding a predetermined value is applied to the drive coat feeding mechanism, the drive motor is switched and the drive cord is stopped. It is possible to automatically stop F at the limit or lower limit, and even if the drive cord is hardened or the antenna rod is frozen in a cold region, it is possible to prevent the drive 9 from burning out due to overload. Furthermore, the switching operation described above uses the drive cord payout mechanism to move the drive cord forward and backward, eliminating the need for a separate device such as an overload cutoff clutch, simplifying the structure, and simplifying the vertical movement. The entire device can also be made smaller and lighter.

[Brief explanation of the drawing]

Fig. 1 is a longitudinal sectional side view of an embodiment of the present invention, Fig. 2 is a longitudinal sectional view of the main part taken on another section, Fig. 3 is a sectional view taken along the line A-A in Fig. 1, and Fig. 4 The figure is a sectional view taken along the line B--B in FIG. 1, and FIG. 5 is a side view of the switch mechanism. DESCRIPTION OF SYMBOLS 1... Target, 2... Motor, 3... Drive cord storage part, 4... Transmission system, 5... Feeding mechanism, 6...
... Extrusion shaft, 7... Worm shaft, 8... Housing, 9... Two A-m wheels, 10... Groove wheel, 11... Pinch roller, 12... Drive cord, 13... To arm 14... Bin, 15... Tension spring, 16... Spring hook, 17°1
8...Guide tube, 19...Pivot, 20...Bulging mechanism, 21.22...Switching, 23.24...
・Support member, 25.26... Compression spring, 21・
...Bearing, 28...Switch operator, 29...Switch (number of structures), 30...Fixed contact plate, 31.32...
Movable contact plate. Special W [Applicant Yokoo Seisakusho Co., Ltd. Agent 1] Filled with earth Kobashi Kabu

Claims (1)

[Claims] A mechanism for feeding out a drive cord for raising and lowering the antenna is supported so that it can move forward and backward in the feeding direction, and when a load of more than a predetermined load is applied to the feeding mechanism via the drive cord, the locking mechanism is activated. move, drive = 1-
An antenna elevating device characterized in that a switching mechanism is disposed corresponding to the feeding mechanism so as to turn off the drive motor of the antenna.