CN105311838A - High-sensitivity steering device for remote-controlled flying toy - Google Patents

Abstract

The invention provides a high-sensitivity steering device for a remote-controlled flying toy. The high-sensitivity steering device comprises a drive rod, a control device and a steering controller. By means of the sectional type steering controller, a pull rod reduces the stress at the two ends of an original pull rod, deformation generated through the too heavy stress of the pull rod is reduced, therefore, the stable steering radian of an empennage can be controlled more effectively, and the overall flying effect of an aero-model helicopter is further improved.

Description

Remote control distributor toy high sensitivity deviator

Technical field

The present invention relates to model plane field, espespecially a kind of remote control distributor toy high sensitivity deviator.

Background technology

Steering controller pull bar in general model plane tail steering assembly is connected by a pull bar, because steering controller pull bar is between connection control device and steering controller, span is excessive, pull bar two ends are stressed overweight, this will can produce distortion when pulling empennage, and when pulling control device by whole piece pull bar, distortion due to pull bar causes angle out of plumb between pull bar and control device, cause pulling radian to be subject to certain impact, even affect model plane turning in flight course, turning to of restive empennage.

In view of this, provide a kind of to control the tail steering assembly that empennage turns to more reposefully and be considered as necessity.

Summary of the invention

Based on the deficiencies in the prior art, main purpose of the present invention is to provide a kind of remote control distributor toy high sensitivity deviator that can meet flying for long time.

In order to achieve the above object, the invention provides a kind of remote control distributor toy high sensitivity deviator, comprise drive link, control device and steering controller, control device and steering controller are installed on drive link two ends respectively, described drive link comprises at least one steering controller pull bar, be connected between steering controller pull bar between two, mutual level or place are on the same line; Described control device comprises two empennages, two empennage turning-bars, caudal wing shaft and empennages control forks, empennage turning-bar clamping empennage, and empennage turning-bar to be arranged on caudal wing shaft and perpendicular with it; Control fork by described empennage and connect described steering controller pull bar and caudal wing shaft.

Steering controller pull bar is two, and it is different in size, is long steering controller pull bar and short steering controller pull bar.Connected by steering controller wire clamp between steering controller pull bar between two.Control device comprises two empennages, two empennage turning-bars and caudal wing shaft, empennage turning-bar clamping empennage, and empennage turning-bar to be arranged on caudal wing shaft and perpendicular with it.

Compared with prior art, tail steering unit of the present invention adopts long, short two interconnective steering controller pull bars replace a steering controller pull bar, two steering controller pull bars are parallel to each other or are located on the same line, two ends are connected with steering controller and control device respectively, the pull bar of this segmented reduces the stressed of original pull bar two ends, also reduce with the long two ends caused of pull bar connection stressed overweight simultaneously, pull bar is out of shape and affects the disadvantage of moving radian, reduce the distortion of the stressed overweight of pull bar and generation, thus more effectively can control empennage steadily turn to radian, the overall flight effect of model helicopter is further promoted.

For making the present invention easier to understand, set forth the specific embodiment of a kind of remote control distributor toy of the present invention high sensitivity deviator further below in conjunction with accompanying drawing.

Accompanying drawing explanation

Fig. 1 is the structural representation of remote control distributor toy high sensitivity deviator of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention will be further described.

With reference to shown in Fig. 1, tail steering assembly 100 of the present invention is installed on the end of model plane, for controlling turning to of model plane.It comprises control device 1, steering controller 2 and drive link 3, and control device 1 and steering controller 2 are installed on drive link 3 two ends respectively, are manipulated the work of control device by steering controller 2.

Drive link 3 comprises at least one steering controller pull bar, and in the present embodiment, drive link 3 includes two steering controller pull bars different in size, is respectively long steering controller pull bar 31 and short steering controller pull bar 32.Drive link 3 also comprises steering controller wire clamp 33, steering controller wire clamp 33 is made up of retainer ring 330 and linking arm 331, retainer ring 330 is enclosed within the tail pipe of model plane, steering controller pull bar is fixed by screws on steering controller wire clamp 33, between steering controller pull bar, mutual level or place are on the same line, long steering controller pull bar 31 is connected with control device 1, be enclosed within the aluminium ball (sign) of control device 1, short steering controller pull bar 32 is connected with steering controller 2, is enclosed within the tooth case fork (sign) of steering controller.

Control device 1 comprises two empennages 10, empennage turning-bar 11, caudal wing shaft 12, empennage control fork 13, empennage turning sleeve 14, empennage ball cover connecting rod 15, empennage brace 16 and tailing axle joint 17.Empennage turning-bar 11 is fixed on tailing axle joint 17, and tailing axle joint 17 is fixed on caudal wing shaft 12, is fixedly clamped by two, left and right empennage 10 by empennage turning-bar 11.Empennage controls fork 13 and can form by tortuous L shape fork by one, and its one end is fixed by screws on long steering controller pull bar 31, and the other end is enclosed within the aluminium ball of empennage turning sleeve 14.Empennage turning sleeve 14 is in round table-like, and it is enclosed within caudal wing shaft 12, back and forth can move on caudal wing shaft 12, and empennage turning sleeve internal fixtion has bearing, copper sheathing and empennage brace.Empennage brace 16 fixes empennage ball cover connecting rod 15 with straight pin, and the end of empennage ball cover connecting rod 15 is contained on empennage turning-bar 11, and " [" shape framework makes empennage ball cover connecting rod 15 tortuously to swing, and drives empennage 10 and caudal wing shaft 12 to synchronously rotate composition.Like this, described caudal wing shaft 12 runs through the tailing axle joint 17 of empennage turning sleeve 14, empennage ball cover connecting rod 15 and empennage turning-bar 11; By caudal wing shaft 12 and empennage ball cover connecting rod 15, empennage 10 is fixed, and control the start of empennage 10; Controlling fork 13 by empennage that can be tortuous is arranged on long steering controller pull bar 31 by control device 1, thus, pulls by steering controller pull bar the object making it reach empennage to turn to.

In one embodiment of the invention, described steering controller pull bar is enclosed with steering wheel thread casing 34 further, for the protection of steering controller pull bar, and reduces the resistance to sliding of steering controller pull bar.

In the present invention, steering controller and control device is one in front and one in back connected by two long and short steering controller pull bars, the radian that its empennage turns to is well controlled, also reduce with the long two ends caused of pull bar connection stressed overweight simultaneously, pull bar is out of shape and affects the disadvantage of moving radian, and the overall flight effect of model helicopter is further promoted.

Above disclosedly be only the preferred embodiments of the present invention, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the present patent application the scope of the claims is done, still belong to the scope that the present invention is contained.

Claims (7)

1. a remote control distributor toy high sensitivity deviator, it is characterized in that: comprise drive link, control device and steering controller, control device and steering controller are installed on drive link two ends respectively, described drive link comprises at least one steering controller pull bar, be connected between steering controller pull bar between two, mutual level or place are on the same line; Described control device comprises two empennages, two empennage turning-bars, caudal wing shaft and empennages control forks, empennage turning-bar clamping empennage, and empennage turning-bar to be arranged on caudal wing shaft and perpendicular with it; Control fork by described empennage and connect described steering controller pull bar and caudal wing shaft.

2. remote control distributor toy high sensitivity deviator as claimed in claim 1, it is characterized in that: described control device also comprises empennage turning sleeve further, described empennage turning sleeve is enclosed within caudal wing shaft, and one end that empennage controls fork is inserted in this empennage turning sleeve.

3. remote control distributor toy high sensitivity deviator as claimed in claim 2, it is characterized in that: described control device also comprises empennage brace and empennage ball cover connecting rod further, to be combined actively by empennage ball cover connecting rod between two by empennage brace, empennage ball cover connecting rod can rotate around empennage brace.

4. remote control distributor toy high sensitivity deviator as claimed in claim 3, it is characterized in that: described control device also comprises the tailing axle joint be arranged on empennage turning-bar further, described caudal wing shaft runs through empennage turning sleeve, empennage ball cover connecting rod and tailing axle joint.

5. remote control distributor toy high sensitivity deviator as claimed in claim 1, be is characterized in that: connected by steering controller wire clamp between the described pull bar of steering controller between two.

6. remote control distributor toy high sensitivity deviator as claimed in claim 5, it is characterized in that: described steering controller pull bar is two, and it is different in size, is long steering controller pull bar and short steering controller pull bar.

7. remote control distributor toy high sensitivity deviator as claimed in claim 6, is characterized in that: described empennage controls fork can be tortuous.