CN201370966Y - Toy plane steering structure and infrared four-channel remote controlled electric toy plane - Google Patents

Abstract

The utility model discloses a toy plane steering structure and an infrared four-channel remote controlled electric toy plane. The toy plane steering structure comprises a small inner ring sleeve, a large outer ring sleeve, an oval shaft and a fan-shaped gear, wherein the small inner ring sleeve is provided with a square circular hole and an arc-shaped bulge, and contacts with the oval shaft along the second quarter and the fourth quarter driven by the fan-shaped gear, and the large outer ring sleeve is provided with an oval hole and contacts with the oval shaft along the first quarter and the third quarter driven by the fan-shaped gear. The infrared four-channel remote controlled electric toy plane adopts the steering structure, and the wing rotating angle can be changed through the contact of the small inner ring sleeve or the large outer ring sleeve with the oval shaft. Therefore, the utility model simplifies the steering structure, simultaneously greatly reduces the product cost, and realizes the forward / backward as well as leftward flying / rightward / flying functions of the mini toy plane.

Description

Steering structure for toy airplane and infrared four-channel remote control electric toy airplane

Technical field

The utility model relates to a kind of steering structure of toy airplane, a kind of specifically being applied in has the steering structure of propeller unit toy airplane up and down, in addition, this steering structure is realized rising/decline thereby the utility model also relates to a kind of use, forward/backward, the left side fly/right side flies the infrared four-channel remote control electric toy airplane of left whipping/right whipping function.

Background technology

Have a kind of toy steering wheel on the existing market, this steering wheel has rising/decline, forward/backward, and the left side flies/and the right side flies the function of left whipping/right whipping.In order to realize forward/backward, the left side flies/right side chikung energy, and this steering wheel adopts weight to reach the application-specific integrated circuit control of 6 grams.Thereby this steering wheel complex structure, control accuracy height are only applicable to Professional Model and make this steering wheel because manufacturing cost is higher and can't popularize in addition.

The Chinese patent publication number is the electronic toy helicopter of CN2759542, comprise body and remote controller, described body comprises propeller unit, fuselage and the support with two groups of screws, wherein, described propeller unit is positioned at body upper and is attached thereto, support is positioned at the fuselage below and is attached thereto, and is used for support helix unit and fuselage.Described propeller unit comprises screw, following screw, hollow shaft, steering mechanism and primary spindle.Wherein said hollow shaft is arranged in the middle part of described hollow shaft, the described sheathed and described fuselage of screw of going up, described steering mechanism is connected with described hollow shaft middle-end, the middle part of the sheathed and described hollow shaft of described down screw, described upward screw is sheathed on the top of described hollow shaft, in addition, it is outer and link to each other with last screw that described primary spindle is sheathed on hollow shaft.Above-mentioned electronic toy helicopter can be accomplished the balance of taking off, and control nimbly and freely.But steering mechanism's more complicated of this electronic toy helicopter, cost is higher.

The utility model content

The purpose of this utility model provides a kind of steering structure for toy airplane simple in structure, solves in order to realize forward/backward, and the left side flies/and the right side flies and makes the baroque problem of steering wheel.

Thereby another purpose of the present utility model provides this steering structure of a kind of use and realizes rising/decline, forward/backward, and the left side flies/and the right side flies the infrared four-channel remote control electric toy airplane of left whipping/right whipping function.

The technical scheme that its technical problem that solves the utility model adopts is:

Steering structure for toy airplane comprises little inner ring sleeve, big outer ring set, elliptical shaft, sector gear; Little inner ring sleeve has square circular hole and arc convex, and little inner ring sleeve contacts with elliptical shaft at drive lower edge two, the four-quadrant of sector gear; Big outer shroud cover has elliptical aperture, and drive lower edge one, three quadrants that big outer shroud is enclosed within sector gear contact with elliptical shaft.

Described little inner ring sleeve along two, the contact angle that contacts with elliptical shaft of four-quadrant is 135 degree.

The contact angle that described big outer ring set contacts with elliptical shaft along one, three quadrants is 45 degree.

Described little inner ring sleeve is apparent to be colluded shape and has three square grooves and two arcuation projectioies, and the arcuation projection is arranged on the circumference bore edges, and wherein the square groove in hook end portion is set on the pin of sector gear, and two square grooves are set on the pin of putting into the diagonal angle on the shelf in addition.Big outer ring set is also apparent to be colluded shape and has three square grooves and annular projection, be installed with elliptical aperture in this annular projection, the side is provided with two circular arc mouths that become the diagonal angle, little inner ring sleeve passes these two circular arc mouths and big ring overcoat and becomes to intersect assembling, wherein be set on the pin of projection of second sector gear at the square groove of hook end portion, two square grooves are set on last remaining two pins that become diagonal angles of putting on the shelf in addition.

Described little inner ring sleeve passes these two circular arc mouths and becomes to intersect to be assembled into 45 ° of assemblings with big ring overcoat, and it is 90 ° that the angle is closed in both motions.

Described elliptical shaft upper end is for square shape and have the groove that makes things convenient for the screw anglec of rotation under the elliptical shaft adjustment, the centre is cylindric, low side is an ellipticity, and its lower curtate is placed in the hole between the arcuation projection of little inner ring sleeve, and the middle part is placed in the elliptical aperture of big outer ring set; Circumference hole, elliptical aperture, elliptical shaft three be center line altogether, and the elliptical shaft upper end is fixed on down on the fixed mount of screw connection.

The infrared four-channel remote control flivver, comprise nose shell, foot rest, oar support, foot piece, empennage, up and down propeller unit, be fixed on the driving mechanism of screw up and down in the oar support, the control system of control motor rotation, also comprise steering structure, this steering structure comprises little inner ring sleeve, big outer ring set, elliptical shaft, sector gear; Little inner ring sleeve has square circular hole and arc convex, and little inner ring sleeve contacts with elliptical shaft at drive lower edge two, the four-quadrant of sector gear; Big outer shroud cover has elliptical aperture, and drive lower edge one, three quadrants that big outer shroud is enclosed within sector gear contact with elliptical shaft.

The beneficial effects of the utility model are: contact with elliptical shaft just can reach and starch rotational angle under the change owing to adopt in the little ring cover or encircle overcoat greatly, thereby its steering mechanism that makes is simple in structure, also reduced simultaneously the cost of product greatly, make mini toy airplane can realize forward/backward, the left side flies/right side chikung energy.

Description of drawings

Fig. 1 is the perspective view of preferred embodiment;

Fig. 2 is oar support, the perspective view of propeller unit, screw driving mechanism, steering mechanism's combination up and down;

Fig. 3 is the perspective exploded view of Fig. 1;

Fig. 4 is the structural representation of putting on the shelf;

Fig. 5 is the structural representation of undercarriage;

Fig. 6 is the structural representation of sector gear;

Fig. 7 is big outer shroud nested structure schematic diagram;

Fig. 8 is little inner ring sleeve structural representation;

Fig. 9 is the structural representation of elliptical shaft;

Figure 10 realizes that the left side flies and the fly action schematic diagram of function of right side;

Figure 11 realizes moving forward and backward the action schematic diagram of flight function;

1. nose shells among the figure, 2. foot rest, 3. oar support, 31. put on the shelf, 311. large through-hole, 312. pin holes, 313. through holes, 314. projectioies, 315. balancing pole, 32. undercarriages, 321. motor hole, 4. foot pieces, 5. empennage is 6. gone up propeller unit, 61. primary spindles, screw on 62., 7. descend propeller unit, 71. hollow shafts, 72. times screws, 8. screw driving mechanism up and down, 81. driven pulley, 9. steering mechanism, 91. little inner ring sleeves, 911. circumference holes, 912. the arcuation projection, 913. square grooves, 92. big outer ring sets, 921. annular projection, 922. elliptical apertures, 923. circular arc mouths, 93. elliptical shaft, 94. sector gears, 10. main motor, 101. motor gear, 11. small machines

The specific embodiment

As shown in Figure 1 to Figure 3, present embodiment comprises nose shell 1, foot rest 2, oar support 3, foot piece 4, empennage 5, goes up propeller unit 6, down propeller unit 7, be fixed on the MCU program control system (not shown) of the driving mechanism of screw up and down 8 in the oar support 3, at least one steering mechanism 9, control motor rotation, concrete selection part and part is installed can be the electronic toy helicopter patent of ZL200720055016.8 with reference to Chinese publication number.

As shown in Figure 2 to Figure 3, last propeller unit 6 comprises that mainly primary spindle 61, two go up screw 62; Following propeller unit 7 mainly comprises hollow shaft 71, a pair of screw 72 down; Primary spindle 61 or hollow shaft 71 can be with reference to prior aries with the installation of screw, its hollow mandrel 71 passes in the endoporus of driven pulley 81 that primary spindle 61 is fixed on down the screw driving mechanism, and primary spindle 61 then is fixed in the endoporus of driven pulley 81 of screw driving mechanism; Because the external diameter of hollow shaft 71 is greater than the external diameter of primary spindle 61 and be shorter in length than primary spindle 61, so when screw driving mechanism 8 drives up and down screw during the unit, motion between the oar is not disturbed mutually up and down, and concrete selection and the installation between the part about other cell parts on the propeller unit can be with reference to prior aries.

To shown in Figure 5, oar support 3 comprises puts 31 and undercarriage 32 on the shelf as Fig. 2; Putting on the shelf 31 has six angles, is installed with large through-hole 311 at put on the shelf two diagonal angles of 31 front and back of nose shell 1 direction relatively, screw or pin pass these two large through-holes 311 and 32 two large through-holes of undercarriage will put on the shelf 31 and undercarriage 32 be fixed together; Put on the shelf other four angles of 31 are installed with pin hole, squeeze into pin in order to sheathed little inner ring sleeve 91 on pin hole; 31 the positive center of putting on the shelf also is provided with the projection 314 of a band through hole 313, and this through hole 313 is used for interting primary spindle 61 and the hollow shaft 71 that drives screw rotation up and down, and this projection 314 is used for the circumference hole 911 of sheathed little inner ring sleeve 91; Put on the shelf in addition 31 side is added with two balancing poles 315, and the center of these two balancing poles 315 is on a line; Relative nose shell 1 direction, undercarriage 32 rear and front ends are provided with the motor hole 321 of placing motor, main motor 10 is placed in two motor holes, front 321, small machine 11 is placed in latter two motor hole 321, main motor 10 is used for driving screw driving mechanism 8 up and down, and small machine 11 is used to drive little inner ring sleeve 12 or encircles the sector gear 94 that overcoat 92 connects greatly.

As shown in Figure 2 to Figure 3, screw driving mechanism 8 comprises two main motors 10 and two main driven gear groups up and down, the motor gear 101 that main motor 10 drives on its rotating shaft, and then drive the driven pulley 81 be meshed with it, because hollow shaft 71 or primary spindle 61 are fixed in the endoporus of driven pulley 81, main like this motor 10 just can drive hollow shaft 71 or primary spindle 61 rotations, goes up screw 62, upward screw 72 rotations thereby drive.

To shown in Figure 11, steering mechanism 9 comprises that the little inner ring sleeve of the big outer ring set of two sector gears 94,92,91, an elliptical shaft 93 and big outer ring set 92, little inner ring sleeve 91, elliptical shaft 93 order from top to bottom are followed successively by elliptical shaft 93, outer ring set 92, little inner ring sleeve 91 greatly as Fig. 1 to Fig. 3, Fig. 6; Sector gear 94 is placed on place, undercarriage 32 back, and be meshed with the motor gear 101 on the small machine 11, a projection is arranged on this sector gear 94, pin hole is arranged in the projection, stamp pin on this pin hole, this pin is used for driving little inner ring sleeve 91 when sector gear 94 motion or big outer ring set 92 moves; Little inner ring sleeve 91 shows and colludes shape and have three square grooves 913 and two arcuation projectioies 912, be circumference hole 911 between the arcuation projection 912, wherein the square groove 913 in hook end portion is set on the pin of sector gear 94, two square groove holes 911 are set on the pin at the 31 one-tenth diagonal angles of putting on the shelf in addition, and the projection 314 of the band through hole 313 of 31 centres of putting on the shelf is passed in circumference hole 911; Big outer ring set 92 is also apparent to be colluded shape and has three square grooves 913 and annular projection 921, be installed with elliptical aperture 922 in this annular projection 921, the side is provided with two circular arc mouths 923 that become the diagonal angle, little inner ring sleeve 91 passes these two circular arc mouths 923 and 92 one-tenth in big ring overcoat and intersects assembling, preferred assembling at 45, it is 90 ° that the angle is closed in both motions, wherein be set on the pin of projection of second sector gear 94 at the square groove 913 of hook end portion, two square grooves 913 are set in and put on the shelf on 31 on remaining two pins that become diagonal angles in addition; The elliptical shaft 93 upper end side's of being shape and having makes things convenient for elliptical shaft 93 to adjust the groove of propeller unit 6 anglecs of rotation down, the centre is cylindric, low side is an ellipticity, and its lower curtate is placed in the hole between the arcuation projection 912 of little inner ring sleeve 91, and the middle part is placed in the elliptical aperture 922 of big outer ring set 92; Circumference hole 911, elliptical aperture 922, elliptical shaft 93 threes are center line altogether, and elliptical shaft 93 upper ends are fixed on down on the fixed mount of screw.

Screw is an active force slurry on the present embodiment, and the centre has balancing pole to be responsible for aircraft balanced, and following slurry is for controlling slurry, operating aircraft realization forward/backward, and the left side flies/function that the right side flies.When two slurry rotating speeds were consistent up and down, aircraft rose when main motor 10 quickens, and aircraft descends when main motor 10 slows down.Two slurry differentials are realized the function of left whipping/right whipping.

As shown in figure 10, present embodiment flies and the right side function of flying in order to realize the left side, the MCU program control system drives small machine 11, small machine 11 then drives sector gear 94 by the motor gear on it 101, pin on sector gear 94 projectioies drives little inner ring sleeve 91 and moves on sector gear 94 directions, make in the little ring cover 91 along two, four-quadrant becomes 135 degree contact with elliptical shaft 93, thereby flies and right side chikung energy on the left of changing inclination angle, the left and right sides realization flivver that slurry rotates down.

As shown in figure 11, present embodiment is in order to realize the flight function that moves forward and backward, the MCU program control system drives small machine 11, small machine 11 then drives sector gear 94 by the motor gear on it 101, pin on sector gear 94 projectioies drives big outer ring set 92 and moves on sector gear 94 directions, make big outer ring set 92 become 45 degree to contact, thereby the flight function is realized moving forward and backward in the elevation angle, front and back that slurry rotates under changing with elliptical shaft 93 along one, three quadrants.

More than by the specific embodiment principle of the present utility model is described, obviously, those of ordinary skill in the art can do various improvement to the utility model on the basis of above instruction, distortion is equal to and replace waits and do not break away from protection domain of the present utility model.

Claims (7)

1. steering structure for toy airplane is characterized in that, comprises little inner ring sleeve, big outer ring set, elliptical shaft, sector gear; Little inner ring sleeve has square circular hole and arc convex, and little inner ring sleeve contacts with elliptical shaft at drive lower edge two, the four-quadrant of sector gear; Big outer shroud cover has elliptical aperture, and drive lower edge one, three quadrants that big outer shroud is enclosed within sector gear contact with elliptical shaft.

2. according to the described steering structure for toy airplane of claim 1, it is characterized in that: described little inner ring sleeve along two, the contact angle that contacts with elliptical shaft of four-quadrant is 135 degree.

3. according to the described steering structure for toy airplane of claim 1, it is characterized in that: the contact angle that described big outer ring set contacts with elliptical shaft along one, three quadrants is 45 degree.

4. according to the described steering structure for toy airplane of claim 1, it is characterized in that: described little inner ring sleeve is apparent to be colluded shape and has three square grooves and two arcuation projectioies, the arcuation projection is arranged on the circumference bore edges, wherein the square groove in hook end portion is set on the pin of sector gear, and two square grooves are set on the pin of putting into the diagonal angle on the shelf in addition.Big outer ring set is also apparent to be colluded shape and has three square grooves and annular projection, be installed with elliptical aperture in this annular projection, the side is provided with two circular arc mouths that become the diagonal angle, little inner ring sleeve passes these two circular arc mouths and big ring overcoat and becomes to intersect assembling, wherein be set on the pin of projection of second sector gear at the square groove of hook end portion, two square grooves are set on last remaining two pins that become diagonal angles of putting on the shelf in addition.

5. according to the described steering structure for toy airplane of claim 4, it is characterized in that: described little inner ring sleeve passes these two circular arc mouths and becomes to intersect to be assembled into 45 ° of assemblings with big ring overcoat, and it is 90 ° that the angle is closed in both motions.

6. according to the described steering structure for toy airplane of claim 1, it is characterized in that; Described elliptical shaft upper end is for square shape and have the groove that makes things convenient for the screw anglec of rotation under the elliptical shaft adjustment, the centre is cylindric, low side is an ellipticity, and its lower curtate is placed in the hole between the arcuation projection of little inner ring sleeve, and the middle part is placed in the elliptical aperture of big outer ring set; Circumference hole, elliptical aperture, elliptical shaft three be center line altogether, and the elliptical shaft upper end is fixed on down on the fixed mount of screw connection.

7. infrared four-channel remote control flivver, comprise nose shell, foot rest, oar support, foot piece, empennage, up and down propeller unit, be fixed on the driving mechanism of screw up and down in the oar support, the control system of control motor rotation, it is characterized in that: also comprise steering structure, this steering structure comprises little inner ring sleeve, big outer ring set, elliptical shaft, sector gear; Little inner ring sleeve has square circular hole and arc convex, and little inner ring sleeve contacts with elliptical shaft at drive lower edge two, the four-quadrant of sector gear; Big outer shroud cover has elliptical aperture, and drive lower edge one, three quadrants that big outer shroud is enclosed within sector gear contact with elliptical shaft.

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