CN211410972U - Sword-shaped pull rope rotating toy - Google Patents

Abstract

The utility model discloses a rotatory toy of sword type stay cord, rotatory toy of sword type stay cord includes toy sword and top, the toy sword includes the sword body and scabbard, but scabbard ground overcoat is in on the sword body, be equipped with top hookup location on the sword body, the top rotatably cooperates on the top hookup location, be equipped with the rope body and receive the rope device automatically on the sword body, the at least one end of the rope body is connected on receiving the rope device automatically, the rope body process top hookup location and with the top cooperatees, the scabbard with the rope body cooperatees in order to stimulate when the plug the rope body, the rope body is constructed and is taken when the pulling the spiral is changeed. According to the utility model discloses sword type stay cord rotary toy can let the player experience sword class toy and the rotatory dual method of playing of drive top, has increased the interest of playing.

Description

Sword-shaped pull rope rotating toy

Technical Field

The utility model belongs to the technical field of the toy and specifically relates to a rotatory toy of sword type stay cord is related to.

Background

At present, the emitters on the market, such as top emitters, are usually obviously provided with insertion holes for inserting pull strips or pull rings for pulling ropes, and connecting parts for installing the tops, so that players can know that the toy is the emitter for emitting the tops at a glance, and the toy lacks of freshness and surprise.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the present invention is to provide a sword-shaped pull rope rotating toy, which can enable a player to experience the dual playing method of the sword-shaped toy and the rotation of the driving gyroscope, thereby increasing the interest of playing.

According to the utility model discloses sword type stay cord rotary toy, sword type stay cord rotary toy includes toy sword and top, the toy sword includes the sword body and scabbard, but scabbard ground overcoat is in on the sword body, be equipped with top hookup location on the sword body, the top rotatably cooperates on the top hookup location, be equipped with the rope body and receive the rope device automatically on the sword body, the at least one end of the rope body is connected on receiving the rope device automatically, the rope body process top hookup location and with the top cooperatees, the scabbard with the rope body cooperatees in order to stimulate when the plug the rope body, the rope body is constructed and is taken when the pulling the spiral is changeed.

According to the utility model discloses a rotatory toy of sword type stay cord, its top can independently play, but the scabbard plug is on the sword body in its toy sword, can let the player embody the playing method of sword class toy. Through set up top connection position on the sword body, and when plug sword sheath for locate the rope body on the sword body and can move, thereby make the rope body can drive the top and rotate, let the player experience oneself can change power into rotary drive when the plug action, make child can experience the play method that plug sword sheath can drive top spiral and change, increased the interest of playing.

In addition, according to the utility model discloses a sword type stay cord rotary toy can also have following additional technical characterstic:

in some embodiments of the utility model, the one end of the rope body is connected automatic rope winding device, the other end fixed connection of the rope body is in on the sword body, the toy sword still includes the rope movable pulley, the pivot cooperation of rope movable pulley is in order to follow the plug direction activity on the scabbard, the rope body is around establishing on the rope movable pulley.

Optionally, a guide groove is formed in the sword body, a rotating shaft of the rope movable pulley is matched in the guide groove, and two ends of the rotating shaft of the rope movable pulley are connected to the sword sheath respectively.

In some embodiments of the present invention, the toy sword further comprises a plurality of direction-changing pulleys, and the rope is wound around the direction-changing pulleys.

In other embodiments of the present invention, the sword body comprises: the spinning-top sword comprises a sword body, a sword handle and a sword grid connected between the sword body and the sword handle, wherein the sword sheath can be pulled out of the ground and sleeved on the sword body, and the spinning-top connecting position is arranged at the sword grid.

Optionally, the sword body and the sword handle are respectively rotatable relative to the sword lattice, the toy sword further comprises a lock type device for keeping the sword body, the sword handle and the sword lattice in a sword type, and the sword body and the sword lattice rotate under the action of potential energy after the lock type device is triggered.

Optionally, the lock-type device comprises: unlocking piece and card type piece, unlocking piece movably establishes on the sword handle, card type piece is established on the sword check, card type piece card is in when unlocking piece is last sword check keep with the sword handle is located the coplanar unlocking piece is triggered and when moving, card type piece breaks away from unlocking piece so that sword check free rotation.

Further, the locking device further comprises: a pulling member connected between the blade and the handle, the pulling member being configured to create a mutual pulling force between the blade and the handle when the two are on the same level.

In some embodiments of the present invention, the sword body is provided with an extension slot, one end of the extension slot faces the top connection position, and the toy sword further includes a release member for releasing the top to the extension slot.

Optionally, the release member includes two clamping jaws, two of the clamping jaws are oppositely arranged and configured to act in opposite directions, each of the clamping jaws is rotatably arranged on the sword body, a part of the two clamping jaws is bent towards a direction away from each other, the correspondingly bent parts of the two clamping jaws form a top connection position facing the opening of the extending groove, and when the release member is triggered, the clamping jaws rotate to open the opening.

Further, the release member includes: a push block for pushing the top towards the opening, the push block being clamped between the two clamping jaws when the release is not triggered.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of a sword-shaped pull rope rotary toy according to the present invention;

fig. 2 is a schematic structural view showing a deformed state of the sword-shaped rope rotating toy according to the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 4 is an enlarged view of area B of FIG. 3;

FIG. 5 is an assembly view of the rapier body, the rope moving pulley, the reverse pulley, the automatic rope retracting device and the top of the rapier-type rope-pulling rotary toy according to the present invention;

FIG. 6 is an assembly view of the sword body, the lock-type device and the release member of the sword-type rope spinning toy according to the present invention;

fig. 7 is an exploded view of the sword-shaped rope rotating toy according to the present invention.

Reference numerals:

100: a sword-shaped pull rope rotating toy;

1: a toy sword; 11: a sword body; 111: a sword body;

112: a sword handle;

113: sword grids;

114: a rope body;

115: an automatic rope retracting device;

116: a guide groove;

117: an extension groove;

12: a scabbard;

13: a rope-driven pulley; 131: a rotating shaft of the rope-driven pulley;

14: a diverting pulley; 141: a first diverting pulley;

142: a second diverting pulley;

143: a third diverting pulley;

144: a fourth diverting pulley;

15: a lock type device; 151: unlocking the lock;

152: a clamp-type block;

153: a traction member;

16: a release member; 161: a clamping jaw;

162: a push block;

2: a spinning top.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A sword-shaped pull cord rotary toy 100 according to an embodiment of the present invention will be described with reference to fig. 1 to 7.

As shown in fig. 1 to 7, the sword-shaped pull cord rotary toy 100 according to the present invention includes: toy sword 1 and top 2, toy sword 1 includes sword body 11 and scabbard 12.

Specifically, the scabbard 12 is sleeved on the scabbard body 11 in a pluggable manner, a gyroscope connection position is arranged on the scabbard body 11, and the gyroscope 2 is rotatably matched on the gyroscope connection position. The sword body 11 is provided with a rope body 114 and an automatic rope winding device 115, at least one end of the rope body 114 is connected to the automatic rope winding device 115, the rope body 114 passes through the top connection position and is matched with the top 2, the sword sheath 12 is matched with the rope body 114 to pull the rope body 114 during plugging and unplugging, and the rope body 114 is configured to drive the top 2 to rotate during pulling.

That is, the sword body 11 can be inserted into the sword sheath 12, the sword body 11 can be pulled out from the sword sheath 12, the sword sheath 12 is sleeved on the sword body 11 when the sword body 11 is inserted into the sword sheath 12, and the sword sheath 12 and the sword body 11 are separated and independent from each other when the sword body 11 is pulled out from the sword sheath 12, and at this time, the sword-shaped pull rope rotating toy 100 has a common sword shape. Through the top hookup location that is equipped with on sword body 11 for top 2 can cooperate on the top hookup location, and back on the top hookup location is cooperated to top 2, and top 2 can rotate on the top hookup location, and the top hookup location also can be spacing to top 2.

Further, the automatic rope retracting device 115 is provided on the sword body 11, so that the automatic rope retracting device 115 can retract the rope body 114 automatically, the step of manually retracting the rope is omitted, the continuity during playing is improved, the rope body 114 can be prevented from being accumulated and knotted, optionally, one end of the rope body 114 can be provided on the automatic rope retracting device 115, and both ends of the rope body 114 can be provided on the automatic rope retracting device 115, which is not limited herein. It is understood that the automatic rope winding device 115 may be a coil spring device, may include a motor and a drum connected to the motor (the motor drives the drum to rotate to receive the rope 114), and may be other devices, and is not limited herein.

When the scabbard 12 plug on the sword body 11, scabbard 12 moves for the sword body 11 promptly, through cooperating the setting with scabbard 12 and rope body 114, make scabbard 12 can drive the motion of rope body 114, cooperate the setting through rope body 114 and top 2, make rope body 114 can drive top 2 rotatory, play toy sword 1 through plug scabbard 12 repeatedly, make top 2 continuously rotate or rotate with higher speed, the in-process of playing can experience the dual method of playing of sword class toy and drive top 2 rotation, the interest of playing has been increased.

Wherein, the top 2 is driven to rotate by the movement of the rope body 114, the structure is simple, and the weight of the toy sword 1 can be reduced, thereby being convenient for a player to carry and play.

Alternatively, the rope 114 may be made of rubber, leather, plastic, etc., without limitation, and when the rope 114 is made of leather, the rope 114 is light and wear-resistant.

Therefore, according to the utility model discloses a sword type stay cord rotary toy 100, its top 2 can independently play, but the scabbard 12 is pluggable on the sword body 11 in its toy sword 1, can let the player embody the play method of sword type toy. By arranging the gyro connection position on the sword body 11, the rope body 114 arranged on the sword body 11 can move when the sword sheath 12 is inserted and pulled, so that the rope body 114 can drive the gyro 2 to rotate, and a player can experience that the power of the player during the insertion and pulling action is converted into the power for driving the gyro 2 to rotate, so that children can experience a playing method that the sword sheath 12 can drive the gyro 2 to rotate, and the playing interest is increased.

In some embodiments of the present invention, the automatic rope winding device 115 is connected to one end of the rope body 114, the other end of the rope body 114 is fixedly connected to the sword body 11, the toy sword 1 further includes the rope pulley 13, the rotating shaft of the rope pulley 13 is engaged with the sword sheath 12 to move along the plugging direction, and the rope body 114 is wound on the rope pulley 13.

Thus, both ends of the integral rope 114 are on the sword body 11 (the automatic rope reeling device 115 is also on the sword body 11), and the middle part of the rope 114 is pulled by the sword sheath 12. This design is not only interesting in shape but also does not cause the rope 114 to unravel even if the sword body 11 is detached, thereby making it easy for the sword-like pull cord rotary toy 100 to recover its original shape.

Furthermore, the rotating shaft of the rope movable pulley 13 is matched with the scabbard 12 for installation, when the scabbard 12 is plugged in and pulled out of the scabbard body 11, the rotating shaft of the rope movable pulley 13 can move back and forth along with the plugging and pulling direction of the scabbard 12, the rope body 114 is wound around the rope movable pulley 13, the rope movable pulley 13 can drive the rope body 114 to move, and the movement of the rope body 114 can drive the spinning top 2 to rotate. Therefore, in the process of inserting and pulling the scabbard 12, the spinning top 2 is visually seen to rotate, and the rope body 114 and other rotating devices are hidden in the toy sword 1, so that the curiosity of bystanders can be aroused, and the interestingness of players is improved.

In one example, as shown in fig. 3, the rope pulley 13 may extend in the up-down direction, one end of the rope 114 passing around the sword body 11 is provided, the other end of the rope 114 passes around the rope pulley 13 and is connected to the automatic rope reeling device 115, and during the movement of the rope pulley 13 along with the sword sheath 12, the rope pulley 13 is pulled away from the rope 114, so that the rope 114 may move in the horizontal plane, and the rope 114 is prevented from being wound together and affecting the playing.

Optionally, a guide groove 116 is formed on the sword body 11, the rotating shaft of the rope moving pulley 13 is fitted in the guide groove 116, and both ends of the rotating shaft of the rope moving pulley 13 are respectively connected to the sword sheath 12. Therefore, the rotating shaft of the rope moving pulley 13 can slide back and forth along the guide groove 116, the rotating shaft of the rope moving pulley 13 cannot be locked in the sliding process, and the guide groove 116 limits the moving direction of the rotating shaft of the rope moving pulley 13. It is understood that the guide groove 116 may be a linear slide to restrict the rotation shaft of the rope pulley 13 from sliding linearly, and the guide groove 116 may also be an arc-shaped slide to restrict the rotation shaft of the rope pulley 13 from sliding in an arc, which is not particularly limited herein.

In one example, the rotating shaft of the rope pulley 13 may extend in the up-down direction, the upper end of the rotating shaft of the rope pulley 13 is connected to the upper end surface of the scabbard 12, and the lower end of the rotating shaft of the rope pulley 13 is connected to the lower end surface of the scabbard 12, so that the rotating shaft of the rope pulley 13 can be connected to the scabbard 12 more firmly, and the scabbard 12 can drive the rope pulley 13 to move better, and then the rope pulley 13 drives the rope body 114 to move.

In another example, a clamping groove may be provided on an end surface of the scabbard 12 connected to the rotating shaft of the rope moving pulley 13, and the scabbard 12 may drive the rotating shaft of the rope moving pulley 13 to move by clamping an upper end and a lower end of the rotating shaft of the rope moving pulley 13 in the clamping groove, so that the rotating shaft of the rope moving pulley 13 drives the rope body 114 to move. It is understood that the rotating shaft of the rope pulley 13 and the scabbard 12 can be connected by other connecting means, which is not limited herein.

In some embodiments of the present invention, the toy sword 1 further includes a plurality of direction-changing pulleys 14, and the rope 114 is wound around the plurality of direction-changing pulleys 14, that is, the toy sword 1 may include one direction-changing pulley 14 or a plurality of direction-changing pulleys, where the plurality of direction-changing pulleys means two or more than two. By winding the rope 114 around the diverting pulleys 14, not only the diverting pulleys 14 can support the movement of the rope 114 to reduce frictional wear, but also the diverting pulleys 14 can change the extending direction of the rope 114.

In the specific example shown in fig. 5, the toy sword 1 may be provided with a first diverting pulley 141, a second diverting pulley 142, a third diverting pulley 143 and a fourth diverting pulley 144, wherein the first diverting pulley 141 and the second diverting pulley 142 are respectively disposed at the left and right sides of the top 2, the third diverting pulley 143 is installed to cooperate with the first diverting pulley 141 to limit the rope body 114, the fourth diverting pulley 144 is disposed between the top connection position and the automatic rope retracting device 115, so that the rope body 114 passes around the first diverting pulley 141 and the second diverting pulley 142 at the left and right sides of the top 2 to allow the rope body 114 to rotate the top 2, the rope body 114 passes around the second diverting pulley 142 to be connected to the automatic rope retracting device 115, and the fourth diverting pulley 144 is disposed between the top connection position and the automatic rope retracting device 115 to allow the fourth diverting pulley 144 to support the rope body 114, thereby allowing the rope 114 to move well. By fitting the third diverting pulley 143 with the first diverting pulley 141, the third diverting pulley 143 and the first diverting pulley 141 can limit the rope 114, so that the rope 114 cannot be separated from the first diverting pulley 141, and the rope 114 can be in contact with the spinning top 2 at the spinning top connection position.

In some embodiments of the present invention, the sword body 11 comprises: the sword body 111, the sword handle 112 and the sword check 113 connected between the two, the scabbard 12 can pull out the ground overcoat and cover on the sword body 111, and top connection position is established at sword check 113 department. Therefore, the spinning top 2 on the spinning top connecting position can be rotated by holding the sword handle 112 with a hand and inserting the sword sheath 12 into the sword body 111, the operation is simple, and the interest of the player can be improved. By arranging the gyro connection position at the sword grid 113, the sword handle 112 is not influenced to be held by hand, the scabbard 12 is not influenced to be sleeved on the sword body 111, the appearance is attractive, the gyro 2 is conveniently driven to rotate, and the sword is played with new patterns.

It is understood that the sword body 111, the sword handle 112 and the sword lattice 113 may be pivotally connected, hinged connected or slidably connected, and are not limited herein.

Optionally, the sword body 111 and the sword handle 112 are respectively rotatable relative to the sword lattice 113, the toy sword 1 further comprises a lock type device 15 for keeping the sword body 111, the sword handle 112 and the sword lattice 113 in a sword type, and the sword body 111 and the sword lattice 113 rotate under the action of potential energy after the lock type device 15 is triggered. The potential energy may be gravitational potential energy, that is, after the gripper handle 112 is held in the correct posture, the sword body 111 and the sword lattice 113 are automatically rotated relative to the gripper handle 112 by gravity after the lock-type device 15 is unlocked. The potential energy can also be elastic potential energy, and the sword body 111 and the sword lattice 113 automatically rotate relative to the sword handle 112 under the action of the elastic piece after the lock-type device 15 is unlocked.

Therefore, the toy sword 1 is provided with the lock-type device 15, so that the lock-type device 15 limits the sword body 111, the sword grids 113 and the sword handle 112, the sword body 111, the sword grids 113 and the sword handle 112 cannot rotate relatively, and the toy sword 1 is in a common sword shape. After the lock device 15 is triggered, the lock device 15 does not limit the sword body 111 and the sword lattice 113, so that the sword lattice 113 can rotate relative to the sword handle 112 under the action of gravity or elasticity, and the sword body 111 can rotate relative to the sword handle 112 under the action of self gravity, and at the moment, the toy sword 1 deforms, so that the interest of playing can be improved.

Optionally, the lock-type device 15 comprises: the sword grid 113 is kept on the same plane with the sword handle 112 when the unlocking piece 151 is clamped on the unlocking piece 151, and the clamping block 152 is separated from the unlocking piece 151 to enable the sword grid 113 to rotate freely when the unlocking piece 151 is triggered to move. That is, the unlocking unit 151 may be provided on the sword handle 112, and the unlocking unit 151 may be movable with respect to the sword handle 112, and the sword compartment 113 is connected to the sword handle 112, and the sword compartment 113 may be rotatable with respect to the sword handle 112.

From this, through block 152 card on unblock piece 151 for block 152 can restrict unblock piece 151, thereby makes lock type device 15 can be spacing to sword check 113, and then makes sword check 113 and sword handle 112 can keep on the coplanar, makes sword type stay cord rotation toy 100 be the sword molding. Further, through triggering the unlocking piece 151, the unlocking piece 151 can move on the sword handle 112, so that the card-shaped block 152 falls off from the unlocking piece 151, and further the sword lattice 113 can be separated from the limitation of the locking device 15, and then the sword lattice 113 can rotate relative to the sword handle 112 under the action of gravity or elasticity, so that the sword-shaped pull rope rotating toy 100 deforms, and the surprise and interest of playing are improved.

In one example, as shown in fig. 6 and 7, the unlocking piece 151 is slidably provided on the sword handle 112, and the card-shaped block 152 is provided on the sword lattice 113 and is locked on the unlocking piece 151, whereby the unlocking piece 151 can be released from the restriction of the card-shaped block 152 by pushing the unlocking piece 151 to move in the direction in which the sword handle 112 extends, so that the locking device 15 is triggered to unlock, and the sword lattice 113 can freely rotate.

In another example, the unlocking piece 151 is provided on the sword handle 112, and the unlocking piece 151 can move in a direction perpendicular to the sword handle 112, and the catch type piece 152 is provided on the sword lattice 113 and catches on the unlocking piece 151, whereby the catch type piece 152 can be separated from the unlocking piece 151 by pushing the unlocking piece 151 to move in a direction perpendicular to the sword handle 112, thereby rotating the sword lattice 113 with respect to the sword handle 112.

It will be appreciated that unlocking may also be triggered by turning the unlocking member 151, and the manner in which the unlocking member 151 is triggered is not limited herein.

Further, the lock-type device 15 further includes: and a drawing member 153 connected between the sword body 111 and the sword handle 112, the drawing member 153 being configured to form a mutual drawing force between the sword body 111 and the sword handle 112 when the two are at the same level, that is, one end of the drawing member 153 is connected to the sword body 111, and the other end of the drawing member 153 is connected to the sword handle 112, so that after the sword body 111 and the sword handle 112 are respectively connected to both ends of the drawing member 153, the drawing member 153 can draw the sword body 111 and the sword handle 112 in a direction in which they approach each other, so that the drawing member 153 can limit the position of the sword body 111 and the sword handle 112, and further the sword handle 112 and the sword body 111 can be maintained at the same level, so that the sword lattice 113 between the sword handle 112 and the sword body 111 can be maintained at the same level as the sword body 111 and the sword handle 112, and the sword-type rope-pulling rotary toy 100 has a common shape.

It is understood that the connection between the blade 111 and the handle 112 and the pulling member 153 may be a hinge, a pivot, or a sliding connection, which is not limited herein.

In a specific example, the drawing member 153 is provided under the sword-shaped pull cord rotating toy 100, and the drawing member 153 includes: first connecting rod, second connecting rod and torsional spring, the one end of first connecting rod and the rotatable connection of sword body 111, the other end of first connecting rod and the one end rotatable connection of second connecting rod, the other end of second connecting rod links to each other with sword handle 112, and the other end of second connecting rod can move about on sword handle 112, and the junction of first connecting rod and second connecting rod can be located to the torsional spring. Thus, when the torsion spring is in the power accumulation state, the first link and the second link may apply traction to the sword body 111 and the sword handle 112, respectively, such that the sword body 111 and the sword handle 112 are restricted on the same horizontal plane, and the sword-shaped pull rope rotating toy 100 has a sword shape. After release 151 is triggered, sword check 113 and sword body 111 move down under the effect of gravity, and rotate for sword handle 112, sword check 113 moves down and can drive the second connecting rod and rotate, thereby make the torsional spring release energy, and then make the second connecting rod can with sword body 111 pulling down, make sword body 111 deflect downwards for sword check 113, thereby make sword type stay cord rotary toy 100 take place the secondary deformation, the visual impact of playing has been improved, simultaneously, sword body 111 deflects downwards for sword check 113, under the traction of traction piece 153, make sword body 111 and sword handle 112 can keep the state that is parallel to each other, not only handsome in appearance, can also easily control top 2 and fall to the ground the position.

In some embodiments of the present invention, the extending slot 117 is disposed on the sword body 11, one end of the extending slot 117 is disposed toward the top connection position, the toy sword 1 further includes a releasing member 16 for releasing the top 2 to the extending slot 117, for example, as shown in fig. 6, the extending slot 117 can be disposed on the sword body 111 of the sword body 11, one end of the extending slot 117 extends toward the top connection position, and the other end of the extending slot 117 extends toward the direction of transporting away from the sword grid 113. Thus, by providing the extension slot 117 on the sword body 111, the movement direction of the spinning top 2 can be limited by the extension slot 117, and the landing direction and position of the spinning top 2 can be controlled by controlling the orientation of the sword body 111. Further, the release piece 16 is arranged on the toy sword 1, so that the release piece 16 can limit the spinning top 2 on the spinning top connection position, when the release piece 16 is triggered, the release piece 16 acts to enable the spinning top 2 to be separated from the spinning top connection position, so that the spinning top 2 can move from the spinning top connection position to the extension groove 117, the spinning top 2 can be separated from the sword body 11, and at the moment, the sword-shaped pull rope rotating toy 100 can be regarded as a transmitter of the spinning top 2.

It is understood that extension slot 117 may be a linear slide to limit top 2 to slide linearly, and extension slot 117 may also be an arc slide to limit top 2 to slide along an arc, which is not particularly limited herein.

Optionally, the release 16 comprises: two clamping jaws 161, two clamping jaws 161 are oppositely arranged and are constructed to act in opposite directions, each clamping jaw 161 is rotatably arranged on the sword body 11, a part of the two clamping jaws 161 is bent towards a direction away from each other, the corresponding bent part of the two clamping jaws 161 forms a top connection position facing the opening of the extension slot 117, and the clamping jaws 161 rotate to open the opening when the release piece 16 is triggered.

For example, as shown in fig. 6, two clamping jaws 161 are disposed on the sword body 11, the two clamping jaws 161 generally form a pair of small brackets, a top connection position is disposed in the middle of the brackets, an opening between the brackets can face the extending groove 117, the two clamping jaws 161 are bent, so that the top 2 is disposed between the two clamping jaws 161, and the two clamping jaws 161 can limit the top 2, so that the top 2 can be clamped in the top connection position more firmly. Further, when the release 16 is triggered, the two clamping jaws 161 can move away from each other at the opening, and the two clamping jaws 161 do not limit the position of the spinning top 2, so that the spinning top 2 can be separated from the spinning top connection position through the opening of the spinning top connection position.

In one particular example, release 16 includes: the two clamping jaws 161, a spring and a screw rod, the clamping jaws 161 can comprise clamping heads and clamping handles, the clamping heads are roughly semicircular, the clamping handles can be in a linear rod shape, the two clamping jaws 161 are oppositely arranged, so that the two clamping heads can be roughly encircled into a circle, the two clamping heads form a gyro connecting position, the spring is arranged between the two clamping handles, one end of the screw rod is abutted against the clamping handles, and the screw rod can rotate relative to the clamping jaws 161, therefore, the distance between the two clamping jaws 161 can be adjusted by rotating the screw rod, the gyro 2 can be well limited, the gyros 2 with different sizes can be matched on the gyro connecting position, further, when the rotating screw rod moves towards the clamping handles, the distance between the two clamping handles can be reduced, so that the spring between the two clamping handles is in an energy storage state, when the rotating screw rod moves towards the direction far away from the clamping handles, the spring can be released, so that the two clamping jaws 161 move towards the directions far away, thereby opening the opening of top connection position and further making top 2 fall off from top connection position.

Optionally, the release 16 comprises: a push block 162 for pushing the spinning top 2 toward the opening, the push block 162 is clamped between the two clamping jaws 161 when the releasing member 16 is not triggered, so that the push block 162 can move toward and away from the opening direction of the spinning top connection position by arranging the push block 162 between the two clamping jaws 161, so that the push block 162 can push the spinning top 2 toward the opening direction of the spinning top connection position, thereby disengaging the spinning top 2 from the spinning top connection position.

In one example, the pushing block 162 may be in transmission connection with the unlocking unit 151, when the unlocking unit 151 is triggered to move on the sword handle 112, the unlocking unit 151 may drive the pushing block 162 to move toward the opening of the top connection position, so as to push the top 2 to the opening, and the sword-shaped pull rope rotating toy 100 is deformed by triggering the unlocking unit 151, which is simple to operate and convenient for children to play.

The following describes specific processes in the installation and movement of the sword-shaped pull-cord rotary toy 100 according to the present invention with reference to fig. 1 to 7.

The toy sword 1 and the spinning top 2 in the sword-shaped pull rope rotating toy 100 can be played as independent toys respectively, and when the spinning top 2 is combined on the toy sword 1, the toy sword 1 can be played as a spinning top launcher.

Specifically, a player can repeatedly insert and pull the scabbard 12 into and out of the sword body 11, so that the rope movable pulley 13 can repeatedly move on the sword body 11, and the rope body 114 wound on the rope movable pulley 13 can move, and when the rope body 114 moves towards the automatic rope collecting device 115 by connecting one end of the rope body 114 with the automatic rope collecting device 115, the rope body 114 can be wound on the automatic rope collecting device 115, so that the rope body 114 is prevented from knotting, wherein the toy sword 1 is provided with a plurality of reversing pulleys 14, so that the rope body 114 can be wound on the plurality of reversing pulleys 14, so that the reversing pulleys 14 can support the rope body 114 to move, and friction and abrasion are reduced, and meanwhile, the rope body 114 is supported by the reversing pulleys 14 to move, and the rope body 114 can be matched with the spinning top 2, so that the rope body 114 drives the spinning top 2 to rotate.

The unlocking piece 151 is triggered, the card type block 152 is separated from the unlocking piece 151, the two clamping jaws 161 in the release piece 16 move, the spinning top 2 is not limited by the two clamping jaws 161, the pushing block 162 pushes the spinning top 2 towards the opening of the spinning top connecting position, the spinning top 2 is separated from the spinning top connecting position and enters the extending groove 117, meanwhile, the sword lattice 113 and the sword body 111 rotate relative to the sword handle 112 under the action of gravity, the sword body 111 moves downwards again relative to the sword lattice 113 under the traction action of the traction piece 153, the toy sword 1 is deformed, visual impact is given to a player, and after the spinning top 2 enters the extending groove 117, the player can control the sword body 111, so that the landing position and the landing direction of the spinning top 2 are controlled, the playing method is increased, and the interest and the surprise of playing are improved.

Other configurations and operations of the sword-shaped pull-cord rotating toy 100 according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "some embodiments," "optionally," "further," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (11)

1. A sword-shaped pull rope rotating toy is characterized by comprising a toy sword and a gyroscope, wherein the toy sword comprises a sword body and a sword sheath, the sword sheath is sleeved on the sword body in a pluggable manner, the sword body is provided with a gyroscope connecting position, and the gyroscope is rotatably matched on the gyroscope connecting position;

the sword body is provided with a rope body and an automatic rope winding device, at least one end of the rope body is connected to the automatic rope winding device, the rope body passes through the gyroscope connecting position and is matched with the gyroscope, the sword sheath is matched with the rope body to pull the rope body during plugging, and the rope body is constructed to drive the gyroscope to rotate during pulling.

2. The sword-shaped rope-pulling rotary toy as claimed in claim 1, wherein one end of the rope body is connected to the automatic rope-pulling device, the other end of the rope body is fixedly connected to the sword body, the toy sword further comprises a rope-moving pulley, a rotating shaft of the rope-moving pulley is fitted on the scabbard to move in a plugging and unplugging direction, and the rope body is wound around the rope-moving pulley.

3. The sword-shaped rope pulling rotary toy as claimed in claim 2, wherein the sword body is provided with a guide groove, the rotating shaft of the rope moving pulley is fitted in the guide groove, and both ends of the rotating shaft of the rope moving pulley are respectively connected to the sword sheath.

4. The sword-shaped rope-pulling rotary toy according to claim 1, wherein the toy sword further comprises a plurality of direction-changing pulleys, and the rope body is wound around the plurality of direction-changing pulleys.

5. The sword-shaped pull cord rotary toy of claim 1, wherein the sword body comprises: the spinning-top sword comprises a sword body, a sword handle and a sword grid connected between the sword body and the sword handle, wherein the sword sheath can be pulled out of the ground and sleeved on the sword body, and the spinning-top connecting position is arranged at the sword grid.

6. The sword-shaped pull rope rotating toy as claimed in claim 5, wherein the body and the handle are rotatable with respect to the grid, respectively, the toy sword further comprises a lock-type device for keeping the body, the handle and the grid in a sword-shape, and the body and the grid rotate under potential energy after the lock-type device is triggered.

7. The sword-shaped string rotary toy of claim 6, wherein the lock-type device comprises:

the unlocking piece is movably arranged on the sword handle;

the sword check are kept on the same plane with the sword handle when the block is blocked on the unlocking piece, and when the unlocking piece is triggered to move, the block is separated from the unlocking piece so that the sword check can rotate freely.

8. The sword-shaped string rotary toy of claim 6, wherein the lock-type device further comprises: a pulling member connected between the blade and the handle, the pulling member being configured to create a mutual pulling force between the blade and the handle when the two are on the same level.

9. The sword-shaped rope pulling and rotating toy according to any one of claims 1 to 8, wherein the sword body is provided with an extension slot, one end of the extension slot is disposed toward the spinning top connection position, and the toy sword further comprises a releasing member for releasing the spinning top to the extension slot.

10. The sword-shaped pull cord rotary toy of claim 9, wherein the release member comprises:

the two clamping jaws are oppositely arranged and are constructed to act in opposite directions, each clamping jaw is rotatably arranged on the sword body, a part of each clamping jaw is bent towards a direction away from the other clamping jaw, the correspondingly bent parts of the two clamping jaws form a top connection position facing the opening of the extending groove, and when the release piece is triggered, the clamping jaws rotate to enable the opening to be opened.

11. The sword-shaped pull cord rotary toy of claim 10, wherein the release member comprises: a push block for pushing the top towards the opening, the push block being clamped between the two clamping jaws when the release is not triggered.

Images