CN110882548B - Toy spinning top - Google Patents

Abstract

The invention belongs to the technical field of toys, and discloses a toy gyroscope which comprises an emitter and a gyroscope, wherein the emitter comprises a locking mechanism and a transmission mechanism, and the locking mechanism comprises two oppositely arranged lock catches; the top includes the casing, wears to locate the first connecting axle in the casing and the fixed plate of first connecting axle is located to the cover, forms the joint groove between fixed plate and the casing, and first connecting axle is connected in drive mechanism, and two hasps can insert simultaneously or break away from the joint groove. According to the toy gyroscope provided by the invention, the two lock catches and the clamping grooves are arranged, the fixing plate is sleeved on the first connecting shaft, when the two lock catches are simultaneously inserted into the clamping grooves, the transmission mechanism can drive the first connecting shaft to rotate, at the moment, the locking mechanism and the fixing plate do not rotate along with the transmission mechanism, the locking mechanism and the transmission mechanism do not interfere with each other, when the gyroscope is separated from the emitter through the locking mechanism, the operation is simple and convenient, the rotation of the gyroscope cannot be influenced by the locking mechanism, and the durable rotation of the gyroscope is facilitated.

Description

Toy spinning top

Technical Field

The invention relates to the technical field of toys, in particular to a toy top.

Background

The toy gyroscope is played by launching the gyroscope onto a plane through a launcher, then the gyroscope rotates, and further competition is carried out through mutual attack of the rotation of the two parties, so that the playing pleasure is improved, and the winner judges which gyroscope rotates for a long time to be the winner.

Present toy top includes top and transmitter, and the top cooperatees through the structure of self and the locking mechanism of transmitter and installs the top on the transmitter, and drive mechanism through the transmitter is when accelerating the top, and the locking mechanism of transmitter also can follow drive mechanism and rotate together. Therefore, when the gyroscope is separated from the emitter through the locking mechanism, the operation is complex, and the locking mechanism can generate certain acting force on the gyroscope, so that the rotation state of the gyroscope is changed, and the gyroscope is not beneficial to the durable rotation.

Disclosure of Invention

The invention aims to provide a toy gyroscope, which aims to solve the problems that a transmission mechanism and a locking mechanism in a launcher rotate synchronously, the operation of separating the gyroscope from the launcher is complex, and the rotating state of the gyroscope is influenced in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

a toy top comprising:

the launcher comprises a locking mechanism and a transmission mechanism, wherein the locking mechanism comprises two oppositely arranged lock catches;

the gyroscope comprises a shell, a first connecting shaft penetrating through the shell and a fixing plate sleeved on the first connecting shaft, wherein a clamping groove is formed between the fixing plate and the shell;

the first connecting shaft is connected to the transmission mechanism and can rotate relative to the fixing plate, and the two lock catches can be inserted into or separated from the clamping grooves at the same time.

Preferably, the emitter comprises a first cavity and a bottom plate connected to the first cavity, and the locking mechanism and the transmission mechanism are both arranged on the bottom plate.

Preferably, two openings are formed in the first cavity in a relatively opened mode;

the transmission mechanism comprises two braces penetrating the openings, a first gear, a second gear and a third gear meshed with the first gear, the braces are located between the two openings, the braces are meshed with the first gear, the first gear is in transmission connection with the third gear and can selectively drive the third gear to be meshed with the second gear, and the third gear is connected with a sleeve, one end of the sleeve penetrates through the bottom plate.

Preferably, a strip-shaped groove is formed in the bottom plate, the length direction of the strip-shaped groove is perpendicular to the movement direction of the brace, the third gear is connected with a first rotating shaft, and the first rotating shaft is arranged in the strip-shaped groove.

Preferably, the locking mechanism comprises a button assembly and two locking assemblies, the two locking assemblies are arranged oppositely, and the button assembly can push the two locking assemblies to move towards each other.

Preferably, the locking assembly comprises the lock catch and a pressure spring, the lock catch comprises a horizontal part and a vertical part connected to the horizontal part, one end of the vertical part, far away from the horizontal part, penetrates through the bottom plate, the pressure spring is arranged between one end of the horizontal part, far away from the vertical part, and the side wall of the bottom plate, and is in a compressed state.

Preferably, the button assembly includes a button and a movable block abutting against the button, and the button can push the movable block to move the two horizontal portions toward each other.

Preferably, the first connecting shaft penetrates through the shell, the first connecting shaft is a stepped shaft, the diameters of two ends of the first connecting shaft are smaller than that of the middle section of the shell, and two ends of the first connecting shaft are provided with gyroscope tips;

the fixed plates are two and are respectively positioned between the gyroscope sharp and the stepped surface of the first connecting shaft corresponding to the gyroscope sharp.

Preferably, every top tip all include the fixed part and connect in the pointed end portion of fixed part, the fixed part is the cuboid structure, and has seted up fixed blind hole along length direction.

Preferably, the first connecting shaft comprises a shaft sleeve and a fixing shaft, the shaft sleeve is provided with a first through hole along the axial direction of the shaft sleeve, and the fixing shaft penetrates through the first through hole.

The invention has the beneficial effects that:

according to the toy gyroscope provided by the invention, the two lock catches and the clamping grooves are arranged, the fixing plate is sleeved on the first connecting shaft, the first connecting shaft can rotate relative to the fixing plate, when the two lock catches are simultaneously inserted into the clamping grooves, the transmission mechanism can drive the first connecting shaft to rotate, at the moment, the locking mechanism and the fixing plate do not rotate along with the transmission mechanism, the locking mechanism and the transmission mechanism do not interfere with each other, when the gyroscope is separated from the emitter through the locking mechanism, the operation is simple and convenient, the rotation of the gyroscope cannot be influenced by the locking mechanism, and the durable rotation of the gyroscope is facilitated.

Drawings

FIG. 1 is a schematic diagram of a toy top according to the present invention;

FIG. 2 is a cross-sectional view of a transmitter provided by the present invention;

FIG. 3 is a schematic structural diagram of a base plate provided by the present invention;

FIG. 4 is a first schematic diagram illustrating the operation state of the transmitter provided by the present invention;

FIG. 5 is a second schematic diagram of the working state of the transmitter provided by the present invention;

FIG. 6 is a cross-sectional view of a top provided by the present invention;

FIG. 7 is a schematic structural view of a bushing provided by the present invention;

FIG. 8 is a schematic diagram of a first tip of a toy top according to the present invention;

fig. 9 is a partially enlarged view of a portion a in fig. 1.

In the figure:

1. a transmitter; 111. a first cavity; 112. a base plate; 1121. a strip-shaped groove; 1122. a first fixing hole; 1123. a second through hole; 1124. a first positioning post; 1125. a second positioning column; 121. a first gear; 122. a second gear; 123. a third gear; 13. bracing; 131. a limiting block; 141. a button; 142. a movable block; 1431. a horizontal portion; 1432. a vertical portion; 1433. buckling; 1434. a second inclined surface; 144. a pressure spring; 15. a sleeve; 151. a second fixing hole; 16. a second connecting shaft;

2. a top; 211. a second cavity; 212. a cover plate; 221. a shaft sleeve; 2211. a body; 2212. a flat shaft; 2213. a first through hole; 222. a fixed shaft; 23. a fixing plate; 231. a clamping groove; 232. a first inclined surface; 241. a first top tip; 2411. a fixed part; 2412. a first tip portion; 242. a second top tip;

101. a first direction; 102. a second direction.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1 to 9, the present embodiment provides a toy top, which includes a launcher 1 and a top 2, wherein the launcher 1 includes a locking mechanism and a transmission mechanism, and the locking mechanism includes two latches disposed at an interval. The top 2 comprises a shell, a first connecting shaft penetrating the shell and a fixing plate 23 sleeved on the first connecting shaft, and a clamping groove 231 is formed between the fixing plate 23 and the shell. The first connecting shaft is connected to the transmission mechanism and can rotate relative to the fixing plate 23, and the two latches can be inserted into or separated from the engaging groove 231 simultaneously.

Through setting up two hasps and joint groove 231, and on first connecting axle was located to fixed plate 23 cover, first connecting axle can 23 rotations of relatively fixed plate, when two hasps were in joint groove 231 simultaneously respectively, drive mechanism can drive first connecting axle and rotate, and locking mechanism and fixed plate 23 do not rotate along with drive mechanism this moment, locking mechanism and drive mechanism mutually noninterfere, make top 2 break away from transmitter 1 through locking mechanism, and is easy and simple to handle, and locking mechanism can not influence top 2's rotation, be favorable to top 2's lasting rotation.

As shown in fig. 2 to 5, the transmitter 1 includes a first cavity 111 and a bottom plate 112 connected to the first cavity 111, and the locking mechanism and the transmission mechanism are disposed on the bottom plate 112. Two openings are formed in the first cavity 111, but in other embodiments, two openings may be formed in the side wall of the bottom plate 112. The transmission mechanism comprises a brace 13 penetrating through the two openings, a first gear 121, a second gear 122 and a third gear 123 meshed with the first gear 121, wherein the first gear 121, the second gear 122 and the third gear are positioned between the two openings, the second gear 122 is connected with a sleeve 15, one end of the sleeve 15 penetrates through the bottom plate 112, and a second fixing hole 151 is formed in the sleeve 15 along the length direction of the sleeve. The brace 13 is meshed with the first gear 121, the first gear 121 is in transmission connection with the third gear 123, and the third gear 123 can be selectively driven to be meshed with the second gear 122.

As shown in fig. 3, a first fixing hole 1122, a second through hole 1123 and a strip-shaped groove 1121 are formed in one side of the bottom plate 112 facing the cavity, a length direction of the strip-shaped groove 1121 is perpendicular to a movement direction of the brace 13 and perpendicular to a central axis of the second gear 122, the third gear 123 is connected to a first rotating shaft, and the first rotating shaft is disposed in the strip-shaped groove 1121, and can rotate around an axis thereof and move along the length direction of the strip-shaped groove 1121. The first fixing hole 1122 is a blind hole, the first gear 121 is connected to a second rotating shaft, and the second rotating shaft is rotatably disposed in the first fixing hole 1122. The second connecting shaft 16 passes through the second through hole 1123 to connect the sleeve 15 and the second gear 122, so that the second gear 122 can drive the sleeve 15 to rotate.

By providing the strip groove 1121, when the brace 13 moves in a forward direction, i.e. in the first direction 101 (refer to the direction indicated by the arrow in the first direction 101 in fig. 1), the third gear 123 is driven to move towards the end of the strip groove 1121 close to the second gear 122, so that the third gear 123 is engaged with the second gear 122, and the second gear 122 is driven to rotate, as shown in fig. 4. When the brace 13 moves in the opposite direction, that is, in the second direction 102 (referring to the direction indicated by the arrow in the second direction 102 in fig. 1), the third gear 123 is driven to move towards the end of the strip groove 1121 away from the second gear 122, so that the third gear 123 and the second gear 122 are disengaged, and the rotation of the second gear 122 is not affected, as shown in fig. 5. Therefore, when accelerating top 2, it is not necessary to pull out stay 13, and the reciprocating motion of stay 13 can realize continuous acceleration of top 2.

As shown in fig. 2 to 4, the locking mechanism of the transmitter 1 includes a button assembly and two locking assemblies, the two locking assemblies are oppositely disposed at two sides of the second gear 122, and the button assembly can push the two locking assemblies to move towards each other.

The locking assembly comprises a lock catch and a pressure spring 144, the lock catch comprises a horizontal part 1431 and a vertical part 1432 connected to the horizontal part 1431, and the moving direction of the horizontal part 1431 is perpendicular to the length direction of the strip-shaped groove 1121, that is, the included angle between the two horizontal parts 1431 of the two lock catches and the length direction of the strip-shaped groove 1121 is 90 °, so that the two lock catches and the three gears do not interfere with each other. One end, far away from the horizontal part 1431, of the vertical part 1432 penetrates through the bottom plate 112 and is provided with a buckle 1433, a second inclined surface 1434 is arranged on the buckle 1433, the two buckles 1433 of the two vertical parts 1432 can be matched with the clamping groove 231 of the spinning top 2 to clamp or release the spinning top 2, and the horizontal part 1431, the vertical part 1432 and the buckle 1433 which form the lock catch are integrally processed and formed. The compression spring 144 is disposed between the side wall of the bottom plate 112 and an end of the horizontal portion 1431 remote from the vertical portion 1432, and the compression spring 144 is in a compressed state. In addition, the bottom plate 112 is convexly provided with a first positioning column 1124 towards one side of the first cavity 111, a first strip-shaped hole is formed in the horizontal part 1431 of the lock catch, the length direction of the first strip-shaped hole is the same as the movement direction of the brace 13, the first positioning column 1124 is arranged in the first strip-shaped hole in a penetrating mode, the movement direction of the horizontal part 1431 of the lock catch can be limited, and the horizontal part 1431 is prevented from being deviated in the movement process.

The button subassembly includes button 141 and movable block 142, and button 141 one end stretches out the transmitter 1 outside, and has seted up the second bar hole on the button 141, and bottom plate 112 is equipped with second reference column 1125 towards the protruding one side of first die cavity 111, and second reference column 1125 wears to locate in the second bar hole, can carry on spacingly to button 141's direction of motion. The movable block 142 abuts against the button 141, and one side of the movable block 142 close to the horizontal portion 1431 is provided with two protruding blocks protruding outwards, the moving direction of the movable block 142 is perpendicular to the moving direction of the brace 13, and the button 141 can push the two protruding blocks to be respectively inserted between the horizontal portion 1431 of one lock catch and the second gear 122, so that the two horizontal portions 1431 move towards each other. When the button 141 pushes the movable block 142 to move, the two protrusions can push the two horizontal portions 1431 to move towards each other, so that the distance between the two vertical portions 1432 is increased, and the two buckles 1433 are simultaneously separated from the clamping groove 231 to loosen the top 2.

As shown in fig. 1, the stay 13 is provided with the limiting block 131, so that the stay 131 cannot penetrate out of the two openings when moving along the first direction 101, the repeated penetration operation of the stay 13 is omitted, and the problem that the stay 13 is easy to lose can be avoided.

As shown in fig. 6, the first connecting shaft penetrates through the housing, the first connecting shaft is a stepped shaft, the diameters of both ends of the first connecting shaft are smaller than the diameter of the middle section, and both ends of the first connecting shaft are provided with gyroscope tips; the fixed plates 23 are two and are all sleeved on the first connecting shaft, the two fixed plates 23 correspond to the two gyroscope points one to one, and the two fixed plates 23 are respectively located between the gyroscope points corresponding to the fixed plates and the step surfaces of the first connecting shaft.

Specifically, the housing includes a second cavity 211 and a cover plate 212 covering the second cavity 211, the second cavity 211 is a hemispherical structure made of a zinc alloy material, and the cover plate 212 is a circular ring structure made of plastic. In the direction of perpendicular apron 212, seted up the third through-hole in the second die cavity 211, the fourth through-hole has been seted up with the relative position of third through-hole on the apron 212, and in this embodiment, the third through-hole is the circular port, and the fourth through-hole is the bar hole. The second cavity 211 is made of a zinc alloy material, and is more sturdy and resistant to falling compared with the top 2 made of all plastic, and due to the increase of weight, inertia is increased, the rotation time is prolonged, and the fighting capacity is increased.

As shown in fig. 7, the first connecting shaft includes a shaft sleeve 221 and a fixing shaft 222 located in the third through hole, the shaft sleeve 221 is provided with a first through hole 2213 along the axial direction thereof, the fixing shaft 222 is inserted into the first through hole 2213, and both ends thereof penetrate through the first through hole 2213. In this embodiment, the fixing shaft 222 is a patterned iron shaft, which can increase the friction force with the inner wall surface of the first through hole 2213, so that the fixing shaft 222 and the shaft sleeve 221 can be tightly attached to each other and can rotate synchronously. The shaft sleeve 221 includes a body 2211 and two flat shafts 2212 connected to two ends of the body 2211, the body 2211 is a cylindrical structure, and each fixing plate 23 is located between a corresponding gyroscope tip and one flat shaft 2212.

As shown in fig. 6, the fixing plate 23 includes a first portion and a second portion connected to the first portion, the first portion is a cylindrical structure provided with an opening, and the opening directions of the two first portions of the two fixing plates 23 all deviate from the other fixing plate 23, the second portion is a circular ring-shaped structure, the inner diameter of the circular ring-shaped structure is equal to the inner diameter of the cylindrical structure, the outer diameter of the circular ring-shaped structure is greater than the outer diameter of the cylindrical structure, the circular ring-shaped structures of the two fixing plates 23 respectively and the second cavity 211, the cover plate 212 forms the clamping groove 231 therebetween, the outer peripheral surface of the circular ring-shaped structure is provided with the first inclined surface 232, because the second portion of the fixing plate 23 is a circular ring-shaped structure, the clamping groove 231 surrounds the axis of the fixing shaft 222 to present a 360-degree rotating structure, 360-degree assembly can be realized with the two buckles 1433, no alignment is required, and the installation is more convenient and rapid. The fixing plate 23 is provided with a fifth through hole relative to the fourth through hole, and the diameter of the fifth through hole is larger than that of the fixing shaft 222, so that the fixing plate 23 cannot rotate along with the fixing shaft 222 when the gyroscope 2 accelerates on the emitter 1. In addition, in order to fix the shaft sleeve 221, a clamping plate is arranged on the cover plate 212 and protrudes outwards towards one side of the second cavity 211, the clamping plate extends into a gap between the flat shaft 2212 close to the cover plate 212 and the inner wall of the third through hole, the flat shaft 2212 is limited and fixed, the shaft sleeve 221 is prevented from slipping in the third through hole, and the cover plate 212 and the second cavity 211 can be driven to rotate when the shaft sleeve 221 rotates.

As shown in fig. 6 and 7, the two tops are the first top 241 and the second top 242 respectively, each top includes a fixing portion 2411 and a top portion connected to the fixing portion 2411, the fixing portion 2411 is a rectangular parallelepiped structure, and a fixing blind hole is opened in the length direction of the fixing portion 2411, and two ends of the fixing shaft 222 are inserted into the fixing blind holes of the two fixing portions 2411 of the two tops respectively, so that the two tops and the fixing shaft 222 are tightly fixed. In addition, the side edge of the fixing portion 2411 and the end connected with the tip portion are provided with guiding angles, so that the fixing portion 2411 can be inserted into the second fixing hole 151 of the sleeve 15 of the transmitter 1, and the fixing portion 2411 and the tip portion which form the gyroscope tip are integrally formed. In the present embodiment, the first tip portion 2412 of the first gyroscope tip 241 is a hemispherical structure, and the second tip portion of the second gyroscope tip 242 is a planar circular truncated cone structure. When the first tip portion 2412 of the first gyroscope tip 241 is in contact with the ground, because the first tip portion 2412 is of a hemispherical structure, the contact area between the first tip portion 2412 and the ground is small, the friction force is small, the gyroscope 2 rotates more stably, the durability is good, and the defense capability is strong; when the second tip of second top tip 242 contacted with ground, because the second tip is plane round platform shape structure, the area of contact of second tip and ground is big, and frictional force is big, and top 2 moves easily, can form the striking to other tops 2, and the offensive power is strong, and the user can decide to choose for use first top tip 241 or second top tip 242 to defend or attack according to the circumstances.

As shown in fig. 2 and 9, when the spinning top 2 is installed on the launcher 1, the two first inclined surfaces 232 of the fixing plate 23 respectively contact the second inclined surfaces 1434 of the two hooks 1433 and press the two second inclined surfaces 1434, so that the two hooks move toward each other and simultaneously press the two compression springs 144 respectively, when the two hooks 1433 are simultaneously inserted into the locking grooves 231, the two hooks 1433 are made to clamp the spinning top 2 by the compression springs 144, and at this time, the second spinning top 242 is inserted into the second fixing hole 151 of the sleeve 15. Pulling the pulling strip 13 to move along the first direction 101, driving the shaft sleeve 221 to rotate through the second gear 122, and driving the second gyroscope tip 242, the fixed shaft 222 and the shaft sleeve 221 of the gyroscope 2 to rotate to accelerate the gyroscope 2. Pull-string 13 is then pushed in second direction 102 so that third gear 123 and second gear 122 disengage without affecting the rotation of second gear 122, and pull-string 13 again in first direction 101, accelerating top 2 again. The above process may be repeated to continuously accelerate spinning top 2. When gyro 2 accelerates to certain speed, two vertical portions 1432 of two hasps move in opposite directions through pressing button 141, and two buckles 1433 break away from in the joint groove 231 simultaneously, and under the effect of gravity, gyro 2 drops to and continues to rotate on the ground.

Since the fixing plate 23 is sleeved on the fixing shaft 222, the fixing plate cannot rotate along with the second gyroscope tip 242, the fixing shaft 222 and the like, and the locking mechanism and the transmission mechanism of the transmitter 1 are separated without interference.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A toy top, comprising:

the launcher (1) comprises a locking mechanism and a transmission mechanism, wherein the locking mechanism comprises two oppositely arranged lock catches;

the gyroscope (2) comprises a shell, a first connecting shaft and a fixing plate (23), wherein the first connecting shaft penetrates through the shell, the fixing plate (23) is sleeved on the first connecting shaft, and a clamping groove (231) is formed between the fixing plate (23) and the shell;

the first connecting shaft is connected to the transmission mechanism and can rotate relative to the fixing plate (23), and the two lock catches can be simultaneously inserted into or separated from the clamping groove (231).

2. The toy top according to claim 1, characterized in that the launcher (1) comprises a first cavity (111) and a bottom plate (112) connected to the first cavity (111), the locking mechanism and the transmission mechanism being both arranged on the bottom plate (112).

3. The toy top of claim 2, wherein the first cavity (111) is provided with two openings opposite to each other;

the transmission mechanism comprises pull bars (13) penetrating through the two openings, a first gear (121) and a second gear (122) positioned between the two openings, and a third gear (123) meshed with the first gear (121), the pull bars (13) are meshed with the first gear (121), the first gear (121) is in transmission connection with the third gear (123) and can selectively drive the third gear (123) to be meshed with the second gear (122), and the third gear (123) is connected with a sleeve (15) of which one end penetrates through the bottom plate (112).

4. The toy spinning top according to claim 3, wherein a strip-shaped groove (1121) is formed in the bottom plate (112), the length direction of the strip-shaped groove (1121) is perpendicular to the movement direction of the brace (13), and the third gear (123) is connected with a first rotating shaft which is arranged in the strip-shaped groove (1121).

5. The toy top of claim 2, wherein the locking mechanism includes a button assembly and two locking assemblies, the two locking assemblies being disposed in opposition, the button assembly being capable of urging the two locking assemblies toward one another.

6. The toy top of claim 5, wherein the locking assembly comprises the catch and a compression spring (144), the catch comprises a horizontal portion (1431) and a vertical portion (1432) connected to the horizontal portion (1431), the vertical portion (1432) passes through the bottom plate (112) at an end of the horizontal portion (1431) remote from the horizontal portion (1431), the compression spring (144) is disposed between an end of the horizontal portion (1431) remote from the vertical portion (1432) and a side wall of the bottom plate (112), and the compression spring (144) is in a compressed state.

7. The toy top of claim 6, wherein the button assembly comprises a button (141) and a movable block (142) abutting the button (141), the button (141) being capable of pushing the movable block (142) to move the two horizontal portions (1431) towards each other.

8. The toy top of claim 1, wherein the first connecting shaft extends through the housing and is a stepped shaft having a diameter at each end thereof smaller than a diameter of the middle section, the first connecting shaft having a top tip at each end;

the number of the fixing plates (23) is two, and the fixing plates are respectively located between the gyroscope tops corresponding to the fixing plates and the stepped surface of the first connecting shaft.

9. The toy top of claim 8, wherein each top tip comprises a fixing portion (2411) and a tip portion connected to the fixing portion (2411), and the fixing portion (2411) has a rectangular parallelepiped structure and is provided with a blind fixing hole along a length direction.

10. The toy top of claim 9, wherein the first connecting shaft comprises a shaft sleeve (221) and a fixing shaft (222), the shaft sleeve (221) is provided with a first through hole (2213) along an axial direction thereof, and the fixing shaft (222) is inserted into the first through hole (2213).

Images