CN111111224B - Gyroscope launching vehicle - Google Patents

Abstract

The invention discloses a gyro launching vehicle which comprises a gun-shaped launching vehicle, wherein a holding part and a launching part are arranged on the launching vehicle, a trigger is arranged on one side of the holding part and is in sliding connection with the holding part, the trigger is positioned at the holding part and is matched with a launching mechanism, a chute is arranged on the top surface of the launching part far away from the holding part, and the other end of the chute corresponds to the position of a self-locking mechanism. According to the invention, the top is pushed into the clamping groove along the sliding groove, the self-locking mechanism is installed in place to fix the top, meanwhile, the pull rod is propped against the inner side of the transmitting part due to the pushing of the top, so that the pull rod is buckled with the first transmission piece, the position fixing of the pull rod is completed, the pushing handle is held by a hand, the pushing handle moves back and forth along the notch, the jumping teeth are disengaged when the pushing handle pushes forwards, the top is prevented from reversely rotating, the jumping teeth are meshed when the top pushes backwards, the top is driven to rotate, and the top can only rotate in one direction.

Description

Gyroscope launching vehicle

Technical Field

The invention relates to the technical field of gyro launching vehicles, in particular to a gyro launching vehicle.

Background

The top is one of the toys played most frequently in children, is deeply favored by children, and is even played at present. The top is usually required to be quickly turned when playing, and can be turned by fingers or auxiliary rotating devices, and even for better rotation of the top, a special top launcher is developed, however, the current launcher only can launch the top and cannot launch the deformed top, so that the launcher cannot be used when playing with other toys.

Disclosure of Invention

The invention aims to provide a gyro emission vehicle for solving the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

According to one aspect of the invention, there is provided a gyro launcher, comprising a gun-shaped launcher, wherein a holding part and a launching part are arranged on the launcher, a trigger is arranged on one side of the holding part and is in sliding connection with the holding part, the trigger is positioned on the holding part and is matched with a launching mechanism, a chute is arranged on the top surface of the launching part far away from the holding part, the other end of the chute corresponds to the position of a self-locking mechanism, a transmission gear box is arranged on the inner side of the launching part and corresponds to the position of the self-locking mechanism, a pushing handle is arranged on the lower part of the launching part and corresponds to the position of the chute, the pushing handle is in sliding connection with the lower part of the launching part, and the top surface of the pushing handle extends to the inner side of the launching part and is in transmission connection with the transmission gear box.

The trigger is provided with a sliding button on the inner side end face of the holding part, an inclined plane of the bottom side of the sliding button is matched with the first transmission part, a first reset spring is arranged at the bottom end of the first transmission part, the top end of the first transmission part is buckled with a pull rod which is arranged at the inner side top of the transmitting part in parallel, a second reset spring is arranged between the pull rod and the inner wall of one end of the transmitting part far away from the sliding groove, and a limiting structure is arranged at one end of the pull rod close to the second reset spring.

The pull rod is located at the outer side of the sliding groove when being buckled with the first transmission piece, and is located at the inner side of the sliding groove when being loosened with the first transmission piece, and slides along the sliding way at the inner side of the transmitting part.

The self-locking mechanism is located on the top surface of the transmitting part and is communicated with the sliding groove, the self-locking mechanism is located inside a clamping groove on one side of the sliding groove away from the pushing handle, and a fixing groove position is formed inside the clamping groove.

The pushing handle is of a detachable structure and is fixed into a whole through a bolt, the connecting portion of the pushing handle penetrates through the notch on the transmitting portion, the rack at the top of the pushing handle is located at the bottom of the inner side of the transmitting portion, and the rack and the transmission gear box are in meshed transmission with a gear at one end, close to the holding portion, of the transmission gear box.

The middle part of the inner side of the transmission gear box is provided with jumping teeth for transmission, and a first transmission gear at one end of the transmission gear box far away from the holding part is meshed with a big tooth on the top for transmission.

The second transmission gear is arranged in the transmission gear box and positioned on one side of the jumping teeth and is perpendicular to the jumping teeth, and the second transmission gear corresponds to the clamping groove in position.

One side of the self-locking mechanism is provided with a safety switch for improving use safety, and a C-shaped buckle for enabling the top to slide out is arranged at the position of the transmitting part corresponding to the safety switch.

According to another aspect of the invention, there is provided a spinning top, comprising a weight flywheel in the middle, wherein the upper and lower parts of the weight flywheel are provided with a shell, the outer side of the spinning top is provided with a cover which turns left and right, and the spinning top is provided with two gears.

The top is hexagonal in shape, one gear is located on the outer side of the shell, and the other gear is arranged on the top.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the invention, the top is pushed into the clamping groove along the sliding groove, the self-locking mechanism is installed in place to fix the top, meanwhile, the pull rod is propped against the inner side of the transmitting part due to the pushing of the top, so that the pull rod is buckled with the first transmission piece, the position fixing of the pull rod is completed, the pushing handle is held by a hand, the pushing handle moves back and forth along the notch, the jumping teeth are disengaged when the pushing handle pushes forwards, the top is prevented from reversely rotating, the jumping teeth are meshed when the top pushes backwards, the top is driven to rotate, and the top can only rotate in one direction.

2. According to the invention, after the top rotates to a certain degree, the safety switch is turned on, the trigger is buckled, the top can be launched along the chute, and as the matching surface of the sliding buckle and the first transmission piece is obliquely arranged, when the trigger is pressed, the sliding buckle moves backwards, so that the first transmission piece moves downwards, the first transmission piece is separated from the pull rod, and the pull rod ejects the top out of the chute under the action of the second reset spring, so that the top is launched.

Drawings

FIG. 1 is an assembly view of a launching vehicle and a top in a top launcher configuration;

FIG. 2 is a schematic diagram of the assembly of a launching vehicle and a top in a top launching vehicle;

FIG. 3 is one of the schematic internal structural diagrams of the gyroscopic launch vehicle;

FIG. 4 is a second schematic diagram of the internal structure of the gyro wheel;

FIG. 5 is one of the schematic internal drive arrangements of the gyroscopic launch vehicle;

FIG. 6 is a second schematic diagram of the internal transmission structure of the top launcher;

FIG. 7 is a third schematic view of the internal transmission structure of the top launcher.

In the figure: 1. a launch vehicle; 101. a grip portion; 102. a transmitting section; 103. a trigger; 104. a chute; 105. a self-locking mechanism; 106. a transmission gear box; 107. a pushing handle; 108. a sliding buckle; 109. a first transmission member; 110. a first return spring; 111. a pull rod; 112. a second return spring; 113. a limit structure; 114. a slideway; 115. a clamping groove; 116. a notch; 117. a rack; 118. jumping teeth; 119. a first transmission gear; 120. a second transmission gear; 121. a safety switch; 122. c-shaped buckles; 2. a counterweight flywheel; 3. a housing; 4. and a cover.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the present invention provides the following technical solutions:

According to one aspect of the invention, there is provided a gyro launcher comprising a gun-shaped launcher 1, wherein a holding part 101 and a launching part 102 are arranged on the launcher 1, a trigger 103 is arranged on one side of the holding part 101, the trigger 103 is in sliding connection with the holding part 101, the part of the trigger 103 positioned on the holding part 101 is matched with a launching mechanism, a chute 104 is arranged on the top surface of the launching part 102 far away from the holding part 101, the other end of the chute 104 corresponds to the position of a self-locking mechanism 105, a transmission gear box 106 is arranged on the inner side of the launching part 102 corresponding to the position of the self-locking mechanism 105, a push handle 107 is arranged on the lower part of the launching part 102 corresponding to the position of the chute 104, the push handle 107 is in sliding connection with the lower part of the launching part 102, and the top surface of the push handle 107 extends to the inner side of the launching part 102 and is in transmission connection with the transmission gear box 106.

The trigger 103 is provided with a sliding button 108 on the inner side end surface of the holding part 101, an inclined plane at the bottom side of the sliding button 108 is matched with the first transmission member 109, a first return spring 110 is arranged at the bottom end of the first transmission member 109, the top end of the first transmission member 109 is buckled with a pull rod 111 which is arranged at the inner side top of the transmitting part 102 in parallel, a second return spring 112 is arranged between the pull rod 111 and the inner wall of the transmitting part 102, which is far away from one end of the chute 104, a limiting structure 113 is arranged at one end of the pull rod 111, which is close to the second return spring 112, and because the matching surface of the sliding button 108 and the first transmission member 109 is arranged in an inclined way, when the trigger 103 is pressed, the sliding button 108 moves backwards, so that the first transmission member 109 moves downwards, the first transmission member 109 is separated from the pull rod 111, and the top is ejected out of the chute 104 under the action of the second return spring 112, so that the top is transmitted.

When the pull rod 111 is buckled with the first transmission member 109, the other end of the pull rod 111 is located outside the chute 104, when the pull rod 111 is released from the first transmission member 109, the other end of the pull rod 111 is located inside the chute 104, and the pull rod 111 slides along the slideway 114 inside the launching part 102, when the pull rod 111 is matched with the first transmission member 109, the pull rod 111 cannot act on the top, and after the pull rod 111 is separated, the pull rod 111 is ejected under the action of the second return spring 112, and the top located inside the chute 104 is quickly ejected to finish launching.

The self-locking mechanism 105 is located on the top surface of the transmitting portion 102 and is communicated with the sliding groove 104, the self-locking mechanism 105 is located inside a clamping groove 115 on one side, far away from the pushing handle 107, of the sliding groove 104, a fixed groove is formed in the clamping groove 115, the self-locking mechanism 105 is used for locking a top fixed in place along the sliding groove 104, the top at the moment is located in the clamping groove 115, and the top is meshed with a gear exposed in the transmission gear box 106 to be transmitted, so that high-speed rotation of the top is achieved.

The pushing handle 107 is in a detachable structure and is fixed into a whole through a bolt, the connecting part of the pushing handle 107 passes through the notch 116 on the transmitting part 102, the rack 117 at the top of the pushing handle 107 is positioned at the bottom of the inner side of the transmitting part 102, the rack 117 is meshed with a gear at one end of the transmission gear box 106, which is close to the holding part 101, to drive the rack 117 to drive, the rack 117 is connected with the transmission gear box 106 in a driving way, when the pushing handle 107 moves backwards, the rack 117 is connected with the transmission gear box 106 in a driving way, and when the pushing handle 107 moves forwards, the transmission gear box 106 cannot realize transmission.

The middle part of the inner side of the transmission gear box 106 is provided with a jumping tooth 118 for transmission, and a first transmission gear 119 at one end of the transmission gear box 106 far away from the holding part 101 is meshed with a big tooth on the top for transmission, and the jumping tooth 118 cannot realize transmission when the push handle 107 moves forwards, so that the push handle 107 cannot drive the top when moving forwards, and the push handle 107 can lift the top to a higher rotating speed in the reciprocating process.

The second transmission gear 120 is disposed inside the transmission gear box 106 and on one side of the jumping gear 118, and is perpendicular to the jumping gear 118, the second transmission gear 120 corresponds to the position of the clamping groove 115, the second transmission gear 120 is suitable for a gyro in a normal form, and the first transmission gear 119 is used for converting the gyro into a gyro car for transmission.

Wherein, a safety switch 121 for improving the use safety is arranged on one side of the self-locking mechanism 105, a C-shaped buckle 122 for the top to slide out is arranged at the position of the transmitting part 102 corresponding to the safety switch 121, when the safety switch 121 is not installed into the top or the top, the trigger 103 cannot be buckled to play a safety role, and meanwhile, the C-shaped buckle 122 is used for clamping the top or the top shape to prevent the top from sliding out or the top from sliding out.

Working principle:

When the top is used, the top is pushed into the clamping groove 115 along the sliding groove 104, the self-locking mechanism 105 is installed in place to fix the top, meanwhile, the pull rod 111 is propped against the inner side of the emitting part 102 due to the pushing of the top, so that the pull rod 111 is buckled with the first transmission piece 109, and the position fixing of the pull rod 111 is completed.

The pushing handle 107 is held by hand, so that the pushing handle 107 reciprocates along the notch 116, and as the jumping teeth 118 in the transmission gear box 106 are disengaged in the forward moving process of the pushing handle 107, power transmission cannot be realized, so that the pushing handle 107 can not drive the gyroscope in the forward moving process, and the gyroscope is lifted to a higher rotating speed in the reciprocating moving process of the pushing handle 107 (namely, when the pushing handle 107 pushes forwards, the jumping teeth 118 are disengaged, so that the gyroscope is prevented from rotating reversely, and when the pushing backwards, the jumping teeth 118 are meshed to drive the gyroscope to rotate, and the gyroscope can only rotate in one direction.

When the top rotates to a certain extent, the safety switch 121 is turned on, the trigger 103 is pulled, the top can be launched along the chute 104, and as the matching surface of the sliding buckle 108 and the first transmission piece 109 is obliquely arranged, when the trigger 103 is pressed, the sliding buckle 108 moves backwards, so that the first transmission piece 109 moves downwards, the first transmission piece 109 is separated from the pull rod 111, and the pull rod 111 ejects the top out of the chute 104 under the action of the second reset spring 112, so that the top is launched.

After the trigger 103 is pulled, the pull rod 111 moves forward along the slideway 114 under the action of the first return spring 110, in the forward moving process, the pull rod 111 pushes the small self-locking clamping piece on the C-shaped buckle 122 open, at this time, the C-shaped buckle 122 is separated from the hexagonal column position on the top, the top can be stably driven out under the action of the pull rod 111, the safety switch 121 locks the moving position of the pull rod 111, and only after the hexagonal column of the top is loaded into the clamping groove 115, the trigger 103 can be pulled to move the pull rod 111.

According to another aspect of the invention, there is also provided a top for launching the top launching vehicle, which comprises a weight flywheel 2 in the middle, wherein the upper and lower parts of the weight flywheel 2 are provided with a shell 3, the outer side of the top is provided with a cover 4 which turns left and right, and the top is provided with two gears.

The appearance of top is the hexagon, and a gear is located the outside of casing 3, and another gear is located on the top, and counter weight flywheel 2 makes top pivoted more stable, and casing 3 wraps up counter weight flywheel 2, provides certain protection, and lid 4 opens the back about, can change into the gyro car, realizes different forms.

Working principle:

When the top is in use, the top is in a normal state, the top can be in transmission connection through the meshing of the gears on the top tip and the second transmission gear 120, and when the top is opened to the left and right covers 4, the top can be converted into a top vehicle form, and the top vehicle is in transmission connection with the first transmission gear 119 through the gears, so that the acceleration of the top vehicle is realized.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (1)

1. A gyro launch vehicle comprising a gun-shaped launch vehicle (1), characterized in that: the launching vehicle is characterized in that a holding part (101) and a launching part (102) are arranged on the launching vehicle (1), a trigger (103) is arranged on one side of the holding part (101), the trigger (103) is in sliding connection with the holding part (101), the part of the trigger (103) located at the holding part (101) is matched with the launching mechanism, a chute (104) is arranged on the top surface of the launching part (102) far away from the holding part (101), the other end of the chute (104) corresponds to the position of the self-locking mechanism (105), a transmission gear box (106) is arranged on the inner side of the launching part (102) corresponding to the position of the self-locking mechanism (105), a pushing handle (107) is arranged on the lower part of the launching part (102) corresponding to the position of the chute (104), and the pushing handle (107) is in sliding connection with the lower part of the launching part (102), and the top surface of the pushing handle (107) extends to the inner side of the launching part (102) and is in transmission connection with the transmission gear box (106).

The trigger (103) is provided with a sliding buckle (108) on the inner side end surface of the holding part (101), an inclined surface at the bottom side of the sliding buckle (108) is matched with a first transmission piece (109), a first reset spring (110) is arranged at the bottom end of the first transmission piece (109), the top end of the first transmission piece (109) is buckled with a pull rod (111) which is arranged at the inner side top of the transmitting part (102) in parallel, a second reset spring (112) is arranged between the pull rod (111) and the inner wall of the transmitting part (102) and far away from one end of the sliding groove (104), and a limiting structure (113) is arranged at one end of the pull rod (111) close to the second reset spring (112); the pull rod (111) is positioned at the outer side of the sliding groove (104) when being buckled with the first transmission piece (109), the other end of the pull rod (111) is positioned at the inner side of the sliding groove (104) when being loosened with the first transmission piece (109), and the pull rod (111) slides along the sliding way (114) at the inner side of the transmitting part (102); the self-locking mechanism (105) is positioned on the top surface of the transmitting part (102) and is communicated with the sliding groove (104), the self-locking mechanism (105) is positioned inside a clamping groove (115) on one side of the sliding groove (104) far away from the push handle (107), and a fixed groove position is arranged inside the clamping groove (115); the pushing handle (107) is of a detachable structure and is fixed into a whole through a bolt, the connecting part of the pushing handle (107) passes through a notch (116) on the transmitting part (102), a rack (117) at the top of the pushing handle (107) is positioned at the bottom of the inner side of the transmitting part (102), and the rack (117) is meshed with a gear at one end, close to the holding part (101), of the transmission gear box (106) for transmission; the middle part of the inner side of the transmission gear box (106) is provided with a jumping tooth (118) for transmission; a second transmission gear (120) which is arranged vertically to the jumping teeth (118) is arranged in the transmission gear box (106) and positioned at one side of the jumping teeth (118), and the second transmission gear (120) corresponds to the clamping groove (115); one side of the self-locking mechanism (105) is provided with a safety switch (121) for improving the use safety, and a C-shaped buckle (122) for enabling the top to slide out is arranged at the position of the transmitting part (102) corresponding to the safety switch (121); the jump teeth (118) can not realize transmission when the push handle (107) moves forwards, so that the push handle (107) can not drive the gyro when moving forwards;

The top is transmitted by the top transmitting vehicle, the top comprises a balance weight flywheel (2) positioned in the middle, a shell (3) is arranged at the upper part and the lower part of the balance weight flywheel (2), a cover (4) capable of turning left and right is arranged at the outer side of the top, and two gears are arranged on the top; the appearance of the gyroscope is hexagonal, one gear is positioned at the outer side of the shell (3), and the other gear is arranged on the top;

when the gyroscope is normal, the transmission connection can be completed through the meshing of the gear on the gyroscope top and the second transmission gear (120); when the top is opened to the left cover (4) and the right cover (4), the top can be converted into a top vehicle shape, and the top vehicle is accelerated through the transmission connection of the gear positioned at the outer side of the shell (3) and the first transmission gear (119).