CN110575673B - Ejection toy - Google Patents

The invention relates to an ejection toy, which comprises an ejection seat, a transmission assembly, a driving assembly, a gyrator and an ejection member, wherein the transmission assembly, the driving assembly, the gyrator and the ejection member are arranged on the ejection seat; the ejection seat is provided with an emission groove, the output end of the transmission assembly is arranged in the emission groove, and the output end of the transmission assembly is in transmission connection with the gyrotron in a matched mode; the driving component is connected with the input end of the transmission component in a matched manner and is used for driving the transmission component to drive the gyroplane to rotate along the running direction or the running backward direction; the ejection piece is rotatably arranged on the ejection seat and is used for ejecting the gyrorotor. The ejection toy disclosed by the invention is ingenious in design, can enable the gyroplane to be ejected out for gyroplane after accelerating, can continuously accelerate for ejection and gyroplane movement, and is higher in interestingness.

Ejection toy

Technical Field

The invention relates to the technical field of toys, in particular to an ejection toy.

Background

The toy is used as an important tool for the intelligence development and entertainment play of children, and the quality and the function of the toy are improved along with the continuous improvement of the living standard of people. Wherein, the ejection toy is a toy which is deeply favored by children.

The existing ejection toy needs to increase the interest of the toy while pursuing intelligence development activities, thereby improving the interest of children. Cartoon in real life attracts a large group of vermicelli by virtue of vivid special effects of image, and many toys derived from the vermicelli are deeply caught by the stick of vermicelli. The existing left wheel type ejection toy has rough work and low simulation or has the function of an ejection part, so that the pursuit of modern people on multiple playing methods of the toy is not met.

In addition, the existing ejection toy usually has only a single playing method, only can eject the ejection piece singly, and has no other novel playing method, so that the toy lacks interestingness, is difficult to obtain the long-term favor of children, and the children can lose interest and gradually put aside.

Disclosure of Invention

Based on the above, the invention aims to overcome the defects of the prior art, and provides the ejection toy which is ingenious in design, can enable the gyros to be ejected out and then to gyrate after accelerating, can continuously accelerate to do ejection and gyration movement, and expands the interestingness and the functionality of the toy.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

An ejection toy comprises an ejection seat, a transmission component, a driving component, a gyrator and an ejection piece, wherein the transmission component, the driving component, the gyrator and the ejection piece are arranged on the ejection seat; the ejection seat is provided with an emission groove, the output end of the transmission assembly is arranged in the emission groove, and the output end of the transmission assembly is in transmission connection with the gyrotron in a matched mode; the driving component is connected with the input end of the transmission component in a matched manner and is used for driving the transmission component to drive the gyroplane to rotate along the running direction or the running backward direction; the ejection piece is rotatably arranged on the ejection seat and is used for ejecting the gyrorotor.

The ejection toy is composed of a driving assembly, a driving assembly and an ejection assembly, wherein the driving assembly is skillfully designed to drive the driving assembly to drive the rotation wheel to rotate along the direction of the backward travel, the ejection assembly ejects the rotation wheel from the ejection groove, the rotation wheel is backward moved at the moment of the limit of ejection acting force through the rotation acting force of the rotation wheel, the ejection seat can be adjusted by a user to enable the ejection groove of the ejection seat to align with the backward rotation wheel, and when the rotation wheel is in matched connection with the driving assembly again, the rotation wheel is continuously driven to rotate along the direction of the backward travel through the driving assembly, and ejection and rotation movement can be continuously accelerated. Besides, the number of gears of the transmission assembly can be changed to enable the gyroplane to obtain forward acceleration, the gyroplane is directly launched under the action of the ejection piece, and the launched gyroplane can continue to travel forward; therefore, the ejection toy of the invention not only can launch the gyroplane, but also can switch the positive and negative acceleration of the gyroplane, and the interestingness and the functionality of the toy are expanded.

In order to achieve better technical effects, further technical improvements further comprise that the transmission assembly comprises a turntable gear, a transmission gear set and a sliding gear; the rotary table gear is arranged on one side of the inner side of the emission groove, and the rotary table gear and the gyratory wheel are mutually connected in an adsorption manner through a magnetic element; the transmission gear set is in transmission connection with the turntable gear, and drives the gyroplane to rotate along the running direction or the running backward direction; the sliding gear is slidably arranged on the ejection seat and is in transmission connection with the driving assembly, and the driving assembly is used for driving the sliding gear to be in transmission connection with or separated from the transmission gear set.

In order to achieve the better technical effect, the technical improvement further comprises that the transmission gear set comprises a transmission gear, a stirring disc, a first stirring gear and a second stirring gear, wherein the transmission gear is rotatably arranged on the ejection seat, the stirring disc is slidably arranged on the ejection seat, the first stirring gear and the second stirring gear are rotatably arranged on the stirring disc, the first stirring gear is in transmission connection with the second stirring gear, and the stirring disc is used for driving the first stirring gear to be in transmission connection with the turntable gear and the transmission gear respectively, or driving the first stirring gear and the second stirring gear to be in transmission connection with the turntable gear and the transmission gear respectively.

In order to achieve a better technical effect, the technical improvement further comprises that the magnetic element comprises a first magnetic disk and a second magnetic disk, wherein the first magnetic disk is arranged on the side surface of the turntable gear, and the second magnetic disk is arranged on the side surface of the gyrator opposite to the turntable gear.

In order to achieve a better technical effect, the technical improvement further comprises that a first annular rack is arranged on the side face of the turntable gear, and a second annular rack meshed with the first annular rack is arranged on the side face of the gyratory wheel.

In order to obtain better technical effects, the technical improvement further comprises that the ejection seat is provided with a pair of sliding grooves, and two ends of a rotating shaft of the sliding gear are respectively and slidably arranged in the pair of sliding grooves; the driving assembly drives the sliding gear to be in transmission connection with or separated from the transmission gear set through rotation in the positive and negative directions respectively.

In order to achieve better technical effects, further technical improvements comprise that the driving assembly comprises a winding roll, a winding shaft, a driving gear, a winding sheet and a pull rope; the winding roll is of a hollow structure with one side provided with a hole, the middle part of the winding roll is rotatably arranged in a through hole of the winding roll, one end of the winding roll stretches into the winding roll, and the other end of the winding roll is positioned at the outer side of the winding roll; the driving gear is fixedly sleeved on the wire winding shaft and is in fit transmission connection with the input end of the transmission assembly; the winding sheet is wound on one end of the winding shaft extending into the winding roll, and the center end of the winding sheet is fixed at the port of the winding shaft; the stay cord winding sets up the other end of reel, and its end stretches out the outside of launching seat and is equipped with the pull ring.

In order to achieve a better technical effect, the technical improvement further comprises that the ejection member comprises an ejection rod and a torsion member, wherein the middle part of the ejection rod is rotatably arranged on the ejection seat through the torsion member, the upper end of the ejection rod extends upwards out of the ejection seat and is provided with a pressing part, and the lower end of the ejection rod is rotatably provided with a pulley which is positioned behind the gyratory wheel.

In order to achieve better technical effects, the technical improvement further comprises that a handle is arranged on one side of the ejection seat, and the handle is vertically arranged on the side face of the ejection seat.

In order to achieve better technical effects, the technical improvement further comprises that a flip cover is arranged at the bottom of one end of the handle, which is far away from the ejection seat, and the flip cover rotates for 0-90 degrees relative to the handle.

For a better understanding and implementation, the present invention is described in detail below with reference to the drawings.

Drawings

FIG. 1 is a schematic view of the structure of the ejection toy of the present invention;

FIG. 2 is a front view of the ejection toy of the present invention;

fig. 3 is a bottom view of the ejection toy of the present invention;

FIG. 4 is an exploded view of the ejection toy of the present invention;

FIG. 5 is a schematic illustration of the connection between the drive assembly and the transmission assembly of the present invention;

FIG. 6 is a schematic illustration of another connection between a drive assembly and a transmission assembly according to the present invention;

FIG. 7 is a schematic view of an ejector according to the present invention;

FIG. 8 is a schematic diagram illustrating the connection between a sliding gear and a chute according to the present invention;

FIG. 9 is a schematic view of the structure of a turntable gear of the ejection toy of the present invention;

fig. 10 is a schematic structural view of a gyratory wheel of the ejection toy of the present invention.

Detailed Description

For further illustration of the various embodiments, the invention is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible implementations and advantages of the present invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus are not to be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Please refer to fig. 1 to 10.

The embodiment of the invention provides an ejection toy, which comprises an ejection seat 10, a transmission component 20, a driving component 30, a gyrator 40 and an ejection piece 50, wherein the transmission component 20, the driving component 30, the gyrator 40 and the ejection piece 50 are arranged on the ejection seat 10; the ejection seat 10 is provided with an emission groove 11, the output end of the transmission assembly 20 is arranged in the emission groove 11, and the output end of the transmission assembly 20 is in transmission connection with the gyrotron 40 in a matched mode; the driving assembly 30 is cooperatively connected with the input end of the transmission assembly 20, and is used for driving the transmission assembly 20 to drive the gyroplane 40 to rotate along the running direction or the running backward direction; the ejector 50 is rotatably disposed on the ejector seat 10, and the ejector 50 is used for ejecting the rotor 40.

In this embodiment, in order to improve the ornamental value of the ejection seat 10, the ejection seat 10 is designed into a motorcycle type structure, the emission groove 11 is disposed at the front end of the ejection seat 10, and the gyrorotor 40 serves as a front wheel of the motorcycle type structure; and a handle 12 is arranged on one side of the ejection seat 10, and the handle 12 is vertically arranged on the side surface of the ejection seat 10; the bottom of one end of the handle 12 far away from the ejection seat is provided with a flip cover 121, and the rotation range of the flip cover 121 relative to the handle 12 is 0-90 degrees. The rear end of the ejection seat 10 is provided with a rear wheel 13. It should be noted that the shape of the ejection seat 10 of the present invention is not limited to the motorcycle type structure of the present embodiment, and may be designed into other attractive shapes. In this embodiment, the handle 12 is a long grip, but the handle 12 may be a U-shaped grip, and the like, which is not described in detail herein.

The transmission assembly 20 of the present embodiment is designed as a gear assembly structure, specifically, the transmission assembly 20 includes a turntable gear 21, a transmission gear set 22 and a sliding gear 23; the turntable gear 21 is arranged on the inner side of the emission groove 11, and the turntable gear 21 and the gyrostat 40 are mutually and adsorbed and connected through magnetic elements; the transmission gear set 22 is in transmission connection with the turntable gear 21, and the transmission gear set 22 drives the gyroplane 40 to rotate along the running direction or the running backward direction; the sliding gear 23 is slidably arranged on the ejection seat 10, the sliding gear 23 is in transmission connection with the driving assembly 30, and the driving assembly 30 is used for driving the sliding gear 23 to be in transmission connection with or separated from the transmission gear set 22.

The driving gear set 22 includes a driving gear 221, a dial plate 222, a first dial gear 223 and a second dial gear 224, the driving gear 221 is rotatably disposed on the ejection seat 10, the dial plate 222 is slidably disposed on the ejection seat 10, the first dial gear 223 and the second dial gear 224 are rotatably disposed on the dial plate 222, and the first dial gear 223 and the second dial gear 224 are in driving connection, and the dial plate 222 is used for driving the first dial gear 223 to be in driving connection with the turntable gear 21 and the driving gear 221, respectively, or driving the first dial gear 222 and the second dial gear 223 to be in driving connection with the turntable gear 21 and the driving gear 221, respectively.

In this embodiment, by providing the dial 222 and the first and second dial gears 223 and 224, when the dial 222 is driven to make the first dial gear 223 be respectively connected with the turntable gear 21 and the transmission gear 221 in a transmission manner, the second dial gear 224 is in an idle state; when the dial 222 is driven to enable the first dial gear 222 and the second dial gear 223 to be respectively in transmission connection with the turntable gear 21 and the transmission gear 221, the turntable gear 21, the first dial gear 222, the second dial gear 223 and the transmission gear 221 are sequentially in transmission connection; the difference between the two cases is that the number of gears between the turntable gear 21 and the transmission gear 221 is singular or double, so that the effect that the transmission gear set 22 drives the swiveling wheel 40 to rotate in the traveling direction or the traveling backward direction is achieved.

In addition, the ejection seat 10 is provided with a pair of sliding grooves 14, and two ends of the rotating shaft of the sliding gear 23 are respectively slidably arranged in the pair of sliding grooves 14 of the ejection seat 10; the driving assembly 30 drives the sliding gear 23 to be in transmission connection with or separated from the transmission gear set 22 through rotation in the forward and reverse directions respectively.

The magnetic elements include a first disk 24 and a second disk 41, the first disk 24 being mounted on a side of the turntable gear 21, the second disk 41 being mounted on a side of the rotator 40 opposite the turntable gear 21. The side of the turntable gear 21 is provided with a first annular rack 211, and the side of the gyrator 40 is provided with a second annular rack 401 meshed with the first annular rack 211. The rotor 40 of the present embodiment is not only in adsorption connection with the first disk 24 of the turntable gear 21 through the second disk 41, but also is meshed with the first annular rack 211 of the turntable gear 21 through the second annular rack 401 on the side surface of the rotor 40, so that the phenomenon that the turntable gear 21 drives the turntable gear 40 to rotate is avoided.

The driving assembly 30 of the present embodiment is designed as a return force assembly structure, specifically, the driving assembly 30 includes a winding roll 31, a winding shaft 32, a driving gear 33, a winding sheet 34 and a pulling rope 35; the winding roll 31 is a hollow structure with one side perforated, the middle part of the winding roll 32 is rotatably arranged in a through hole of the winding roll 31, one end of the winding roll extends into the winding roll 31, and the other end of the winding roll is positioned at the outer side of the winding roll 31; the driving gear 33 is fixedly sleeved on the wire winding shaft 32 and is in matched transmission connection with the sliding gear 23 of the transmission assembly 20; the winding sheet 34 is wound on one end of the winding shaft 33 extending into the winding roll 31, and the center end of the winding sheet 34 is fixed at the port of the winding shaft 32; the pull rope 35 is wound on the other end of the winding shaft 32, and the tail end of the pull rope extends out of the ejection seat 10 and is provided with a pull ring 36.

In addition, the ejector 50 of the present embodiment includes an ejector rod 51 and a torsion member 52, wherein the middle portion of the ejector rod 51 is rotatably disposed on the ejector seat 10 by the torsion member 52, the upper end thereof extends upward out of the ejector seat 10 and is provided with a pressing portion 511, the lower end thereof is rotatably provided with a pulley 512, and the pulley 512 is located at the rear of the swivel wheel 40.

As shown in fig. 6, when the dial 222 is driven to make the first dial gear 223 in driving connection with the dial gear 21 and the transmission gear 221, respectively, the second dial gear 224 is in an idle state; when the pull rope 35 is pulled by the pull ring 36, the wire reel 32 rotates forward and drives the driving gear 33 to rotate forward, the driving gear 33 drives the sliding gear 23 to rotate reversely, and at the moment, the sliding gear 23 slides to one end of the chute 14 close to the transmission gear set 22 and is in transmission connection with the transmission gear 221, so that the rotary wheel 40 is driven to rotate along the running direction by the transmission gear 221, the first stirring gear 223 and the rotary table gear 21, and the rotary wheel obtains forward running energy; in this process, the roll 34 is simultaneously compression wound on the spool 32. When the pull ring 36 is released, the winding shaft 32 reversely rotates to recover the pull rope 35 under the action of the winding sheet 34, and meanwhile, the winding shaft 32 reversely rotates to drive the sliding gear 23 to rotate forward, at the moment, the sliding gear 23 slides to the end of the sliding groove 14 far away from the transmission gear set 22 and is separated from the transmission gear set, so that when the pull rope 35 is recovered, the sliding gear 21 is in an idle state, and a reverse acting force cannot be applied to the turntable gear 21.

After the gyratory wheel 40 obtains a certain forward energy, the pressing part 511 is pushed downwards in the same way so that the ejection rod 51 rotates forwards, and the gyratory wheel 40 is ejected out of the launching groove 11 by striking through the pulley 512 at the lower end of the ejection rod 51; in the process of the ejection, the speed of the whirling wheel 40 to strike the ejection is controlled by controlling the speed of the downward beating pressing portion 511, and after beating, the ejection lever 51 is reset to the original position by the torsion member 52.

As shown in fig. 5, when the dial 222 is driven such that the first dial gear 222 and the second dial gear 223 are respectively in driving connection with the dial gear 21 and the transmission gear 221, the dial gear 21, the first dial gear 222, the second dial gear 223 and the transmission gear 221 are sequentially in driving connection; when the pull rope 35 is pulled by the pull ring 36, the wire spool 32 rotates forward and drives the driving gear 33 to rotate forward, the driving gear 33 drives the sliding gear 23 to rotate reversely, and at the moment, the sliding gear 23 slides to one end of the chute 14 close to the transmission gear set 22 and is in transmission connection with the transmission gear set 22, so that the turning wheel 40 is driven to rotate along the running backward direction sequentially through the transmission gear 221, the second stirring gear 223, the first stirring gear 222 and the turntable gear 21, that is, when the pull rope 35 is pulled by the pull ring 36, the driving gear 33 drives the turning wheel 40 to rotate along the running backward direction by driving the transmission assembly 20, and the turning wheel 40 obtains turning energy; in this process, the roll 34 is simultaneously compression wound on the spool 32. When the pull ring 36 is released, the winding shaft 32 reversely rotates to recover the pull rope 35 under the action of the winding sheet 34, and meanwhile, the winding shaft 32 reversely rotates to drive the sliding gear 23 to rotate forward, and at the moment, the sliding gear 23 slides to one end of the sliding groove 14 far away from the transmission gear set 22 and is separated from the transmission gear set, so that when the pull rope 35 is recovered, the sliding gear 21 is in an idle state, and a reverse acting force cannot be applied to the turntable gear 21, and the driving assembly 30 only drives the transmission assembly 20 to drive the rotator 40 to rotate along the traveling backward direction of the rotator 40.

After the gyratory wheel 40 obtains certain gyratory energy, the pressing part 511 is pushed downwards in the same way so that the ejection rod 51 rotates forwards, and the gyratory wheel 40 is ejected out of the launching groove 11 by striking through the pulley 512 at the lower end of the ejection rod 51; in the process of the ejection, the speed of the whirling wheel 40 to strike the ejection is controlled by controlling the speed of the downward beating pressing portion 511, and after beating, the ejection lever 51 is reset to the original position by the torsion member 52.

The rotating wheel 40 does not move forward at the moment that the ejection acting force reaches the limit, and retreats through the rotation acting force of the rotating wheel 40, at the moment, the position of the ejection seat 10 can be adjusted to enable the ejection groove 11 of the ejection seat 10 to align with the retreated rotating wheel 40, when the rotating wheel 40 is matched with the turntable gear 21 again for adsorption, the pull ring 36 pulls the pull rope 35 to store energy for the rotating wheel 40 again in a rotating mode, and then the rotating wheel 40 is ejected through the ejection piece 50, so that the rotating wheel 40 can perform ejection rotating motion seamlessly.

Compared with the prior art, the ejection toy is formed by ingenious design of the transmission assembly, the driving assembly can drive the transmission assembly to drive the cyclotron to rotate along the direction of the backward travel, the cyclotron ejects from the emission groove through the ejection piece, the cyclotron retreats at the moment of the limit of ejection acting force through the rotary acting force of the cyclotron, the position of the ejection seat can be adjusted by a user to enable the emission groove of the ejection seat to align with the retreated cyclotron, and when the cyclotron is in cooperative connection with the transmission assembly again, the driving assembly continues to drive the cyclotron to rotate along the direction of the backward travel, and ejection and rotary movement can be continuously accelerated. Besides, the number of gears of the transmission assembly can be changed to enable the gyroplane to obtain forward acceleration, the gyroplane is directly launched under the action of the ejection piece, and the launched gyroplane can continue to travel forward; therefore, the ejection toy of the invention not only can launch the gyroplane, but also can switch the positive and negative acceleration of the gyroplane, and the interestingness and the functionality of the toy are expanded.

The above examples illustrate only a few embodiments of the present invention, which are described in greater detail and are not to be construed as limiting the scope of the inventive launch toy. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention.