CN209997180U - Gyro emitter - Google Patents

Abstract

The utility model belongs to the toy field discloses top transmitters, actuating mechanism in including the casing and locating the casing, drive mechanism and fixture, actuating mechanism's end links to each other with actuating mechanism, and can rotate under actuating mechanism's drive, actuating mechanism's end in addition can be connected along the direction of rotation with the top, fixture, with actuating mechanism and the equal separation setting of drive mechanism, thereby fixture can open and draw in and follow rotation axis direction joint or separation with the top, fixture sets up with actuating mechanism and drive mechanism independently respectively, make fixture to the centre gripping of top and release performance can not receive the too big influence of gear train rotational speed in the actuating mechanism, can carry out centre gripping and release effectively to the top, product stability is good.

Description

Gyro emitter

Technical Field

The utility model relates to a toy field especially relates to top emitters.

Background

The gyroscope toy mainly comprises an emitter and a gyroscope, wherein a driving mechanism, a clamping mechanism capable of being opened and closed and the like are arranged in the emitter, the driving mechanism mainly comprises a gear train, a pull rope or a rack is adopted to drive the gear train, the gyroscope is arranged on the emitter and is connected with the output end of the driving mechanism, meanwhile, the clamping mechanism clamps the gyroscope to ensure the connection stability of the gyroscope and the driving mechanism, the driving mechanism drives the gyroscope to rotate to accelerate and store energy for the gyroscope, when the rotating speed of the gyroscope reaches , the clamping mechanism is opened to unlock the gyroscope, the gyroscope is separated from the emitter, and the gyroscope is emitted.

The clamping mechanism in the prior launcher is connected with the driving mechanism in a way of being parallel to the gear train of the driving mechanism or other rotary linkage structure , and is easily influenced by various factors such as the drawing speed of the gear train and the rotary inertia, so that the clamping and unlocking performance of the clamping mechanism on the spinning top is unstable, and the acceleration and launching of the spinning top are influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an kinds of top transmitters can carry out centre gripping energy storage and unblock transmission steadily to the top.

In order to realize the purpose, the following technical scheme is provided:

gyro launcher, including the body and locating actuating mechanism, drive mechanism and clamping mechanism in the said body, end of the said drive mechanism links with said actuating mechanism, and can rotate under the drive of the said actuating mechanism, another end of the said drive mechanism can be connected with said gyro along the direction of rotation;

the clamping mechanism is arranged separately from the driving mechanism and the transmission mechanism, and can be opened and closed so as to be clamped or separated with the gyroscope along the direction of the rotating shaft.

, the housing comprises a shell layer and a second shell layer, the driving mechanism is arranged in the shell layer, the end of the transmission mechanism extends into the shell layer and is connected with the driving mechanism, the other end extends into and penetrates out of the second shell layer and can be connected with the spinning top along the rotating direction, the end of the clamping mechanism is arranged in the second shell layer, and the other end extends out of the second shell layer and can be clamped or separated with the spinning top along the rotating shaft direction.

, the housing includes a handle end and a firing end connected to the handle end, the th shell and the second shell are both located at the firing end.

, the clamping mechanism includes:

the two clamping buckles are arranged at an interval, the ends of the clamping buckles are located in the second shell layer and are connected with the second shell layer in a sliding mode through a elastic element, and the ends of the clamping buckles extend out of the second shell layer and can be clamped with or separated from the gyroscope along the direction of the rotating shaft;

and the end of the button is abutted against the two clamping buckles and can drive the clamping buckles to slide along the second shell layer, so that the two clamping buckles relatively approach or depart from each other along the connecting direction of the two clamping buckles, the clamping mechanism is folded or unfolded, and the other end of the button extends out of the second shell layer.

, the clamping mechanism includes:

two clamping buckles are arranged at an interval and are rotatably connected with the bottom of the second shell layer, the end of each clamping buckle is positioned in the second shell layer and is connected with the second shell layer through a second elastic element, and the other end of each clamping buckle extends out of the second shell layer and can be clamped with or separated from the gyroscope along the direction of the rotating shaft;

the button is connected with the two clamping buckles in an abutting mode at the end, the other end extends out of the second shell layer, and the button can drive the clamping buckles to rotate around the bottom of the second shell layer, so that the clamping mechanism is folded or unfolded.

step by step, the centre gripping is detained and is stretched out the end of second shell is equipped with joint portion, the centre gripping is detained and is passed through joint portion with the top is along rotation axis direction joint.

Step , the bottom of second shell is equipped with second joint portion, be equipped with third joint portion on the button, third joint portion with second joint portion is along two perpendicular to the line direction slip joint that the centre gripping was buckled.

, the driving mechanism includes a driving gear, an intermediate gear and a driven gear, the driving gear and the intermediate gear are engaged, and the intermediate gear can move relative to the driven gear in a radial direction to engage or disengage with the driven gear.

, a sliding groove is formed at the bottom of the shell, and the intermediate gear can move along the sliding groove under the driving of the driving gear to engage with or disengage from the driven gear.

, the transmission mechanism includes a transmission shaft and a transmission sleeve, the end of the transmission shaft is fixedly connected with the driven gear, the rotation axes of the transmission shaft and the driven gear coincide, and the other end of the transmission shaft is fixedly connected with the transmission sleeve.

Compared with the prior art, the utility model provides an among the top transmitter, equal interval sets up between fixture and the actuating mechanism and between fixture and the drive mechanism, mutual independence, mutually noninterfere. Therefore, in the process of installing, accelerating, storing energy and releasing and launching the spinning top, the opening and closing actions of the clamping mechanism and the clamping function of the spinning top are not influenced by the pulling or the overlarge rotating speed of the gear train in the driving mechanism and the larger rotating inertia of the gear train and the transmission mechanism, and the overall stability of the product is improved.

Drawings

Fig. 1 is a cross-sectional view of a gyro launcher provided by an embodiment of the present invention;

FIG. 2 is a cross-sectional view of the emitter tip of FIG. 1;

fig. 3 is a schematic structural diagram of an th shell layer according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a driving mechanism, a transmission mechanism and a clamping structure provided in an embodiment of the present invention;

fig. 5 is a schematic view illustrating an assembly of the clamping mechanism on the second shell according to an embodiment of the present invention;

fig. 6 is a schematic view illustrating a connection between the clamping mechanism and the top according to an embodiment of the present invention.

Reference numerals:

100-a handle end;

200-emitting end, 210- th shell layer, 211-sliding groove, 220-second shell layer, 221-second clamping part;

300-a top;

1-a driving gear; 2-intermediate gear; 3-a driven gear; 4-pulling a rope; 5-a cover member;

6-a transmission shaft; 7-a transmission sleeve;

8-clamping buckle, 81- th clamping part, 9-button, 91-third clamping part;

10- th elastic element.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted and the technical effect achieved by the present invention clearer, the following will make steps of detailed description on the technical solution of the embodiments of the present invention with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention , but not all embodiments.

As shown in fig. 1 and 2, the present embodiment provides kinds of top launchers, which may optionally include a housing, and a driving mechanism, a transmission mechanism and a clamping mechanism capable of being opened and closed arranged in the housing.

The housing specifically includes a handle end 100 and a launch end 200. the handle end 100 facilitates a player to hold a top launcher. the launch end 200 includes an th shell 210 and a second shell 220. the th shell 210 is attached to the handle end 100, and the second shell 220 is located at the bottom of the th shell 210.

The drive mechanism is located in the th shell 210, the drive mechanism optionally comprises a pull rope 4 and a gear train, and the pull rope 4 is connected with the gear train through a spring, the gear train can be driven through the spring, the end of the pull rope 4 extends out of the transmitting end 200, and a player can conveniently pull the pull rope 4. in other embodiments, a rack drive gear train can be used, the end of the transmission mechanism is located in the th shell 210 and is in transmission connection with the gear train and can rotate under the driving of the gear train, the other end of the transmission mechanism passes through the second shell 220 and is connected with the gyroscope 300 (see figure 6), the end of the clamping mechanism is located in the second shell 220 and is arranged at a distance from the transmission mechanism, and the other end extends out of the second shell 220 and is connected with the gyroscope 300 (.

In this embodiment, the driving mechanism is disposed on the th shell layer 210, the clamping mechanism is disposed on the second shell layer 220, and the clamping mechanism and the transmission mechanism are disposed at an interval, so that there is no direct or indirect connection relationship between the clamping mechanism and the driving mechanism, and between the clamping mechanism and the transmission mechanism.

The gyroscope 300 is stably clamped and unlocked by the clamping mechanism, and is stepped, compared with the existing clamping mechanism, the driving mechanism and the transmission mechanism which rotate and need to be additionally provided with bearings to ensure the stability of the whole rotation, the gyroscope can stably and smoothly rotate without the bearings, and the gyroscope is stably accelerated and stored with energy.

Alternatively, referring to fig. 2 and 3, the gear train in the driving mechanism includes a driving gear 1, an intermediate gear 2 and a driven gear 3, the driving gear 1 and the driven gear 3 are both rotatably connected to an th shell 210, a sliding groove 211 is formed at the bottom of a th shell 210, the intermediate gear 2 is slidably disposed in the sliding groove 211, and is further provided, in the driving mechanism of the present embodiment, a cover member 5 is disposed above the driving gear 1, a pull rope 4 is sleeved on the cover member 5, a spring (not shown) is embedded in a central hole of the cover member 5, both ends of the spring are fixedly connected to a rotating shaft of the pull rope 4 and a rotating shaft of the driving gear 1, respectively, a player pulls the pull rope 4, the pull rope 4 pulls the driving gear 1 to rotate, and the driving gear 1 transmits the rotational power to the intermediate.

Referring to fig. 2 and 4, the driving mechanism may optionally include a driving shaft 6 and a driving sleeve 7, wherein an end of the driving shaft 6 extends into the shell 210 and is tightly fitted and connected to the central hole of the driven gear 3, i.e. the rotation axes of the two coincide, another end of the driving shaft 6 extends into the second shell 220 and is tightly fitted with the driving sleeve 7, the driving sleeve 7 extends out of the second shell 220 and is used for connecting the spinning top 300 (see fig. 6), the driving sleeve 7 is a quadrangular hollow structure, i.e. the inner contour of the cross section of the driving sleeve 7 is quadrangular, a quadrangular connecting part (not shown) is correspondingly arranged on the spinning top 300, a connecting part of the spinning top 300 is inserted into the driving sleeve 7 to realize the connection between the spinning top 300 and the driving sleeve 7 in the rotation direction, the quadrangular structure is used for connecting the spinning top 300 into the driving sleeve 7 more smoothly, the alignment operation of the driving sleeve 7 and the spinning top 300 is convenient, and in other embodiments, the spinning top 300 and the driving sleeve 7 may.

Outwards stimulate stay cord 4, stay cord 4 drives lid spare 5 anticlockwise rotation, stay cord 4 also drives clockwork spring anticlockwise rotation deformation simultaneously, the clockwork spring drives driving gear 1 anticlockwise rotation, intermediate gear 2 clockwise rotation under driving gear 1's drive, intermediate gear 2 moves and meshes with driven gear 3 along spout 211 to driven gear 3's direction simultaneously, driven gear 3 anticlockwise rotation under intermediate gear 2's drive, transmission shaft 6 anticlockwise rotation under driven gear 3's drive, and advance step and drive top 300 anticlockwise rotation through driving sleeve 7, with the energy storage with higher speed to top 300.

When the pull rope 4 is loosened, the driving gear 1 rotates in the opposite direction under the action of the spring, the intermediate gear 2 also rotates in the opposite direction under the driving of the driving gear 1 and moves away from the driven gear 3 along the sliding groove 211, so that the intermediate gear 2 is separated from the driven gear 3, and the driven gear 3, the transmission mechanism connected with the driven gear and the top 300 still keep rotating counterclockwise under the inertia action. The gyro 300 can be continuously accelerated to store energy by repeatedly pulling the pull rope 4.

Referring to fig. 2, 4 and 5, the clamping mechanism may optionally include a button 9 and two oppositely disposed clasps 8, the two clasps 8 are disposed around the transmission sleeve 7 and spaced from the transmission sleeve 7, the button 9 abuts against the ends of the two clasps 8 near the transmission sleeve 7, the two clasps 8 are slidably connected to the bottom of the second shell 220 through the elastic element 10, the two clasps 8 extend out of the second shell 220 and are provided with the clasping portion 81 (see fig. 6) capable of clasping with the top 300, the elastic element 10 is preferably a spring, the bottom of the second shell 220 of the launch tip 200 is provided with the second clasping portion 221, the end of the button 9 abutting against the clasping 8 is provided with the third clasping portion 91 engageable with the second clasping portion 221, the second clasping portion 221 at the bottom of the launch tip 200 and the two clasps 8 define the button 9, the end of the button 9 extends out of the second shell 220 away from the clasp 8 to facilitate manual operation of the player.

Referring to fig. 6, when the spinning top 300 is installed, firstly, the button 9 is pressed inwards, the two holding buckles 8 move in a direction away from the transmission sleeve 7 under the pushing of the button 9, the holding mechanism is opened, the quadrilateral -th connecting part on the spinning top 300 extends into the transmission sleeve 7, meanwhile, the second connecting part on the spinning top 300 extends into the area between the transmission sleeve 7 and the holding buckles 8, the button 9 is released, the two holding buckles 8 move in the direction of the transmission sleeve 7 under the action of the elastic element 10, the holding mechanism is closed, and the clamping parts on the two holding buckles 8 are clamped with the second connecting part of the spinning top 300, so that the spinning top 300 is limited in the direction of the rotating shaft, and the spinning top 300 can be ensured to stably rotate at high speed along with the transmission sleeve 7.

It should be noted that, in other embodiments, the retaining buckle 8 may be configured as a rod or other mechanism, the middle portion of the retaining buckle 8 is rotatably connected to the bottom of the second shell 220, the end of the retaining buckle 8 extends into the second shell 220 and is connected to the second elastic element, the other end of the retaining buckle 8 extends out of the second shell 220 and can be engaged with or disengaged from the top 300 along the rotation axis direction, in the initial state, the second elastic element is pulled, the ends of the two retaining buckles 8 extending out of the second shell 220 are both folded inward under the action of the second elastic element, the retaining mechanism is folded, the push button 9 is pushed, the ends of the two retaining buckles 8 extending out of the second shell 220 are both rotated outward, and the retaining mechanism is opened steps, without providing a button, the second elastic element is driven to drive the retaining buckle 8 to rotate, so as to open or fold the retaining mechanism.

It should be noted that, in other embodiments, the shell 210 and the second shell 220 may not be separately provided, and the holding mechanism may be separately provided from the driving mechanism and the transmission mechanism by a platform, an elastic element or a supporting shaft, or other limiting element.

In the embodiment, the energy is continuously stored in the gyro 300 in an accelerating manner by repeatedly pulling the pull rope 4 and driving the gear train. Direct or indirect connection relations do not exist between the clamping mechanism and the transmission mechanism and between the clamping mechanism and the driving mechanism, the folding or unfolding action and the clamping function of the clamping mechanism are not influenced by the pulling or the overlarge rotating speed of the gear train and the overlarge rotating inertia of the gear train and the transmission mechanism, so that the clamping mechanism can stably clamp and release the gyroscope 300 in the process of accelerating and launching the gyroscope 300, the overall stability and the reliability of a product are improved, and the gyroscope is very interesting.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. The gyroscope emitter is characterized by comprising a shell, and a driving mechanism, a transmission mechanism and a clamping mechanism which are arranged in the shell, wherein a end of the transmission mechanism is connected with the driving mechanism and can rotate under the driving of the driving mechanism, and the other end of the transmission mechanism can be connected with the gyroscope (300) along the rotation direction;

   the clamping mechanism is arranged separately from the driving mechanism and the transmission mechanism, and can be unfolded and folded so as to be clamped or separated with the gyroscope (300) along the direction of the rotating shaft.
2. 2. The top launcher according to claim 1, wherein the housing comprises a th shell (210) and a second shell (220), the driving mechanism is disposed in the th shell (210), the end of the transmission mechanism extends into the th shell (210) and is connected to the driving mechanism, the other end extends into and out of the second shell (220) and can be connected to the top (300) along the rotation direction, the end of the clamping mechanism is disposed in the second shell (220), and the other end extends out of the second shell (220) and can be engaged with or disengaged from the top (300) along the rotation axis direction.
3. 3. The gyroscopic transmitter of claim 2 in which the housing includes a handle end (100) and a transmitter end (200) connected to the handle end (100), the th shell (210) and the second shell (220) each being located at the transmitter end (200).
4. 4. The top launcher according to claim 2, wherein the clamping mechanism comprises:

   the two clamping buckles (8) are arranged at intervals, the end of each clamping buckle (8) is positioned in the second shell layer (220) and is connected with the second shell layer (220) in a sliding mode through a elastic element (10), and the other end of each clamping buckle extends out of the second shell layer (220) and can be clamped with or separated from the spinning top (300) along the direction of the rotating shaft;

   and the end of the button (9) abuts against the two clamping buckles (8) and can drive the clamping buckles (8) to slide along the second shell (220), so that the two clamping buckles (8) relatively approach or separate from each other along the connecting direction of the two clamping buckles, the clamping mechanism is closed or opened, and the other end of the button (9) extends out of the second shell (220).
5. 5. The top launcher according to claim 2, wherein the clamping mechanism comprises:

   the two clamping buckles (8) are arranged at intervals, the clamping buckles (8) are rotatably connected with the bottom of the second shell layer (220), the end of each clamping buckle (8) is located in the second shell layer (220) and is connected with the second shell layer through a second elastic element, and the other end end of each clamping buckle extends out of the second shell layer (220) and can be clamped with or separated from the gyroscope (300) along the direction of the rotating shaft;

   the ends of the buttons (9) and () are abutted to the two clamping buckles (8), the other end of the button is extended out of the second shell layer (220), and the button (9) can drive the clamping buckles (8) to rotate around the bottom of the second shell layer (220) so that the clamping mechanism can be folded or unfolded.
6. 6. The top launcher according to claim 4 or 5, wherein the end of the clamping buckle (8) extending out of the second shell (220) is provided with a clamping portion (81), and the clamping buckle (8) is clamped with the top (300) along the direction of the rotation axis through the clamping portion (81).
7. 7. The gyroscope emitter according to claim 4 or 5, wherein a second clamping portion (221) is arranged at the bottom of the second shell (220), a third clamping portion (91) is arranged on the button (9), and the third clamping portion (91) and the second clamping portion (221) are in sliding clamping connection in a direction perpendicular to a connecting line of the two clamping buckles (8).
8. 8. The gyroscopic transmitter according to claim 2, the drive mechanism comprising a driving gear (1), an intermediate gear (2) and a driven gear (3), the driving gear (1) and the intermediate gear (2) being in engagement, the intermediate gear (2) being movable radially with respect to the driven gear (3) to engage with or disengage from the driven gear (3).
9. 9. The top launcher according to claim 8, wherein the bottom of the shell (210) is provided with a sliding slot (211), and the intermediate gear (2) can move along the sliding slot (211) to engage or disengage with the driven gear (3) under the driving of the driving gear (1).
10. 10. The gyroscopic emitter according to claim 8 or 9, in which the drive mechanism comprises a drive shaft (6) and a drive socket (7), the end of the drive shaft (6) being fixedly connected to the driven gear (3) and the axes of rotation of the two being coincident, the other end of the drive shaft (6) being fixedly connected to the drive socket (7).

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