阅读说明：本技术 一种磁悬浮投币玩具 (Magnetic suspension coin-feed toy ) 是由 不公告发明人 于 2019-02-25 设计创作，主要内容包括：本发明涉及磁悬浮玩具技术领域,具体是指有体验功能的一种磁悬浮投币玩具。包括投币总成和底座总成。所述一种磁悬浮投币玩具构思新颖,结构合理紧凑,底座与储罐体之间利用电磁悬浮技术,使储罐体悬浮在底座的正上方。趣味性突出,观赏性强,有启发性,能够益智,能够提高青少年对欲望的正确认识,体验效果好,有教育意义。(The invention relates to the technical field of magnetic suspension toys, in particular to a magnetic suspension coin-feed toy with an experience function. Comprises a coin-feed assembly and a base assembly. The magnetic suspension coin-operated toy is novel in concept, reasonable and compact in structure, and the storage tank body is suspended right above the base by utilizing an electromagnetic suspension technology between the base and the storage tank body. The interesting and interesting children-oriented intelligence toy has the advantages of outstanding interestingness, strong ornamental value, inspiration, capability of improving the correct understanding of teenagers on the desire, good experience effect and educational significance.)

1. The utility model provides a magnetic suspension toy of inserting coins, includes coin assembly and base assembly, its characterized in that: the coin-feed assembly comprises a front shell, a loudspeaker, a tank storage component, an upper control system, a rear shell, an upper switch and front and rear shell connecting screws; the base assembly comprises a lower switch, a base, a lower control system and an electromagnetic coil; under the action of a magnetic field generated by the electromagnetic coil, the coin-feed assembly is suspended right above the base assembly.

2. A magnetic suspension coin toy according to claim 1, characterized in that: the storage tank assembly comprises a storage tank body, a permanent magnet assembly, a counting sensor, a front bottom cover, a rear bottom cover, a front torsion spring, a rear torsion spring, a front rivet and a rear rivet; the front shell is provided with a front shell coin inserting half port, a front shell positioning round hole, a front shell screw hole, a horn mounting hole, a front shell semi-arc groove, a front shell upper semi-arc and a front shell lower semi-arc; the rear shell is provided with a rear shell coin inserting half port, a rear shell positioning cylinder, a rear shell half arc groove, a rear shell stepped hole, an upper switch mounting hole, a rear shell upper half arc and a rear shell lower half arc; the storage tank body is provided with a storage tank body upper opening, a counting sensor mounting hole, a permanent magnet assembly mounting groove group, a storage tank body lower opening end face, a front rivet mounting hole, a rear rivet mounting hole, a storage tank body upper ring, a storage tank body lower ring, a front torsion spring positioning plate and a rear torsion spring positioning plate; the front bottom cover is provided with a front bottom cover through hole, a front bottom cover semicircular groove and a front bottom cover upper bottom surface; the rear bottom cover and the front bottom cover have the same structure; the rear shell positioning cylinder is matched with the front shell positioning round hole; the upper half circular arc of the front shell and the upper half circular arc of the rear shell form a complete circular arc which is matched with the circular ring on the tank body; the lower semicircular arc of the front shell and the lower semicircular arc of the rear shell form a complete circular arc which is matched with the lower circular ring of the tank body; sequentially installing the front rivet into the front rivet installation hole, the front bottom cover through hole and the front torsion spring, riveting, wherein one foot of the front torsion spring abuts against one groove of the semi-circular groove of the front bottom cover, the other foot of the front torsion spring abuts against the front torsion spring positioning plate, and the upper bottom surface of the front bottom cover is in contact with the lower opening end surface of the storage tank body; similarly, the rear bottom cover and the rear torsion spring are connected to the rear rivet mounting hole through the rear rivet; uniformly installing the permanent magnet assemblies in the permanent magnet assembly installation groove groups; mounting the upper control system to the front shell half-arc groove; the upper control system is provided with a circuit board, a direct current power supply and a signal transmitter; mounting the counting sensor on the counting sensor mounting hole, and connecting the counting sensor to the upper control system by using an electronic wire; mounting the loudspeaker on the loudspeaker mounting hole, and connecting the loudspeaker to the upper control system by using an electronic wire; mounting the tank assembly on the front shell, aligning a probe of the counting sensor with a coin half-slot of the front shell, fitting an upper circular ring of the tank body on the upper half circular arc of the front shell, and fitting a lower circular ring of the tank body on the lower half circular arc of the front shell; installing the upper switch in the upper switch installation hole, and connecting the upper switch to the upper control system by using an electronic wire; and installing the rear shell, inserting the rear shell positioning cylinder into the front shell positioning round hole, matching the upper semicircular arc of the rear shell with the upper circular ring of the tank storage body, matching the lower semicircular arc of the rear shell with the lower circular ring of the tank storage body, inserting the front and rear shell connecting screws into the rear shell stepped holes, and screwing the front shell connecting screws into the front shell screw holes.

3. A magnetic suspension coin toy according to claim 1, characterized in that: the base is provided with a base pit, a lower switch mounting hole, an electromagnetic coil mounting groove and a lower control system mounting groove; installing the lower control system in the lower control system installation groove; the lower control system is provided with a circuit board, a direct current power supply and a signal receiver; mounting the lower switch to the lower switch mounting hole, and electronically connecting the lower switch to the lower control system; and the electromagnetic coil is arranged in the electromagnetic coil mounting groove, and is connected to the lower control system through an electronic wire.

Technical Field

The invention relates to the technical field of magnetic suspension toys, in particular to a magnetic suspension coin-feed toy with an experience function.

Background

A general money pot has only a function of storing coins.

If there is a magnetic suspension money box on the base can be along with the increase of the coin quantity between throwing into, the money box constantly rises to send different sound, when the coin quantity that drops into reaches a definite value, magnetic suspension power reaches the biggest and can not increase again, then, the money box drops, and smashes out its interior coin is whole, gives the child who plays this kind of toy a fine experience.

Disclosure of Invention

To this end, the present invention provides a magnetic suspension coin toy.

The technical scheme adopted by the invention is as follows:

the magnetic suspension coin-operated toy comprises a coin-operated assembly and a base assembly.

The coin-feed assembly comprises a front shell, a loudspeaker, a tank storage component, an upper control system, a rear shell, an upper switch and front and rear shell connecting screws.

The storage tank assembly comprises a storage tank body, a permanent magnet assembly, a counting sensor, a front bottom cover, a rear bottom cover, a front torsion spring, a rear torsion spring, a front rivet and a rear rivet.

The front shell is provided with a front shell coin half opening, a front shell positioning round hole, a front shell screw hole, a horn mounting hole, a front shell semi-arc groove, a front shell upper semi-arc and a front shell lower semi-arc.

The rear shell is provided with a rear shell coin inserting half opening, a rear shell positioning cylinder, a rear shell half arc groove, a rear shell stepped hole, an upper switch mounting hole, a rear shell upper half arc and a rear shell lower half arc.

The storage tank body is provided with a storage tank body upper opening, a counting sensor mounting hole, a permanent magnet assembly mounting groove group, a storage tank body lower opening end face, a front rivet mounting hole, a rear rivet mounting hole, a storage tank body upper ring, a storage tank body lower ring, a front torsion spring positioning plate and a rear torsion spring positioning plate.

The front bottom cover is provided with a front bottom cover through hole, a front bottom cover semicircular groove and a front bottom cover upper bottom surface.

The rear bottom cover and the front bottom cover have the same structure.

The rear shell positioning cylinder is matched with the front shell positioning round hole.

The upper half circular arc of the front shell and the upper half circular arc of the rear shell form a complete circular arc which is matched with the circular ring on the tank body; the lower semicircular arc of the front shell and the lower semicircular arc of the rear shell form a complete circular arc which is matched with the lower circular ring of the tank body.

Inserting the front rivet into the front rivet mounting hole, the front bottom cover through hole and the front torsion spring in sequence, riveting, wherein one foot of the front torsion spring abuts against one of the semi-circular grooves of the front bottom cover, and the other foot of the front torsion spring abuts against the front torsion spring positioning plate, so that the upper bottom surface of the front bottom cover contacts with the lower opening end surface of the storage tank body; and similarly, the rear bottom cover and the rear torsion spring are connected to the rear rivet mounting hole through the rear rivet.

And uniformly installing the permanent magnet assemblies in the permanent magnet assembly installation groove groups.

And installing the upper control system on the front shell half-arc groove. The upper control system is provided with a circuit board, a direct current power supply and a signal transmitter.

And the counting sensor is arranged in the counting sensor mounting hole, and is connected to the upper control system through an electronic wire.

And the loudspeaker is arranged in the loudspeaker mounting hole, and the loudspeaker is connected to the upper control system by using an electronic wire.

And mounting the tank assembly on the front shell, aligning a probe of the counting sensor with a coin half opening of the front shell, matching an upper circular ring of the tank body with an upper semicircular arc of the front shell, and matching a lower circular ring of the tank body with a lower semicircular arc of the front shell.

And the upper switch is arranged in the upper switch mounting hole, and is connected to the upper control system through an electronic wire.

And installing the rear shell, inserting the rear shell positioning cylinder into the front shell positioning round hole, matching the upper semicircular arc of the rear shell with the upper circular ring of the tank storage body, matching the lower semicircular arc of the rear shell with the lower circular ring of the tank storage body, inserting the front and rear shell connecting screws into the rear shell stepped holes, and screwing the front shell connecting screws into the front shell screw holes.

The base assembly comprises a lower switch, a base, a lower control system and an electromagnetic coil.

The base is provided with a base pit, a lower switch mounting hole, an electromagnetic coil mounting groove and a lower control system mounting groove.

And installing the lower control system in the lower control system installation groove.

The lower control system is provided with a circuit board, a direct current power supply and a signal receiver.

And a lower switch is mounted in the lower switch mounting hole, and the lower switch is electronically connected to the lower control system.

And the electromagnetic coil is arranged in the electromagnetic coil mounting groove, and is connected to the lower control system through an electronic wire.

The invention has the beneficial effects that:

the magnetic suspension coin-operated toy is novel in concept, reasonable and compact in structure, and the storage tank body is suspended right above the base by utilizing an electromagnetic suspension technology between the base and the storage tank body. The interesting and interesting children-oriented intelligence toy has the advantages of outstanding interestingness, strong ornamental value, inspiration, capability of improving the correct understanding of teenagers on the desire, good experience effect and educational significance.

Drawings

The following is further illustrated in connection with the figures of the present invention:

fig. 1 is a schematic structural view of the present invention.

Fig. 2 is an exploded view of the coin insertion assembly.

Fig. 3 and 4 are schematic structural diagrams of the tank assembly.

Fig. 5 is an exploded view of the tank assembly.

Fig. 6 is a schematic structural view of the front case.

Fig. 7 and 8 are schematic structural views of the rear shell.

Fig. 9 is a schematic structural view of the tank body.

Fig. 10 is a partially enlarged structural schematic view of the tank body.

Fig. 11 and 12 are schematic structural views of the front bottom cover.

Fig. 13 is an exploded view of the base assembly.

Fig. 14 and 15 are schematic structural views of the base.

In the figure, 1, a coin assembly, 2, a base assembly, 3, a front shell, 4, a loudspeaker, 5, a storage tank assembly, 6, an upper control system, 7, a rear shell, 8, an upper switch, 9, a front shell connecting screw, 10, a storage tank body, 11, a permanent magnet assembly, 12, a counting sensor, 13, a front bottom cover, 14, a rear bottom cover, 15, a front torsion spring, 16, a rear torsion spring, 17, a front rivet, 18, a rear rivet, 19, a front shell coin half-opening, 20, a front shell positioning round hole, 21, a front shell screw hole, 22, a loudspeaker mounting hole, 23, a front shell half-arc groove, 24, a rear shell coin half-opening, 25, a rear shell positioning cylinder, 26, a rear shell half-arc groove, 27, a rear shell stepped hole, 28, an upper switch mounting hole, 29, a storage tank body upper opening, 30, a counting sensor mounting hole, 31, a permanent magnet assembly mounting groove group, 32, a storage tank body lower opening end face, 33, a front rivet mounting hole, 34. the novel storage tank comprises a rear rivet installation hole, 35 parts of a front torsion spring positioning plate, 36 parts of a rear torsion spring positioning plate, 37 parts of a front bottom cover through hole, 38 parts of a front bottom cover semicircular groove, 39 parts of a front bottom cover upper bottom surface, 40 parts of a base, 41 parts of a lower control system, 42 parts of an electromagnetic coil, 43 parts of a base pit, 44 parts of a lower switch installation hole, 45 parts of an electromagnetic coil installation groove, 46 parts of a lower control system installation groove, 47 parts of a lower switch, 48 parts of a front shell upper semicircular arc, 49 parts of a front shell lower semicircular arc, 50 parts of a rear shell upper semicircular arc, 51 parts of a rear shell lower semicircular arc, 52 parts of a storage tank body upper circular ring and 53 parts of.

Detailed Description

The invention will be further described with reference to the accompanying drawings and examples, which are preferred embodiments of the invention.

As in fig. 1. The magnetic suspension coin-operated toy comprises the coin-operated assembly 1 and the base assembly 2.

As shown in fig. 2. The coin-feed assembly 1 comprises the front shell 3, the loudspeaker 4, the tank assembly 5, the upper control system 6, the rear shell 7, the upper switch 8 and the front and rear shell connecting screws 9.

As shown in fig. 3-5. The tank assembly 5 comprises the tank body 10, the permanent magnet assembly 11, the counting sensor 12, the front bottom cover 13, the rear bottom cover 14, the front torsion spring 15, the rear torsion spring 16, the front rivet 17 and the rear rivet 18.

As shown in fig. 6. The front shell 3 is provided with the front shell coin half-opening 19, the front shell positioning round hole 20, the front shell screw hole 21, the horn mounting hole 22, the front shell semi-arc groove 23, the front shell upper semi-arc 48 and the front shell lower semi-arc 49.

Preferably, the front shell 3 is formed by injection molding of engineering plastics.

Preferably, the horn mounting hole 22 has a plurality of small holes to facilitate sound transmission.

As shown in fig. 7-8. The rear shell 7 is provided with the rear shell coin half-opening 24, the rear shell positioning cylinder 25, the rear shell half-arc groove 26, the rear shell stepped hole 27, the upper switch mounting hole 28, the rear shell upper half-arc 50 and the rear shell lower half-arc 51.

Preferably, the rear housing 7 is injection molded from an engineering plastic.

As shown in fig. 9-10. The storage tank body 10 is provided with the storage tank body upper opening 29, the counting sensor mounting hole 30, the permanent magnet assembly mounting groove group 31, the storage tank body lower opening end face 32, the front rivet mounting hole 33, the rear rivet mounting hole 34, the storage tank body upper ring 52, the storage tank body lower ring 53, the front torsion spring positioning plate 35 and the rear torsion spring positioning plate 36.

Preferably, the tank body 10 is blow molded from plastic.

As shown in fig. 11-12. The front bottom cover 13 is provided with the front bottom cover through hole 37, the front bottom cover semi-circular groove 38 and the front bottom cover upper bottom surface 39.

The rear bottom cover 14 and the front bottom cover 13 have the same structure.

Preferably, the front bottom cover 13 and the rear bottom cover 14 are injection molded by engineering plastics.

The rear housing locating cylinder 25 mates with the front housing locating circular aperture 20.

The front shell upper half arc 48 and the rear shell upper half arc 50 form a complete arc which is matched with the tank body upper ring 52; the front shell lower semicircular arc 49 and the rear shell lower semicircular arc 51 form a complete circular arc which is matched with the tank body lower circular ring 53.

The front rivet 17 is sequentially inserted into the front rivet mounting hole 33, the front bottom cover through hole 37 and the front torsion spring 15 and riveted, one foot of the front torsion spring 15 abuts against one of the semi-circular grooves 38 of the front bottom cover, the other foot of the front torsion spring 15 abuts against the front torsion spring positioning plate 35, and the upper bottom surface 39 of the front bottom cover contacts with the lower opening end surface 32 of the storage tank body. Then, the front bottom cover 13 and the front torsion spring 15 are coupled to the front rivet mounting hole 33 by the front rivet 17.

Similarly, the rear bottom cover 14 and the rear torsion spring 16 are connected to the rear rivet mounting hole 34 through the rear rivet 18.

The permanent magnet assemblies 11 are uniformly mounted on the permanent magnet assembly mounting groove group 31.

The permanent magnet assembly 11 has magnetic poles of up S and down N.

The upper control system 6 is mounted to the front shell half-arc chute 23.

The upper control system 6 is provided with a circuit board, a direct current power supply and a signal emitter.

Preferably, the upper control system 6 is annular in shape.

The counter sensor 12 is mounted in the counter sensor mounting hole 30, and the counter sensor 12 is electronically connected to the upper control system 6.

The horn 4 is mounted to the horn mounting hole 22, and the horn 4 is electronically connected to the upper control system 6.

The canister assembly 5 is mounted to the front housing 3 with the probe of the counter sensor 12 aligned with the front housing coin half 19, the canister upper ring 52 fitted to the front housing upper half-arc 48, and the canister lower ring 53 fitted to the front housing lower half-arc 49.

The upper switch 8 is mounted in the upper switch mounting hole 28, and the upper switch 8 is connected to the upper control system 6 by an electronic wire.

The rear shell 7 is installed such that the rear shell positioning cylinder 25 is inserted into the front shell positioning circular hole 20, the rear shell upper semicircular arc 50 is fitted to the tank body upper circular ring 52, the rear shell lower semicircular arc 51 is fitted to the tank body lower circular ring 53, and the front and rear shell connecting screw 9 is inserted into the rear shell stepped hole 27 and screwed to the front shell screw hole 21.

Preferably, the mass distribution of the coin cell assembly 1 is symmetrical about a central axis of the tank 10, so that there is a good static balance when the coin cell assembly 1 is suspended directly above the base assembly 2.

As shown in fig. 13. The base assembly 2 includes the lower switch 47, the base 40, the lower control system 41 and the solenoid 42.

As shown in fig. 14-15. The base 40 is provided with the base recess 43, the lower switch mounting hole 44, the solenoid mounting groove 45 and the lower control system mounting groove 46.

The lower control system 41 is mounted to the lower control system mounting groove 46.

The lower control system 41 is provided with a circuit board, a direct current power supply and a signal receiver.

The lower switch 47 is mounted to the lower switch mounting hole 44, and the lower switch 47 is connected to the lower control system 41 by an electronic wire.

The electromagnetic coil 42 is mounted in the electromagnetic coil mounting groove 45, and the electromagnetic coil 42 is connected to the lower control system 41 by an electronic wire.

In use, the lower switch 47 and the upper switch 8 are opened.

The electromagnetic coil 42 generates a magnetic field, and the magnetic pole of the generated magnetic field is up to N and down to S.

The magnetic field generated by the electromagnetic coil 42 thus levitates the coin assembly 1 directly above the base assembly 2.

Coins are fed one by one into a coin slot formed by the front half slot 19 and the rear half slot 24, the coins enter the upper slot 29 of the can body and are finally stacked above the front bottom cover 13 and the rear bottom cover 14, the front bottom cover 13 and the rear bottom cover 14 are not pushed open due to the action of the front torsion spring 15 and the rear torsion spring 16, and the increasing coins are symmetrically distributed about the central axis of the can body 10 as the axis because the can body 10 is a rotator with a large upper part and a small lower part.

In the process that coins enter the upper opening 29 of the storage tank body, the counting sensor 12 senses information, the signal emitter emits signals and the signal receiver receives signals under the action of the upper control system 6, the magnetic field generated by the electromagnetic coil 42 is enhanced under the action of the lower control system 41, the coin inserting assembly 1 is pushed to move upwards for a first distance, and the loudspeaker 4 emits a first sound.

When the coin is continuously inserted, the coin inserting assembly 1 moves upwards for a second distance, and the loudspeaker 4 emits a second sound.

And (4) continuing to coin, wherein the coin assembly 1 moves upwards for a third distance, and the loudspeaker 4 emits a third sound.

When the coin is continuously inserted, the magnetic field generated by the electromagnetic coil 42 reaches the maximum and cannot be enhanced any more, so that the coin inserting assembly 1 falls down and impacts the base pit 43, and at the same time, all coins in the can body 10 push open the front bottom cover 13 and the rear bottom cover 14 under the inertia effect, and draw into the base pit 43, and the horn 4 emits a fourth sound.

Appropriate changes and modifications to the embodiments described above will become apparent to those skilled in the art from the disclosure and teachings of the foregoing description. Therefore, the present invention is not limited to the above-disclosed embodiments, and modifications and variations of the present invention are also intended to fall within the scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.