CN217311942U - Self-power-generating modular children toy - Google Patents

Abstract

The utility model discloses a from electricity generation formula modularization children toy, concretely relates to toy technical field, including battery case, pressure sensing tentacle hand-operated subassembly, correlation type infrared ray sensing count rotation type subassembly and pressure sensing rotation type funnel subassembly, be equipped with repeatable battery in the battery case, pressure sensing tentacle hand-operated subassembly includes the marble casing, the marble casing is established at the battery case top. The utility model discloses a but be connected the closed loop of formation with the marble casing of repeated battery and battery case, put into the marble from the circular hole at marble casing top, during rotatory rocker, the stay cord area spring coupling board compression supporting spring, the rocker drives the gear train and rotates and drive first generator and carry out the electromagnetic induction cutting, first generator produces the power storage and supplies power for first development board in the battery of repeated, when first pressure sensor experienced the pressure that comes from supporting spring and reached the setting value, the first bulb of control is luminous.

Description

Self-power-generating type modular children toy

Technical Field

The utility model relates to a toy technical field, the more specifically from electricity generation formula modularization children toy that says so.

Background

At present, the children toys are designed and manufactured for children of a specific age group, the characteristics of the children toys are related to the age and intelligence stage of the children, the electronic toys refer to a motor-driven toy which uses electronic technology and adopts electronic components to control actions or generate various acousto-optic effects, the electronic toys have a wide variety of markets, and can be divided into acoustic control toys, light control toys, remote control toys, mechanical toys and the like according to different process technologies and functional structures of products, the electronic toys are high in playability and entertainment and are deeply favored by children, but the existing electronic toys usually use batteries for power supply and take more electricity, and along with the development of science and technology, rechargeable electronic toys slowly appear, but the rechargeable electronic toys need frequent charging during use, the using effect is not very high, so people develop the rechargeable electronic toys, compared with the traditional rechargeable toys, when in use, the generator can automatically generate electricity, and is safer to use.

When the existing self-generating type modular toy is used, the use scene has certain limitation, the integration compatibility of other technologies is poor, and the existing self-generating type modular toy does not have a wide integration application value.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned deficiencies of the prior art, embodiments of the present invention provide a self-generating modular child toy to solve the problems that arise in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a from electricity generation formula modularization children toy, includes battery case, pressure sensing tentacle hand-operated subassembly, correlation type infrared sensing count rotation type subassembly and pressure sensing rotation type funnel subassembly, be equipped with repeatable battery in the battery case, pressure sensing tentacle hand-operated subassembly includes the marble casing, the marble casing is established at the battery case top, be equipped with supporting spring in the marble casing, the fixed spring coupling board that is equipped with in supporting spring top, the inside stay cord that is equipped with of supporting spring, the stay cord bottom is equipped with the gear train, gear train one side is connected with the rocker, the gear train bottom is equipped with first generator, first generator bottom is equipped with first development board, be equipped with first bulb and a pressure sensor on the first development board.

In a preferred embodiment, correlation type infrared sensing counts time rotation type subassembly and includes the infrared ray casing, the infrared ray casing is established in the battery case bottom, infrared ray casing top inner wall is equipped with the second generator, realizes automatic electricity generation, second generator bottom is equipped with first rotary rod, the second generator bottom is equipped with second development board, be equipped with the lamp area on the second development board, infrared ray casing bottom is equipped with the subsidiary pole, infrared ray casing one side inner wall down is equipped with infrared ray sensor and first gear from last in proper order, uses the rotation number of times of infrared ray sensor detection rotary rod, and the system of being convenient for controls.

In a preferred embodiment, pressure is felt rotation type funnel subassembly and is included the funnel casing, the funnel casing is established at the battery casing top, funnel casing top is equipped with the funnel body, funnel casing bottom inner wall is equipped with the third generator, carries out autonomic electricity generation, third generator top is equipped with the second rotary rod, third generator top is equipped with the third board of launching, third board top of launching is equipped with second pressure sensor, third board top of launching is equipped with bee calling organ for make a sound.

In a preferred embodiment, the first generator, the second generator and the third generator are all provided with a second gear for driving the generators to generate electricity, and the first development board, the second development board and the third development board are all ATTiny development boards.

In a preferred embodiment, a short barrel lamp body is arranged at the top of the battery shell, and a short barrel switch is arranged on the short barrel lamp body, so that the control is convenient.

In a preferred embodiment, a long tube lamp body is arranged at the top of the battery shell, and a long tube switch is arranged on the long tube lamp body, so that the opening and closing of the long tube lamp body are conveniently controlled.

In a preferred embodiment, the marble shell, the infrared shell, the funnel shell and the battery shell, the funnel shell and the funnel body, the short cylindrical lamp body and the battery shell, and the long cylindrical lamp body and the battery shell are connected through embedded magnets, so that the connection among the components is facilitated.

The utility model discloses a technological effect and advantage:

1. the utility model discloses a be connected formation closed circuit with repeatable battery and battery case and marble casing, put into the marble from the circular hole at marble casing top, during the rotatory rocker, the stay cord area spring coupling board compression supporting spring, the rocker drives the gear train and rotates and drive first generator and carry out the electromagnetic induction cutting, first generator produces the electric quantity storage and supplies power for first development board in the repeatable battery, when first pressure sensor experienced the pressure that comes from supporting spring and reached the setting value, the first bulb of control is luminous.

2. Form closed loop through being connected repeatable battery and battery case with the infrared ray casing, handheld subsidiary pole rocks whole module, first rotary rod can rotate at the inside coplanar axle center of infrared ray casing, it carries out the electromagnetic induction cutting to drive the second generator, it is the power supply of second development board to produce the electric quantity storage at repeatable battery, first rotary rod is when the coplanar rotation, every can produce a count when passing through infrared ray sensor, when the number of times reaches given number of times, the control lamp area is luminous.

3. Through being connected formation closed loop with repeatable battery and battery case and funnel casing, behind the whole module of handheld funnel casing horizontal rotation, the second rotary rod can rotate at the inside coplanar axle center of funnel casing, drives the third generator and carries out the electromagnetic induction cutting, produces the electric quantity storage and supplies power for the third development board at repeatable battery, when the pressure that the pressure-sensitive part that second pressure sensor placed in the funnel body bottom experienced when coming from the marble and drop and reaches the setting value, control bee calling organ sent specific sound.

4. After the repeatable battery and the battery shell are disconnected with the pressure sensing touch hand-operated assembly, the correlation type infrared sensing counting rotary assembly and the pressure sensing touch rotary funnel assembly, the repeatable battery and the battery shell can form a closed loop after being connected with the short tube lamp body or the long tube lamp body through the embedded magnet, the short tube lamp body and the long tube lamp body are controlled to emit light, and the lighting effect is achieved.

5. The utility model discloses application industrial design thinking combines user interaction action, sensor technology and power generation technology ingeniously, makes the electricity generation action merge into in the middle of daily action, can effectively alleviate the resource problem in leaner national area such as electric power shortage, brings more education and study opportunities for the country that has difficulty like the part spills the child of hara with south African leaner regional country, has higher social using value.

Drawings

FIG. 1 is a cross-sectional view of the pressure-sensitive hand-operated module of the present invention;

FIG. 2 is a cross-sectional view of the correlation type infrared sensing counting rotary assembly of the present invention;

FIG. 3 is a cross-sectional view of a pressure-sensitive rotary funnel assembly of the present invention;

FIG. 4 is a sectional view of a portion of a short cylindrical lamp body of the present invention;

fig. 5 is a sectional view of the long tube light body of the utility model.

The reference signs are: 1. a battery case; 2. a pressure sensing touch hand-cranking assembly; 3. counter-emission type infrared sensing counting rotary component; 4. a pressure-sensitive rotary funnel assembly; 5. a repeatable battery; 6. a first gear; 201. a marble casing; 202. a matched spring; 203. a spring connecting plate; 204. pulling a rope; 205. a gear set; 206. a rocker; 207. a first generator; 208. a first development board; 209. a first bulb; 210. a first pressure sensor; 301. an infrared housing; 302. a second generator; 303. a first rotating rod; 304. a second development board; 305. a light strip; 306. an attachment rod; 307. an infrared sensor; 308. a first gear; 401. a funnel housing; 402. a funnel body; 403. a third generator; 404. a second rotating rod; 405. a third launch plate; 406. a second pressure sensor; 407. a buzzer; 7. a short can body; 8. a short barrel switch; 9. a long can body; 10. a long cylinder switch; 11. an embedded magnet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to the attached drawing 1 of the specification, the self-power-generating modular child toy of the embodiment comprises a battery shell 1, a pressure-sensing hand-operated module 2, a correlation infrared sensing counting rotary module 3 and a pressure-sensing rotary funnel module 4, wherein a repeatable battery 5 is arranged in the battery shell 1, the pressure-sensing hand-operated module 2 comprises a marble shell 201, the marble shell 201 is arranged at the top of the battery shell 1, a matching spring 202 is arranged in the marble shell 201, a spring connecting plate 203 is fixedly arranged at the top of the matching spring 202, a pull rope 204 is arranged in the matching spring 202, a gear set 205 is arranged at the bottom of the pull rope 204, a rocker 206 is connected to one side of the gear set 205, a first power generator 207 is arranged at the bottom of the gear set 205 and used for automatically generating power, a first development plate 208 is arranged at the bottom of the first power generator 207, a first bulb 209 and a first pressure sensor 210 are arranged on the first development plate 208, be used for detecting the pressure value, all be equipped with second gear 6 on first generator 207, second generator 302 and the third generator 403 for the drive electricity generation of generator, first development board 208, second development board 304 and third development board 405 are ATTiny85 development board for found the Arduino system, between marble casing 201, infrared housing 301 and funnel casing 401 and battery housing 1, between funnel casing 401 and funnel body 402, between short cylindrical lamp body 7 and the battery housing 1, all be connected through embedded magnet 11 between long cylindrical lamp body 9 and the battery housing 1, make things convenient for the connection between each part.

The implementation scenario is specifically as follows: the repeatable battery 5, the battery shell 1 and the marble shell 201 are connected together through the embedded magnet 11 to form a closed loop, a marble is placed into the closed loop from a circular hole in the top of the marble shell 201, when the rocker 206 is rotated, the pull rope 204 can drive the spring connecting plate 203 to compress the matched spring 202, the rocker 206 drives the gear set 205 to rotate, the gear set 205 is used for driving the first generator 207 to perform electromagnetic induction cutting, the first generator 207 generates electricity which is stored in the repeatable battery 5 through the loop, the repeatable battery 5 supplies power for an Arduino system constructed by the first development plate 208, and when the first pressure sensor 210 senses that the pressure from the matched spring 202 reaches a given value, the first bulb 209 in the Arduino system can emit light.

Referring to the attached fig. 2 of the specification, in the self-power-generation-type modularized children toy of this embodiment, the correlation-type infrared sensing secondary rotation assembly 3 includes an infrared housing 301, the infrared housing 301 is disposed at the bottom of the battery housing 1, a second power generator 302 is disposed on an inner wall of a top portion of the infrared housing 301 to realize automatic power generation, a first rotation rod 303 is disposed at a bottom portion of the second power generator 302, a second development board 304 is disposed at a bottom portion of the second power generator 302, a light strip 305 is disposed on the second development board 304, an auxiliary rod 306 is disposed at a bottom portion of the infrared housing 301, an infrared sensor 307 and a first gear 308 are sequentially disposed on an inner wall of one side of the infrared housing 301 from top to bottom, the infrared sensor 307 is used to detect the rotation frequency of the rotation rod, and the system is convenient to control.

The implementation scenario is specifically as follows: connect back with repeatable battery 5 and battery case 1 and infrared ray casing 301 through embedded magnet 11, form closed circuit, after handheld subsidiary pole 306 rocks whole module, first rotary rod 303 can rotate at the inside coplanar axle center of infrared ray casing 301, drive second generator 302 and carry out the electromagnetic induction cutting, the electric quantity that produces passes through the return circuit and stores in repeatable battery 5, repeatable battery 5 supplies power for the Arduino system that second development board 304 found simultaneously, first rotary rod 303 is when the coplanar rotates, can produce once the count when every through infrared sensor 307, when the number of times of passing reaches the given number of times, with it with lamp area 305 in the Arduino system just can give out light.

Referring to the attached fig. 3 of the specification, in the self-power-generation-type modular child toy of this embodiment, the pressure-sensing-rotation-type funnel assembly 4 includes a funnel housing 401, the funnel housing 401 is disposed on the top of the battery housing 1, a funnel body 402 is disposed on the top of the funnel housing 401, a third power generator 403 is disposed on the inner wall of the bottom of the funnel housing 401 for self-power generation, a second rotating rod 404 is disposed on the top of the third power generator 403, a third power generation plate 405 is disposed on the top of the third power generator 403, a second pressure sensor 406 is disposed on the top of the third power generation plate 405, and a buzzer 407 is disposed on one side of the top of the third power generation plate 405 for making a sound.

The implementation scenario is specifically as follows: after the repeatable battery 5, the battery shell 1 and the funnel shell 401 are connected through the embedded magnet 11, a closed loop is formed, meanwhile, the funnel body 402 and the funnel shell 401 are connected through the embedded magnet 11 to form a complete rotary funnel module, after the funnel shell 401 is held by a hand to horizontally rotate the whole module, the second rotating rod 404 can rotate on the axis of the same plane inside the funnel shell 401 to drive the third generator 403 to perform electromagnetic induction cutting, generated electricity is stored in the repeatable battery 5 through the loop, meanwhile, the repeatable battery 5 supplies power for an Arduino system constructed by the third generator plate 405, when the pressure sensor 406 is arranged at the pressure sensing part at the bottom of the funnel body 402 to sense that the pressure from a marble falling reaches a given value, the second pressure sensor and the buzzer 407 in the Arduino system can make a specific sound.

Referring to the attached figures 4 and 5 in the specification, the self-power-generation modular children toy of the embodiment is characterized in that a short cylindrical lamp body 7 is arranged at the top of a battery shell 1, a short cylindrical switch 8 is arranged on the short cylindrical lamp body 7, control is facilitated, a long cylindrical lamp body 9 is arranged at the top of the battery shell 1, and a long cylindrical switch 10 is arranged on the long cylindrical lamp body 9, so that opening and closing of the long cylindrical lamp body 9 are facilitated.

The implementation scenario is specifically as follows: after the repeatable battery 5 and the battery shell 1 are disconnected with the pressure-sensitive touch hand-operated component 2, the correlation type infrared sensing counting rotary component 3 and the pressure-sensitive rotary funnel component 4, the repeatable battery and the battery shell can form a closed loop after being connected with the short tube lamp body 7 or the long tube lamp body 9 through the embedded magnet 11, the repeatable battery and the battery shell can be started or closed through the short tube switch 8 or the long tube switch 10, and the short tube lamp body 7 and the long tube lamp body 9 are controlled to emit light to play a role in illumination.

And finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a from electricity generation formula modularization children's toy, includes battery case (1), pressure sense touches hand rocking type subassembly (2), correlation type infrared ray sensing count rotation type subassembly (3) and pressure sense rotation type funnel subassembly (4), its characterized in that: be equipped with repeatable battery (5) in battery case (1), pressure is felt hand formula subassembly (2) and is included marble casing (201), marble casing (201) are established at battery case (1) top, be equipped with supporting spring (202) in marble casing (201), supporting spring (202) top is fixed and is equipped with spring connecting plate (203), supporting spring (202) inside is equipped with stay cord (204), stay cord (204) bottom is equipped with gear train (205), gear train (205) one side is connected with rocker (206), gear train (205) bottom is equipped with first generator (207), first generator (207) bottom is equipped with first development board (208), be equipped with first bulb (209) and first pressure sensor (210) on first development board (208).

2. The self-generating modular child toy of claim 1, wherein: to penetrating type infrared sensing rotation type subassembly (3) of counting time includes infrared ray casing (301), establish in battery case (1) bottom infrared ray casing (301), infrared ray casing (301) top inner wall is equipped with second generator (302), second generator (302) bottom is equipped with first rotary rod (303), second generator (302) bottom is equipped with second development board (304), be equipped with lamp area (305) on second development board (304), infrared ray casing (301) bottom is equipped with subsidiary pole (306), infrared ray casing (301) one side inner wall is from last down being equipped with infrared ray sensor (307) and first gear (308) in proper order.

3. The self-generating modular child toy according to claim 2, wherein: pressure sense rotation type funnel subassembly (4) include funnel casing (401), establish at battery housing (1) top funnel casing (401), funnel casing (401) top is equipped with funnel body (402), funnel casing (401) bottom inner wall is equipped with third generator (403), third generator (403) top is equipped with second rotary rod (404), third generator (403) top is equipped with third opening board (405), third opening board (405) top is equipped with second pressure sensor (406), third opening board (405) top one side is equipped with bee calling organ (407).

4. A self-generating modular child toy according to claim 3, wherein: the first generator (207), the second generator (302) and the third generator (403) are all provided with second gears (6), and the first development board (208), the second development board (304) and the third development board (405) are all ATTiny85 development boards.

5. A self-generating modular child toy according to claim 3, wherein: the battery is characterized in that a short cylindrical lamp body (7) is arranged at the top of the battery shell (1), and a short cylindrical switch (8) is arranged on the short cylindrical lamp body (7).

6. The self-generating modular child toy according to claim 5, wherein: the battery is characterized in that a long cylindrical lamp body (9) is arranged at the top of the battery shell (1), and a long cylindrical switch (10) is arranged on the long cylindrical lamp body (9).

7. The self-generating modular child toy according to claim 6, wherein: the marble shell (201), the infrared shell (301), the funnel shell (401) and the battery shell (1), the funnel shell (401) and the funnel body (402), the short cylindrical lamp body (7) and the battery shell (1), and the long cylindrical lamp body (9) and the battery shell (1) are connected through the embedded magnet (11).

Images