CN218357337U - Children toy - Google Patents

Abstract

The utility model discloses a children toy, which comprises a swing mechanism, a bearing piece, a plurality of bearing objects and a control mechanism for controlling the swing of the swing mechanism; the bearing piece is connected to the swinging mechanism and can be driven by the swinging mechanism to swing, and the control mechanism is electrically connected with the swinging mechanism; the bearing part is provided with a recognition mechanism for recognizing the bearing object, and the recognition mechanism is electrically connected with the control mechanism. The children toy controls the swing mechanism to swing through the control mechanism, so that the children toy has different swing modes, and the playing performance is improved. Can discern through identification system and hold the carrier on the thing, make the toy have certain intelligent degree, also increased the mode of playing, attract children to play more easily.

Description

Children toy

Technical Field

The utility model relates to a children's toys technical field especially relates to a children's toy.

Background

Toys are common items in children's life and accompany most of a child's time. With the development of toys, the types of toys are more and more diversified.

The existing toy is provided with a swinging piece which can swing to create a twisting visual effect. However, the toy only provides simple visual perception for children, and the toy has a single playing mode and is not high in playability.

In view of the above, improvements are needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a children toy which can improve the playing interest.

The technical scheme of the utility model provides a children toy, which comprises a swing mechanism, a bearing piece, a plurality of bearing objects and a control mechanism for controlling the swing of the swing mechanism; the bearing piece is connected to the swing mechanism and can be driven by the swing mechanism to swing, and the control mechanism is electrically connected with the swing mechanism; the bearing piece is provided with an identification mechanism for identifying the bearing object, and the identification mechanism is electrically connected with the control mechanism.

Further, the bearing part is provided with at least two bearing parts for placing the bearing object, and each bearing part is provided with the identification mechanism.

Further, the control mechanism includes a controller and a mode adjuster capable of being moved, the mode adjuster being electrically connected to the controller, changing a mode by moving the mode adjuster; the controller has a first mode and a second mode; when the controller is in the first mode, the carrying objects can be placed on each carrying part, and the swinging mechanism can swing towards the carrying parts with the largest number of the carrying objects; when the controller is in the second mode, the swinging mechanism swings in a reciprocating mode to empty the load on the load bearing part.

Further, the mode adjusting member comprises an adjusting rod, a first contact piece and a second contact piece, the adjusting rod is rotatably connected to the bearing member, and the first contact piece and the second contact piece are respectively electrically connected with the controller; when the adjusting rod rotates to trigger the first contact piece, the controller is in the first mode; when the adjusting rod rotates to trigger the second contact piece, the controller is in the second mode.

Furthermore, the identification mechanism comprises a touch part and an identification part, the touch part is movably connected to the bearing part, and the identification part is electrically connected with the controller; when the bearing part is provided with one bearing object, the touch piece touches the identification piece to record once.

Furthermore, the touch piece comprises a touch slide rod and a touch swing rod, the touch slide rod is connected to the bearing piece in a sliding mode, and the touch swing rod is connected to the bearing piece in a rotating mode; the identification piece comprises a first identification piece and a second identification piece; when the bearing object is placed on the bearing part, the bearing object triggers the touch sliding rod to slide and triggers the touch swing rod to swing; the touch sliding rod triggers the first identification sheet, and the touch swinging rod triggers the second identification sheet.

Further, a butting block is arranged on the touch slide bar, and the butting block is provided with a first end part far away from the first identification sheet and a second end part close to the first identification sheet; the first end portion has a width greater than a width of the second end portion to form an abutment ramp between the first and second end portions.

Furthermore, the touch swing rod is provided with a first swing rod end and a second swing rod end; the bearing object is provided with a magnetic block capable of attracting the end of the first swing rod; when the bearing object is placed on the bearing part, the magnetic block attracts the first swing rod end to move so as to drive the second swing rod end to trigger the second identification piece.

Furthermore, a movable limiting rod is arranged on the bearing part, and the mode adjusting piece comprises a stop block; when the controller is in the first mode, the stop block abuts against the limiting rod to limit the movement of the limiting rod, and the limiting rod blocks the bearing object from separating from the bearing part; when the controller is in the second mode, the stop block leaves the limiting rod, the limiting rod can move, and the bearing object can be separated from the bearing part.

Further, the swing mechanism comprises a mounting shell, a swing piece and a driving piece, the swing piece is rotatably connected to the mounting shell, and the driving end of the driving piece is connected with the swing piece; a sensing piece electrically connected with the driving piece is arranged in the mounting shell; when the controller is in the second mode, the sensing piece senses and adjusts the action of the swinging piece.

Further, the swing mechanism comprises a rotary piece capable of rotating, and the swing mechanism is connected to the rotary piece.

Furthermore, the device also comprises a voice prompt piece and a light piece; the voice prompt piece and the light piece are respectively electrically connected with the control mechanism.

After adopting above-mentioned technical scheme, have following beneficial effect:

the technical scheme of the utility model provides a children toy, which comprises a swing mechanism, a bearing piece, a plurality of bearing objects and a control mechanism for controlling the swing of the swing mechanism; the bearing piece is connected to the swinging mechanism and can be driven by the swinging mechanism to swing, and the control mechanism is electrically connected with the swinging mechanism; the bearing part is provided with an identification mechanism for identifying the bearing object, and the identification mechanism is electrically connected with the control mechanism. The children toy controls the swing mechanism to swing through the control mechanism, so that the children toy has different swing modes, and the playing performance is improved. Can discern through identification system and hold the carrier on the thing, make the toy have certain intelligent degree, also increased the mode of playing, attract children to play more easily.

Drawings

The disclosure of the present invention will become more readily understood by reference to the drawings. It should be understood that: these drawings are for illustrative purposes only and are not intended to limit the scope of the present disclosure. In the figure:

FIG. 1 is a perspective view of a child's toy according to an embodiment of the present invention;

fig. 2 is a schematic view of a swing mechanism according to an embodiment of the present invention;

fig. 3 is a schematic view of a carrier and a carrier according to an embodiment of the present invention;

fig. 4 is a schematic view of a carrier and a mode adjustment member according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of FIG. 4 at A;

fig. 6 is a schematic view of a control mechanism according to an embodiment of the present invention;

fig. 7 is a schematic view of an identification mechanism and a limiting rod according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a controller according to an embodiment of the present invention;

fig. 9 is a schematic view of the interior of the swing mechanism according to an embodiment of the present invention.

Reference symbol comparison table:

swing mechanism 1 of child toy 10 mounting case 11 swing member 12

Driving member 13, first switch 14, second switch 15, and third switch 16

Control mechanism 4 for carrying 3 on carrying part 21 of carrier 2

The controller 41 adjusts the lever 42 to have a first trigger block 421 and a second trigger block 422

First contact 43 and second contact 44 stop 45 and shifting block 46

The identification mechanism 5 triggers the first end 5111 of the abutment block 511 of the slide bar 51

The second end 5112 abuts against the inclined surface 5113 to trigger the first swing rod end 521 of the swing rod 52

Second swing rod end 522 first identification piece 53 second identification piece 54 limiting rod 6

Rotating member 7 voice prompting member 8 light member 9

Detailed Description

The following describes the present invention with reference to the accompanying drawings.

It is easy to understand, according to the technical scheme of the present invention, under the spirit of the present invention, a plurality of structural modes and implementation modes which can be mutually replaced by a person of ordinary skill in the art are not changed. Therefore, the following detailed description and the accompanying drawings are only exemplary of the technical solutions of the present invention, and should not be considered as limiting or restricting the technical solutions of the present invention in its entirety or as limiting the technical solutions of the present invention.

The directional terms upper, lower, left, right, front, rear, front, back, top, bottom and the like that are or may be mentioned in this specification are defined relative to the configurations shown in the drawings, and are relative concepts that may be changed accordingly depending on the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

As shown in fig. 1 to 6, a child toy 10 according to an embodiment of the present invention includes a swing mechanism 1, a carrier 2, a plurality of carriers 3, and a control mechanism 4 for controlling the swing of the swing mechanism 1.

The bearing part 2 is connected to the swing mechanism 1 and can be driven by the swing mechanism 1 to swing, and the control mechanism 4 is electrically connected with the swing mechanism 1.

The carrier 2 is provided with a recognition mechanism 5 for recognizing the carrier 3, and the recognition mechanism 5 is electrically connected to the control mechanism 4.

The children toy 10 is used for children to play, has high playability and can attract children to play.

The children toy 10 is composed of a swing mechanism 1, a bearing member 2, a control mechanism 4, an identification mechanism 5 and a plurality of bearing objects 3. The swing mechanism 1 has a placing end and a swing end, the swing end being capable of swinging relative to the placing end. The control mechanism 4 is connected with the swinging mechanism 1 and can control the swinging end to swing. A carrier 2 is arranged on the oscillating end, on which carrier 2 a load 3 can be placed. The recognition mechanism 5 is provided on the carrier 2, and the recognition mechanism 5 can recognize the carrier 3 when the carrier 3 is placed on the carrier 2.

When playing, the swinging mechanism 1 can drive the bearing piece 2 to swing, and dynamic feeling is brought to the playing of children. When the carrier 2 is provided with the carrier 3, the carrier 3 can swing along with the carrier 2, which further brings about different visual feelings. When the carrying object 3 on the carrying element 2 needs to be taken down, the child can take out the carrying object 3 by hands, and can also control the swinging mechanism 1 to swing back and forth through the control mechanism 4, so that the carrying object 3 is automatically separated from the carrying element 2.

When a carrier 3 is placed on the carrier 2, the carrier 3 can trigger the recognition means 5, and the recognition means 5 can recognize the carriers 3, for example the shape and number of the carriers 3. Thus, the child toy 10 can play in various ways, and can assist the child in recognizing the carrier 3, thereby achieving an intelligence-improving effect. For example, the recognition unit 5 is an imaging system and can recognize the shape of the carrier 3. After the shape of the bearing object 3 is recognized, the recognized shape name is informed to the child in a voice broadcasting mode, so that the capability of the child to recognize objects can be improved. In other embodiments, the identification means 5 may have other identification capabilities, such as identifying the number of the carriers 3, performing arithmetic operations on the number of the carriers 3, and the like.

The control mechanism 4 is a control system of the children toy 10, the swing mechanism 1 is connected with the control mechanism 4, and the recognition mechanism 5 is electrically connected with the control mechanism 4. The child can control the swing of the swing mechanism 1 by adjusting the control mechanism 4, such as the swing pattern, the swing rate, or the swing angle. The information identified by the identifying mechanism 5 can be transmitted to the control mechanism 4, and the control mechanism 4 can be used for carrying out subsequent operation control.

Alternatively, the shapes of the swing mechanism 1, the carrier 2 and the carrier 3 may be various, and are not limited herein. For example, the swinging mechanism 1 is a pendulum bob, the bearing member 2 is a toy boat shape connected to the pendulum bob, and the bearing member 3 is various goods capable of being placed on the toy boat.

In one embodiment, as shown in fig. 1 to 5, at least two carrying portions 21 for placing the carrying objects 3 are disposed on the carrying member 2, and each carrying portion 21 is disposed with the identification mechanism 5.

The carrying part 21 is used for placing the carrying object 3, so that the carrying object 3 can be placed firmly. Each recognition means 5 can recognize the load 3 on the corresponding load bearing part 21, and the control means 4 performs operation control after obtaining the recognized information. With the arrangement, the bearing objects 3 placed on the bearing parts 21 can be compared, and the playing method is enriched.

Alternatively, the control means 4 may report the shape or the number of the objects 3 on each of the supporting portions 21 by voice after acquiring the information. In other embodiments, the control mechanism 4 controls the swing mechanism 1 to swing, for example, to a side on which a larger number of the carriers 3 are placed, after acquiring the information.

Alternatively, the swing mechanism 1 includes a seat body (not shown) and a movable rod (not shown), the seat body is provided with a ball socket, one end of the movable rod is movably connected with the ball socket, and the other end of the movable rod is connected with the carrier 2. So that the movable rod can swing in different directions. When the number of the objects 3 on one of the carrying portions 21 is the largest, the movable rod is inclined toward the carrying portion 21 to indicate that the number of the objects 3 on the carrying portion 21 is the largest.

In one embodiment, as shown in fig. 1 and 3-6, the control mechanism 4 includes a controller 41 and a mode adjuster capable of being activated, the mode adjuster being electrically connected to the controller 41, and by which the mode is changed. The controller 41 has a first mode and a second mode. When the controller 41 is in the first mode, the carrying objects 3 can be placed on each carrying portion 21, and the swing mechanism 1 can swing toward the carrying portion 21 on which the largest number of carrying objects 3 are placed. When the controller 41 is in the second mode, the swing mechanism 1 swings back and forth to empty the load 3 on the load-bearing part 21.

The control mechanism 4 is provided with a controller 41 and a mode adjusting member, wherein the controller 41 is an electric control structure and is provided with a control module, a storage module and a judgment module. The storage module stores various instruction information, the judgment module receives the information and then sends an instruction to the control module, and the control module receives the instruction and then calls the instruction information in the storage module to make corresponding control action. The specific structure of the controller 41 can refer to the existing circuit control board, and the detailed description is omitted.

The controller 41 has a first mode and a second mode, and the mode adjuster is a switch that adjusts the mode of the controller 41. The mode is adjusted by operating a mode adjustment member to actively change position.

When the controller 41 is in the first mode, the controller 41 controls the swinging mechanism 1 to swing in a single direction according to the information identified by the identification system. When the controller 41 is in the second mode, the controller 41 controls the swing mechanism 1 to swing back and forth or to a center position according to the information of the recognition system.

Taking the embodiment of the present application as an example for description, in the embodiment, two bearing parts 21 are disposed on the bearing member 2, and for convenience of description, one of the bearing parts 21 is defined as a first bearing part, and the other bearing part 21 is defined as a second bearing part.

When the controller 41 is in the first mode, when the first carrying part and the second carrying part are not provided with the carrying objects 3 or the number of the carrying objects 3 on the first carrying part is equal to the number of the carrying objects 3 on the second carrying part, the swing mechanism 1 does not swing, and the first carrying part and the second carrying part are at the same height. When the number of the objects 3 on the first carrying portion is greater than the number of the objects 3 on the second carrying portion, the controller 41 controls the swing mechanism 1 to swing towards the first carrying portion, and the first carrying portion is located below the second carrying portion. When the number of the objects 3 on the second carrying portion is greater than the number of the objects 3 on the second carrying portion, the controller 41 controls the swing mechanism 1 to swing towards the second carrying portion, and the second carrying portion is located below the first carrying portion.

When the controller 41 is in the second mode, the controller 41 controls the swing mechanism 1 to swing back and forth, and the load 3 on the first bearing part and the load 3 on the second bearing part are separated by vibration due to the vibration caused by the back and forth swing. After the first bearing part and the second bearing part are completely emptied of the bearing objects 3, the controller 41 controls the swing mechanism 1 to swing to a central position, so that the first bearing part and the second bearing part are located on a horizontal plane and at the same height, and balance is kept.

In one embodiment, as shown in fig. 4-6 and 8, the mode adjustment member includes an adjustment lever 42, a first contact 43 and a second contact 44, the adjustment lever 42 is rotatably connected to the carrier 2, and the first contact 43 and the second contact 44 are electrically connected to the controller 41, respectively. When the adjusting lever 42 is rotated to trigger the first contact 43, the controller 41 is in the first mode. When the adjusting lever 42 is rotated to trigger the second contact 44, the controller 41 is in the second mode.

Specifically, the mode adjuster is composed of an adjusting lever 42, a first contact piece 43, and a second contact piece 44, and the first contact piece 43 and the second contact piece 44 are electrically connected to the controller 41, respectively. The mode of the controller 41 can be adjusted by rotating the adjusting lever 42 to bring the adjusting lever 42 into contact with the first contact 43 and the second contact 44, respectively. The structure is simple, and the cost is reduced.

Alternatively, the carrier 2 is provided with a coupling hole in which the adjustment lever 42 is rotatably coupled. The part of the first contact piece 43 and the part of the second contact piece 44 are positioned in the connecting hole, and the adjusting rod 42 is provided with a trigger block which is positioned on the same plane with the first contact piece 43 and the second contact piece 44. The rotation of the adjusting lever 42 rotates the trigger block, so that the trigger block abuts against the first contact piece 43 or the second contact piece 44.

In one embodiment, as shown in fig. 3-7, the identification mechanism 5 comprises a touch member movably connected to the carrier 2 and an identification member electrically connected to the controller 41. When one bearing object 3 is placed on the bearing part 21, the contact part triggers the identification part to record once.

Specifically, both the touch member and the identification member are provided on the carrier member 2, the touch member being movable, and activating the identification member. When the carrier 3 is placed on the carrier 21, the carrier 3 moves the contact member, and then the contact member abuts against the identification member, so that the identification member records data once. The automatic identification is realized by the arrangement, and the operation is convenient.

Optionally, an accommodating groove is formed in the bearing portion 21, the touching member is telescopically arranged on a groove wall of the accommodating groove, and the identification member is located on one side of the touching member away from the accommodating groove. When the load-bearing object 3 is placed, the load-bearing object 3 slides along the groove wall of the accommodating groove. When the bearing object 3 passes through the contact component, the contact component is pressed, so that the contact component moves towards the direction close to the identification component and finally abuts against the identification component. After the load 3 passes, the triggering part returns to the initial position.

In one embodiment, as shown in fig. 3-8, the triggering member includes a triggering slide rod 51 and a triggering swing rod 52, the triggering slide rod 51 is slidably connected to the carrier member 2, and the triggering swing rod 52 is rotatably connected to the carrier member 2. The identification member includes a first identification patch 53 and a second identification patch 54. When the load-bearing object 3 is placed on the bearing part 21, the load-bearing object 3 triggers the touch slide rod 51 to slide and the touch swing rod 52 to swing. The sliding bar 51 is triggered to trigger the first identification piece 53, and the swinging bar 52 is triggered to trigger the second identification piece 54.

Specifically, the touch member has a touch slide bar 51 and a touch swing bar 52, the identification member has a first identification plate 53 and a second identification plate 54, and the first identification plate 53 and the second identification plate 54 are electrically connected to the controller 41, respectively. The touch slide bar 51 can slide, and the touch swing bar 52 can swing. In the process of placing the bearing object 3 on the bearing part 21, the bearing object 3 drives the touch slide bar 51 to slide first, the touch slide bar 51 slides to abut against the first identification sheet 53, and the controller 41 acquires a signal. Then the bearing 3 drives the touch swing rod 52 to swing, and the touch swing rod 52 swings to abut against the second identification sheet 54. The controller 41 acquires another signal to complete the recognition. A carrier 3 is placed on the recording support 21. After the carrier 3 has been completely placed, the trigger slide 51 and the trigger lever 52 return to the initial position. So set up, through twice butt trigger signal to ensure that the record is accurate.

Alternatively, when the trip lever 52 abuts the second identification piece 54, the trip slider 51 is separated from the first identification piece 53.

In one embodiment, as shown in fig. 4-5 and 7, the touch slide 51 is provided with an abutting block 511, and the abutting block 511 has a first end 5111 far away from the first identification plate 53 and a second end 5112 close to the first identification plate 53. The width of the first end 5111 is greater than the width of the second end 5112 to form an abutment slope 5113 at the first end 5111 and the second end 5112.

Specifically, the carrier 2 is provided with a sliding slot, a portion of the first identification piece 53 is exposed in the sliding slot, and the touch sliding rod 51 is slidably connected in the sliding slot. The touch slide bar 51 is provided with an abutting block 511, the abutting block 511 has a first end 5111 and a second end 5112, and the first end 5111 is at a larger distance from the first identification piece 53 than the second end 5112. The first end 5111 has a width greater than that of the second end 5112, so that an abutment inclined surface 5113 facing the first identification piece 53 is formed on the abutment block 511. Thus, when the trigger slide 51 is brought close to the first identification piece 53, the abutting block 511 can abut against the first identification piece 53 through the abutting inclined face 5113. When the touch slide bar 51 is away from the first recognition piece 53, the abutment block 511 can be separated from the first recognition piece 53. The trigger slide rod 51 arranged in this way is simple in structure and convenient to produce and manufacture.

In one embodiment, as shown in fig. 4-5 and 7, the trip lever 52 is provided with a first lever end 521 and a second lever end 522. The support 3 is provided with a magnet (not shown) capable of attracting the first rocker end 521. When the bearing 3 is placed on the bearing part 21, the magnetic block attracts the first swing rod end 521 to move, so as to drive the second swing rod end 522 to trigger the second identification sheet 54.

Specifically, the triggering swing rod 52 is rotatably connected to the carrier 2, and two ends of the triggering swing rod 52 are respectively a first swing rod end 521 and a second swing rod end 522, where the second swing rod end 522 is closer to the second identification sheet 54. When the carrier 3 is placed, after the iron block enters the attraction range of the magnetic block, the first rocker end 521 is attracted to swing towards the magnetic block, and the corresponding second rocker end 522 moves towards the second identification piece 54 in the opposite direction and finally abuts against the second identification piece 54.

In one embodiment, as shown in fig. 3-7, the movable limiting rod 6 is disposed on the supporting portion 21, and the mode adjusting member includes a stop 45. When the controller 41 is in the first mode, the stopper 45 abuts against the limiting rod 6 to limit the movement of the limiting rod 6, and the limiting rod 6 stops the bearing object 3 from separating from the bearing part 21. When the controller 41 is in the second mode, the stopper 45 is away from the stopper rod 6, the stopper rod 6 can move, and the bearing object 3 can be separated from the bearing part 21.

Specifically, a limiting rod 6 is disposed on each bearing portion 21, and the limiting rod 6 is movably connected to the bearing portion 21. A stop block 45 is arranged on an adjusting rod 42 of the mode adjusting piece, and the stop block 45 is driven by the adjusting rod 42 to move. When the controller 41 is in the first mode, the adjusting rod 42 drives the stopper 45 to be close to the limiting rod 6, and the stopper 45 abuts against the limiting rod 6 and abuts against the limiting rod 6 to move. At this time, when the swing mechanism 1 drives the bearing member 2 to swing, the bearing object 3 can be resisted by the limiting rod 6, and the bearing object 3 is prevented from falling from the bearing part 21. When the controller 41 is in the second mode, the adjusting rod 42 drives the stopper 45 to leave the limiting rod 6, so that the limiting rod 6 can move. At this time, when the swing mechanism 1 drives the bearing member 2 to swing, the bearing object 3 abuts against the limiting rod 6 to enable the limiting rod 6 to move, so that the bearing object 3 is avoided, and the bearing object 3 can be separated from the bearing part 21.

Optionally, the limiting rod 6 is slidably connected to the bearing part 21, and a groove is arranged on the limiting rod 6. When the controller 41 is in the first mode, the stopper 45 is located in the groove to limit the sliding of the limiting rod 6, and a part of the limiting rod 6 is exposed outside the bearing part 21. When the controller 41 is in the second mode, the stop 45 is clear of the recess. When the object 3 touches the position-limiting rod 6, the position-limiting rod 6 can be pushed to slide, i.e. the position-limiting rod 6 can not block the object 3 from leaving the bearing portion 21. Of course, the stop lever 6 may be connected in other ways, in this embodiment, it is connected in a rotatable manner, and after being abutted by the stopper 45, the stop lever 6 cannot rotate.

In one embodiment, as shown in fig. 1-2 and 9, the swing mechanism 1 includes a mounting housing 11, a swing member 12, and a driving member 13, wherein the swing member 12 is rotatably connected to the mounting housing 11, and the driving end of the driving member 13 is connected to the swing member 12. A sensor electrically connected to the driving member 13 is provided in the mounting case 11.

When the controller 41 is in the second mode, the sensing member senses and adjusts the motion of the swinging member 12.

The driving piece 13 is installed in the installation shell 11, one part of the swinging piece 12 is connected with the installation shell 11 in a rotating mode, the bearing piece 2 is connected to the other part, and the driving piece 13 drives the swinging piece 12 to swing. The driving member 13 can drive the swinging member 12 to swing in the forward and reverse directions, the sensing member comprises a first switch 14 and a second switch 15, the first switch 14 and the second switch 15 are arranged in the mounting shell 11, and the first switch 14 and the second switch 15 are respectively electrically connected with the driving member 13. When the controller 41 is in the second mode, the driving member 13 drives the swinging member 12 to swing toward the second switch 15 after the swinging member 12 touches the first switch 14. After the swinging member 12 touches the second switch 15, the driving member 13 drives the swinging member 12 to swing towards the first switch 14.

Specifically, when the controller 41 is in the first mode, the controller 41 controls the driver 13 to rotate in the forward or reverse direction. When the controller 41 is in the second mode, the controller 41 first controls the driving member 13 to rotate in the forward direction or the reverse direction, and then the swinging member 12 activates the first switch 14 or the second switch 15 to control the driving member 13. For example, the driving member 13 drives the oscillating member 12 to rotate forward, the oscillating member 12 touches the first switch 14 when swinging forward to the limit position, then the driving member 13 drives the oscillating member 12 to rotate backward, the oscillating member 12 touches the second switch 15 when swinging backward to the limit position, then the driving member 13 drives the oscillating member 12 to rotate forward, so that the oscillating member 12 swings back and forth cyclically until the carrier 2 stops when no carrier 3 is on.

In other embodiments, the sensing member further comprises a third switch 16, and the third switch 16 is located at a position intermediate the first switch 14 and the second switch 15. When the swinging member 12 swings to the intermediate position, the swinging member 12 touches the third switch 16. If the load 3 is still placed on the carrier part 21 at this time, the swing lever 12 continues to swing over the third switch 16. If there is no load 3 on the load bearing part 21 at this time, the swing lever 12 stops swinging. This allows the swing mechanism 1 to be aligned after the load 3 on the loading portion 21 is emptied.

Alternatively, the driving member 13 is a counter-rotating motor and a gear set, and the counter-rotating motor is connected with the oscillating member 12 through the gear set. The forward and reverse rotation motor and the gear set are prior art, and the specific structure is not described in detail, wherein the forward and reverse rotation motor is a driving power source, and the gear set is used for transmitting the swinging of the swinging member 12.

In one embodiment, as shown in fig. 1, the swing mechanism 1 further includes a rotatable rotating member 7, and the swing mechanism 1 is connected to the rotating member 7.

Specifically, the rotary member 7 has a rotary motor and a rotary disk, the rotary motor drives the rotary disk to rotate, and the swing mechanism 1 is connected to the rotary disk. The rotating motor is connected with the control mechanism 4, and the control mechanism 4 can control the rotating motor to drive the rotating disc to rotate, so that the swinging mechanism 1 is driven to rotate. So that the entire child toy 10 can not only swing but also rotate.

Alternatively, when the condition of the child is satisfied during playing, the control mechanism 4 controls the rotary member 7 to rotate the child toy 10, so as to provide an incentive to the player. For example, when the carriers 2 are emptied of the carriers 3, or when the number of carriers 3 on all the carriers 21 is equal. The specific conditions are designed according to actual needs.

In one embodiment, as shown in fig. 1 and 9, the voice prompt device 8 and the light device 9 are further included. The voice prompt piece 8 and the light piece 9 are respectively electrically connected with the control mechanism 4.

Specifically, the child toy 10 further has a voice prompt 8 and a light 9, which are electrically connected to the control mechanism 4, respectively. The control mechanism 4 can control the voice prompt 8 to broadcast information, such as the number of the carriers 3 or a piece of voice stored in the toy, which can be broadcast when a specific condition is fulfilled during play. The same control mechanism 4 can also control the light 9 to flash to enrich the visual experience.

One embodiment of the present application will now be described.

Example one

As shown in fig. 1 to 9, the overall shape of the children toy 10 in this embodiment is a gorilla weight lifting shape, in which the swing mechanism 1 is a gorilla main body, the bearing member 2 is a weight lifting rod, and the bearing object 3 is a handle sleeved on the weight lifting rod.

The swing mechanism 1 includes a mounting case 11 and a swing member 12, the mounting case 11 is a lower torso portion, the swing member 12 is an upper torso portion, and the swing member 12 is rotatably connected to the mounting case 11. A forward and reverse rotation motor and a gear set are arranged in the mounting shell 11, and the forward and reverse rotation motor is connected with the swinging piece 12 through the gear set.

The bearing piece 2 is a bearing rod, the bearing rod is installed on the swinging piece 12, and the swinging piece 12 is lifted upwards by hand after being connected with the bearing rod. The bearing rod is provided with a first bearing part and a second bearing part which are symmetrically arranged at two sides of the swinging piece 12. For convenience of description, the length direction of the carrying rod is taken as the left-right direction, wherein the first carrying part is located on the left side, and the second carrying part is located on the right side.

The control mechanism 4 comprises a controller 41, an adjusting rod 42, a first contact piece 43 and a second contact piece 44, wherein the adjusting rod 42 is provided with a first trigger block 421 and a second trigger block 422, the adjusting rod 42 is provided with a first rod part corresponding to the first bearing part and a second rod part corresponding to the second bearing part, the first trigger block 421 is connected to the first rod part, and the second trigger block 422 is connected to the second rod part. The first trigger block 421 and the second trigger block 422 are provided at an interval in the extending direction of the adjustment rod 42, and are displaced in the axial direction. The positions of the first trigger block 421 and the second trigger block 422 are changed by rotating the adjustment lever 42, and when the first trigger block 421 abuts against the first contact piece 43, the second trigger block 422 is separated from the second contact piece 44. When the second trigger block 422 abuts against the first contact piece 43, the first trigger block 421 is separated from the first contact piece 43. The carrier bar has a receiving cavity, the adjusting bar 42 is rotatably connected in the receiving cavity, the first contact 43 and the second contact 44 are located in the receiving cavity, the first contact 43 corresponds to the first trigger block 421, and the second contact 44 corresponds to the second trigger block 422. The adjusting rod 42 is connected with a shifting block 46, and the shifting block 46 extends out of the accommodating cavity.

The first bearing part and the second bearing part are both provided with identification mechanisms 5, and the identification mechanisms 5 comprise a touch slide bar 51, a touch swing bar 52, a first identification sheet 53 and a second identification sheet 54. The touch slide bar 51 is located outside the touch swing bar 52 and is slidably connected within the receiving cavity. The touch swing rod 52 is positioned below the touch slide rod 51 and is rotatably connected in the accommodating cavity. The touch sliding rod 51 is provided with a contact block 511, and one end of the touch swing rod 52 far away from the second identification piece 54 is provided with an iron block.

The two ends of the bearing rod are respectively connected with a rotatable limiting rod 6, and the limiting rod 6 can rotate left and right. The adjusting rod 42 is provided with a stop block 45, and the stop block 45 can be abutted against the limiting rod 6 to limit the rotation of the 6-position block of the limiting rod.

A first switch 14, a second switch 15 and a third switch 16 are provided in the mounting case 11, the swinging member 12 is located between the first switch 14 and the second switch 15, and the first switch 14 and the second switch 15 are symmetrically arranged on both sides of the third switch 16. The controller 41 is installed in the mounting case 11, and the first switch 14, the second switch 15, the third switch 16, the first identification piece 53, the second identification piece 54, the first contact piece 43, and the second contact piece 44 are electrically connected to the controller 41, respectively.

The carrier 3 has through-holes, through which the carrier bar is pushed when it is placed on the carrier part 21. A magnet is arranged in the bearing 3.

The bottom of the mounting shell 11 is provided with a rotating piece 7, and the mounting shell 11 is internally provided with a voice prompt piece 8 and a light piece 9. Which are electrically connected to the controller 41, respectively.

The child toy 10 is played as follows.

The child toy 10 is in an initial state in which the carrier 3 is not placed on the carrier bar, and the carrier bar is in a horizontal state.

The operating toggle block 46 drives the adjusting lever 42 to rotate, so that the first trigger block 421 contacts with the first contact piece 43, the second trigger block 422 does not contact with the second contact piece 44, and the controller 41 is in the first mode. At this time, the stopper 45 abuts against the limiting rod 6, and the limiting rod 6 can only rotate in one direction, so that the bearing object 3 can be sleeved into the bearing rod but cannot be separated from the bearing rod. When playing, a bearing object 3 is sleeved on the first bearing part, the controller 41 controls the swinging piece 12 to swing leftwards, and the bearing rod is inclined leftwards. Then, a bearing object 3 is sleeved on the second bearing part, the controller 41 controls the swinging piece 12 to swing rightwards to the middle position, and the limiting rod 6 returns to the horizontal state again. Then, a carrying object 3 is sleeved on the second carrying part, the controller 41 controls the swinging part 12 to swing rightwards, and the carrying rod is inclined rightwards. When the bearing object 3 is arranged on the bearing rod, the voice prompt piece 8 plays sound. When all the carriers 3 are put on the carrying rod, the controller 41 controls the rotating member 7 to rotate and the light member 9 to be lighted.

When the bearing object 3 is sleeved in the first bearing part or the second bearing part, the bearing object 3 touches the limiting rod 6 to rotate inwards, and the limiting rod 6 pushes the touch sliding rod 51 to slide towards the first identification sheet 53 after rotating, so that the butting block 511 touches the first identification sheet 53. In the process that the bearing object 3 is continuously sleeved, the touch swing rod 52 enters the attraction range of the magnetic block, so that one end of the attraction touch swing moves downwards, and the other end moves upwards to abut against the second identification sheet 54, thereby completing one-time identification.

The dial 46 is operated to rotate the adjusting lever 42, so that the second trigger block 422 contacts the second contact piece 44, the first trigger block 421 does not contact the first contact piece 43, and the controller 41 is in the second mode. At this time, the stopper 45 is separated from the stopper rod 6, and the stopper rod 6 can freely rotate left and right. In this mode, the controller 41 controls the swinging member 12 to swing back and forth to move the object 3. When the bearing object 3 moves, the limiting rod 6 can be pushed to rotate and leave the bearing rod. This empties the load 3 on the carrier bar. After emptying all the carriers 3, the oscillating piece 12 is oscillated to the central position, the first and second carriers being at the same level.

Optionally, the controller 41 further comprises other modes, in one of the modes, the swing mechanism 1 does not swing when the carrying object 3 is sleeved, and only the recognition mechanism 5 recognizes the carrying object 3. In another mode, it is also possible for the rotary part 7 to rotate once for each insertion of a carrier 3.

To sum up, the utility model discloses a children toy 10, including swing mechanism 1, hold carrier 2, a plurality of carrier 3 and be used for controlling swing mechanism 1 wobbling control mechanism 4. The bearing part 2 is connected to the swing mechanism 1 and can be driven by the swing mechanism 1 to swing, and the control mechanism 4 is electrically connected with the swing mechanism 1. The carrier 2 is provided with an identification means 5 for identifying the carrier 3, and the identification means 5 is electrically connected to the control means 4. The children toy 10 controls the swing mechanism 1 to swing through the control mechanism 4, so that the children toy has different swing modes, and the playing performance is improved. Can discern through identification system and hold carrier 3 on the carrier 2, make the toy have certain intelligent degree, also increased the mode of playing, attract children to play more easily.

According to the needs, the above technical schemes can be combined to achieve the best technical effect.

The foregoing is considered as illustrative only of the principles and preferred embodiments of the invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims (12)

1. A children toy, which is characterized by comprising a swinging mechanism (1), a bearing piece (2), a plurality of bearing objects (3) and a control mechanism (4) for controlling the swinging of the swinging mechanism (1);

the bearing piece (2) is connected to the swing mechanism (1) and can be driven by the swing mechanism (1) to swing, and the control mechanism (4) is electrically connected with the swing mechanism (1);

the bearing piece (2) is provided with an identification mechanism (5) for identifying the bearing object (3), and the identification mechanism (5) is electrically connected with the control mechanism (4).

2. Child toy according to claim 1, characterized in that the carrier (2) is provided with at least two carrier parts (21) for placing the carrier (3), each carrier part (21) being provided with the identification means (5).

3. The children's toy according to claim 2, characterized in that the control mechanism (4) comprises a controller (41) and a movable mode adjustment member, which is electrically connected to the controller (41), by activating which the mode is changed;

the controller (41) has a first mode and a second mode;

when the controller (41) is in the first mode, the bearing part (21) can be placed with the bearing objects (3), and the swinging mechanism (1) can swing towards the bearing part (21) where the bearing objects (3) are placed in the largest number;

when the controller (41) is in the second mode, the swinging mechanism (1) swings back and forth to empty the bearing object (3) on the bearing part (21).

4. The children's toy of claim 3, wherein the mode adjustment member comprises an adjustment lever (42), a first contact (43) and a second contact (44), the adjustment lever (42) being rotatably connected to the carrier (2), the first contact (43) and the second contact (44) being electrically connected to the controller (41), respectively;

when the adjusting rod (42) rotates to trigger the first contact piece (43), the controller (41) is in the first mode;

when the adjusting rod (42) rotates to trigger the second contact piece (44), the controller (41) is in the second mode.

5. A children's toy according to claim 3, characterized in that said identification means (5) comprise a feeler element movably connected to said carriage (2) and an identification element electrically connected to said control (41);

when the bearing part (21) is provided with one bearing object (3), the touch piece triggers the identification piece to record once.

6. The children's toy according to claim 5, wherein the triggering member comprises a triggering slide rod (51) and a triggering swing rod (52), the triggering slide rod (51) being slidably connected to the carrier member (2), the triggering swing rod (52) being rotatably connected to the carrier member (2);

the identification piece comprises a first identification piece (53) and a second identification piece (54);

when the bearing object (3) is placed on the bearing part (21), the bearing object (3) triggers the touch sliding rod (51) to slide and triggers the touch swing rod (52) to swing;

the touch sliding rod (51) triggers the first identification sheet (53), and the touch swing rod (52) triggers the second identification sheet (54).

7. The children's toy according to claim 6, characterized in that the trip slider (51) is provided with an abutment block (511), the abutment block (511) having a first end (5111) distal from the first identification tab (53) and a second end (5112) proximal to the first identification tab (53);

the width of the first end (5111) is greater than the width of the second end (5112) to form an abutment ramp (5113) at the first end (5111) and the second end (5112).

8. Children's toy according to claim 6, characterized in that the triggering lever (52) is provided with a first lever end (521) and a second lever end (522);

the bearing object (3) is provided with a magnetic block capable of attracting the first swing rod end (521);

when the bearing object (3) is placed on the bearing part (21), the magnetic block attracts the first swing rod end (521) to move so as to drive the second swing rod end (522) to trigger the second identification sheet (54).

9. A children's toy according to claim 3, wherein the carrying part (21) is provided with a movable limiting rod (6), and the mode adjusting member comprises a stop block (45);

when the controller (41) is in the first mode, the stop block (45) abuts against the limiting rod (6) to limit the movement of the limiting rod (6), and the limiting rod (6) stops the bearing object (3) from separating from the bearing part (21);

when the controller (41) is in the second mode, the stop block (45) leaves the limiting rod (6), the limiting rod (6) can move, and the bearing object (3) can be separated from the bearing part (21).

10. A children's toy according to claim 3, characterized in that the swing mechanism (1) comprises a mounting housing (11), a swing member (12) and a driving member (13), the swing member (12) being rotatably connected to the mounting housing (11), the driving member (13) having its driving end connected to the swing member (12);

an induction piece electrically connected with the driving piece (13) is arranged in the mounting shell (11);

when the controller (41) is in the second mode, the sensing piece senses and adjusts the action of the swinging piece (12).

11. The children's toy according to claim 1, further comprising a rotatable rotating member (7), the swing mechanism (1) being connected to the rotating member (7).

12. A children's toy according to claim 1, further comprising a voice prompt (8) and a light (9);

the voice prompt piece (8) and the light piece (9) are respectively electrically connected with the control mechanism (4).

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