CN212262369U

CN212262369U - Multifunctional walking toy

Info

Publication number: CN212262369U
Application number: CN202020879916.XU
Authority: CN
Inventors: 陈龙源
Original assignee: Shantou Jiadu Intelligent Technology Co ltd
Current assignee: Shantou Jiadu Intelligent Technology Co ltd
Priority date: 2020-05-23
Filing date: 2020-05-23
Publication date: 2021-01-01
Anticipated expiration: 2030-05-23

Abstract

The utility model relates to a multifunctional walking toy, which comprises a head, a body, a right forelimb, a right hind limb, a left forelimb and a left hind limb, wherein a driving wave box is fixedly connected inside the body; the power output end arranged on the driving wave box comprises an eccentric upright column disc a for driving the tail to swing left and right, an eccentric upright column disc b for driving the blink, an eccentric upright column disc c for driving the left forelimb to move back and forth and an eccentric upright column disc d for driving the right forelimb to move back and forth; eccentric stand disc c, eccentric stand disc a set up in the left side of driving ripples case, and eccentric stand disc b, eccentric stand disc d set up in the right side of driving ripples case, the utility model discloses a realized that the toy of cartoon image is preceding, successively, blink, shake multiple actions such as tail through motor drive motion, can satisfy children's hobby at the built-in light of cooperation and sound generating mechanism.

Description

Multifunctional walking toy

Technical Field

The utility model relates to a children's toys field, especially a multi-functional walking toy.

Background

Walking toys sold in the market at present can be roughly divided into full-functional toys with very complex structures, the movements of all joints and four limbs of the walking toys are realized by being driven by precise motors, the toys have high cost and more complex control, and are not suitable for being played by the children of the low age; and the structure of the toy is too simple, the whole toy can only move forwards and backwards, the interest is low, and people can lose interest easily.

Disclosure of Invention

The utility model aims to solve the technical problem that a multi-functional walking toy is provided, can realize that the toy is whole to walk, blink, shake multiple actions such as tail, at the inside electronic light that sets up of cooperation, has improved the holistic interest of toy.

In order to solve the technical problem, the utility model discloses a realize according to following mode: the utility model relates to a multifunctional walking toy, which comprises a head, a body, a right forelimb, a right hind limb, a left forelimb and a left hind limb, wherein a driving wave box is fixedly connected inside the body; the power output end arranged on the driving wave box comprises an eccentric upright column disc a for driving the tail to swing left and right, an eccentric upright column disc b for driving the blink, an eccentric upright column disc c for driving the left forelimb to move back and forth and an eccentric upright column disc d for driving the right forelimb to move back and forth; the eccentric upright column disk c and the eccentric upright column disk a are arranged on the left side of the driving wave box, and the eccentric upright column disk b and the eccentric upright column disk d are arranged on the right side of the driving wave box;

the eccentric column disc a is hinged with the tail transmission rod through an eccentric column of the disc a, and the tail is driven to swing left and right through the tail transmission rod; the eccentric column disc b is hinged with the blink transmission rod through an eccentric column of the disc b to drive the blink transmission rod to move up and down; the eccentric column disc c drives the left front limb to move through the eccentric column and drives the left rear limb to synchronously move through the front and rear limb transmission rods; the eccentric column disk d drives the right front limb to move through the eccentric column and drives the right rear limb to synchronously move through the front and rear limb transmission rods; the eccentric column disk c and the eccentric column disk d are coaxially fixed and synchronously rotate, and the eccentric column arranged on the eccentric column disk c is arranged in a staggered mode relative to the eccentric column arranged on the eccentric column disk d.

The eccentric upright column disc c and the leg connecting upright column form coaxial line rotating connection through the eccentric upright column, the leg connecting upright column is fixed with the inner side surface of the upper end of the left forelimb, the bottom plane of the leg connecting upright column is fixedly connected with a forelimb guide plate, a strip-shaped groove is arranged on the forelimb guide plate, and the strip-shaped groove is sleeved on the upright column on the side surface of the drive wave box and can slide along the upright column; one end of the front-rear limb transmission rod is hinged with the leg connecting upright post fixed on the left front limb, the other end of the front-rear limb transmission rod is hinged with the upper end of the rear limb connecting plate, the bottom of the outer side face of the rear limb connecting plate is fixedly connected with the leg connecting upright post, the leg connecting upright post is hinged with the rear limb hinged upright post fixed on the side of the body, and the leg connecting upright post is fixed with the inner side face of the upper end of the left rear limb.

The eccentric upright post disc d is coaxially and rotatably connected with the leg connecting upright post through the eccentric upright post, the leg connecting upright post is fixed with the inner side surface of the upper end of the right forelimb, the bottom plane of the leg connecting upright post is fixedly connected with a forelimb guide plate, a strip-shaped groove is arranged on the forelimb guide plate, and the strip-shaped groove is sleeved on the upright post on the side surface of the drive wave box and can slide along the upright post; one end of the front-rear limb transmission rod is hinged with a leg connecting upright post fixed on the right front limb, the other end of the front-rear limb transmission rod is hinged with the upper end of a rear limb connecting plate, the bottom of the outer side face of the rear limb connecting plate is fixedly connected with a leg connecting upright post, the leg connecting upright post is hinged with a rear limb hinged upright post fixed on the side of the body, and the leg connecting upright post is fixed with the inner side face of the upper end of the right rear limb.

The tail end and the tail hinged stand column form hinged connection, the tail hinged stand column is fixed with a shell of the body, the tail shaking connecting plate is connected with the tail at a fixed angle, the eccentric stand column disc a forms hinged connection with one end of the tail transmission rod through the eccentric stand column, the other end of the tail transmission rod is sleeved on the stand column at the tail shaking connecting plate end, and the tail shaking connecting plate form hinged connection.

The disc b with the eccentric upright post is hinged with one end of the blink driving rod through the eccentric upright post, the other end of the blink driving rod is hinged with the bottom of the sliding plate, and the sliding plate is clamped in the sliding groove on the back of the head connecting support and can move up and down along the sliding groove; a bottom boss is arranged below the base of the blink driving stand column, penetrates through the sliding groove, is fixedly connected to the top of the sliding plate and moves up and down synchronously with the sliding plate; the head connecting bracket is fixed with the head shell; rotating seats are symmetrically arranged on two sides of the sliding groove and fixed with the head shell, and the lower plane of the base of the blink driving stand column is abutted to the side face of the rotating seat and can slide up and down along the side face; the eyeball shell is symmetrically arranged in the shell of the head, an eyeball rotating shaft is fixedly connected to the eyeball shell, the eyeball rotating shaft is clamped in a gap formed between the rotating seat and the shell of the head and can rotate in the gap along the axis, and a clamping and clamping boss is fixedly connected to the side of the eyeball rotating shaft; the bottom of the U-shaped reset spring is sleeved on the eyeball rotating shaft, and the cylindrical edges of the U-shaped reset spring are clamped on the two sides of the clamping boss and the cylindrical surface of the blink driving stand column; the upper end of the front part of the body is provided with a semi-annular clamping groove, the lower end of the head is provided with a head clamping boss, and the head clamping boss is inserted into the semi-annular clamping groove to be fixed.

The head part is close to the inner side of the eyeball shell and is fixedly connected with a lamp bead with changeable colors; the top end of the head is fixedly connected with a corner, and a lamp bead with changeable colors is fixedly connected in the corner shell; the head shell is internally provided with a control circuit board, and a wireless control terminal of the control circuit board can be connected with a remote controller through a wireless signal.

The body is internally provided with a power supply and a sounding device.

The utility model discloses an actively the effect: a multi-functional walking toy simple structure, the action is nimble reliable, realized multiple actions such as cartoon image's toy is preceding, successively, blink, shake the tail through motor drive motion, can satisfy children's interest and hobby at cooperation built-in light and sound generating mechanism.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is an exploded view of the motion mechanism;

FIG. 4 is a schematic view of the internal structure of the motion mechanism;

FIG. 5 is a schematic view of the internal structure of the motion mechanism;

FIG. 6 is a schematic view of the internal structure of the motion mechanism;

FIG. 7 is a schematic view of the internal structure of the motion mechanism;

FIG. 8 is a partially exploded schematic view of the motion mechanism;

FIG. 9 is a schematic view of the eye transmission;

in the figure, 1 corner of the head, 2 trunk, 3 corners of the body, 4 horns of the driving bellows, 5 right forelimb, 6 left forelimb, 7 left hind limb, 8 right hind limb, 9 forelimb guide plates, 10 hind limb connecting plates, 11 fore-and-aft limb transmission rods, 12 tails, 13 tail shaking connecting plates, 14 tail transmission rods, 15 eccentric upright column discs a, 16 blink transmission rods, 17 semi-annular clamping grooves, 18 leg connecting upright columns, 19 head clamping bosses, 20 head connecting brackets, 21 eccentric upright column discs b, 22 tail hinging upright columns, 23 eccentric upright column discs c, 24 eccentric upright columns, 25 hind limb hinging upright columns, 26 eccentric upright column discs d, 27 eyeball shell, 28 sliding plates, 29 blink driving upright columns, 30 sliding grooves, 31U-shaped return springs, 32 clamping bosses, 33 rotating seats and 34 eyeball rotating shafts.

Detailed Description

As shown in fig. 1 to 5, the multifunctional walking toy of the present invention comprises a head 1, a body 2, a right front limb 5, a right rear limb 8, a left front limb 6 and a left rear limb 7, wherein a driving bellows 4 is fixedly connected inside the body 2; the power output end arranged on the driving wave box 4 comprises an eccentric upright post disc a15 for driving the tail 12 to swing left and right, an eccentric upright post disc b21 for driving the winking, an eccentric upright post disc c23 for driving the left forelimb 6 to move back and forth and an eccentric upright post disc d26 for driving the right forelimb 5 to move back and forth; the eccentric upright column disk c23 and the eccentric upright column disk a15 are arranged on the left side of the drive wave box 4, and the eccentric upright column disk b21 and the eccentric upright column disk d26 are arranged on the right side of the drive wave box 4.

The eccentric column disc a15 is hinged with the tail transmission rod through the eccentric column 24, and the tail transmission rod 14 drives the tail 12 to swing left and right.

As shown in fig. 4, 7 and 9, the eccentric column disc b21 is hinged with one end of the blink driving rod 16 through the eccentric column 24 to drive the blink driving rod 16 to move up and down; the other end of the blinking driving rod 16 is hinged with the bottom of a sliding plate 28, and the sliding plate 28 is clamped in a sliding groove 30 on the back of the head connecting bracket 20 and can move up and down along the sliding groove 30; a bottom boss is arranged below the base of the blink driving upright post 29, penetrates through the sliding groove 30, is fixedly connected to the top of the sliding plate 28 and moves up and down synchronously with the sliding plate 28; the head connecting bracket 20 is fixed with the shell of the head 1; the two sides of the sliding groove 30 are symmetrically provided with rotating seats 33, the rotating seats 33 are fixed with the shell of the head 1, and the lower plane of the base of the blink driving upright post 29 is abutted to the side surface of the rotating seats 33 and can slide up and down along the side surface; the eyeball shell 27 is symmetrically arranged in the shell of the head part 1, an eyeball rotating shaft 34 is fixedly connected to the eyeball shell 27, the eyeball rotating shaft 34 is clamped in a gap formed between the rotating seat 33 and the shell of the head part 1 and can rotate along the axis in the gap, and a clamping and clamping boss 32 is fixedly connected to the side of the eyeball rotating shaft 34; the bottom of the U-shaped return spring 31 is sleeved on the eyeball rotating shaft 34, and the cylindrical edge of the U-shaped return spring 31 is clamped on the two sides of the clamping boss 32 and the cylindrical surface of the blink driving upright post 29; the upper end of the front part of the body 2 is provided with a semi-annular clamping groove 17, the lower end of the head 1 is provided with a head clamping boss 19, and the head clamping boss 19 is inserted into the semi-annular clamping groove 17 to be fixed. When executing the blinking operation command, the blinking transmission rod 16 moves up and down to synchronously drive the sliding plate 28 to move up and down, and when the sliding plate 28 moves up and down, the blinking driving upright 29 fixed with the sliding plate moves up and down synchronously; when the blink driving upright post 29 moves up and down, the U-shaped return spring 31 clamped on the blink driving upright post will rotate along with the blink driving upright post, and the eyeball rotating shaft 34 is driven to rotate along the axis of the eyeball rotating shaft by the clamping boss 32 while rotating, so that the eyeball shell 27 is finally driven to rotate up and down, and the blink action is vividly simulated.

The eccentric column disc c23 drives the left front limb 6 to move through the eccentric column 24 thereof, and drives the left rear limb 7 to synchronously move through the front-rear limb transmission rod 11; the eccentric column disc d26 drives the right front limb 5 to move through the eccentric column 24 thereof, and drives the right rear limb 8 to synchronously move through the front-rear limb transmission rod 11; the eccentric upright column disk c23 and the eccentric upright column disk d26 are coaxially fixed and synchronously rotate, and the eccentric upright column 24 arranged on the eccentric upright column disk c23 is arranged in a staggered way relative to the eccentric upright column 24 arranged on the eccentric upright column disk d 26.

As shown in fig. 2, 5 and 8, the eccentric upright column disc c23 is coaxially and rotatably connected with the leg connecting upright column 18 through the eccentric upright column 24, the leg connecting upright column 18 is fixed with the inner side surface of the upper end of the left forelimb 6, the bottom plane of the leg connecting upright column 18 is fixedly connected with a forelimb guide plate 9, the forelimb guide plate 9 is provided with a strip-shaped groove, and the strip-shaped groove is sleeved on the upright column on the side surface of the driving wave box 4 and can slide along the upright column; one end of the front-back limb transmission rod 11 is hinged with a leg connecting upright post 18 fixed on the left front limb 6, the other end is hinged with the upper end of a back limb connecting plate 10, the bottom of the outer side surface of the back limb connecting plate 10 is fixedly connected with a leg connecting upright post 18, the leg connecting upright post 18 is hinged with a back limb hinged upright post 25 fixed on the side of the body 2, the leg connecting upright post 18 is fixed with the inner side surface of the upper end of the left back limb 7,

as shown in fig. 4, the eccentric upright post disc d26 forms coaxial rotary connection with the leg connecting upright post 18 through the eccentric upright post 24, the leg connecting upright post 18 is fixed with the inner side surface of the upper end of the right forelimb 5, the bottom plane of the leg connecting upright post 18 is fixedly connected with a forelimb guide plate 9, a strip-shaped groove is arranged on the forelimb guide plate 9, and the strip-shaped groove is sleeved on the upright post on the side surface of the drive wave box 4 and can slide along the upright post; one end of the front-rear limb transmission rod 11 is hinged with a leg connecting upright post 18 fixed on the right front limb 5, the other end of the front-rear limb transmission rod is hinged with the upper end of a rear limb connecting plate 10, the bottom of the outer side surface of the rear limb connecting plate 10 is fixedly connected with a leg connecting upright post 18, the leg connecting upright post 18 is hinged with a rear limb hinged upright post 25 fixed on the side of the body 2, and the leg connecting upright post 18 is fixed with the inner side surface of the upper end of the right rear limb 8.

As shown in fig. 4, 5 and 6, the end of the tail 12 is hinged to the tail hinge pillar 22, the tail hinge pillar 22 is fixed to the shell of the trunk 2, the tail swing link 13 is connected to the tail 12 at a fixed angle, the eccentric pillar disc a15 is hinged to one end of the tail link 14 through the eccentric pillar 24, and the other end of the tail link 14 is sleeved to the pillar at the end of the tail swing link 13 and hinged to the pillar.

A lamp bead with changeable colors is fixedly connected to the inner side of the head part 1, which is close to the eyeball shell 27; the top end of the head 1 is fixedly connected with a corner 3, and beads with changeable colors are fixedly connected in the shell of the corner 3; a control circuit board is arranged in the shell of the head part 1, and a wireless control terminal of the control circuit board can be connected with a remote controller through a wireless signal.

The body 2 is internally provided with a power supply and a sound generating device.

The utility model discloses an action is introduced:

the utility model relates to a multifunctional walking toy, when playing, the remote controller controls the work of the drive wave box 4, the drive wave box 4 transmits the power to the tail 12 through the eccentric upright post disc a15 arranged at the power output end, the eccentric upright post disc a15 rotates to drive the tail 12 to swing left and right; the driving wave box 4 transmits power to the eyeball shell 27 in the shell of the head 1 through an eccentric upright column disc b21 arranged at the power output end of the driving wave box, and the eccentric upright column disc b21 rotates to synchronously turn over the eyeball shell 27 up and down so as to realize blinking action; the driving wave box 4 transmits power to four limbs through an eccentric upright post disc c23 and an eccentric upright post disc d26 arranged at the power output end of the driving wave box, the eccentric upright post disc c23 and the eccentric upright post disc d26 are coaxially and fixedly connected with each other, so that the four limbs are driven to move synchronously, the left front limb 6 and the right front limb 5 can lift legs and move forwards or step forwards successively, the left rear limb 7 and the right rear limb 8 can swing forwards and backwards regularly, and finally the whole toy moves forwards or backwards by matching with each other.

Claims

1. A multifunctional walking toy is characterized in that: comprises a head, a body, a right forelimb, a right hind limb, a left forelimb and a left hind limb, wherein a driving wave box is fixedly connected inside the body; the power output end arranged on the driving wave box comprises an eccentric upright column disk a for driving the tail to swing left and right, an eccentric upright column disk b for driving the head to blink front and back, an eccentric upright column disk c for driving the left forelimb to move back and forth and an eccentric upright column disk d for driving the right forelimb to move back and forth; the eccentric upright column disk c and the eccentric upright column disk a are arranged on the left side of the driving wave box, and the eccentric upright column disk b and the eccentric upright column disk d are arranged on the right side of the driving wave box; the eccentric column disc a is hinged with the tail transmission rod through an eccentric column of the disc a, and the tail is driven to swing left and right through the tail transmission rod; the eccentric column disc b is hinged with the blink transmission rod through an eccentric column of the disc b to drive the blink transmission rod to move up and down; the eccentric column disc c drives the left front limb to move through the eccentric column and drives the left rear limb to synchronously move through the front and rear limb transmission rods; the eccentric column disk d drives the right front limb to move through the eccentric column and drives the right rear limb to synchronously move through the front and rear limb transmission rods; the eccentric column disk c and the eccentric column disk d are coaxially fixed and synchronously rotate, and the eccentric column arranged on the eccentric column disk c is arranged in a staggered mode relative to the eccentric column arranged on the eccentric column disk d.

2. The multi-function walking toy of claim 1, wherein: the eccentric upright column disc c and the leg connecting upright column form coaxial line rotating connection through the eccentric upright column, the leg connecting upright column is fixed with the inner side surface of the upper end of the left forelimb, the bottom plane of the leg connecting upright column is fixedly connected with a forelimb guide plate, a strip-shaped groove is arranged on the forelimb guide plate, and the strip-shaped groove is sleeved on the upright column on the side surface of the drive wave box and can slide along the upright column; one end of the front-rear limb transmission rod is hinged with the leg connecting upright post fixed on the left front limb, the other end of the front-rear limb transmission rod is hinged with the upper end of the rear limb connecting plate, the bottom of the outer side face of the rear limb connecting plate is fixedly connected with the leg connecting upright post, the leg connecting upright post is hinged with the rear limb hinged upright post fixed on the side of the body, and the leg connecting upright post is fixed with the inner side face of the upper end of the left rear limb.

3. The multi-function walking toy of claim 1, wherein: the eccentric upright post disc d is coaxially and rotatably connected with the leg connecting upright post through the eccentric upright post, the leg connecting upright post is fixed with the inner side surface of the upper end of the right forelimb, the bottom plane of the leg connecting upright post is fixedly connected with a forelimb guide plate, a strip-shaped groove is arranged on the forelimb guide plate, and the strip-shaped groove is sleeved on the upright post on the side surface of the drive wave box and can slide along the upright post; one end of the front-rear limb transmission rod is hinged with a leg connecting upright post fixed on the right front limb, the other end of the front-rear limb transmission rod is hinged with the upper end of a rear limb connecting plate, the bottom of the outer side face of the rear limb connecting plate is fixedly connected with a leg connecting upright post, the leg connecting upright post is hinged with a rear limb hinged upright post fixed on the side of the body, and the leg connecting upright post is fixed with the inner side face of the upper end of the right rear limb.

4. The multi-function walking toy of claim 1, wherein: the tail end and the tail hinged stand column form hinged connection, the tail hinged stand column is fixed with a shell of the body, the tail shaking connecting plate is connected with the tail at a fixed angle, the eccentric stand column disc a forms hinged connection with one end of the tail transmission rod through the eccentric stand column, the other end of the tail transmission rod is sleeved on the stand column at the tail shaking connecting plate end, and the tail shaking connecting plate form hinged connection.

5. The multi-function walking toy of claim 1, wherein: the disc b with the eccentric upright post is hinged with one end of the blink driving rod through the eccentric upright post, the other end of the blink driving rod is hinged with the bottom of the sliding plate, and the sliding plate is clamped in the sliding groove on the back of the head connecting support and can move up and down along the sliding groove; a bottom boss is arranged below the base of the blink driving stand column, penetrates through the sliding groove, is fixedly connected to the top of the sliding plate and moves up and down synchronously with the sliding plate; the head connecting bracket is fixed with the head shell; rotating seats are symmetrically arranged on two sides of the sliding groove and fixed with the head shell, and the lower plane of the base of the blink driving stand column is abutted to the side face of the rotating seat and can slide up and down along the side face; the eyeball shell is symmetrically arranged in the shell of the head, an eyeball rotating shaft is fixedly connected to the eyeball shell, the eyeball rotating shaft is clamped in a gap formed between the rotating seat and the shell of the head and can rotate in the gap along the axis, and a clamping and clamping boss is fixedly connected to the side of the eyeball rotating shaft; the bottom of the U-shaped reset spring is sleeved on the eyeball rotating shaft, and the cylindrical edges of the U-shaped reset spring are clamped on the two sides of the clamping boss and the cylindrical surface of the blink driving stand column; the upper end of the front part of the body is provided with a semi-annular clamping groove, the lower end of the head is provided with a head clamping boss, and the head clamping boss is inserted into the semi-annular clamping groove to be fixed.

6. The multi-function walking toy of claim 1, wherein: the head part is close to the inner side of the eyeball shell and is fixedly connected with a lamp bead with changeable colors; the top end of the head is fixedly connected with a corner, and a lamp bead with changeable colors is fixedly connected in the corner shell; the head shell is internally provided with a control circuit board, and a wireless control terminal of the control circuit board can be connected with a remote controller through a wireless signal.

7. The multi-function walking toy of claim 1, wherein: the body is internally provided with a power supply and a sounding device.