CN210698773U - Egg-laying mechanism and toy duck - Google Patents

Abstract

The utility model discloses an egg-producing mechanism, which comprises an egg body, a channel and a release unit, wherein the channel is used for accommodating at least one egg body, the release unit comprises a swinging piece, and when the swinging piece swings to the stop end and is inserted into the channel, the stop end keeps the egg body in the channel; when the swinging piece swings to the stop end to be separated from the channel, the egg bodies are released from the channel. The utility model also provides a toy duck. The utility model can simulate the egg, has simple structure, vivid image and freely travel.

Description

Egg-laying mechanism and toy duck

Technical Field

The utility model relates to a toy technical field especially relates to a mechanism and toy duck live eggs.

Background

The existing toy for simulating the poultry egg production has the disadvantages of complex structure, poor operability and single function.

Therefore, it is necessary to design a mechanism for laying eggs and a toy duck which can simulate laying eggs, have a simple structure, are vivid and can freely run.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide an egg laying mechanism and a toy duck which can simulate egg laying, have simple structure and vivid image and can freely run.

The utility model provides an egg-producing mechanism, which comprises an egg body, a channel and a release unit, wherein the channel is used for accommodating at least one egg body, the release unit comprises a swinging piece, and a stop end is arranged on the swinging piece;

when the swinging piece swings to the position that the stopping end is inserted into the channel, the stopping end keeps the egg body in the channel;

when the swinging piece swings to the stop end to be separated from the channel, the egg bodies are released from the channel.

Further, the releasing unit further comprises a rotating piece, and the rotating piece comprises a first rotating rod and a second rotating rod which are fixedly connected;

the oscillating piece further comprises a pushing end on which the second turning lever of the turning piece acts.

Further, the release unit further comprises a motor and a toggle part;

the motor drives the shifting part to rotate, when the shifting part rotates to act on the first rotating rod, the first rotating rod is driven to rotate in the forward direction, and the stop end of the swinging piece is inserted into the channel;

the toggle part rotates to be separated from the first rotating rod, the first rotating rod rotates reversely under the action of gravity or a torsion spring, the second rotating rod pushes the pushing end of the swinging piece, and the stopping end is separated from the channel.

Further, the release unit further comprises a gear set, the gear set is connected with the motor, the gear set comprises a shifting gear, the shifting portion is a protruding block formed on the shifting gear, and the protruding block coaxially and synchronously rotates along with the shifting gear.

Further, the swinging piece is movably connected to the shell of the channel, and the stop end is an L-shaped rod.

Furthermore, the pushing end is a flat plate, and the end head of the second rotating rod is in contact with the bottom surface of the flat plate.

Furthermore, the egg producing mechanism further comprises a triggering unit, the triggering unit comprises a triggering rod and a press switch, the triggering rod is movably connected with the swinging piece and extends into the channel above the swinging piece, the egg body enters the channel and then contacts with the triggering rod, and the triggering rod triggers the press switch.

Further, the trigger lever is an L-shaped lever, and the depth of insertion of the trigger lever into the channel is smaller than the depth of insertion of the stopper end of the swinging member into the channel.

The utility model also provides a toy duck, including head, health portion and foot, still include above-mentioned arbitrary egg producing mechanism, egg producing mechanism installs in health portion, the passageway is followed the back opening of body portion, and follow the buttock of body portion is worn out.

Furthermore, the egg producing mechanism further comprises a motor and a gear set, wherein the motor drives the swinging piece to swing through the gear set, and meanwhile, the head and the feet are driven to swing.

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

the utility model discloses an in the embodiment raw egg mechanism through the luffing motion of swing for the backstop end of swing inserts or breaks away from the passageway, realizes stopping and releasing to the egg body, the process of simulation raw egg, simple structure, image are vivid.

The utility model discloses toy duck in another embodiment can realize walking in-process simulation egg, and simple structure, vivid, and go freely.

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 rear perspective view of a toy duck according to an embodiment of the present invention;

FIG. 2 is a bottom perspective view of a toy duck according to an embodiment of the present invention;

FIG. 3 is a front perspective view of an egg laying mechanism according to a second embodiment of the present invention;

fig. 4 is a back perspective view of an egg laying mechanism according to a second embodiment of the present invention.

Reference symbol comparison table:

head 20 and body 30 of egg laying device 10

Foot 40 wheel 50

Channel 1 release unit 2 trigger unit 3

Oscillating member 21 motor 22 and rotating member 23

Toggle 24 gear set 25 trigger lever 31

Push switch 32 stop end 211 push end 212

First rotating rod 231 and second rotating rod 232 rotating shaft 233

Toggle gear 251 axle sleeve 251a

Detailed Description

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

It is easily understood that, according to the technical solution of the present invention, a plurality of structural modes and implementation modes that can be mutually replaced by those of ordinary skill in the art can be achieved without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are only exemplary illustrations of the technical solutions of the present invention, and should not be construed as limiting or restricting the technical solutions of the present invention in its entirety or as a limitation of the present invention.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

The first embodiment is as follows:

as shown in fig. 3-4, the egg producing device 10 includes an egg body (not shown), a channel 1 and a release unit 2, wherein the channel 1 is used for accommodating at least one egg body, the release unit 2 includes a swinging member 21, and the swinging member 21 is provided with a stop end 211;

when the oscillating piece 21 is oscillated until the stop end 211 is inserted into the channel 1, the stop end 211 retains the egg in the channel 1;

when the oscillating piece 21 is swung until the stop end 211 is clear of the channel 1, the eggs are released from the channel 1.

Specifically, the swinging member 21 is movably connected to the housing of the tunnel 1 and can rotate around the connecting center, and the stopping end 211 is an L-shaped rod. When the stop end 211 of the oscillating piece 21 oscillates in the upper direction of fig. 3, the stop end 211 is inserted into the channel 1 and the eggs, after entering the channel 1, remain at the stop end 211.

When the stop end 211 of the oscillating piece 21 oscillates in the lower direction of fig. 3, the stop end 211 is disengaged from the channel 1, and the stop end 211 gives up enough space for the eggs to roll out of the channel 1.

Further, as shown in fig. 3-4, the releasing unit 2 further includes a motor 22, a rotating member 23 and a toggle member 24, and the swinging member 21 further includes a pushing end 212;

the rotating member 23 includes a first rotating rod 231 and a second rotating rod 232 which are fixedly connected;

in fig. 4, the motor 22 drives the toggle part 24 to rotate, when the toggle part 24 rotates to act on the first rotating rod 231, the first rotating rod 231 is driven to rotate in the forward direction, and the stop end 211 of the swinging member 21 is inserted into the channel 1;

when the toggle portion 24 rotates to separate from the first rotating rod 231, the first rotating rod 231 rotates reversely under the action of gravity or a torsion spring, the second rotating rod 232 pushes the swinging member 21 upward to swing, and the stopping end 211 is separated from the channel 1.

Specifically, the pushing end 212 is a flat plate, and the end of the second rotating rod 232 contacts with the bottom surface of the flat plate.

The first rotating lever 231 and the second rotating lever 232 are integrally formed, the rotating center of the rotating member 23 is located between the first rotating lever 231 and the second rotating lever 232, the rotating shaft 233 is fixed in the housing of the body 30, and the torsion spring can be installed at the rotating shaft 233. When the first rotating rod 231 is shifted by the shifting part 24, the torsion spring is twisted to store potential energy. When the first rotating rod 231 is separated from the toggle part 24, the torsion spring drives the rotating part 23 to rotate reversely.

The motor 22 provides power, and toggle portion 24 rotates clockwise along the arrow direction in fig. 4, and when the effect was on first bull stick 231, toggle portion 24 drove first bull stick 231 upwards to drive the tip counter-clockwise turning of second bull stick 232 downwards, and promotion end 212 also rotates downwards, thereby drives stopper end 211 and upwards rotates, and the degree of depth that stopper end 211 inserted the passageway 1 this moment is darker, and stopper end 211 keeps the egg body in passageway 1.

When the toggle part 24 rotates to separate from the second rotating rod 232, the second rotating rod 232 falls under the action of self weight or torsion spring, the first rotating rod 231 rotates upwards to push the pushing end 212 to rotate upwards, so as to drive the stopping end 211 to rotate downwards, the stopping end 211 is separated from the channel 1, the stopping end 211 gives way to the passing space of the egg body, and the egg body passes through the channel 1.

Further, as shown in fig. 3-4, the releasing unit 2 further includes a gear set 25, the gear set 25 is connected to the motor 22, the gear set 25 includes a toggle gear 251, and the toggle portion 24 is a protruding block formed on the toggle gear 251, and the protruding block coaxially and synchronously rotates with the toggle gear 251.

Specifically, the dial 24 protrudes from the boss 251a of the dial gear 251.

The motor 22 is directly connected to the gear set 25, power is transmitted to the toggle gear 251, the toggle gear 251 rotates to drive the toggle portion 24 to rotate together, and the end of the first rotating rod 231 extends into the bushing 251a without contacting. When the toggle part 24 rotates clockwise to contact with the end of the first rotating rod 231, the first rotating rod 231 is driven to rotate together. When the toggle part 24 rotates to be separated from the first rotating lever 231 again, the first rotating lever 231 falls back.

Further, as shown in fig. 3, the egg producing mechanism 10 further includes a trigger unit 3, the trigger unit 3 includes a trigger rod 31 and a push switch 32, the trigger rod 31 is movably connected with the swinging member 21 and extends above the swinging member 21 in the channel 1, the egg enters the channel 1 and then contacts with the trigger rod 31, and the trigger rod 31 triggers the push switch 32.

Specifically, a certain distance is kept between the trigger rod 31 and the stop end 211 along the height direction, and when the egg body is pressed to the trigger rod 31, the trigger rod 31 deflects downwards to send out the press switch 32.

The push switch 32 triggers the acousto-optic effect system to emit an animal beep, or music, or light as a feedback for the detection of the egg mass.

Since the trigger lever 31 is movably coupled to the stopper end 211 of the swinging member 21, the trigger lever 31 and the push switch 32 can swing together with the swinging member 21 when the swinging member 21 swings.

Further, the trigger lever 31 is an L-shaped lever, and the depth of insertion of the trigger lever 31 into the channel 1 is smaller than the depth of insertion of the stopper end 211 of the swinging member 21 into the channel 1.

The triggering lever 31 does not function to block the egg body but is pressed by the egg body. In addition, the egg body can be pressed against the trigger lever 31 only when the stop end 211 of the oscillating piece 21 is oscillated upwards, i.e. when the stop end 211 is inserted into the passage 1. When the stop end 211 swings downwards, the passage 1 has enough space for the egg to pass through, and the egg does not press the trigger lever 31.

Alternatively, the triggering unit 3 is not limited to be used only for triggering the sound and light effect system, but may also be used for triggering other units or devices. For example: a unit for triggering the wings of the toy duck to unfold, or a unit for triggering the toy duck to blink.

Through implementing this embodiment, can simulate the egg production process of toy, simple structure, it is lively interesting.

In this embodiment, the egg body is an oval sphere similar to a duck egg or an egg, and may also be a regular sphere. The egg laying mechanism is not limited to be used for simulating the process of laying eggs for poultry, and can also be used for simulating the process of spitting balls.

Example two:

as shown in fig. 1-2, the toy duck comprises a head part 20, a body part 30 and feet 40, and further comprises an egg laying mechanism 10, wherein the egg laying mechanism 10 is installed in the body part 20, and a channel 1 of the egg laying mechanism 10 is opened from the back part of the body part 20 and penetrates out from the hip part of the body part 20.

The egg bodies of the egg laying mechanism 10 are put in from the top of the channel 1 and then discharged from the bottom of the channel 1, and the process of duck egg laying is simulated.

Further, the egg producing mechanism 10 further comprises a motor 22 and a gear set 25, wherein the motor 22 drives the swinging member 21 to swing through the gear set 25, and simultaneously drives the head portion 20 and the foot portion 40 to swing.

In the process of laying the toy duck, the feet 40 and the head 20 can swing left and right to simulate the actions of the duck.

Further, as shown in fig. 2, a wheel 50 is further installed below the body 30, and the motor 22 drives the wheel 50 to rotate through the gear set 25.

The toy duck can walk straight back and forth or turn around through the wheels 50. The motor 22 simultaneously drives the wheel 50 to rotate, the head part 20 and the foot part 40 to swing, and the egg laying mechanism 10 lays eggs.

The simulated duck walks and lays eggs, and the head part 20 and the foot part 40 swing, so that the interest of the toy is increased.

Alternatively, the toy may be configured as a toy chicken or other bird, simulating the process of laying eggs and walking of the toy chicken.

What has been described above is merely the principles and preferred embodiments of the present 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 (10)

1. An egg producing mechanism is characterized by comprising egg bodies, a channel and a release unit, wherein the channel is used for accommodating at least one egg body, the release unit comprises a swinging piece, and a stop end is arranged on the swinging piece;

when the swinging piece swings to the position that the stopping end is inserted into the channel, the stopping end keeps the egg body in the channel;

when the swinging piece swings to the stop end to be separated from the channel, the egg bodies are released from the channel.

2. The egg laying mechanism as recited in claim 1, wherein the release unit further comprises a rotating member comprising a first rotating rod and a second rotating rod fixedly connected;

the oscillating piece further comprises a pushing end on which the second turning lever of the turning piece acts.

3. The egg laying mechanism as claimed in claim 2 wherein the release unit further comprises a motor and a dial;

the motor drives the shifting part to rotate, when the shifting part rotates to act on the first rotating rod, the first rotating rod is driven to rotate in the forward direction, and the stop end of the swinging piece is inserted into the channel;

the toggle part rotates to be separated from the first rotating rod, the first rotating rod rotates reversely under the action of gravity or a torsion spring, the second rotating rod pushes the pushing end of the swinging piece, and the stopping end is separated from the channel.

4. The mechanism as claimed in claim 3, wherein the release unit further comprises a gear set connected to the motor, the gear set including a toggle gear, the toggle part being a protruding block formed on the toggle gear, the protruding block rotating coaxially and synchronously with the toggle gear.

5. The mechanism as set forth in claim 1 wherein said oscillating member is movably connected to said housing of said channel and said stop end is an L-shaped bar.

6. The mechanism as claimed in claim 2, wherein the pushing end is a plate, and the end of the second rotating rod contacts with the bottom surface of the plate.

7. The mechanism of any one of claims 1-6, further comprising a trigger unit, wherein the trigger unit comprises a trigger rod and a push switch, the trigger rod is movably connected with the swinging member and extends into the channel above the swinging member, the egg body enters the channel and then contacts with the trigger rod, and the trigger rod triggers the push switch.

8. The egg laying mechanism as recited in claim 7 wherein the trigger lever is an L-shaped lever that is inserted into the channel to a depth less than a depth of insertion of the stop end of the oscillating member into the channel.

9. A toy duck comprising a head, a body and feet, and further comprising an egg laying mechanism as claimed in any one of claims 1 to 8, said egg laying mechanism being mounted in said body, said channel opening from the back of said body and exiting through the buttocks of said body.

10. The toy duck of claim 9, wherein the egg laying mechanism further comprises a motor and a gear set, wherein the motor drives the oscillating member to oscillate through the gear set, and simultaneously drives the head and the feet to oscillate.

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