CN212789769U

CN212789769U - Multifunctional toy bottle

Info

Publication number: CN212789769U
Application number: CN202021597816.4U
Authority: CN
Inventors: 王鸿源; 罗莉莎
Original assignee: Fisk Beijing Sports Technology Co ltd
Current assignee: Fisk (Beijing) Health Technology Co.,Ltd.
Priority date: 2020-08-05
Filing date: 2020-08-05
Publication date: 2021-03-26
Anticipated expiration: 2030-08-05

Abstract

The utility model discloses a multifunctional toy bottle, which belongs to the technical field of toys and comprises a bottle mouth, a bottle neck, a bottle body and a bottle bottom, and is characterized in that the outer wall of the bottle neck is provided with a touch stimulation structure, the outer wall of the bottle body is provided with a shape matching structure, and the interior of the bottle body is provided with an auditory stimulation structure; the bottleneck sets up in the upper end of bottleneck, and the bottleneck sets up in the upper end of body, bottleneck and bottleneck body coupling, bottleneck and body coupling, body and bottle end body coupling. The toy bottle has the advantages that the touch stimulation structure can stimulate the hands of the infant, the development of touch nerves is better promoted, the shape matching structure is used for training the graph matching capability and the finger fine motion capability of the infant, and the auditory stimulation structure can promote the development of auditory nerves of the infant, so that the toy bottle has multiple functions.

Description

Multifunctional toy bottle

Technical Field

The utility model belongs to the technical field of the toy, concretely relates to is a multifunctional toy bottle.

Background

The gripping is the action that the infant often used in life, and this lets the infant obtain bigger activity space, and the most important is to have the promotion effect to the sense of touch development.

When the limb movement of the infant is not perfect, the gripping action is generally adopted. Infants have difficulty expressing their thoughts in fluent language, and they can only communicate their needs with basic grasping motions such as pulling the corners of a garment, using fingers, etc. They also often want to expand their activities space by grasping them with their hands, climbing around the ground, etc. The skin is a terminal receptor of touch sense, the holding action of the baby can stimulate the nerve endings of the skin, the skin is one of the touch sense stimulations, the holding ability of the baby is exercised frequently, the touch sense nerve system of the baby can be stimulated, the touch sense system is developed perfectly, therefore, the holding action has important influence on the growth of the baby, and parents need to adopt an effective method to train children in daily life.

In daily life, a method for training the gripping ability of the hands of the infant generally comprises holding the small toy by hands or holding the fingers of parents, and the training method and the training device are single and boring, lack of entertainment and cannot effectively train the gripping ability of the infant.

The utility model provides a multi-functional toy bottle to above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems in the background art, the utility model provides a multifunctional toy bottle.

A multifunctional toy bottle comprises a bottle mouth, a bottle neck, a bottle body and a bottle bottom, and is characterized in that a touch stimulation structure is arranged on the outer wall of the bottle neck, a shape matching structure is arranged on the outer wall of the bottle body, and an auditory stimulation structure is arranged inside the bottle body; the bottleneck sets up in the upper end of bottleneck, and the bottleneck sets up in the upper end of body, bottleneck and bottleneck body coupling, bottleneck and body coupling, body and bottle end body coupling. The toy bottle has the advantages that the touch stimulation structure can stimulate the hands of the infant, the development of touch nerves is better promoted, the shape matching structure is used for training the graph matching capability and the finger fine motion capability of the infant, and the auditory stimulation structure can promote the development of auditory nerves of the infant, so that the toy bottle has multiple functions.

Further, the diameter of the bottle neck is smaller than that of the bottle body, and the height of the bottle neck is larger than that of the bottle body. The bottle neck of the device is thin and long, and is convenient for infants to grasp.

Further, the touch stimulation structure is arranged as a particle massage layer, the particle massage layer covers the outer wall of the bottleneck for one circle, and the particle massage layer is integrally connected with the outer wall of the bottleneck. The arrangement ensures that the periphery of the bottleneck is coated with a particle massage layer, so that the hand of an infant can be stimulated by touch when the infant grips the bottleneck.

Furthermore, the particle massage layer is made of food-grade silica gel materials. The particle massage layer is non-toxic and bite-resistant and can protect the gums or teeth of the infant.

And furthermore, a bottle cap for sealing the bottle mouth is arranged at the upper end of the bottle neck, and the bottle cap is connected with the bottle neck in a combined manner.

Furthermore, an internal thread is arranged in the bottle cap, an external thread is arranged at the upper end of the bottle neck, and the bottle cap is connected with the bottle neck through a thread combination. The arrangement can be used for doing twisting motion exercise on the fingers of the infant.

Further, the shape matching structure comprises a shape groove arranged on the outer wall of the bottle body and a shape plate matched with the shape groove.

Further, the shape groove includes a square shape groove, a circular shape groove, and a triangular shape groove, and the shape plate includes a square shape plate, a circular shape plate, and a triangular shape plate.

Furthermore, the depth of the shape groove is smaller than the thickness of the outer wall of the bottle body, and the shape groove is not communicated with the inside of the bottle body. This kind of setting avoids the shape board to get into the body inside from the shape groove and be difficult to take out.

Furthermore, a handheld structure convenient to grasp is arranged on the shape plate, and the handheld structure is integrally connected with the shape plate. This arrangement facilitates the child to grasp the shape plate.

Further, the handheld structure is arranged as a handheld handle, and the main body of the handheld handle is arranged as a cylinder. The hand-held handle is smooth and has no edges and corners, so that the hands of the infant are prevented from being scratched.

Further, the shape plate and the handheld handle are both made of food-grade silica gel materials. The shape plate and the hand-held handle have safety and biting resistance, and the finger holding and holding capacity of the infant can be exercised through the matching game of the shape plate and the shape groove.

Furthermore, a through hole penetrating through the bottle bottom and a hole plug matched with the through hole are arranged on the bottle bottom, the diameter of the through hole is smaller than that of the bottle bottom, the diameter of the hole plug is smaller than that of the through hole, and the hole plug is connected with the through hole in a combined mode.

Furthermore, an insertion hole capable of accommodating fingers of an infant is formed in the center of the hole plug. When the plug is used, a child can place and take down the plug by inserting fingers into the jack.

Or an extension rod is arranged on the hole plug, the first end of the extension rod starts from the upper end of the hole plug and is integrally connected with the hole plug, and the second end of the extension rod extends out of the bottle body.

Furthermore, a through hole capable of accommodating the extension rod is formed in the wall of the bottle body, and the extension rod penetrates through the through hole to the outside of the bottle body. The arrangement ensures that the extension rod has a movable space, when in use, the hole plug can be lifted from the through hole by pressing the second end of the extension rod, and the finger pressing capability of an infant can be exercised.

Further, the width of the second end of the extension bar is larger than the width of the first end of the extension bar. The arrangement can reduce the pressure on the hands of the infant when the extension bar is pressed.

Furthermore, the second end of the extension bar is coated with a silica gel protective layer, the silica gel protective layer is integrally connected with the extension bar, and the silica gel protective layer is made of food-grade silica gel materials. The second end of the extension rod has certain softness and elasticity, and better tactile experience is generated for the hands of the infant.

Furthermore, the hole plug is made of food-grade silica gel materials.

Furthermore, the auditory stimulation structure comprises a semi-spherical shell arranged on the inner wall of the bottle body and a sound production structure arranged inside the semi-spherical shell, and the semi-spherical shell is integrally connected with the inner wall of the bottle body. The arrangement can prevent the semi-spherical shell from leaking from the through hole at the bottom of the bottle to cause loss or being eaten by children by mistake.

Further, the sounding structure is provided as sounding particles. When the bottle is used, the bottle neck is held by a hand, the bottle bottom faces upwards, and the sounding particles can collide with each other to generate sound by shaking the bottle body.

Furthermore, the sounding particles are made of hard plastics. The sound-producing particles can produce sound with moderate loudness on one hand, and are small in weight and suitable for children to play on the other hand.

Furthermore, the bottle cap, the bottle neck, the bottle body and the bottle bottom are all made of non-toxic plastics. The toy bottle with the arrangement has small overall weight, and can be successfully picked up by an infant.

Compared with the prior art toy, the technical scheme of the utility model possesses following advantage:

1. the gripping ability of the hands of the infant can be exercised, the infant can grip the bottle neck and the shape plate, and the fine movement ability of the hands is exercised.

2. The granular massage layer outside the bottleneck can generate tactile stimulation to the hand of the infant, and promote the development of the tactile nerve of the hand.

3. The shape plate and the shape groove can exercise the shape matching ability, the logical thinking ability and the finger pinching action training of the infant, and promote the development of the infant in various abilities.

4. The bottle body is shaken to enable the sounding particles to collide with each other to generate sound, so that the auditory nerve of the infant is stimulated, the development of the auditory nerve is promoted, and the interestingness of the infant in the game process is increased.

The technical scheme integrates multiple functions into a toy bottle body, promotes the development of various abilities of infants, has safety and interestingness, enables the infants to obtain better game experience, and has a good technical effect.

Drawings

FIG. 1 is a schematic view of the overall structure of a multifunctional toy bottle of the present invention;

FIG. 2 is a schematic overall front view of the multifunctional toy bottle of the present invention;

FIG. 3 is a schematic view of the overall structure of the multifunctional toy bottle without the shape plate;

FIG. 4 is a schematic view of the overall cross-sectional structure of a multifunctional toy bottle of the present invention;

FIG. 5 is a schematic view of the bottom surface of the multifunctional toy bottle with a central hole;

FIG. 6 is a schematic view of the overall inverted structure of the multifunctional toy bottle of the present invention;

FIG. 7 is a schematic view of an inverted structure of the multifunctional toy bottle with a central hole in the plug;

FIG. 8 is a schematic view of the overall structure of the multifunctional toy bottle without the hole plug, the shape plate and the bottle cap;

in the figure, 1, bottleneck; 11. a bottle mouth; 12. a bottle cap; 13. a particle massage layer; 2. a bottle body; 21. a shape groove; 22. a shape plate; 221. a hand-held handle; 3. a bottle bottom; 31. a through hole; 32. a hole plug; 321. an extension bar; 322. a jack; 4. passing through a semi-spherical shell; 41. sound producing particles.

Detailed Description

The technical solutions in the embodiments of the present invention will be described in detail below with reference to specific embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and those skilled in the art can easily understand other advantages and effects of the present invention from the disclosure in the specification. The utility model discloses can also implement or use through other different concrete implementation manners, under the condition of conflict-free, the characteristics in following embodiment and the embodiment can make up each other, based on the embodiment in the utility model, all other embodiments that the ordinary skilled in the art obtained under the prerequisite of not making creative work all belong to the scope of protection of the utility model.

The internal thread of the bottle cap and the external thread of the bottle neck are mature prior art, the drawings in the specification are not drawn specifically, and the technical personnel in the field can implement the technical scheme without obstacles, so that the technical scheme has no problem of insufficient disclosure.

Embodiment 1A multifunctional toy bottle

A multifunctional toy bottle comprises a bottle mouth 11, a bottle neck 1, a bottle body 2 and a bottle bottom 3, and is characterized in that a touch stimulation structure is arranged on the outer wall of the bottle neck 1, a shape matching structure is arranged on the outer wall of the bottle body 2, and an auditory stimulation structure is arranged inside the bottle body 2; bottleneck 11 sets up in the upper end of bottleneck 1, and bottleneck 1 sets up in the upper end of body 2, bottleneck 11 and bottleneck 1 body coupling, bottleneck 1 and body 2 body coupling, body 2 and bottle end 3 body coupling. The toy bottle has the advantages that the touch stimulation structure can stimulate the hands of the infant, the development of touch nerves is better promoted, the shape matching structure is used for training the graph matching capability and the finger fine motion capability of the infant, and the auditory stimulation structure can promote the development of auditory nerves of the infant, so that the toy bottle has multiple functions.

The touch stimulation structure is arranged as a particle massage layer 13, the particle massage layer 13 covers the outer wall of the bottleneck 1 for a circle, and the particle massage layer 13 is integrally connected with the outer wall of the bottleneck 1. The arrangement enables the periphery of the bottleneck 1 to be coated with a granular massage layer 13, so that when an infant grasps the bottleneck 1, the infant can generate tactile stimulation to the hand.

The particle massage layer 13 is made of food-grade silica gel materials. The particle massage layer 13 is non-toxic and bite-resistant and can protect the gums or teeth of the infant.

The shape matching structure includes a shape groove 21 provided on the outer wall of the body 2 and a shape plate 22 matching the shape groove 21.

The shape grooves 21 include square shape grooves 21, circular shape grooves 21, and triangular shape grooves 21, and the shape plates 22 include square shape plates 22, circular shape plates 22, and triangular shape plates 22.

The handheld structure is a handheld handle 221, and the main body of the handheld handle 221 is a cylinder. The hand-held handle 221 is smooth and has no edges and corners, so that the hands of the infant can be prevented from being scratched.

The shape plate 22 and the handheld handle 221 are both made of food-grade silica gel materials. The shape plate 22 and the hand-held handle 221 arranged in this way have safety and bite resistance, and the holding and grasping capability of the fingers of the infant can be exercised through the matching game of the shape plate 22 and the shape groove 21.

The auditory stimulation structure comprises a semi-spherical shell 4 arranged on the inner wall of the bottle body 2 and a sounding structure arranged inside the semi-spherical shell 4, wherein the semi-spherical shell 4 is integrally connected with the inner wall of the bottle body 2. This arrangement prevents the semi-spherical shell 4 from leaking out of the through hole 31 of the bottle bottom 3 and causing the loss or the improper eating by the infant.

The sound generating structure is provided as sound generating particles 41. When the bottle is used, the bottle neck 1 is held by hand, the bottle bottom 3 faces upwards, and the sounding particles 41 can collide with each other to generate sound by shaking the bottle body 2.

Embodiment 2A multifunctional toy bottle

The diameter of the bottle neck 1 is smaller than that of the bottle body 2, and the height of the bottle neck 1 is larger than that of the bottle body 2. The bottle neck 1 is thin and long, and is convenient for infants to hold.

The upper end of the bottle neck 1 is provided with a bottle cap 12 for closing the bottle mouth 11, and the bottle cap 12 is connected with the bottle neck 1 in a combined manner.

The bottle cap 12 is internally provided with internal threads, the upper end of the bottle neck 1 is provided with external threads, and the bottle cap 12 is connected with the bottle neck 1 through thread combination. The arrangement can be used for doing twisting motion exercise on the fingers of the infant.

The sound particles 41 are made of hard plastics. The sounding particles 41 with the structure can generate sound with moderate loudness on one hand, and are small in weight and suitable for children to play on the other hand.

The bottle cap 12, the bottle neck 1, the bottle body 2 and the bottle bottom 3 are all made of nontoxic plastics. The toy bottle with the arrangement has small overall weight, and can be successfully picked up by an infant.

Embodiment 3A multifunctional toy bottle

The depth of the shape groove 21 is smaller than the thickness of the outer wall of the bottle body 2, and the shape groove 21 is not communicated with the inside of the bottle body 2. This arrangement prevents the shape plate 22 from entering the inside of the body 2 from the shape groove 21 and being not easily taken out.

A handheld structure which is convenient to grasp is arranged on the shape plate 22, and the handheld structure is integrally connected with the shape plate 22. This arrangement facilitates the child's grip on the contoured plate 22.

Embodiment 4A multifunctional toy bottle

The bottle bottom 3 is provided with a through hole 31 penetrating through the bottle bottom 3 and a plug 32 matched with the through hole 31, the diameter of the through hole 31 is smaller than that of the bottle bottom 3, the diameter of the plug 32 is smaller than that of the through hole 31, and the plug 32 is connected with the through hole 31 in a combined manner.

An insertion hole 322 capable of receiving a finger of a baby is provided at the center of the hole plug 32. In use, the plug 32 can be placed and removed by a child inserting his or her fingers into the insertion hole 322.

Example 5A multifunctional toy bottle

An extension rod 321 is disposed on the plug 32, a first end of the extension rod 321 starts from the upper end of the plug 32 and is integrally connected with the plug 32, and a second end of the extension rod 321 extends out of the bottle body 2.

A through hole capable of accommodating the extension bar 321 is formed in the wall of the bottle body 2, and the extension bar 321 passes through the through hole to the outside of the bottle body 2. The arrangement enables the extension bar 321 to have a moving space, and when the device is used, the hole plug 32 can be lifted from the through hole 31 by pressing down the second end of the extension bar 321, so that the finger pressing capability of an infant can be exercised.

Embodiment 6A multifunctional toy bottle

The second end of the protruding rod 321 has a width greater than that of the first end of the protruding rod 321. This arrangement can reduce the pressure on the hand of the child when the extension bar 321 is pressed.

The second end of the extension bar 321 is covered with a silica gel protective layer, the silica gel protective layer is integrally connected with the extension bar 321, and the silica gel protective layer is made of food-grade silica gel materials. The second end of the extension rod 321 with the arrangement has certain softness and elasticity, and better tactile experience is generated for the hands of the infant.

The hole plug 32 is made of food-grade silica gel material.

The above description of the embodiments is only intended to illustrate the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several modifications can be made to the present invention, and these modifications will fall within the protection scope of the claims of the present invention.

Claims

1. A multifunctional toy bottle comprises a bottle mouth, a bottle neck, a bottle body and a bottle bottom, and is characterized in that a touch stimulation structure is arranged on the outer wall of the bottle neck, a shape matching structure is arranged on the outer wall of the bottle body, and an auditory stimulation structure is arranged inside the bottle body; the bottleneck sets up in the upper end of bottleneck, and the bottleneck sets up in the upper end of body, bottleneck and bottleneck body coupling, bottleneck and body coupling, body and bottle end body coupling.

2. The multi-functional toy bottle of claim 1, wherein the tactile stimulation structure is provided as a granular massage layer that surrounds the outer wall of the bottle neck in a circle, the granular massage layer being integrally connected to the outer wall of the bottle neck.

3. The multi-purpose toy bottle of claim 2, wherein the shape-matching structure comprises a shape groove provided on an outer wall of the body and a shape plate matching the shape groove.

4. The multi-purpose toy bottle of claim 3, wherein the shape slots comprise square shape slots, circular shape slots, and triangular shape slots, and the shape plates comprise square shape plates, circular shape plates, and triangular shape plates.

5. The multifunctional toy bottle of claim 1, wherein a through hole penetrating through the bottom of the bottle and a plug matching with the through hole are provided on the bottom of the bottle, the diameter of the through hole is smaller than that of the bottom of the bottle, the diameter of the plug is smaller than that of the through hole, and the plug is connected with the through hole in a combined manner.

6. A multi-functional toy bottle as claimed in claim 5, wherein a receptacle is provided centrally of the plug to receive a finger of a child.

7. The multi-functional toy bottle of claim 6, wherein an extension rod is provided on said stopple, a first end of the extension rod originating at an upper end of the stopple and integrally connected to the stopple, and a second end of the extension rod extending outside of said body.

8. The multi-functional toy bottle of claim 1, wherein the auditory stimulation structure comprises a semi-spherical shell disposed on the inner wall of the bottle body and a sound generating structure disposed inside the semi-spherical shell, the semi-spherical shell being integrally connected with the inner wall of the bottle body.

9. The multi-functional toy bottle of claim 8, wherein the sound generating structure is provided as sound emitting particles.