CN109381011B - Feeding bottle container and horizontal mother and infant machine - Google Patents

Abstract

The invention relates to the field of household appliances, and discloses a feeding bottle container and a horizontal mother-and-baby machine, wherein the feeding bottle container (8) in a hollow barrel shape comprises a hollow barrel cavity (81) serving as a feeding bottle containing cavity, the outer wall of the feeding bottle container is provided with a feeding bottle placing inlet used for placing a feeding bottle (4) into the hollow barrel cavity, the inner wall of the hollow barrel cavity is provided with a plurality of pre-tightening flexible rings (82) which are arranged at intervals along the axial direction and are raised from the inner wall, and the outer wall of the feeding bottle placed into the hollow barrel cavity can elastically squeeze the pre-tightening flexible rings. In the feeding bottle container, the inner wall of the hollow cylindrical cavity is provided with the plurality of pre-tightening flexible rings which are arranged at intervals along the axial direction and are raised from the inner wall, so that the outer wall of the feeding bottle placed in the hollow cylindrical cavity can elastically squeeze the pre-tightening flexible rings, sufficient radial clamping force is provided for the feeding bottle, the feeding bottle is driven to rotate together, the milk powder in the feeding bottle can be fully dissolved, and the user experience is improved.

Description

Feeding bottle container and horizontal mother and infant machine

Technical Field

The invention belongs to the field of household appliances, and particularly relates to a feeding bottle container and a horizontal mother and infant machine.

Background

With the continuous progress of science and technology, household appliances capable of replacing manual work are more and more popular, wherein the mother-infant machine brings great convenience to the life of a user due to the milk shaking function, and is more and more favored by consumers.

At present, the mother and infant machine is mostly vertical, sets up vertical motor in the organism promptly, and vertical feeding bottle fixture is connected to the top of motor, and is rotatory through motor drive feeding bottle fixture to it is rotatory to drive fixed feeding bottle among the feeding bottle fixture, and then makes the milk powder of putting into in the feeding bottle dissolve. Therefore, the gravity center of the whole machine is higher, and the mother-baby machine is easy to generate deflection caused by unstable gravity center of the whole machine during rotation operation.

In order to avoid the deflection of the whole machine, the mother-baby machine is arranged in a horizontal type (namely the feeding bottle clamping mechanism is in a horizontal type), the feeding bottle is horizontally accommodated in the clamping cavity of the feeding bottle clamping mechanism, and at the moment, the feeding bottle clamping mechanism cannot provide enough radial clamping force for the feeding bottle, so that the feeding bottle cannot rotate along with the feeding bottle clamping mechanism, and therefore, a feeding bottle fixing piece suitable for the horizontal mother-baby machine is needed, and the feeding bottle arranged in the feeding bottle fixing piece and the feeding bottle fixing piece can form an integral rotating structure.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the milk bottle container and the horizontal mother-and-baby machine, wherein the milk bottle container can drive the milk bottle placed in the milk bottle to rotate together, so that the milk powder in the milk bottle is dissolved more completely, and the use experience of a user is improved.

In order to achieve the purpose, the invention provides a feeding bottle container which is in a hollow barrel shape, the feeding bottle container comprises a hollow barrel cavity serving as a feeding bottle containing cavity, a feeding bottle placing opening used for placing a feeding bottle into the hollow barrel cavity is formed in the outer wall of the feeding bottle container, a plurality of pre-tightening flexible rings which are arranged at intervals along the axial direction and are raised from the inner wall are formed in the inner wall of the hollow barrel cavity, and the outer wall of the feeding bottle placed into the hollow barrel cavity can elastically press the pre-tightening flexible rings.

Preferably, the milk bottle container is an integrally formed flexible piece.

Preferably, the outer wall of the milk bottle container is provided with an annular forming groove to form the pre-tightening flexible ring which is bulged radially inwards.

Preferably, the cross section of the pre-tightening flexible ring comprises an arc section and a radial connecting section, the arc section surrounds the forming groove, two ends of the arc section are connected with the inner wall of the feeding bottle container through the radial connecting section respectively, and the arc section is elastically extruded by the outer wall of the feeding bottle.

Preferably, the radial width of the radial connecting section is not less than 8mm and not more than 20 mm.

Preferably, the minimum radial radius between the pre-tightening flexible ring and the central axis of the milk bottle container is not less than 15mm and not more than 30mm, and the radial radius of the inner wall of the hollow cylinder cavity is not less than 25mm and not more than 55 mm.

Preferably, the milk bottle container comprises N pre-tightening flexible rings arranged at intervals along the axial direction, the minimum adjacent distance between any two adjacent pre-tightening flexible rings is L1, the maximum of N-1 minimum adjacent distances L1 is not less than 60mm and not more than 130mm, and N is a positive integer not less than 2.

Preferably, the cross section of the feeding bottle container provided with the feeding bottle inlet is in a fan-ring shape, the fan-ring-shaped opening of the fan-ring shape is the cross section of the feeding bottle inlet, and the fan-ring central angle b of the fan-ring-shaped opening satisfies the following conditions: b is more than or equal to 90 degrees and less than or equal to 180 degrees.

Preferably, a plurality of convex buttons or concave holes are distributed on the outer wall of the milk bottle container.

The invention also provides a horizontal mother and infant machine which comprises a machine body, a motor, a rotary drum and a feeding bottle container, wherein an adjacent motor mounting groove and a rotary drum mounting groove are formed in the machine body, the motor is horizontally mounted in the motor mounting groove, the rotary drum is horizontally mounted in the rotary drum mounting groove and is driven by the motor to rotate, and the feeding bottle container is used as a flexible lining part and is embedded in the rotary drum.

According to the technical scheme, the plurality of bulged pre-tightening flexible rings are formed on the inner wall of the hollow cylindrical cavity and are distributed at intervals along the axial direction, so that the outer wall of the milk bottle placed in the milk bottle container can elastically extrude the pre-tightening flexible rings, the milk bottle container can provide enough radial clamping force for the milk bottle placed in the milk bottle container, the milk bottle is driven to rotate together, the milk powder in the milk bottle can be fully dissolved, the waste of the milk powder is avoided, and the use experience of a user is improved.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is an overall sectional view of a horizontal type mother-infant machine according to a first preferred embodiment of the present invention;

FIG. 2 is a top view of the horizontal mother-baby machine of FIG. 1;

FIG. 3 is an exploded view of the horizontal mother-infant machine of FIG. 1;

FIG. 4 is a structural view of the bottle container of FIG. 1;

FIG. 5 is an axial cross-sectional view of the bottle receiver of FIG. 4;

FIG. 6 is a top view of the bottle receiver of FIG. 4;

FIG. 7 is a cross-sectional view of section A-A of FIG. 4;

fig. 8 is a structural view of the drum of fig. 1.

Description of reference numerals:

1 machine body and 2 motor

3 cylinder 4 feeding bottle

8 milk bottle container

11 motor mounting groove 12 roller mounting groove

81 hollow cylinder chamber 82 pre-tightening flexible ring

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the present invention, unless specified to the contrary, use of the terms of orientation such as "upper, lower, top, bottom" or the like are generally described with respect to the orientation shown in the drawings or the positional relationship of the components with respect to each other in the vertical, or gravitational direction.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The invention provides a feeding bottle container, referring to fig. 1 to 4, a feeding bottle container 8 in a hollow cylinder shape comprises a hollow cylinder cavity 81 as a feeding bottle containing cavity, the outer wall of the feeding bottle container 8 is provided with a feeding bottle inlet for placing a feeding bottle 4 into the hollow cylinder cavity 81, the inner wall of the hollow cylinder cavity 81 is provided with a plurality of pre-tightening flexible rings 82 which are arranged at intervals along the axial direction and are raised from the inner wall, and the outer wall of the feeding bottle 4 placed into the hollow cylinder cavity 81 can elastically press the pre-tightening flexible rings 82.

In this technical scheme, the interior hollow cylinder chamber 81 that is used for holding feeding bottle 4 that contains of feeding bottle container 8, the flexible ring 82 of pretension of a plurality of bumps is formed to the inner wall in this hollow cylinder chamber 81, and a plurality of pretension flexible ring 82 along axial interval distribution, and like this, can make the feeding bottle 4 outer wall of putting into hollow cylinder chamber 81 can elasticity extrusion pretension flexible ring 82, cause feeding bottle container 8 to give feeding bottle 4 of putting into it with sufficient radial clamping force, thereby make feeding bottle 4 can be along with feeding bottle container 8 is together rotatory, be favorable to fully dissolving of the milk powder in feeding bottle 4, avoid the waste of milk powder, improve user's use and experience. In addition, the feeding bottle container 8 can provide enough radial clamping force for the feeding bottle 4 through the pre-tightening flexible ring 82, and the feeding bottle 4 can stably rotate along with the feeding bottle container 8, so that the condition that milk is frothed can be effectively avoided, and the probability that the baby spits milk or abdominal distension when sucking the milk containing air bubbles is reduced.

Specifically, the pre-tensioned flexible ring 82 may have a variety of suitable configurations, for example, the pre-tensioned flexible ring 82 may be a continuous fan-shaped bulge, a discontinuous fan-shaped protrusion (i.e., a break in the middle), or the like, as long as the pre-tensioned flexible ring 82 can provide sufficient radial clamping force to the feeding bottle 4 inserted therein. In addition, the pre-tightening flexible ring 82 may be made of a flexible material such as silicone rubber or rubber.

In addition, the pre-tightening flexible ring 82 and the body of the feeding bottle container 8 can be of an integrally formed structure or a detachable structure. Preferably, the bottle receptacle 8 is an integrally formed flexible member. As can be understood, the pre-tightening flexible rings 82 and the feeding bottle container 8 body are of an integrally formed structure, and during production, a plurality of pre-tightening flexible rings 82 are not required to be manually installed in the feeding bottle container 8 body by an assembler, so that the production efficiency is improved, the labor cost is reduced, and the clamping effect of the feeding bottle container 8 on the feeding bottle 4 due to the fact that the assembly personnel is not installed in place can be effectively avoided, and further the user experience is influenced.

Specifically, the milk bottle container 8 may have a plurality of suitable shapes, for example, the body of the milk bottle container 8 is cylindrical, the pre-tightening flexible ring 82 protrudes radially inward from the inner wall of the cylindrical body, or the cavity of the pre-tightening flexible ring 82 is a hollow structure, and the hollow cavity is also an annular groove on the outer wall of the body of the milk bottle container 8, which is not described herein again.

Preferably, referring to fig. 3 and 4, the outer wall of the milk bottle container 8 is provided with an annular forming groove to form a pre-tightening flexible ring 82 protruding radially inward, so that the cavity of the pre-tightening flexible ring 82 is designed to be a hollow structure (rather than a solid structure), which is beneficial to improving the elastic deformation of the pre-tightening flexible ring 82, so that the milk bottle 4 suitable for the milk bottle container 8 has a larger size selection space, and the probability that the milk bottle 4 purchased by a user is not suitable for the milk bottle container 8 can be effectively reduced.

The shape of the pre-tensioned flexible ring 82 protruding from the hollow cylinder cavity 81 may be a circular arc shape, or a polygonal shape (i.e., the cross section of the pre-tensioned flexible ring 82 is a polygon, such as a triangle, a quadrangle, or a hexagon), or may be other shapes, which are not illustrated here.

Specifically, referring to fig. 3 and 5, the cross section of the pre-tightening flexible ring 82 includes an arc section and a radial connecting section surrounding the forming groove, two ends of the arc section are connected with the inner wall of the feeding bottle container 8 through the radial connecting section, and the arc section is elastically squeezed by the outer wall of the feeding bottle 4.

Further, in order to facilitate the user to put or take out the baby bottle 4 from the hollow cylindrical cavity 81 of the baby bottle container 8, referring to fig. 4 to 6, the radial width of the radial connecting section is not less than 8mm and not more than 20 mm. Understandably, the radial width of the radial connecting section is too small to facilitate the user to take and place the feeding bottle 4 from the feeding bottle container 8, but the radial width of the radial connecting section is not too large, and the too large radial width is prone to the situation that the pre-tightening flexible ring 82 cannot provide enough radial supporting force for the feeding bottle 4 placed therein, so that the feeding bottle 4 cannot rotate along with the feeding bottle container 8.

In addition, with continued reference to fig. 4 to 6, the baby bottle container 8 includes N pre-tensioned flexible rings 82 arranged at intervals in the axial direction, the minimum adjacent distance between any two adjacent pre-tensioned flexible rings 82 is L1, and the maximum of N-1 minimum adjacent distances L1 is not less than 60mm and not more than 130mm, where N is a positive integer not less than 2. Specifically, the largest of the N-1 minimum adjacent spaces L1 is too small, which makes it inconvenient for the user to take and place the baby bottle 4 from the baby bottle container 8. In addition, in order to make the feeding bottle 4 placed in the feeding bottle container 8 rotate together with the feeding bottle container 8 smoothly, at least two pre-tightening flexible rings 82 arranged at intervals among the plurality of pre-tightening flexible rings 82 in the feeding bottle container 8 can provide radial clamping force for the feeding bottle 4, and the axial length of the feeding bottle 4 in the current market is generally between 100mm and 150mm, so that the distance between two adjacent pre-tightening flexible rings 82 should be not less than 60mm and not more than 140 mm. Further, the distance between two adjacent pre-tensioned flexible rings 82 should be no less than 60mm and no more than 130 mm.

Specifically, there are many types of feeding bottles 4 on the market today, but the radial radius thereof is generally not less than 20mm and not more than 40mm, so that feeding bottles 4 with various radial radius sizes can be fixed in the feeding bottle container 8 through the pre-tightening flexible ring 82, referring to fig. 3, 4 and 7, the minimum radial radius between the pre-tightening flexible ring 82 and the central axis of the feeding bottle container 8 is not less than 15mm and not more than 30mm, and the radial radius of the inner wall of the hollow cylindrical cavity 81 is not less than 25mm and not more than 55 mm.

In addition, referring to fig. 4 and 7, the cross section of the baby bottle container 8 provided with the baby bottle inlet is in a sector ring shape, the sector ring-shaped opening of the sector ring is the cross section of the baby bottle inlet, and the sector ring central angle b of the sector ring-shaped opening satisfies: b is more than or equal to 90 degrees and less than or equal to 180 degrees. Specifically, the central angle b of the fan ring should not be too large or too small, which would make it easier for the baby bottle 4 to be separated from the hollow cylindrical cavity 81 of the baby bottle container 8, and too small which would make it inconvenient for the user to take out or put in the baby bottle 4 from the hollow cylindrical cavity 81 of the baby bottle container 8.

Optionally, the feeding bottle container 8 can be directly connected with the motor 2, and then the feeding bottle container 8 is driven to rotate by the motor 2, and certainly, the feeding bottle container 8 can also be arranged in the roller 3 to form an integrated rotating structure in a form of being fixed by a buckle and the like, and then the roller 3 is driven to rotate by the motor 2, so that the feeding bottle container 8 is driven to rotate. Specifically, referring to fig. 3 to 7, the feeding bottle container 8 is fixed on the inner wall of the drum 3 through a buckle connection structure, a plurality of convex buttons or concave holes are distributed on the outer wall surface of the feeding bottle container 8, and a plurality of concave holes or convex buttons are correspondingly arranged on the inner wall of the drum 3.

According to another aspect of the present invention, there is provided a lying type mother and infant machine, referring to fig. 1 to 3, comprising a machine body 1, a motor 2, a drum 3, and a bottle container 8, wherein adjacent motor mounting grooves 11 and drum mounting grooves 12 are formed in the machine body 1, the motor 2 is horizontally mounted in the motor mounting groove 11, the drum 3 is horizontally mounted in the drum mounting groove 12 and is driven to rotate by the motor 2, and the bottle container 8 is inserted into the drum 3 as a flexible liner.

Specifically, the motor 2 and the roller 3 for accommodating the milk bottle 4 in the horizontal mother-baby machine are both horizontal and are installed in the machine body 1, the milk bottle 4 is accommodated in the roller 3 through the milk bottle accommodating device 8, so that the milk bottle 4 can be stably fixed in the roller 3, and then is driven by the motor 2 to rotate clockwise or anticlockwise along with the roller 3, thereby being beneficial to fully dissolving milk powder and avoiding the waste of milk powder. In addition, the feeding bottle 4 rotates clockwise or counterclockwise smoothly, and the condition of foaming the milk can be effectively avoided, so that the probability that the baby sucks the foam together with the milk can be effectively reduced. It can be understood that the milk containing foam is easy to spit or swell when the baby inhales the milk, especially for the newborn baby whose gastrointestinal function is not well developed, therefore, the milk bottle container 8 is embedded in the roller 3 as a flexible lining part, which is beneficial to improving the use experience of the user for the lying type mother-baby machine.

In addition, referring to fig. 3 to 8, a plurality of sets of concave holes or convex buckles (i.e. buckle connection mechanisms) which are mutually embedded are distributed on the outer peripheral wall of the milk bottle container 8 and the inner peripheral wall of the drum 3 at intervals, wherein, on the outer peripheral wall of the milk bottle container 8, a buckle connection structure should be arranged in the adjacent area of the milk bottle inlet, and the distance m1 between the buckle connection structure and the edge of the milk bottle inlet satisfies: m1 is more than or equal to 5mm and less than or equal to 20 mm.

Specifically, when the feeding bottle 4 is accommodated in the hollow cylindrical cavity of the feeding bottle container 8, the feeding bottle 4 presses the pre-tightened flexible ring 82 located below the feeding bottle 4 to be elastically deformed, so that a downward pulling force is given to the pre-tightened flexible ring 82 located above the feeding bottle 4, and thus, when the feeding bottle container 8 has a feeding bottle accommodating opening, a situation that the outer circumferential wall of the feeding bottle container 8 is separated from the inner circumferential wall of the drum 3 occurs in the adjacent area of the feeding bottle accommodating opening more easily, and therefore, in order to avoid the above situation, a snap connection structure is provided in the adjacent area of the feeding bottle accommodating opening. Further, the distance m1 between the snap connection structure and the edge of the feeding bottle inlet is not more than 20 mm. In addition, the distance m1 between the snap connection structure and the edge of the feeding bottle inlet is not too small, and the situation that the male snap is separated from the concave hole which is embedded with the snap connection structure is easy to occur when the distance m1 is too small, so the distance m1 between the snap connection structure and the edge of the feeding bottle inlet is not less than 5 mm.

Further, referring to fig. 3 and 4, on the peripheral wall of the bottle container 8, a snap connection structure should also be provided in the adjacent area of the forming groove, and the distance m2 between the snap connection structure and the edge of the forming groove satisfies: m2 is more than or equal to 5mm and less than or equal to 20 mm. It will be understood that, when the baby bottle container 8 is rotated, the baby bottle 4 presses the pre-tightened flexible ring 82 located therebelow to be elastically deformed, thereby giving a downward pulling force to the pre-tightened flexible ring 82 located above the baby bottle 4, so that, when the baby bottle container 8 has an annular forming groove, it is easy for the outer peripheral wall of the baby bottle container 8 to come off from the inner peripheral wall of the drum 3 in the adjacent region of the forming groove, and therefore, a snap connection structure should be provided in the adjacent region of the forming groove. Further, the distance m2 between the snap connection and the edge of the profiled groove should not be greater than 20 mm. In addition, the distance m2 between the snap connection structure and the edge of the forming groove is not too small, and the situation that the male snap is separated from the concave hole which is embedded with the snap connection structure is easy to occur when the distance m2 is too small, so the distance m2 between the snap connection structure and the edge of the feeding bottle inlet is not less than 5 mm.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and the invention is not described in any way for the possible combinations in order to avoid unnecessary repetition.

In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims (10)

1. The feeding bottle container is characterized in that the feeding bottle container (8) is a flexible lining piece which is used for being embedded in a roller (3) of a horizontal mother-baby machine, the feeding bottle container (8) is in a hollow cylinder shape and comprises a hollow cylinder cavity (81) serving as a feeding bottle containing cavity, a feeding bottle placing opening used for placing a feeding bottle (4) into the hollow cylinder cavity (81) is formed in the outer wall of the feeding bottle container (8), the cross section of the feeding bottle container (8) provided with the feeding bottle placing opening is in a fan-ring shape, a plurality of pre-tightening flexible rings (82) which are arranged at intervals along the axial direction and are raised from the inner wall are formed in the inner wall of the hollow cylinder cavity (81), and the outer wall of the feeding bottle (4) placed into the hollow cylinder cavity (81) can elastically squeeze the pre-tightening flexible rings (82).

2. A bottle container as claimed in claim 1, wherein the bottle container (8) is an integrally formed flexible member.

3. A bottle container according to claim 2, wherein the outer wall of the bottle container (8) is provided with an annular shaped groove to form the pre-tensioned flexible ring (82) bulging radially inwards.

4. The feeding bottle container as claimed in claim 3, wherein the cross section of the pre-tightening flexible ring (82) comprises a circular arc section and a radial connecting section surrounding the forming groove, two ends of the circular arc section are connected with the inner wall of the feeding bottle container (8) through the radial connecting section respectively, and the circular arc section is elastically squeezed by the outer wall of the feeding bottle (4).

5. A bottle receiver as claimed in claim 4, wherein the radial width of the radial connecting section is not less than 8mm and not more than 20 mm.

6. A bottle container as claimed in claim 1, characterized in that the smallest radial radius between the pre-tensioned flexible ring (82) and the central axis of the bottle container (8) is not less than 15mm and not more than 30mm, and the radial radius of the inner wall of the hollow cylindrical cavity (81) is not less than 25mm and not more than 55 mm.

7. The bottle receiver according to claim 1, wherein the bottle receiver (8) comprises N pre-tensioned flexible rings (82) arranged at intervals in the axial direction, the minimum adjacent distance between any two adjacent pre-tensioned flexible rings (82) is L1, and the maximum of N-1 minimum adjacent distances L1 is not less than 60mm and not more than 130mm, wherein N is a positive integer not less than 2.

8. The baby bottle container as claimed in claim 1, wherein the sector-ring-shaped opening is a cross section of the baby bottle inlet, and a sector-ring central angle b of the sector-ring-shaped opening satisfies: b is more than or equal to 90 degrees and less than or equal to 180 degrees.

9. The feeding bottle container as set forth in claim 1, wherein a plurality of convex buttons or concave holes are distributed on the outer wall of the feeding bottle container (8).

10. A horizontal mother and infant machine is characterized by comprising a machine body (1), a motor (2), a roller (3) and a feeding bottle container (8) according to any one of claims 1 to 9, wherein an adjacent motor mounting groove (11) and an adjacent roller mounting groove (12) are formed in the machine body (1), the motor (2) is horizontally mounted in the motor mounting groove (11), the roller (3) is horizontally mounted in the roller mounting groove (12) and is driven to rotate by the motor (2), and the feeding bottle container (8) is embedded in the roller (3) as a flexible lining part.

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