CN215607749U - Intelligent temperature-control feeding bottle - Google Patents

Abstract

The utility model provides an intelligence control by temperature change feeding bottle, includes feeding bottle body (1), its characterized in that: the feeding bottle is characterized in that an outer barrel (2) is screwed at the bottle opening of the feeding bottle body (1), a sealing plate (3) which is horizontally arranged is fixed in the outer barrel (2), a rotary barrel (6) is arranged above the sealing plate (3), the lower end of the rotary barrel (6) is inserted into the outer barrel (2) and is attached to the upper plane of the sealing plate (3), a central cavity (9) is arranged in the rotary barrel (6), a milk powder outlet (4) is formed in the sealing plate (3), a plurality of partition plates (8) are arranged between the central cavity (9) and the rotary barrel (6), a stirring motor (11) is fixed in the central cavity (9), and the output end of the stirring motor (11) is connected with a stirring rod (13).

Description

Intelligent temperature-control feeding bottle

Technical Field

The utility model relates to a feeding bottle, in particular to an intelligent temperature-control feeding bottle, and belongs to the technical field of articles for daily use.

Background

The feeding bottle is an indispensable article for mother and infant, the structure of the feeding bottle is simple at present, the process of making milk powder is that, firstly, a milk powder spoon is held by a hand to spoon in a milk powder tank, frequent spoon taking in the milk powder tank is not sanitary, the appearance of the milk powder spoon is easily stained with hot water vapor when being positioned above a feeding bottle opening, when the milk powder spoon stuck with water vapor scoops milk powder again, the appearance can be stained with a lot of milk powder, the milk powder spoon which is used up usually can be put into the milk powder tank, the milk powder on the appearance of the milk powder spoon can deteriorate when being used next time, the next use can fall into the feeding bottle, and meanwhile, the milk powder in the milk powder tank also easily deteriorates.

After the milk powder is poured into the feeding bottle, the feeding bottle is shaken to enable the milk powder to be fused with hot water in the mixing process of the milk powder and the hot water, if the shaking force is too large, the milk powder is easy to foam, the shaking force is too light, the milk powder and the hot water are not uniformly mixed, if the milk powder brewed in the feeding bottle is not drunk at one time or becomes cold midway, the milk powder needs to be heated in a heat preservation mode, the milk powder is required to be placed into a container filled with the hot water for heating, the operation is very inconvenient, and the heating temperature cannot be accurately controlled according to the requirement.

Disclosure of Invention

The utility model aims to solve the problems that the existing milk bottle is simple in structure, milk powder is polluted or damped and deteriorated when a milk powder spoon is used for adding milk powder, milk powder is inconvenient to quantitatively add, the milk powder is not uniformly mixed in the milk powder brewing process, and the defects of heating and heat preservation functions are overcome.

In order to achieve the purpose, the technical solution of the utility model is as follows: the utility model provides an intelligence control by temperature change feeding bottle, includes the feeding bottle body, its characterized in that: an outer cylinder is screwed at the bottle opening of the feeding bottle body, a sealing plate which is horizontally arranged is fixed in the outer cylinder, a rotary cylinder is arranged above the sealing plate, the lower end of the rotary cylinder is inserted into the outer cylinder and is attached to the upper plane of the sealing plate, an annular groove is formed in the outer peripheral surface of the rotary cylinder, an annular boss is fixed at the upper end of the outer cylinder and is inserted into the annular groove, a central cavity is arranged in the rotary cylinder, the central cavity and the rotary cylinder are coaxial, a through hole is formed in the center of the sealing plate, the lower end of the central cavity penetrates through the through hole, the outer peripheral surface of the central cavity is attached to the hole wall of the through hole, a milk powder outlet is formed in the sealing plate, a plugging cover is inserted at the lower end of the milk powder outlet, a plurality of partition plates are arranged between the central cavity and the rotary cylinder, the space between the central cavity and the rotary cylinder is divided into a plurality of milk powder containing cavities with equal volumes by the partition plates, a horizontal partition plate is fixed in the central cavity, and a stirring motor is fixed below the horizontal partition plate in the central cavity, the storage battery is installed in the central cavity and above the horizontal partition plate, the telescopic rod is coaxially fixed at the output end of the stirring motor and inserted into the feeding bottle body, and the lower end of the telescopic rod is rotatably connected with the stirring rod.

Furthermore, a horizontally arranged annular plate is fixed at the lower end of the central cavity, and the upper plane of the annular plate is attached to the lower plane of the sealing plate.

Furthermore, a heating base is arranged outside the feeding bottle body, a containing cavity is formed in the heating base, water is filled in the containing cavity, the feeding bottle body is placed in the containing cavity, and a temperature display is inlaid on the heating base.

Furthermore, a sealing cover is screwed at the upper end of the rotary cylinder.

The utility model has the beneficial effects that:

according to the milk bottle, the detachable outer cylinder is screwed on the bottle opening of the milk bottle body, the outer cylinder is rotatably connected with the rotary cylinder, the plurality of milk powder containing cavities with equal volumes are arranged in the rotary cylinder, the sealing plate is arranged between the outer cylinder and the rotary cylinder, the milk powder outlet is formed in the sealing plate, milk powder is taken each time, the rotary cylinder is only required to be rotated, the milk powder outlet corresponds to the milk powder containing cavity, and the milk powder in the milk powder containing cavities can be taken quantitatively.

2, the milk powder milk heating device is reasonable in structure, the stirring motor is arranged in the center of the rotary cylinder and connected with the stirring rod, the stirring rod is immersed into hot water to stir milk powder, the milk powder and the hot water are mixed more uniformly, bubbles are few, the temperature-controllable heating seat is arranged outside the milk bottle body, and the milk powder which is well heated, kept warm and brewed is simple and convenient.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a cross-sectional view of the present invention.

Fig. 3 is a partial cross-sectional view of a functional cassette part of the present invention.

Fig. 4 is an enlarged sectional view of a portion a of fig. 1.

In the figure: feeding bottle body 1, urceolus 2, closing plate 3, milk powder export 4, jam lid 5, rotary drum 6, milk powder hold chamber 7, division board 8, central cavity 9, horizontal partition plate 10, agitator motor 11, telescopic link 12, stirring rod 13, battery 14, closing cap 15, ring channel 16, annular boss 17, annular slab 18, heating base 19, cavity 20, temperature monitor 21.

Detailed Description

The utility model is described in further detail below with reference to the following description of the drawings and the detailed description.

Referring to fig. 1 to 4, the intelligent temperature-control feeding bottle of the present invention comprises a feeding bottle body 1, and is characterized in that: an outer cylinder 2 is screwed on the bottle mouth of the feeding bottle body 1, a sealing plate 3 which is horizontally arranged is fixed in the outer cylinder 2, a rotary cylinder 6 is arranged above the sealing plate 3, the lower end of the rotary cylinder 6 is inserted into the outer cylinder 2 and is jointed with the upper plane of the sealing plate 3, an annular groove 16 is arranged on the outer peripheral surface of the rotary cylinder 6, an annular boss 17 is fixed at the upper end of the outer cylinder 2, the annular boss 17 is inserted into the annular groove 16, a central cavity 9 is arranged in the rotary cylinder 6, the central cavity 9 and the rotary cylinder 6 are coaxial, a through hole is arranged at the center of the sealing plate 3, the lower end of the central cavity 9 passes through the through hole, the outer peripheral surface of the central cavity 9 is jointed with the hole wall of the through hole, a milk powder outlet 4 is arranged on the sealing plate 3, a plugging cover 5 is inserted at the lower end of the milk powder outlet 4, a plurality of partition plates 8 are arranged between the central cavity 9 and the rotary cylinder 6, and the partition plates 8 divide the space between the central cavity 9 and the rotary cylinder 6 into a plurality of milk powder containing cavities 7 with equal volume, a horizontal partition plate 10 is fixed in the central cavity 9, a stirring motor 11 is fixed in the central cavity 9 and located below the horizontal partition plate 10, a storage battery 14 is installed in the central cavity 9 and located above the horizontal partition plate 10, an expansion rod 12 is coaxially fixed at the output end of the stirring motor 11, the expansion rod 12 is inserted into the feeding bottle body 1, and a stirring rod 13 is rotatably connected to the lower end of the expansion rod 12.

The lower end of the central cavity 9 is fixed with a horizontally arranged annular plate 18, and the upper plane of the annular plate 18 is attached to the lower plane of the sealing plate 3.

A heating base 19 is arranged outside the feeding bottle body 1, a containing cavity 20 is formed in the heating base 19, water is filled in the containing cavity 20, the feeding bottle body 1 is placed in the containing cavity 20, and a temperature display 21 is inlaid on the heating base 19.

The upper end of the rotary cylinder 6 is screwed with a sealing cover 15.

As shown in the attached drawings, the bottle mouth of the feeding bottle body 1 is provided with external threads, the lower end of the outer cylinder 2 is provided with internal threads, and the outer cylinder 2 is screwed on the bottle mouth of the feeding bottle body 1 through the matching of the internal threads and the external threads. The outer cylinder 2 is internally fixed with a sealing plate 3 which is horizontally arranged, a rotating cylinder 6 is arranged above the sealing plate 3, and the lower end of the rotating cylinder 6 is inserted into the outer cylinder 2 and is attached to the upper plane of the sealing plate 3. The peripheral surface of the rotating cylinder 6 is provided with an annular groove 16, the upper end of the outer cylinder 2 is fixed with an annular boss 17, the annular boss 17 is inserted into the annular groove 16, so that the rotating cylinder 6 can rotate on the outer cylinder 2, and meanwhile, the rotating cylinder 6 is rotationally clamped on the outer cylinder 2 through the matching of the annular boss 17 and the annular groove 16.

A central cavity 9 is arranged in the rotary cylinder 6, the central cavity 9 is cylindrical, and the central cavity 9 and the rotary cylinder 6 are coaxial. The center of the sealing plate 3 is provided with a through hole, the lower end of the central cavity 9 penetrates through the through hole and then is fixed with a horizontally arranged annular plate 18, the upper plane of the annular plate 18 is attached to the lower plane of the sealing plate 3, and the outer circumferential surface of the central cavity 9 is attached to the hole wall of the central through hole of the sealing plate 3, so that milk powder cannot leak downwards from the central through hole of the sealing plate 3, and the sealing effect is achieved. The sealing plate 3 is provided with a milk powder outlet 4, and the lower end of the milk powder outlet 4 is inserted with a plugging cover 5.

Be fixed with polylith division board 8 between central cavity 9 and the rotatory section of thick bamboo 6, the lower terminal surface of division board 8 laminates mutually with the last plane of closing plate 3, and polylith division board 8 holds chamber 7 for a plurality of isometric milk powder with the space separation between central cavity 9 and the rotatory section of thick bamboo 6, and central cavity 9 passes through polylith division board 8 to be fixed inside rotatory section of thick bamboo 6 simultaneously.

Hold chamber 7 with every milk powder and fill up milk powder, use one of them milk powder for the first time and hold the milk powder in the chamber 7, pull out the jam lid 5 of 4 lower extremes of milk powder export, the milk powder that is located 4 tops of milk powder export correspondence holds the milk powder in the chamber 7 and will follow milk powder export 4 and pour out, when taking milk powder again, only need rotate rotatory section of thick bamboo 6, hold chamber 7 with next milk powder and twist soon milk powder export 4 tops can, very convenient milk powder of taking like this, avoid frequent pouring with the milk powder spoon from the milk powder and get with the milk powder, the volume that the chamber 7 was held to the milk powder simultaneously is fixed, can the quantitative supply milk powder volume, need not the volume, and it is very convenient to get.

A horizontal partition plate 10 is fixed in the central cavity 9, a stirring motor 11 is fixed in the central cavity 9 and located below the horizontal partition plate 10, a storage battery 14 is installed in the central cavity 9 and located above the horizontal partition plate 10, and the storage battery 14 provides power for the stirring motor 11. Stirring motor 11's output coaxial fixation has telescopic link 12, and telescopic link 12 inserts feeding bottle body 1, and the rotation of telescopic link 12 lower extreme is connected with stirring rod 13, and stirring motor 11 drives stirring rod 13 stirring milk powder, and it stirs to invade the aquatic with stirring rod 13, can be more even with milk powder and water mixture, and the bubble is few moreover. The upper end of the rotary cylinder 6 is screwed with a sealing cover 15, and after the milk powder accommodating cavity 7 is filled with the milk powder, the sealing cover 15 is screwed up for sealing.

A heating base 19 is arranged outside the feeding bottle body 1, a containing cavity 20 is formed in the heating base 19, water is filled in the containing cavity 20, the feeding bottle body 1 is placed in the containing cavity 20, and a temperature display 21 is inlaid on the heating base 19. If the milk powder brewed in the milk bottle body 1 is not drunk at one time or needs to be heated when the milk powder becomes cold midway, the milk bottle can be placed in the heating base 19 for heat preservation or heating, and the milk bottle is very convenient.

The utility model has the following specific use process and structural principle: in the first step, the cap 15 is first unscrewed from the rotary cylinder 6, each of the powdered milk-containing chambers 7 is filled with powdered milk, and then the cap 15 is screwed back onto the rotary cylinder 6. And secondly, pouring hot water into the milk bottle body 1 in proportion according to the amount of the milk powder contained in the milk powder containing cavity 7, pulling off the blocking cover 5 at the milk powder outlet 4 on the sealing plate 3, and pouring the milk powder in the corresponding milk powder containing cavity 7 above the milk powder outlet 4 into the milk bottle body 1. If need accompany when filling milk powder, for example the milk powder holds the water that the milk powder volume that chamber 7 held corresponds is 200ml, need dash and steep 400ml now, and then one check milk powder holds the milk powder that chamber 7 pours into feeding bottle body 1 after, only need rotate rotary drum 6, lets the milk powder that next check milk powder held in the chamber 7 pour into feeding bottle body 1, and it is convenient to take milk powder, and the ration supply need not the volume to get simultaneously, and is very convenient. And thirdly, screwing the outer cylinder 2 on the bottle mouth of the feeding bottle body 1, starting the stirring motor 11 to stir the milk powder, and completing the milk brewing process after full stirring. After milk powder is brewed, the outer cylinder 2 can be detached, and a milk bottle cap with a nipple is screwed on the milk bottle body 1.

The foregoing is a detailed description of the present invention, and the detailed description is not to be construed as limiting, and it will be apparent to those skilled in the art that various substitutions, modifications and changes may be made without departing from the spirit of the utility model.

Claims (4)

1. The utility model provides an intelligence control by temperature change feeding bottle, includes feeding bottle body (1), its characterized in that: an outer cylinder (2) is screwed at the opening of the feeding bottle body (1), a sealing plate (3) which is horizontally arranged is fixed in the outer cylinder (2), a rotary cylinder (6) is arranged above the sealing plate (3), the lower end of the rotary cylinder (6) is inserted into the outer cylinder (2) and is attached to the upper plane of the sealing plate (3), an annular groove (16) is formed in the outer peripheral surface of the rotary cylinder (6), an annular boss (17) is fixed at the upper end of the outer cylinder (2), the annular boss (17) is inserted into the annular groove (16), a central cavity (9) is arranged in the rotary cylinder (6), the central cavity (9) and the rotary cylinder (6) are coaxial, a through hole is formed in the center of the sealing plate (3), the lower end of the central cavity (9) penetrates through the through hole, the outer peripheral surface of the central cavity (9) is attached to the hole wall of the through hole, a milk powder outlet (4) is formed in the sealing plate (3), and a plugging cover (5) is inserted into the lower end of the milk powder outlet (4), be provided with polylith division board (8) between central cavity (9) and rotatory section of thick bamboo (6), division board (8) hold chamber (7) for a plurality of equal volumetric milk powder with the space separation between central cavity (9) and rotatory section of thick bamboo (6), central cavity (9) internal fixation has horizontal baffle (10), be fixed with agitator motor (11) below and being located horizontal baffle (10) in central cavity (9), battery (14) are installed to central cavity (9) and being located horizontal baffle (10) top, the coaxial telescopic link (12) that is fixed with of output of agitator motor (11), during feeding bottle body (1) was inserted in telescopic link (12), telescopic link (12) lower extreme rotates and is connected with stirring rod (13).

2. The intelligent temperature-controlled feeding bottle of claim 1, wherein: the lower end of the central cavity (9) is fixed with a horizontally arranged annular plate (18), and the upper plane of the annular plate (18) is attached to the lower plane of the sealing plate (3).

3. The intelligent temperature-controlled feeding bottle of claim 1, wherein: the feeding bottle is characterized in that a heating base (19) is arranged outside the feeding bottle body (1), a containing cavity (20) is formed in the heating base (19), water is filled in the containing cavity (20), the feeding bottle body (1) is placed in the containing cavity (20), and a temperature display (21) is inlaid on the heating base (19).

4. The intelligent temperature-controlled feeding bottle of claim 1, wherein: the upper end of the rotary cylinder (6) is screwed with a sealing cover (15).

Images