CN115191827A

CN115191827A - Multifunctional milk adjusting device

Info

Publication number: CN115191827A
Application number: CN202210792856.1A
Authority: CN
Inventors: 胡滨
Original assignee: Zhejiang Xier Technology Co Ltd
Current assignee: Zhejiang Xier Technology Co Ltd
Priority date: 2022-07-07
Filing date: 2022-07-07
Publication date: 2022-10-18

Abstract

The invention discloses a multifunctional milk mixing device which comprises a base, a disinfection component and a milk mixing component, wherein the disinfection component and the milk mixing component are respectively arranged on the base; the milk mixing component comprises a kettle body and an anti-scald kettle cover; the disinfection component comprises a shell, a top cover and an inner container, wherein an ultraviolet lamp is arranged in the inner container; the base is internally provided with a control panel, an electric heating element I and a drying assembly, wherein the electric heating element I is electrically connected with the control panel, the electric heating element I is arranged below the kettle body, and an air inlet duct of the drying assembly is communicated with the bottom of the inner container; the ultraviolet lamp is electrically connected with the control panel. This transfer milk ware can realize boiling water, disinfect and disinfection function, and application scope is wide, and the user uses more conveniently, and the result of use is better.

Description

Multifunctional milk adjusting device

Technical Field

The invention belongs to the technical field of milk conditioners, and particularly relates to a multifunctional milk conditioner.

Background

The milk powder is powder prepared by removing water from fresh milk of mammals, is suitable for storage and convenient to carry, and is one of necessities for assisting or replacing breast feeding. The milk powder needs to be brewed into liquid for young children to use. The milk mixing device is also called as a milk mixing device, and mainly used for Wen Zhaoliang boiled water to keep the temperature suitable for the baby to drink, and warm water with constant temperature is used for making milk powder to feed the baby.

The existing milk mixing device mostly adopts the milk mixing cup with stainless steel at the bottom, has high heat transfer efficiency and good heat preservation performance, is beneficial to a heating element to heat cold water in the milk mixing cup, and has the functions of constant temperature, heating and boiling. After a user uses warm water for milk cup adjustment to brew and use the milk bottle, one mode is natural drying after the milk bottle is cleaned, but the natural drying is influenced by the environment, so that bacteria and the like of the milk bottle are not beneficial to the health of children; another way is to additionally purchase a disinfection device to disinfect or dry the feeding bottle. The milk adjusting device and the sterilizing equipment are purchased separately, so that the cost is high, and the two machines occupy the space of the placed table board.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides the multifunctional milk adjust device which can realize the functions of boiling water, sterilizing and disinfecting, has a wide application range, is more convenient and faster for users to use and has a better use effect.

In order to achieve the purpose, the invention adopts the following technical scheme: a multifunctional milk mixing device comprises a base, a disinfection component and a milk mixing component, wherein the disinfection component and the milk mixing component are respectively arranged on the base; the milk mixing component comprises a kettle body and an anti-scald kettle cover; the disinfection component comprises a shell, a top cover and an inner container, wherein an ultraviolet lamp is arranged in the inner container; the base is internally provided with a control panel, a first electric heating element and a drying assembly, wherein the first electric heating element and the drying assembly are electrically connected with the control panel; the ultraviolet lamp is electrically connected with the control panel.

Furthermore, the scald-proof kettle cover comprises an upper cover, a lower cover and an annular sealing ring, a cavity is formed between the lower side of the upper cover and the lower cover, and the lower end part of the side wall of the lower cover extends outwards to form a first sealing surface; the upper end of the sealing ring is in contact with the upper cover, the lower end of the sealing ring extends inwards to form a second sealing surface, and the first sealing surface and the second sealing surface are in interference fit.

Furthermore, a circle of convex ribs are arranged on the lower surface of the upper cover, the lower end parts of the convex ribs protrude inwards to form buckling parts, the lower direction of the side wall of the lower cover is sunken inwards to form a groove, and the buckling parts are clamped in the groove; the sealing ring is sleeved on the outer wall of the convex rib.

Furthermore, a microswitch electrically connected with the control panel is arranged on the upper surface of the inner container, and a boss is arranged at the lower end of the top cover; when the top cover is closed with the shell, the boss is in top contact with an action elastic sheet of the microswitch, a moving contact at the other end of the action elastic sheet is in contact with a moving contact, and the control PCB board starts the ultraviolet lamp to sterilize the feeding bottle; when the top cover is separated from the shell, the boss is not in contact with the action elastic sheet of the microswitch, the moving contact at the other end of the action elastic sheet is in contact with the break contact, and the control PCB board turns off the ultraviolet lamp.

Further, a lamplight installation opening is formed in the bottom surface of the inner container, an elastic sealing gasket is arranged on the lamplight installation opening, a light irradiation portion on an ultraviolet lamp arranged on the lower surface of the inner container penetrates through an inner hole of the elastic sealing gasket in an interference fit mode, and ultraviolet rays of the light irradiation portion are injected into the inner container.

Furthermore, the elastic sealing gasket is of a double-layer structure with an inner ring higher than an outer ring, the inner ring penetrates through the first through hole, and the upper surface of the outer ring is located between the upper surface of the ultraviolet lamp and the lower surface of the bottom surface of the liner and is in interference fit with the lower surface of the bottom surface of the liner.

Furthermore, an adjustable feeding bottle upper baffle is arranged above the inner container, and the upper baffle is provided with at least one limiting hole for a feeding bottle II to pass through; the inner container is used for storing the first feeding bottle, and the height of the second feeding bottle is larger than that of the first feeding bottle.

Furthermore, the upper baffle plate of the feeding bottle comprises a first panel and a second panel, and the first panel and the second panel can be folded; the limiting hole is formed in the first panel.

Furthermore, an air inlet is formed in the bottom of the inner container, the drying assembly comprises a second electric heating element and a fan, and the second electric heating element and the fan are respectively electrically connected with the control panel; the upper end of the air inlet channel is connected with the air inlet, the side surface of the air inlet channel is sequentially arranged with the electric heating element and the fan, and the lower end of the air inlet channel is communicated with the water outlet of the base.

Further, still include light guide lamp strip, around locating on the lateral wall of base, lateral wall or whole base are translucent or transparent entirely.

By adopting the technical scheme of the invention, the invention has the beneficial effects that: the milk mixing, the disinfection and the drying are integrated, so that the whole milk mixing device has more comprehensive functions and is more convenient and reliable to use; the anti-scald kettle cover formed by combining the double-layer structure with the sealing ring can prevent scalding and prevent water vapor from entering an inner cavity of the double-layer structure when the kettle body is taken when the water temperature is high, so that the problems of bacterial breeding or kettle cover water leakage are reduced; the microswitch is used for detecting whether the top cover is separated from the shell or not, so that the ultraviolet lamp is prevented from being used when the top cover is opened, and the use safety of a user is ensured; the elastic sealing gasket is used for protecting the sterilized part of the ultraviolet lamp irradiating the inner container, so that the damage of the dropping water of the feeding bottle or the accumulated water of the inner container to the components connected with the ultraviolet lamp is avoided; feeding bottles of various specifications can be placed by utilizing the adjustable feeding bottle upper baffle plate, so that the flexibility is higher, and the application place and the range are wider; the air inlet is formed in the bottom of the inner container, so that water accumulated at the bottom of the inner container is reduced, and the drying efficiency is improved; utilize and provide the night-light illuminating effect of omnidirectional flexible light around the leaded light lamp strip of establishing the base under dim environment.

Drawings

FIG. 1 is a perspective view of a multi-functional milker;

FIG. 2 is a disassembled view of a multi-functional milk conditioner;

FIG. 3 is a cross-sectional view of the milk formula assembly;

FIG. 4 is a partial schematic view of the milk preparing assembly;

FIG. 5 is a schematic view of the top cover and the housing in an open state;

FIG. 6 is a schematic view showing the state where the top cover is assembled with the housing;

FIG. 7 is a disassembled state diagram of the outer shell and the inner container;

FIG. 8 is a top view of the outer shell assembled with the inner container;

FIG. 9 is a partial sectional view of an ultraviolet lamp mounting portion;

FIG. 10 is a top view of the ultraviolet lamp and the resilient gasket;

FIG. 11 is a bottom view of the resilient gasket;

fig. 12 is a top cover open state view;

FIG. 13 is a perspective view of a baffle plate on the baby bottle;

FIG. 14 is another disassembled state diagram of the multifunctional milk adjust device;

FIG. 15 is a state diagram of the virus killing unit in a disassembled state;

FIG. 16 is another state diagram of the multifunctional milk adjust device;

FIG. 17 is another disassembled view of the multifunctional milk adjust device;

FIG. 18 is a partial cross-sectional view of the base;

fig. 19 is a top view of the base.

In the figure: 1 base, 1a vent hole, 1B support part, 1c side wall, 1d annular groove, 1e annular rib I, 1f annular rib II, 1g bulge, 2 shell, 3 top cover, 31 boss, 32 fixing ring, 33 guide strip II, 34 side wall, 4 inner container, 41 inner side, 42 outer side, 43 baffle, 44 guide strip I, 45 convex rib, 46 light installation port, 47 bulge, 48 air inlet, 49 first cavity, 410 second cavity, 5 ultraviolet lamp, 51 light irradiation part, 511 rectangular bulge, 512 spherical bulge, 513 light, 6 kettle body, 7 anti-scalding kettle cover, 71 upper cover, 711 convex rib, 712 buckling part, 713 clamping groove, 714 handheld part, 72 lower cover, 721 sealing surface I, 722 groove, 723, 73 sealing ring, 731 sealing surface II, 732 buckling bulge, 733 notch, 734 outer edge, 74 cavity, 8 microswitch, 81 action spring plate, 9 feeding bottle, 91 feeding bottle I, 92 feeding bottle II, 10 elastic sealing gasket, 101 inner ring, 102 outer ring, 103 center hole, 1031 upper hole, 1032 middle hole, 1033 lower hole, A first sealing part, B second sealing part, 11 feeding bottle lower baffle, 111 through hole I, 112 through hole II, 113 groove, 114 supporting leg, 115 through hole III, 12 light guide lamp bar, 13 feeding bottle upper baffle, 131 limiting hole, 132 through hole IV, 133 flanging, 134 first panel, 135 second panel, 136 rotating shaft, 137 buckle, 138 clamping groove, 139 notch, 14 air path, 15 air inlet channel, 151 inner wall, 16 electric heating element II, 17 fan, 18 water outlet, 19 turnover cover and 20 light guide lamp bar.

Detailed Description

The technical scheme of the invention is further described and illustrated by specific embodiments below, so that the invention is clearer and more obvious. Other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

As shown in fig. 1 to 19, the present embodiment relates to a multifunctional milk adjust device, which includes a base 1, a disinfection component and a milk adjust component, wherein the disinfection component and the milk adjust component are respectively arranged on the base 1; the milk mixing component comprises a kettle body 6 and an anti-scald kettle cover 7; the disinfection component comprises a shell 2, a top cover 3 and a liner 4, wherein an ultraviolet lamp 5 is arranged in the liner 4; the base 1 is internally provided with a control panel, an electric heating element I and a drying assembly, wherein the electric heating element I is electrically connected with the control panel, the electric heating element I is arranged below the kettle body 6 to heat water in the kettle body, and an air inlet duct 8 of the drying assembly is communicated with the bottom of the inner container 1; the ultraviolet lamp 5 is electrically connected to the control panel.

In a specific embodiment, the scald-proof kettle lid 3 comprises an upper lid 71, a lower lid 72 and an annular sealing ring 73, wherein a cavity 74 is formed between the lower side of the upper lid 71 and the lower lid 72 in a fit manner, and the lower end part of the side wall of the lower lid 72 extends outwards to form a sealing surface 721; the upper end of the sealing ring 73 is in contact with the upper cover 71, and the lower end extends inwards to form a second sealing surface 731, which is in interference fit with the second sealing surface. That is, the lower surface of the inward extending portion of the lower end of the sealing ring 73 is disposed on the upper surface of the outward extending portion of the sidewall of the lower cover 72, the upper surface and the lower surface respectively correspond to the first sealing surface 721 and the second sealing surface 731, the sealing effect of the contact surface is realized through the interference fit of the two surfaces, and external water vapor is prevented from entering the inner cavity 74 through the assembling portion of the upper cover 71 and the lower cover 72. The upper cover 1 is generally made of plastic, and the lower cover 2 is made of metal.

A circle of convex ribs 711 is arranged on the lower surface of the upper cover 71, the height of the convex ribs 11 is smaller than that of the sealing ring 3, the lower end parts of the convex ribs 711 protrude inwards to form buckling parts 712, the lower direction of the side wall of the lower cover 72 is recessed inwards to form a groove 722, and the buckling parts 712 are buckled in the groove 722; the sealing ring 73 is sleeved on the outer wall of the convex rib 711. The back surface of the second sealing surface 731, i.e., the upper surface of the portion where the lower end extends inward, contacts the bottom surface of the rib 11.

A clamping groove 713 is formed between the outer wall of the rib 711 and the lower surface of the upper cover 71, an outward-turned clamping protrusion 732 is arranged on the outer side of the sealing ring 73, and the clamping protrusion 732 is embedded in the clamping groove 713. The bottom surface of the clamping groove 713 is in a hook shape formed by bending the inner side high and the outer side low, and the structure is favorable for fixedly buckling the upper end of the sealing ring 73.

The lower cover 72 on the outer side of the first sealing surface is turned upwards to form a barb 723, a notch 733 is formed on the outer side of the sealing ring 73 on the second sealing surface, and the barb extends into the notch 733. The transverse thickness L1 of the seal ring 73 at the location where the notch 733 is provided is greater than the sidewall thickness L2 of the seal ring.

The lower end of the outer wall of the sealing ring 73 is provided with an upturned outer edge 734 which is contacted with the inner wall of the kettle body 6. The upper surface of the upper cover 71 is gradually concave from the outer edge to the middle part, and a convex handheld part 714 is arranged on the middle part.

Through sealing washer 73 and upper cover, the seal structure of lower cover, realize equipment convenience and sealed waterproof promotion, prevent that residual water from producing the bacterium in upper cover 71, the direct cavity 4 of lower cover 72 inside, upper cover 71 and lower cover 72 realize fixedly through buckle portion 712, there are two 731 sealed faces of sealing washer 73 to exist between upper cover 71 and lower cover 72, a cavity 74 for sealing between upper cover 71 and lower cover 72, under the prerequisite that does not influence the fixed upper cover 71 of lower cover 72 equipment, sealed in the cavity 74 has been realized, thereby when having guaranteed the water injection, can not lead to in the cavity 4 bacterial growing or ponding to cause the lid to leak scheduling problem because of vapor gets into.

In order to avoid that the ultraviolet lamp light leaks to the external environment and is not beneficial to human health due to the fact that the top cover 3 is opened under the working condition of the ultraviolet lamp, in the embodiment, the upper surface of the inner container 4 is provided with a microswitch 8 which is electrically connected with the control panel, and as shown in fig. 5-7, the lower end of the top cover 3 is provided with a boss 75; when the top cover 3 is closed with the shell 1, the boss 75 is in top contact with the action elastic sheet 81 of the microswitch 8, the moving contact at the other end of the action elastic sheet 81 is in contact with the moving contact, and the control PCB board starts the ultraviolet lamp 5 to sterilize the feeding bottle 9; when the top cover 3 is separated from the shell, the boss 75 is not in contact with the action spring piece 81 of the micro switch 8, the moving contact at the other end of the action spring piece 81 is in contact with the break contact, and the control PCB board closes the ultraviolet lamp 5.

In one embodiment, the housing 2 and the top cover 1 are square, as shown in the figure, since the micro switch is only arranged on one side of the inner container 4, the lower end face of any side wall of the top cover 3 is provided with the boss 31, a user does not need to perform directional operation, the top cover 3 is covered in any direction, so that one boss 31 can trigger the micro switch 8, and the convenience is higher.

The lateral wall lower surface of top cap 3 is equipped with downwardly extending's solid fixed ring 32, gu fixed ring 32 thickness is less than top cap 1's lateral wall thickness, boss 31 locates solid fixed ring 32's lower surface. A securing ring 32 is disposed along the inside of the side wall.

The shell 2 and the inner container 4 are both of a frustum-shaped shell with a wide upper part and a narrow lower part, a plurality of convex ribs 45 are uniformly distributed on the outer surface of the inner container 4, and the convex ribs are uniformly wound along the uppermost end of the outer surface of the inner container 4. The rib 45 contacts the inner surface of the housing 2 when assembled with the housing 2.

The upper surface of the inner container 4 adopts a double-layer step structure, the inner side 41 is lower than the outer side 42, and the action elastic sheet 81 of the micro switch is arranged on the upper surface of the inner side 41. The inner surface of the inner container 4 is provided with a stop piece 43 corresponding to the micro switch 3, when the top cover 3 is covered on the shell 2, the boss 31 on the inner side of the side wall of the top cover 3 can be accurately inserted between the stop piece 43 and the outer side 42 to trigger the action elastic piece 81 on the upper surface of the inner side 41.

Four directions of outside 42 internal surface all are equipped with gib block one 44, the surface of boss 31 is equipped with gib block two 33, when top cap 3 is covered downwards towards shell 2 direction, gib block two 33 laminating gib block one 44 is down until boss 31 top touches down micro-gap switch's action shell fragment 81, and micro-gap switch switches on, and control PCB board receives the micro-gap switch signal and confirms that top cap 1 has closed, can start ultraviolet lamp and disinfect.

The 4 bosses 31 of the top cover 3 are used for switching on and off the microswitch 3. When the sterilization work is needed, the top cover 3 is covered, and the PCB is controlled to start the ultraviolet lamp 5 to sterilize the feeding bottle with the inner container 5; when the top cover 3 is opened midway and taken away, the action elastic sheet does not bear the downward pressure of the boss 31, the action elastic sheet of the microswitch 3 resets, the loop is cut off, and the control unit stops the work of the ultraviolet lamp after detecting a cut-off signal, thereby realizing the leakage protection during the work of the ultraviolet ray.

As shown in fig. 8-11, the ultraviolet lamp 5 of the present embodiment is installed on the lower surface of the inner container 4, the bottom surface of the inner container 4 is opened with a light installation opening 46, the light installation opening 46 is provided with an elastic sealing gasket 10, a light irradiation portion 51 on the ultraviolet lamp 5 installed on the lower surface of the inner container 4 passes through a central hole 103 of the elastic sealing gasket 10 and is in interference fit with the central hole, and ultraviolet rays of the light irradiation portion 51 are irradiated into the inner container 4 to sterilize the space of the feeding bottle and the inner container in the inner container.

The elastic sealing gasket 10 is of a double-layer structure that the inner ring 101 is higher than the outer ring 102, the inner ring penetrates through the first through hole, and the upper surface of the outer ring is located between the upper surface of the ultraviolet lamp 5 and the lower surface of the bottom surface of the inner container 4 and is in interference fit with the lower surface of the inner container 4. The elastic sealing gasket 10 is square in whole, and the outer ring 102 and the inner ring 101 are integrally formed

The outer wall of the elastic sealing gasket 10 is attached to the hole wall of the lamplight mounting port 46, the central hole 103 penetrates through the upper surface and the lower surface of the elastic sealing gasket, the light irradiation part 51 of the ultraviolet lamp 5 upwards penetrates through the central hole 103, and the outer wall of the light irradiation part 51 is in interference fit with the central hole 103 to form a first sealing part A. The elastic sealing gasket can be made of rubber and the like.

The outer periphery of the light mounting port 46 of the inner container 4 is upwards provided with a bulge 47, so that the accumulated water at the bottom of the accommodating cavity is prevented from flowing towards the ultraviolet lamp 1 in the using process.

The light irradiation part 51 comprises a lower rectangular protrusion 511 and an upper spherical protrusion 512, the central hole 103 adopts three layers of stepped holes, the diameters of the lower hole 1033, the middle hole 1032 and the upper hole 1031 are sequentially reduced from bottom to top, the size of the rectangular protrusion 511 is matched with the diameter of the middle hole 1032, the upper surface of the rectangular protrusion 511 is in interference fit with the upper surface of the middle hole 1032 to form a first sealing position A, and the spherical protrusion 512 penetrates through the upper hole 1031.

The elastic sealing gasket 3 comprises an outer ring 32 and an inner ring 31 arranged in the middle of the upper surface of the outer ring 32, the outer wall of the inner ring 31 is attached to the hole wall of the lamplight mounting opening 46, and the outer ring 32 is located below the inner container 4.

The inner wall of the inner ring 31 is trumpet-shaped, the caliber of the upper side is larger than that of the lower side, and the square and rectangular light mounting port 46 is adopted to be matched and is upwards embedded into the light mounting port 46. As shown in fig. 10, the inner wall of the inner ring 31 forms four inclined surfaces 1011, and two adjacent inclined surfaces 1011 are transited by an arc-shaped surface 1012, that is, the trumpet-shaped inner wall is composed of four inclined surfaces and four arc surfaces.

The outer ring 32 is located between the lower surface of the inner container 4 and the upper surface of the ultraviolet lamp 5, and the upper surface of the outer ring 32 is in interference fit with the lower surface of the inner container 4 to form a second sealing part B.

The light irradiation part 51 of the embodiment is set to 4, 4 feeding bottles can be placed in the inner container 4 correspondingly, a feeding bottle lower baffle 11 is arranged in the inner container 4 for inverting the feeding bottle, as shown in fig. 16, a first through hole 41 with the size smaller than or equal to the mouth of the feeding bottle is formed in the feeding bottle lower baffle 11, the spherical protrusion 112 of the ultraviolet lamp is positioned under the first through hole 41, the first through hole 41 is positioned in the groove 113, the groove 113 is used for inverting the feeding bottle, a plurality of second through holes 42 are annularly formed in the periphery of the groove 113, a third through hole 115 is formed between every two adjacent grooves 113, and ultraviolet rays pass through the first through hole 41 and the second through holes 42 to sterilize and disinfect the inverted feeding bottle and the internal environment of the inner container 4. The lower surface of the feeding bottle lower baffle plate 11 is provided with supporting legs 114 which are contacted with the bottom surface of the accommodating cavity, and the feeding bottle supporting plate is arranged to enable the feeding bottle to have a distance with the ultraviolet lamp 5 instead of being directly placed at the bottom of the accommodating cavity 21.

The number of the supporting legs 114 is 4, the supporting legs are symmetrically arranged, each supporting leg 114 adopts an arc-shaped plate which is sunken towards the center direction of the feeding bottle lower baffle plate 11 and is arranged at a non-through hole part of the lower surface of the feeding bottle lower baffle plate 11, and blockage caused by the first through hole 111, the second through hole 112, the third through hole 115 and the like is avoided.

The top of the light irradiation part 51 is lower than the top of the inner ring 101, the top of the inner ring 101 is lower than the bottom surface of the inner container 4, the horn-shaped surface of the inner ring is fully utilized to perform light divergence upwards, and the light irradiation range is enlarged.

Through the light irradiation portion 51 that is provided with 4 ultraviolet lamp irradiations in the bottom of inner bag 4, install sealed the pad 10 on every light irradiation portion 511, form first sealed department A with ultraviolet lamp 1 respectively through sealed pad 10, form second sealed department B with inner bag 4, double-seal's mode, the back or when wasing the maintenance has been prevented to the rivers in the feeding bottle, because the components and parts damage problem that water leads to takes place effectively to prevent feeding bottle water drip etc. and contact the components and parts of ultraviolet lamp's electricity connection etc. realize sealed simultaneously, also can prevent that the water droplet from splashing etc. from forming the protection to the components and parts when wasing the maintenance to the product.

In practical use, a plurality of feeding bottles with different specifications are possible in different places or in a household, in order to sterilize the feeding bottles 9 with different specifications, such as a feeding bottle I91 and a feeding bottle II 92 with different heights or widths, an adjustable feeding bottle upper baffle plate 11 is arranged above the liner 4 and detachably mounted on the top surface of the liner 4, and as shown in fig. 12-14, the upper baffle plate is provided with at least one limiting hole 131 for the feeding bottle II 92 to pass through; the inner container 4 is positioned below the upper baffle 11 and used for storing a first feeding bottle 91, and the height of the second feeding bottle 91 is greater than that of the first feeding bottle 92.

The feeding bottle upper baffle plate 13 comprises a first panel 134 and a second panel 135, and the first panel 134 and the second panel 135 can be folded; the limiting hole 131 is disposed on the first panel 134. The upper baffle is partially folded, so that a second feeding bottle with the caliber larger than that of the limiting hole 131 can be placed on the part, without being limited by the diameter of the limiting hole 131, of the upper side of the inner container 4.

The upper baffle 2 is provided with a plurality of through holes 132, the aperture of each through hole 132 is smaller than that of the limiting hole 131, and hot air or ultraviolet rays can penetrate through the through holes for drying and other operations when a feeding bottle II with a higher height is placed.

The periphery of the upper baffle 13 is provided with a flange 133, and when the upper baffle 13 is installed, the flange 133 is attached to the surface of the inner side 41, namely, the upper baffle is directly placed on the inner container 4 through the flange 133 of the periphery for one circle to complete installation.

Notches 139 are also formed in four corresponding directions of the flange 133, the first guide strips 44 are located in the notches 29 to play a guiding role, and the notches 139 are aligned with the first guide strips 44 to facilitate the upper baffle 13 to be placed in a directional manner quickly to complete installation. The notch 139 is also provided to facilitate access to the top flap 13.

Specifically, two inner side edges of the first panel 134 connected with the second panel 135 are connected through a rotating shaft 136, and the folding is realized through rotation; the inner side edge of the first panel 134 is provided with a buckle 137, the inner side edge of the second panel 135 is provided with a clamping groove 138, and when the buckle 137 buckles the clamping groove 138, the first panel 134 and the second panel 135 are located on the same horizontal plane. Two parts of the whole upper baffle 2 are rotatably connected, can be turned over like a hinge, and can be fixed on the same water surface through two parts of a buckle and a clamping groove. The buckle 137 and the slot 138 are respectively arranged in the middle of the two inner side edges and are located on the upper surfaces (or the lower surfaces) of the first panel 134 and the second panel 135; the number of the rotating shafts 136 is two, and the two rotating shafts are symmetrically arranged at two ends of the inner side edge.

The height of the second feeding bottle is smaller than or equal to the height from the bottom surface of the accommodating cavity to the upper baffle 13, the second feeding bottle is used for placing small-sized feeding bottles, and the large-sized feeding bottles can be placed by the upper baffle 13.

The lower end of the side wall 34 of the top cover 3 is buckled with the upper end of the shell 2 and is attached to the outer wall of the upper end of the shell 1. The top cover 3 is provided with a side wall, the height of the inner container disinfection space is increased vertically, a feeding bottle II higher than the upper baffle 13 can be placed, the sealing performance of the containing cavity is guaranteed, and the containing cavity is convenient to seal, sterilize and disinfect.

In order to improve the drying effect, an air inlet 48 is arranged at the bottom of the inner container 4, the drying assembly comprises a second electric heating element 16 and a fan 17 which are arranged in the base 1, and the second electric heating element 16 and the fan 17 are respectively electrically connected with the control panel; the upper end of the air inlet channel 15 is connected with an air inlet 48, the side surface of the air inlet channel is sequentially arranged with the second electric heating element 16 and the fan 17, and the lower end of the air inlet channel is communicated with a water outlet 18 of the base.

Because the inner container 4 is internally provided with the feeding bottle lower baffle 11 for placing the feeding bottle, a first cavity 49 and a second cavity 410 are respectively formed between the support frame 11 and the bottom of the cavity and between the support frame 3 and the top of the cavity, and the feeding bottle lower baffle 11 is provided with a first through hole 111, a second through hole 112 and a third through hole 115; the fan 17 is arranged at the rear side of the second electric heating element 16, and the fan 17 blows hot air generated by the second electric heating element 16 to the air inlet 48 to form the air path 14 through the first cavity 12, the through holes of the feeding bottle lower baffle plate 11 and the second cavity 410. The second electric heating element 16 is preferably a PTC heater.

The base 1 is provided with the ventilation holes 1a under the fan 16, and the supporting legs 1b are arranged on the bottom surface of the base 1 to avoid the bottom of the table top to be attached and placed due to the accumulation of heat generated by the work of internal elements of the base 1, so that the heat dissipation is facilitated.

An air inlet channel 15 is formed between the air inlet 48 and the second electric heating element 16, and the upper end and the lower end of the air inlet channel 10 are respectively provided with an air inlet 48 and a water outlet 18. The air inlet 48 is arranged at the bottommost part of the inner container 4, the water outlet 18 is arranged at the bottommost part of the air inlet channel 10, hot air is blown to the upper part from the bottom of the cavity through the fan 5 and the heating element 14, the whole cavity and the inside of the feeding bottle are dried, and the problems of water residue at the bottom of the cavity and slow drying are solved.

The inner wall 151 of the air inlet channel 15, which is opposite to the second electric heating element 16, is a circular arc-shaped inner wall which is recessed towards the side far away from the second electric heating element 16, so that hot air can be conveniently blown upwards, as shown in fig. 15.

The air inlet 11 is provided with a turnover cover 19, and hot air upwards pushes the turnover cover 19 open and enters the inner container 4. One side of the flip cover 19 is rotatably connected with the upper end of the air inlet channel 15. Under the condition of no hot air, the flip 19 falls to play certain effect of preventing splashing, and sets up the outlet 18 in the bottom, even the user makes water get into inside carelessly in the use, also can follow the outlet and discharge naturally, prevents that the user from mistakenly pouring water back bottom ponding from influencing the stoving effect, has promoted the ageing of stoving, and guarantees electrical apparatus safety.

In a specific embodiment, as shown in fig. 15, fig. 18 and fig. 19, a light guiding strip 12 is wound around a side wall 1c of the base 1, the light guiding strip 12 is connected to a light source in the base 1, and the side wall or the entire base is translucent or completely transparent. Specifically, an annular groove 5 is formed in the side wall 1c, the annular groove 5 is formed in the upper surface of the side wall 125 in a downward direction, the light guide light bar 3 is embedded into the annular groove 5, and the side wall 12 or the whole base 1 is made of a semitransparent or fully transparent material. When the light bar is lit, uniform light 513 is emitted through the sidewall to the surrounding environment for illumination. The inner surface of the lower end of the housing 2 is shown abutting the outer surface of the side wall 12 of the base. Utilize single light source to throw light on light guide lamp strip tip, realize lighting of whole light guide lamp strip, just can realize the even light illumination around establishing 360 directions of whole product, need not additionally to connect, accord with the user demand of the equipment of adjusting milk of lighting under night or the dim state of light. The light source can adopt other light source devices such as a single LED lamp bead.

The bottom surface of the annular groove 1d is in the shape of a concave arc. The side wall 12 is divided into an outer annular rib 1e and an inner annular rib 1f by an annular groove 1 d. The space of the base, which is positioned inside the annular convex rib II 1f, is used for mounting various components, such as a control panel or a wire plug and the like. The height of the inner annular convex rib two 1f is smaller than that of the outer annular convex rib one 1 e.

The side of the annular groove is evenly distributed with a plurality of protrusions 1g towards the annular groove on the inner side, when the light guide lamp strip 12 is embedded into the annular groove 1d, the protrusions 1g are in top contact with the light guide lamp strip 12, the protrusions 1g are locally limited, so that the light guide lamp strip 12 is completely fixed in the annular groove 1d and cannot easily slide and break away from the annular groove. The surface of the protrusion 7 is an arc surface, so that friction between the light guide lamp strip and the protrusion 7 when the light guide lamp strip is clamped into the annular groove is reduced.

The lower surface of the base 1 is shown in chamfered transition with an outer annular ridge 1f. The light is diffused outwards from the transition part of the chamfer.

The upper surface of any one of the first annular convex edge 1e and the second annular convex edge 1f is an arc surface. The thicknesses of the first annular rib 1e and the second annular rib 1f are smaller than that of the bottom plate 11. I.e. the side walls, especially the intersection with the bottom plate 11, are thin-walled to facilitate the transmission of the light ray 513.

The light guiding strip 12 in this embodiment is made of light guiding fiber PVC. Through light sources such as 1 lamp pearl of installation in the base, realize the uniform display of whole leaded light lamp strip, need not to set up other a plurality of lamp pearls etc. the electricity of installation and each part distributes and sets up simplyr.

It should be noted that the drawings provided in the above embodiments are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

The foregoing is considered as illustrative of the preferred embodiments of the invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, the present invention has been described in more detail through the above embodiments. The invention can also include other equivalent embodiments, and any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present disclosure should be included in the protection scope of the present disclosure.

Claims

1. A multifunctional milk mixing device is characterized by comprising a base, a disinfection component and a milk mixing component, wherein the disinfection component and the milk mixing component are respectively arranged on the base; the milk mixing component comprises a kettle body and an anti-scald kettle cover; the disinfection component comprises a shell, a top cover and an inner container, wherein an ultraviolet lamp is arranged in the inner container;

the base is internally provided with a control panel, a first electric heating element and a drying assembly, wherein the first electric heating element and the drying assembly are electrically connected with the control panel; the ultraviolet lamp is electrically connected with the control panel.

2. The multifunctional milk mixing device as claimed in claim 1, wherein the scald-proof pot cover comprises an upper cover, a lower cover and an annular sealing ring, a cavity is formed between the lower side of the upper cover and the lower cover, and the lower end of the side wall of the lower cover extends outwards to form a first sealing surface; the upper end of the sealing ring is in contact with the upper cover, the lower end of the sealing ring extends inwards to form a sealing surface II, and the sealing surface I and the sealing surface II are in interference fit.

3. The multifunctional milk adjusting device as claimed in claim 2, wherein a circle of ribs are provided on the lower surface of the upper cover, the lower end of the ribs protrudes inwards to form a buckling part,

the lower direction of the side wall of the lower cover is recessed to form a groove, and the buckling part is clamped in the groove; the sealing ring is sleeved on the outer wall of the convex rib.

4. The multifunctional milk adjusting device as claimed in claim 1, wherein a microswitch electrically connected with the control panel is arranged on the upper surface of the inner container, and a boss is arranged at the lower end of the top cover;

when the top cover and the shell are closed, the boss is in top contact with an action elastic sheet of the microswitch, a moving contact at the other end of the action elastic sheet is in contact with a moving contact, and the control PCB starts the ultraviolet lamp to sterilize the feeding bottle;

when the top cover is separated from the shell, the boss is not in contact with the action elastic sheet of the microswitch, the moving contact at the other end of the action elastic sheet is in contact with the break contact, and the control PCB board turns off the ultraviolet lamp.

5. The multifunctional milk adjusting device as claimed in claim 1, wherein a light mounting opening is formed in the bottom surface of the inner container, an elastic sealing gasket is arranged on the light mounting opening, a light irradiation portion of the ultraviolet lamp arranged on the lower surface of the inner container penetrates through an inner hole of the elastic sealing gasket and is in interference fit with the inner container, and ultraviolet rays of the light irradiation portion are irradiated into the inner container.

6. The multifunctional milk adjusting device as claimed in claim 5, wherein the elastic sealing gasket is of a double-layer structure with an inner ring higher than an outer ring, the inner ring passes through the first through hole, and the upper surface of the outer ring is located between the upper surface of the ultraviolet lamp and the lower surface of the bottom surface of the inner container and is in interference fit with the lower surface of the bottom surface of the inner container.

7. The multifunctional milk adjusting device as claimed in claim 1, wherein an adjustable upper baffle of the feeding bottle is arranged above the inner container, and the upper baffle is provided with at least one limiting hole for the feeding bottle II to pass through;

the inner container is used for storing the first feeding bottle, and the height of the second feeding bottle is larger than that of the first feeding bottle.

8. The multi-functional milk adjust device of claim 7, wherein the baffle on the feeding bottle comprises a first panel and a second panel, the first panel and the second panel can be folded; the limiting hole is formed in the first panel.

9. The multifunctional milk adjusting device as claimed in claim 1, wherein the bottom of the inner container is provided with an air inlet, the drying assembly comprises a second electric heating element and a fan, and the second electric heating element and the fan are respectively electrically connected with the control panel;

the upper end of the air inlet channel is connected with the air inlet, the side surface of the air inlet channel is sequentially arranged with the electric heating element and the fan, and the lower end of the air inlet channel is communicated with the water outlet of the base.

10. The multifunctional milk adjust device as claimed in claim 1, further comprising a light guiding strip wound around the sidewall of the base, wherein the sidewall or the entire base is translucent or completely transparent.