CN111000728A - Portable bidirectional constant-temperature disinfection device - Google Patents

Abstract

According to the invention, the heating mechanism and the heat dissipation mechanism are arranged in the device body, so that the device can dynamically adjust the temperature of the inner cavity, the heating mechanism is operated to heat the inner cavity when the temperature of the inner cavity is too low, the heat dissipation mechanism is operated when the temperature of the inner cavity is too high, so that the milk is kept at a constant temperature, the discomfort of a baby caused by the milk with too high temperature and the milk with too low temperature is avoided, the device is also internally provided with the battery assembly which can be carried in a portable way, the disinfection base can be disinfected, the problem that the milk bottle with residual bacteria causes diseases such as diarrhea is reduced, in addition, the bottle body is positioned in the device body through the use of the fixing member, the shaking of the bottle body in the device is reduced, the temperature stability is improved, and meanwhile, the device can be adapted to.

Description

Portable bidirectional constant-temperature disinfection device

Portable two-way constant temperature degassing unit.

Technical Field

The invention relates to the field of constant temperature of feeding bottles, in particular to a portable bidirectional constant temperature disinfection device.

Background

Infant milk powder is very nutritious, has very high protein content, causes protein denaturation if the milk powder is brewed at an excessively high temperature, is difficult to dissolve if the milk powder is brewed by using low-temperature water, senses the temperature of the oral cavity and the esophagus of an infant are sensitive, and discomfort of the infant is caused by the excessively high-temperature milk and the excessively low-temperature milk.

At present, parents need to wait for boiled water to be cooled to a proper temperature when making milk powder for infants, or cool boiled water is heated to a proper temperature, or boiled water and cool boiled water are mixed, and then a thermometer is used for measuring the temperature of water or the temperature of water sensed by the back of the hand, meanwhile, after the infants eat the milk powder, the milk bottle generally needs to be disinfected.

Disclosure of Invention

The invention mainly aims to provide a portable bidirectional constant-temperature disinfection device, and aims to solve the problems that a user is inconvenient to disinfect a feeding bottle when going out, the temperature of milk is difficult to control, and diseases such as infantile diarrhea and the like are caused.

In order to achieve the above object, the present invention provides a portable bidirectional constant temperature sterilization apparatus, comprising: the device comprises a device body, a heating mechanism, a heat dissipation mechanism, a disinfection base, a steam disinfection component and a battery component, wherein a cavity is formed in the device body;

the device body is provided with an air port assembly used for heat exchange between the cavity and the outside, and the air port assembly is provided with a wind shielding assembly which is matched with the air port assembly and used for blocking or opening the air port assembly.

In a further preferred embodiment, the portable bidirectional constant temperature sterilization apparatus, wherein the apparatus body includes: the connecting piece, the upper cover and the lower shell;

one end of the connecting piece is detachably connected with the upper cover, and the other end of the connecting piece is fixedly connected with the lower shell;

the wind gap subassembly includes that the inferior valve deviates from the air inlet subassembly of connecting piece end and set up in the epitheca deviates from the air-out subassembly of connecting piece end.

In a further preferred embodiment, the portable bidirectional thermostatic disinfection device further comprises: the heat-insulation liner is provided with an opening for placing a bottle body conveniently at one end close to the front shell, and a placing substrate for supporting the bottle body placed in the heat-insulation liner is arranged at the other end of the heat-insulation liner;

the periphery of the opening end of the heat-preservation liner is fixedly connected with the fixing piece.

In a further preferred embodiment, the portable bidirectional constant-temperature disinfection device further comprises a temperature sensor arranged on the placement substrate and used for measuring the temperature of liquid in the bottle body, a substrate air duct arranged on the placement substrate, and the heating mechanism arranged in a heating interlayer surrounded by the heat preservation liner and the device body.

In a further preferred embodiment, the portable bidirectional thermostatic disinfection device further comprises: the support frame, the support frame set up in inside the device body, support frame one end with inferior valve inlet air channel is served, the other end with place substrate fixed connection, the support frame in be close to place the substrate end and be provided with the battery and settle the storehouse, battery pack set up in the battery is settled the storehouse, heat dissipation mechanism set up in the support frame deviates from the battery is settled the storehouse side, the support frame with enclose between the inferior valve and have enclosed into the support cavity, be provided with the control unit in the support cavity, the last terminal that is provided with of the control unit, the inferior valve is provided with and is convenient for the plug hole that plug and external world carried out, the terminal with the battery pack electricity links.

In a further preferred embodiment, the portable bidirectional constant temperature disinfection device, wherein the wind shielding assembly comprises: rotate with the inferior valve be connected be used for with the cooperation of air inlet subassembly is used for reducing calorific loss's first wind-break piece and rotate with the upper cover be connected be used for with the cooperation of air-out subassembly is used for reducing calorific loss's second wind-break piece.

In a further preferred embodiment, the portable, bi-directional, thermostatic disinfection device, wherein,

the air inlet subassembly includes: the connecting part is rotationally connected with the first wind shield piece, and the air inlet hole is used for heat exchange between the cavity and the outside;

the air-out subassembly includes: and the connecting part is rotationally connected with the second wind deflector, and the air outlet is used for the cavity to exchange heat with the outside.

In a further preferred embodiment, the portable bidirectional constant-temperature disinfection device further comprises a positioning seat arranged on the disinfection base and used for positioning the device body on the disinfection base, a liquid containing disc arranged on the disinfection base and used for supplying water to pour into the liquid containing disc, and a steam disinfection assembly arranged in the liquid containing disc and used for heating and evaporating the water poured into the liquid containing disc.

In a further preferred embodiment, the portable bidirectional constant temperature disinfection device is characterized in that a control assembly is further arranged on the surface of the disinfection base, and the control assembly is connected with a control panel arranged inside the disinfection base.

In a further preferred embodiment, the portable bidirectional constant temperature sterilization device further comprises a fixing member arranged on the upper cover, and the fixing member comprises a first fixing member and a second fixing member; the first stationary member has a plurality of first contacts co-located in a first plane; the second fixed member has a plurality of second contacts that are co-located in a second plane; the first contact and the second contact each have a hollow configuration.

The device can dynamically adjust the temperature of the inner cavity by arranging the heating mechanism and the heat dissipation mechanism in the device body, when the temperature of the inner cavity is too low, the heating mechanism works to heat the inner cavity, when the temperature of the inner cavity is too high, the heat dissipation mechanism works, so that the milk is kept at a constant temperature to reduce the discomfort of the baby caused by the milk with over-high temperature and the milk with over-low temperature, and the battery component is arranged in the device to carry the baby in a portable way, and the disinfection base can be disinfected, so that the problem that the residual bacteria cause diseases such as diarrhea and the like of the feeding bottle is reduced, in addition, through the use of the fixing component, the bottle body is positioned in the device body, the shaking of the bottle body in the device is reduced, the temperature stability is improved, meanwhile, the bottle sleeve can be adapted to different feeding bottles, and the portable bidirectional constant temperature device is convenient to carry.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following embodiments or the technical solutions in the prior art will be briefly described in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of a portable bidirectional constant temperature sterilization device provided by the present invention;

FIG. 2 is a sectional view of the device body of the portable baby bottle sterilizing device provided in the present invention;

FIG. 3 is a sectional view of the device body of the portable baby bottle sterilizing device provided in the present invention;

FIG. 4 is a schematic structural view of an upper cover and a second wind-blocking sheet of the portable nursing bottle disinfecting device provided by the present invention;

FIG. 5 is a schematic structural view of a lower case and a first wind-shielding plate of the portable baby bottle sterilizing device according to the present invention;

FIG. 6 is a schematic structural view of a heat-insulating liner of the portable milk bottle disinfecting device provided by the present invention;

FIG. 7 is a schematic structural view of a support frame of the portable baby bottle sterilizing device provided by the present invention;

FIG. 8 is a schematic structural view of a fixing member of the portable baby bottle sterilizing apparatus according to the present invention;

FIG. 9 is a bottom view of an upper cap with a fixing member of the portable baby bottle sterilizing device according to the present invention;

FIG. 10 is a schematic view showing the construction of a sterilizing base of the portable baby bottle sterilizing device according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indication is involved in the embodiment of the present invention, the directional indication is only used for explaining the relative positional relationship, the motion situation, and the like between the components in a certain posture, and if the certain posture is changed, the directional indication is changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "front-back", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, a fixed connection unless expressly specified or limited otherwise. Can also be detachably connected or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 and 2, a portable bidirectional constant temperature sterilizing apparatus includes: the device comprises a device body 10, a heating mechanism 30, a heat dissipation mechanism 40, a disinfection base 20, a steam disinfection component 23 and a battery component 50, wherein a cavity is formed in the device body 10, the heating mechanism 30 is arranged in the device body 10 and used for heating bottles placed in the cavity, the heat dissipation mechanism 40 is arranged in the device body 10 and used for cooling, the disinfection base 20 is detachably connected with the device body 10, and the steam disinfection component 23 and the battery component 50 are arranged in the disinfection base 20;

the device body 10 is provided with an air port assembly 120 for heat exchange between the cavity and the outside, and the air port assembly 120 is provided with a wind shielding assembly 110 which is used for blocking or opening the air port assembly 120 in cooperation with the air port assembly 120.

In the technical solution provided by the present invention, in an embodiment, the heat dissipation mechanism 40 is a fan, the battery assembly 50 is a rechargeable battery, and supplies power to the heat dissipation mechanism 40 and the heating mechanism 30,

when the user puts the milk which is just brewed into the device body 10, the heat dissipation mechanism 40 works, the wind shielding component 110 opens the wind opening component 120 (the opening of the wind opening component 120 is an antisense word of blocking, namely the wind opening component 120 is not blocked, so that a wind path channel is formed between the inner cavity and the outside, the blocking or the opening can be achieved for the manual operation of the user, or can be achieved by installing a traction device, for example, a motor is arranged to pull the wind shielding component 110 to move so as to form the blocking or the opening, so that the air convection is formed between the inner cavity of the device body 10 and the outside so as to cool down, the heat exchange efficiency is improved), the temperature of the milk in the feeding bottle is quickly reduced, the problem that the milk is too high to hurt the infant is solved, compared with the natural cooling, the cooling speed is increased, the infant can be nursed in time while the user waits for a long time, so that the infant is not hungry, the above state is a cooling working state;

the temperature of milk in the bottle body can be measured through infrared thermal imaging, when the milk temperature is lower than 45 ℃, the heat dissipation mechanism 40 stops working and is switched to natural cooling, when the milk temperature is 40 ℃, the heating mechanism 30 starts working, the feeding bottle placed in the device body 10 is heated by the heating mechanism 30, at the moment, the wind shielding component 110 moves to block the wind gap component 120, so that the heat exchange area between the inner cavity of the device body 10 and the outside is reduced, a better heat preservation effect is obtained, the problems of diarrhea, cold and the like of infants caused by too low milk temperature are avoided, at the moment, the heat dissipation mechanism 40 is in standby, the cooling or cooling function is naturally cooled, and the above state is a heating working state;

when the milk temperature is higher than 45 ℃, the heating mechanism 30 stops working, although the device turns to cooling, but because the temperature span of the milk temperature is low (namely 40-45 ℃), the wind shielding component 110 and the tuyere component 120 are still in a blocking state at the moment, so that the natural cooling rate is too slow, thereby achieving the functions of reducing the starting of the heating mechanism 30 and saving energy, leading the temperature of the milk to be naturally reduced, thus, the heating function is obtained by the heating means 30 being intermittently switched on and off, so that the milk temperature is floating between 40 ℃ and 45 ℃, thus saving the use of energy, improving the endurance of the battery, not only bringing good user experience for the mother and reducing a plurality of troubles in nurturing the child, and the food habit of the baby is taken care of to protect the growth of the baby, and the above state is a constant-temperature working state.

In another embodiment, the portable bidirectional constant temperature disinfection device may further include a counter and a phase-change material, where the phase-change material is a substance that changes the state of the substance and provides latent heat when the temperature is not changed, and the process of changing the physical property is called a phase-change process, where the phase-change material absorbs or releases a large amount of latent heat, when the freshly brewed milk is placed into the device body 10, the temperature of the brewed milk is typically 80 ℃ to 85 ℃, the heat dissipation mechanism 40 operates for a heat dissipation period (the heat dissipation period may be approximately obtained by performing a limited number of tests at normal temperature and normal pressure according to the structure, material, and power of the heat dissipation mechanism 40 of the device body 10), so that the temperature of the milk is reduced to 45 ℃, and then the milk is naturally cooled (the naturally cooled period is a period required for the temperature of the milk to be reduced from 45 ℃ to 40, the present invention is to prevent the temperature released or lowered by the heating mechanism 30 and the heat dissipation mechanism 40 from failing to satisfy the use of the present system under the conditions lower than normal temperature and normal pressure or higher than normal temperature and normal pressure, and the present application selects and uses the phase change material with 42 ℃ so that the phase change material releases heat at a temperature below 42 ℃ and generates heat at a temperature above 42 ℃, thereby realizing the purpose that the temperature of the milk is maintained within a specific range.

The specific temperature value is only for explaining the working mode of the present application, and is not limited to the protection range, and the specific temperature range may be changed, so that the temperature range is different from the protection range of the present application, which has the same technical effect as the technical effect of the present application, and the upper limit value (i.e. 45 ℃ as described above) and the lower limit value (i.e. 40 ℃ as described above) may be the same value, and in a preferred embodiment, the value is selected to be 42 ℃, the temperature value is the temperature value most suitable for the infant to eat, and the balance between the nutrition state and the ease of taking is obtained, so that the infant can grow healthily.

According to the invention, the heating mechanism 30 and the heat dissipation mechanism 40 are arranged in the device body 10, so that the temperature of the inner cavity can be dynamically adjusted, when the temperature of the inner cavity is too low, the heating mechanism 30 works to heat the inner cavity, when the temperature of the inner cavity is too high, the heat dissipation mechanism 40 works to keep the milk at a constant temperature so as to prevent the baby from discomfort caused by the milk at too high temperature and the milk at too low temperature, the battery assembly 50 is also arranged in the device and can be carried in a portable way, the disinfection base 20 can be disinfected, and the problem that the disease such as diarrhea is caused by the milk bottle with residual bacteria is reduced.

The device body 10 includes: the portable bidirectional constant-temperature disinfection device comprises a connecting piece 11, an upper cover 12 and a lower shell 13, wherein a shell body which is enclosed by the connecting piece 11, the upper cover 12 and the lower shell 13 and is internally provided with a cavity is arranged, the surfaces of the portable bidirectional constant-temperature disinfection device are all arranged to be in arc transition, one end of the connecting piece 11 is detachably connected with the upper cover 12, and the other end of the connecting piece 11 is fixedly connected with the lower shell 13; in order to prevent that portable two-way constant temperature degassing unit from causing the damage to the human body to device body 10 is inside to be provided with the insulating layer, has avoided scalding baby.

As shown in fig. 3 and 6, the portable bidirectional constant temperature sterilization apparatus further includes: the bottle body heat preservation device comprises a heat preservation inner container 60, wherein an opening convenient for placing a bottle body is formed in one end, close to the front shell, of the heat preservation inner container 60, a placing substrate 61 used for supporting the bottle body placed in the heat preservation inner container 60 is arranged at the other end of the heat preservation inner container 60, the periphery of the opening end of the heat preservation inner container 60 is fixedly connected with a fixing piece, and the heating mechanism 30 is arranged in a heating interlayer 31 formed by the heat preservation inner container 60 and the device body 10 in a surrounding mode.

Therefore, the present application is provided with the connecting member 11 as an intermediate member, which not only facilitates the assembly between the upper cover 12 and the lower shell 13, but also the connecting member 11 has the function of fixing and positioning the thermal insulation liner 60 (the connecting member 11 presses the thermal insulation liner 60 from the upper end to limit the degree of freedom thereof, and an interlayer is provided between the thermal insulation liner 60 and the connecting member 11 to facilitate the placement of the heating mechanism 30), in the present system, the device body 10 and the thermal insulation liner 60 are provided to have a dual thermal insulation effect, and the heating mechanism 30 is provided between the thermal insulation liner 60 and the heating interlayer 31 between the connecting members 11, in a further embodiment, a thermal reaction film is provided on the inner layer surface of the device body 10 to reflect the heat of the heating mechanism 30 into the inner cavity to achieve the effect of reducing the heat loss, and a thermal insulation film is provided on the outer layer of the device body 10, the infant is prevented from being scalded by overheating the device body 10.

In a preferred embodiment of this application, still be provided with temperature sensor 62 on placing substrate 61, this application through place still be provided with temperature sensor 62 on the substrate 61 and be used for measuring place in the temperature of feeding bottle bottom in the portable two-way constant temperature degassing unit, the rethread the temperature of feeding bottle bottom, indirect speculation place in the actual temperature of milk in the feeding bottle, this application through prevent that the substrate center is provided with temperature-sensing ware, not only can reduce measuring error, the assembly of being convenient for simultaneously has improved production efficiency, can also be fit for not unidimensional feeding bottle and use, has improved the suitability.

The detection and measurement temperature can be similar to the effect of directly measuring the milk temperature through limited experiments, the temperature of the bottom of the bottle can be measured through the temperature sensor 62 in the application, when the temperature of the bottom of the bottle reaches 43 ℃, a heating allowance time value is set (because the temperature of the milk at the bottom of the bottle is 43 ℃ and can reach 45 ℃), and the heat dissipation mechanism 40 stops working in the period and is turned into natural cooling.

When the temperature of the bottle bottom measured by the temperature sensor 62 is higher than 44 ℃, the heating mechanism 30 starts to work, the heating mechanism 30 heats the feeding bottle placed in the device body 10, and at the moment, the wind shielding component 110 moves to block the wind gap component 120, so that the heat exchange area between the inner cavity of the device body 10 and the outside is reduced, a better heat preservation effect is obtained, the problems of diarrhea of infants and the like caused by too low milk temperature are avoided, at the moment, the heat dissipation mechanism 40 is in standby, the cooling or cooling function is naturally cooled, and the above state is a heating working state.

When the milk temperature is higher than 44 ℃, the heating mechanism 30 stops working, although the device turns to cooling at this time, because the temperature span of the milk temperature is low (namely, 40 ℃ to 45 ℃ has a certain error, the error is plus or minus 2%), the wind shielding component 110 and the wind opening component 120 are still in a blocking state at this time, so that the natural cooling rate is too slow, thereby achieving the function of reducing the opening of the heating mechanism 30, saving energy, so that the milk temperature is naturally cooled, and therefore, the heating function is obtained by intermittently opening or closing the heating mechanism 30, so that the milk temperature is floated between 40 ℃ and 45 ℃.

The above-mentioned concrete temperature value is the numerical expression of the standard feeding bottle that this application was joined in marriage under normal atmospheric temperature and pressure normal atmospheric humidity, when using other feeding bottles, the temperature value has certain difference in temperature, can reach the effect of improving the precision through the mode of enlargiing the surplus or setting up other temperature sensor 62 (other temperature sensor 62 can set up in the position except that the back of the substrate certainly), and above-mentioned scheme can improve the assembly degree of difficulty certainly, and consequently, this application has good technological effect under specific feeding bottle, has not only reduced manufacturing cost but also improved production efficiency.

The placing substrate 61 is further provided with a substrate air duct 63, the substrate air duct 63 is capable of enabling air to enter from an air inlet assembly and then flow out from an air outlet assembly, the substrate air duct 63 is arranged at the edge of the placing substrate 61 so as to reduce the risk that the substrate air duct 63 is blocked by a bottle body, in a further embodiment, the substrate air duct 63 is arranged in a matrix type, and the cooling efficiency is improved due to the fact that the air duct area is increased on the premise that the mechanical strength is not reduced.

As shown in fig. 4 and 5, the air outlet assembly 120 includes an air inlet assembly deviating from the end of the connecting member 11 of the lower casing 13 and an air outlet assembly deviating from the end of the connecting member 11 of the upper casing, the heat dissipation mechanism 40 is a fan, and air enters from the air inlet assembly and flows out from the air outlet assembly by forming negative pressure, and according to the principle of thermal expansion and cold contraction, the air outlet 121 is disposed at the upper end of the air inlet 131 (the upper end is the height of the air inlet 131 higher than the horizontal height of the air outlet 121 in the use state), so as to improve the heat dissipation efficiency.

As shown in fig. 7, the portable two-way thermostat device further includes: support frame 70, support frame 70 set up in inside device body 10, support frame 70 one end with 13 inlet air channel of inferior valve is served, the other end with place substrate 61 fixed connection, support frame 70 in be close to place substrate 61 end and be provided with battery arrangement storehouse 71, battery pack 50 set up in the battery arrangement storehouse 71, heat dissipation mechanism 40 set up in support frame 70 deviates from the battery arrangement storehouse 71 side, support frame 70 with it has support cavity 72 to enclose between the inferior valve 13, be provided with the control unit 74 in the support cavity 72, be provided with terminal 73 on the control unit 74, inferior valve 13 is provided with and is convenient for terminal 73 carries out the plug hole 131 of plug with the external world, terminal 73 with battery pack 50 electricity links.

The battery housing chamber 71 is separated from a heat source, so that the risk of explosion of the battery assembly 50 is reduced, and meanwhile, the battery housing chamber 71 is completely separated from an air duct, so that the entry of water vapor is reduced, the service life of the battery assembly 50 is prolonged, and the risk is reduced;

in a further embodiment, the battery accommodating chamber 71 is routed from the inside of the supporting frame 70 to the inside of the supporting cavity 72 to be electrically connected with the electric components in the supporting cavity 72, so that the device can be carried portably and can be used in places where a power supply is not needed.

The battery pack 50 is electrically connected with the control unit 74, the control unit 74 is a PCB board and is arranged on the PCB microprocessor, a terminal 73 is arranged on the control unit 74, the terminal 73 can charge the battery pack 50, and meanwhile, related data can be input to better match users to use different feeding bottles.

The wind shielding assembly 110 includes: rotate with inferior valve 13 be connected be used for with the cooperation of air inlet subassembly is used for reducing calorific loss's first windshield 132 and rotate with upper cover 12 be connected be used for with the cooperation of air-out subassembly is used for reducing calorific loss's second windshield 122, the air inlet subassembly includes: a connection part rotatably connected to the first wind-shielding plate 132 and an air inlet hole for heat exchange between the cavity and the outside; the air-out subassembly includes: a connecting portion rotatably connected to the second wind blocking plate 122, and a wind outlet for heat exchange between the cavity and the outside.

The first wind-blocking sheet 132 is similar to the connection structure between the air inlet hole and the second wind-blocking sheet 122, and the air outlet hole, and here, the connection relationship between the first wind-blocking sheet 132 and the air inlet hole and the second wind-blocking sheet 122 is taken as an illustration, and the air inlet hole includes: mounting hole follows the louvre, and first windshield 132 is provided with the arch, protruding with the mounting hole is fixed in order to restrict first windshield 132's degree of freedom makes its rotation only can not remove, the fresh air inlet includes a plurality of louvres of a plurality of even settings, first windshield 132 can be for with the louvre cooperates completely to use and corresponds thereby a plurality of jam departments that a plurality of louvres set up, above-mentioned of course a plurality of louvres that evenly set up also are not fixed structure, no matter the shape, position and the size of louvre how, only need first windshield 132 set up in the jam department that the hole cooperation was used completely can, a plurality of louvres that evenly set up that this application adopted are not only making heat radiating area enough big, have still guaranteed the intensity of device simultaneously.

The disinfection base 20 further comprises a positioning seat 21 arranged on the disinfection base 20 and used for positioning the device body 10 on the disinfection base 20, a liquid containing tray 22 arranged on the disinfection base 20 and used for supplying water to pour in, and a steam disinfection assembly 23 arranged in the liquid containing tray 22 and used for heating and evaporating the water poured into the liquid containing tray 22.

When the device is used, firstly, bottled water is poured into the liquid containing tray 22, then the first wind blocking piece 132 of the device body 10 is opened (namely, the air inlet 131 is not blocked), the second wind blocking piece 122 is closed (namely, the second wind blocking piece is rotated to the air outlet 121 to block the air outlet), then the device body 10 is placed on the positioning seat 21, the device body 10 is positioned, the disinfection base 20 is started, the steam disinfection component 23 heats and evaporates water to form steam, the steam enters from the air inlet 131, the steam stays in the device body 10 due to the blockage of the air outlet 121 to achieve a disinfection effect, the second wind blocking piece 122 is manually opened (namely, the air outlet 121 is not blocked) after a certain time, the steam disinfection component 23 is dried to generate heat, the heat dissipation mechanism 40 works, and guides hot air generated by the steam disinfection component 23 to enable the hot air to enter from the air inlet 131 and leave from the air outlet 121 Open, take out the device with steam and the drop of water that form behind the steam condensation to reach dry effect, this application has reduced the germ and the remaining bacterium that breed in the feeding bottle through disinfection and drying function, thereby reach the healthy effect of protection baby.

The first wind deflector 132 and the second wind deflector 122 can be pulled by a motor to achieve a technical effect similar to that described above, reducing the risk of burning by hot steam when the user opens the device.

The surface of the disinfection base 20 is further provided with a control assembly 24, and the control assembly 24 is connected with a control panel arranged inside the disinfection base 20.

The control component 24 includes at least one function button, the control component 24 has a function of turning on the steam effect component, and of course, when a motor is disposed in the device body 10, an effect for controlling the turning on and off of the motor may be further provided.

As shown in fig. 8, the present application also discloses a fixing member provided to the upper cover 12. The fixing member includes a first fixing member and a second fixing member; the first fixed member has a plurality of first contacts 81, the plurality of first contacts 81 being co-located in a first plane; the second stationary member has a plurality of second contacts 82, the plurality of second contacts 82 being co-located in a second plane; the first contact 81 and the second contact 82 each have a hollow configuration. In addition, the first contact 81 and the second contact 82 are each preferably made of an elastic silicone material. The foregoing design is to take into account that the conventional baby bottles, which are generally 120ml, 150ml, 220ml and 240ml in gauge capacity, are easily shaken inside the device body 10 when the baby bottle is not conformed to the device body 10 in gauge. After the fixing member is provided, the problem of the shaking of the feeding bottle in the device body 10 can be solved well.

Specifically, the number of each of the first contacts 81 and the second contacts 82 is preferably 5. The 5 first contacts 81 are located on the same first plane, and the 5 first contacts 81 are located on the upper cover 12 and just equally divide the circle obtained by cutting the bottle body on the first plane. In addition, the 5 second contacts 82 are also located on the second plane, and the positions of the 5 second contacts 82 on the upper cover 12 are also just equally divided into a circle obtained by the second plane through cutting the bottle body. In addition, when viewed from the bottom to top direction of the upper cover 12 (see fig. 9), there is one second contact 82 between every two first contacts 81, and there is one first contact 81 between every two second contacts 82, i.e., they are arranged alternately. In addition, the height (length) of the first contact 81 is also preferably designed to be greater than the height (length) of the second contact 82, which is more suitable for the shape of a general baby bottle, thereby increasing the effect of preventing the baby bottle from shaking.

In addition, the design of the fixing member is only a preferred embodiment, and it should be understood that other structures for fixing the feeding bottle to reduce the shaking of the feeding bottle are also within the protection scope of the present application, and the above examples are only illustrative and not intended to limit the structure of the fixing member.

According to the invention, the heating mechanism 30 and the heat dissipation mechanism 40 are arranged in the device body 10, so that the temperature of the inner cavity can be dynamically adjusted, when the temperature of the inner cavity is too low, the heating mechanism 30 works to heat the inner cavity, when the temperature of the inner cavity is too high, the heat dissipation mechanism 40 works to keep the milk at a constant temperature so as to prevent the baby from discomfort caused by the milk at too high temperature and the milk at too low temperature, the battery assembly 50 is also arranged in the device and can be carried in a portable way, the disinfection base 20 can be disinfected, and the problem that the disease such as diarrhea is caused by the milk bottle with residual bacteria is reduced.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A portable, bi-directional thermostat device, comprising: the device comprises a device body, a heating mechanism, a heat dissipation mechanism, a disinfection base and a battery pack, wherein a cavity is formed in the device body;

the device body is provided with an air port assembly used for heat exchange between the cavity and the outside, and the air port assembly is provided with a wind shielding assembly which is matched with the air port assembly and used for blocking or opening the air port assembly.

2. The portable bi-directional thermostatic device of claim 1, wherein the device body includes: the connecting piece, the upper cover and the lower shell;

one end of the connecting piece is detachably connected with the upper cover, and the other end of the connecting piece is fixedly connected with the lower shell;

the wind gap subassembly includes that the inferior valve deviates from the air inlet subassembly of connecting piece end and set up in the epitheca deviates from the air-out subassembly of connecting piece end.

3. The portable bi-directional thermostatic device of claim 2, further comprising: the heat-insulation liner is provided with an opening for placing a bottle body conveniently at one end close to the front shell, and a placing substrate for supporting the bottle body placed in the heat-insulation liner is arranged at the other end of the heat-insulation liner;

the periphery of the opening end of the heat-preservation liner is fixedly connected with the fixing piece.

4. The portable bidirectional constant temperature device according to claim 3, wherein a temperature sensor is further disposed on the placement substrate, a substrate air duct is further disposed on the placement substrate, and the heating mechanism is disposed in a heating interlayer surrounded by the heat preservation liner and the device body.

5. The portable bi-directional thermostatic device of claim 3, further comprising: the support frame, the support frame set up in inside the device body, support frame one end with inferior valve inlet air channel is served, the other end with place substrate fixed connection, the support frame in be close to place the substrate end and be provided with the battery and settle the storehouse, battery pack set up in the battery is settled the storehouse, heat dissipation mechanism set up in the support frame deviates from the battery is settled the storehouse side, the support frame with enclose between the inferior valve and have enclosed into the support cavity, be provided with the control unit in the support cavity, the last terminal that is provided with of the control unit, the inferior valve is provided with and is convenient for the plug hole that plug and external world carried out, the terminal with the battery pack electricity links.

6. The portable bi-directional thermostat device of claim 2, wherein the wind blocking assembly comprises: rotate with the inferior valve be connected be used for with the cooperation of air inlet subassembly is used for reducing calorific loss's first wind-break piece and rotate with the upper cover be connected be used for with the cooperation of air-out subassembly is used for reducing calorific loss's second wind-break piece.

7. The portable bi-directional thermostatic device of claim 6,

the air inlet subassembly includes: the connecting part is rotationally connected with the first wind shield piece, and the air inlet hole is used for heat exchange between the cavity and the outside;

the air-out subassembly includes: and the connecting part is rotationally connected with the second wind deflector, and the air outlet is used for the cavity to exchange heat with the outside.

8. The portable bidirectional thermostat of claim 1 wherein the disinfection base further comprises a positioning seat disposed on the disinfection base for positioning the device body on the disinfection base, a drip pan disposed on the disinfection base for water to pour into, a steam sterilizing assembly disposed in the disinfection base, and a steam sterilizing assembly disposed in the drip pan for heating and evaporating water poured into the drip pan.

9. The portable bi-directional thermostatic device according to claim 8, wherein the disinfecting base surface is further provided with a control assembly, the control assembly being connected with a control panel disposed inside the disinfecting base.

10. The portable bi-directional thermostat device of claim 1 further comprising a securing member disposed on the upper cover, the securing member including a first securing member and a second securing member; the first stationary member has a plurality of first contacts co-located in a first plane; the second fixed member has a plurality of second contacts that are co-located in a second plane; the first contact and the second contact each have a hollow structure.

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