CN210186062U - Heat preservation heating feeding bottle for infant based on supplementary heating of graphene heating film - Google Patents

Abstract

An infant is with heat preservation heating feeding bottle based on heat is assisted to graphite alkene generate heat membrane, includes: the feeding bottle comprises a feeding bottle, a graphene heating film layer, a heat insulation sleeve, a protective layer, a temperature sensor, a wire controller and an external power supply; the heating feeding bottle is arranged in the heat insulation sleeve, the wall of the feeding bottle is in close contact with the graphene heating film layer, the graphene heating film layer is arranged on the inner side of the heat insulation sleeve, the graphene heating film layer is firmly adhered to the heat insulation sleeve, the outer layer of the heat insulation sleeve is a waterproof protective layer, a temperature sensor is arranged inside the heat insulation side and close to the wall of the feeding bottle, the temperature sensor is connected with a wire controller through a wire, an external power supply is connected with the graphene heating film layer through the wire controller, a graphene heating film power loop is formed, and the graphene heating film layer is connected with a power supply to heat.

Description

Heat preservation heating feeding bottle for infant based on supplementary heating of graphene heating film

Technical Field

The utility model belongs to the technical field of infant's articles for use and specifically relates to an infant is with heat preservation heating feeding bottle based on heat is assisted to graphite alkene heating film.

Background

The prior market uses common milk bottles. The structure is simple, and the auxiliary heating and heat preservation performance is not provided. In cold weather, the milk in the milk bottle is easy to be cooled, especially in the night of winter and when a baby is out. The digestive tract function of children is not strong, and gastrointestinal diseases are easily caused when cold food is eaten. Some milk bottles are externally added with a heat insulation structure layer to insulate the milk bottles when the milk bottles are manufactured. These products are bulky and inconvenient to use. The products are used for keeping the residual heat of the beverage in the feeding bottle to achieve the heat preservation effect, so that a time zone with higher temperature is provided in the starting stage, if the child needs to eat the beverage in the feeding bottle in the time zone, the temperature is further reduced, but if the child cannot eat the beverage after the temperature reduction treatment, the residual heat cannot be subjected to the heat preservation treatment. A feeding bottle with an automatic heating function is disclosed, for example, the publication No. CN104644449A, and the feeding bottle can be automatically and electrically heated, and the main technical scheme is that the feeding bottle is in contact with a metal conductor of a heating chassis to heat milk in the feeding bottle, and when the temperature of the milk reaches a set value, the power supply can be automatically cut off. The technical scheme is that the heater is implanted into the feeding bottle, the structure is complex, milk can react with heating metal in some cases, for example, yoghourt has certain acidity, so that the feeding bottle is not safe and sanitary, and is inconvenient to use. No. CN102462385A discloses a feeding bottle beverage heat preservation heater and a feeding bottle used by the same, and the feeding bottle heater consists of a heat preservation main body structure, a heat transfer medium in the heat preservation main body structure, a heating structure, a structure for containing feeding bottle beverages and the feeding bottle. The feeding bottle is characterized in that the heating structure heats the heat transfer medium, and the heat energy is transferred to the feeding bottle beverage through the heat transfer medium. This technical scheme structure is complicated, and is inconvenient to carry, also adopts the heating wire to pass through the medium heat transfer, but does not intervene more sanitary in the feeding bottle, but adopts outer aid heat bath heating efficiency nature, also can't use under the commercial power supply condition not, adopts the heating wire heating also unsafe moreover, and this technical scheme also has very big not enough.

Through the analysis, at present, no infant feeding bottle which is convenient to carry, safe and sanitary to use and capable of heating and preserving heat exists, and the problems need to be solved urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an infant is with heat preservation heating feeding bottle based on graphite alkene heating film assists heat, aim at is convenient for in time provide the suitable, safety and sanitation's of humidity fast heat preservation feeding bottle for the infant when going out.

In order to achieve the above object, the utility model provides a following technical scheme:

an infant is with heat preservation heating feeding bottle based on heat is assisted to graphite alkene generate heat membrane, includes: the feeding bottle comprises a feeding bottle, a graphene heating film layer, a heat insulation sleeve, a protective layer, a temperature sensor, a wire controller and an external power supply; the heating feeding bottle is arranged in the heat insulation sleeve, the wall of the feeding bottle is in close contact with the graphene heating film layer, the graphene heating film layer is arranged on the inner side of the heat insulation sleeve, the graphene heating film layer is firmly adhered to the heat insulation sleeve, the outer layer of the heat insulation sleeve is a waterproof protective layer, a temperature sensor is arranged inside the heat insulation side and close to the wall of the feeding bottle, the temperature sensor is connected with a wire controller through a wire, an external power supply is connected with the graphene heating film layer through the wire controller, a graphene heating film power loop is formed, and the graphene heating film layer is connected with a power supply to heat.

Graphene heating film layer, its characterized in that graphene heating film layer is transparent polymer heat conduction membrane, has the printing heating circuit on the graphene heating layer, and heating circuit is provided with chromium zirconium copper mass flow pole, and the output terminal of chromium zirconium copper mass flow pole is connected with the wire of line controller, and the line controller is connected with external power, switches on the circuit through the line controller, and graphene heating film layer begins to generate heat and heats or keeps warm to the feeding bottle.

Further, the thickness of the graphene heating film layer is 0.01-0.3mm, the heating temperature is 40-60 ℃, the graphene heating film layer is bent into a cylindrical shape, and a feeding bottle is placed in the cylindrical shape.

The wire controller is characterized in that one end of the wire controller is provided with a socket matched with the chromium-zirconium-copper collector terminal, the other end of the wire controller is provided with a USB interface, and the USB interface is matched with a USB socket of an external power supply or a charger.

Further controller of line accuse ware, a serial communication port, the line accuse ware be provided with temperature controller, shift knob, the shelves and the temperature indicator that adjust the temperature, temperature controller is connected with the temperature sensor wire, temperature controller passes through temperature sensor and acquires the instant temperature of milk bottle wall and with set up the temperature contrast to this controls the heating process of graphite alkene heating rete, the last LED temperature indicator that is provided with of temperature controller, the pilot lamp is red during the heating, the temperature indicator is green during the heat preservation.

The temperature of the temperature adjusting gear is displayed on a liquid crystal display to directly display the real-time temperature of the wall of the milk bottle, the temperature adjusting gear is set to be in the range of 30-60 ℃, and the temperature difference of each adjacent scale is 1 ℃.

The heat preservation cover, its characterized in that heat preservation cover is the sealed cylindric structure in bottom, and the skin is waterproof layer, the heat preservation cover material is one of fabric, non-woven fabrics or synthetic leather three, there is the zip fastener one side of heat preservation cover, merge zip fastener heat preservation cover and graphite alkene generate heat the rete and hug closely the feeding bottle wall, open the zip fastener and conveniently take out the feeding bottle.

The utility model discloses a benefit:

1. this technical scheme provides graphite alkene rete of generating heat and assists hot function, and graphite alkene rete of generating heat is generated heat fast simultaneously also relatively all with, makes the interior milk of bottle be heated evenly, in time feeds milk for the infant.

2. This technical scheme is provided with the insulation cover, can realize that the feeding bottle can take out at any time, convenient and practical, can in time cool off if the high temperature in the bottle to it is edible for the baby to be most suitable temperature.

3. This technical scheme adopts the fixed graphite alkene of elasticity device that generates heat and convenient temperature control and portable power source technique, makes us can move everywhere when enjoying the child raising, solves traditional infant's feeding bottle and is difficult to heat and heat retaining problem, and convenient practicality more is favorable to the popularization and the application of this product technique.

Drawings

Fig. 1 is a schematic structural view of a graphene heating film auxiliary heating-based heat-insulating heating feeding bottle for infants of the present invention;

in the figure: 1. feeding bottle, 2, graphite alkene heating film layer, 3, insulation cover, 4, protective layer, 5, temperature sensor, 6, drive-by-wire ware, 7, zip fastener, 8, shift knob, 9, liquid crystal display, 10, temperature indicator, 11, external power.

Detailed Description

An infant is with heat preservation heating feeding bottle based on heat is assisted to graphite alkene generate heat membrane, includes: the feeding bottle comprises a feeding bottle 1, a graphene heating film layer 2, a heat insulation sleeve 3, a protective layer 4, a temperature sensor 5, a wire controller 6 and an external power supply 11; feeding bottle 1 device of heating is in insulation cover 3, 1 wall in close contact with graphite alkene rete 2 that generates heat of feeding bottle, graphite alkene rete 2 that generates heat sets up in insulation cover 3 sides, graphite alkene rete 2 that generates heat firmly glues with insulation cover 3, the skin of insulation cover 3 is waterproof layer 4, it is inside near the bottle wall to be provided with temperature sensor 5 to keep warm to incline, temperature sensor 5 passes through the wire and is connected with line accuse ware 6, external power 11 is connected with graphite alkene heating rete 2 through line accuse ware 6, constitute graphite alkene heating film 2 electric power return circuit, switch-on power supply graphite alkene heating rete heats or keeps warm the feeding bottle.

Graphene heating film layer, its characterized in that graphene heating film layer 2 is transparent polymer heat conduction membrane, has printed heating circuit on the graphene heating layer 2, and heating circuit is provided with chromium zirconium copper mass flow pole, and the output terminal of chromium zirconium copper mass flow pole is connected with wire controller 6's wire, and wire controller 6 is connected with external power 11, switches on the circuit through the wire controller, and graphene heating film layer 2 begins to generate heat and heats or keeps warm feeding bottle 1.

Further, the thickness of the graphene heating film layer 2 is 0.01-0.3mm, the heating temperature is 40-60 ℃, the graphene heating film layer 2 is bent into a cylindrical shape, and the feeding bottle 1 is placed in the cylindrical shape.

The wire controller is characterized in that one end of the wire controller 6 is provided with a socket matched with the chromium zirconium copper collector terminal, the other end of the wire controller is provided with a USB interface, and the USB interface is matched with a USB socket of an external power supply 11 or a charger.

Further controller of line accuse ware, a serial communication port, line accuse ware 6 be provided with temperature controller, shift knob 8, the shelves 12 and the temperature indicator lamp 10 adjust the temperature, temperature controller and 5 wire connections of temperature sensor, temperature controller obtains the instant temperature of 1 wall of feeding bottle and contrasts with setting up the temperature through temperature sensor 5 to this controls the heating process of graphite alkene heating rete 2, be provided with LED temperature indicator lamp 10 on the temperature controller, the pilot lamp is red during the heating, the temperature indicator lamp is green during the heat preservation.

The temperature of the temperature adjusting gear 12 is further displayed as a liquid crystal display 9, the real-time temperature of the wall of the feeding bottle 1 is directly displayed, the temperature adjusting gear 12 is set to be in the range of 30-60 ℃, and the temperature difference of each adjacent scale is 1 ℃.

The heat preservation cover, its characterized in that heat preservation cover 3 is the sealed cylindric structure in bottom, and the skin is waterproof layer 4, and the 3 materials of heat preservation cover are one of fabric, non-woven fabrics or synthetic leather three, and there is zip fastener 7 one side of heat preservation cover 3, merges 7 heat preservation covers of zip fastener and graphite alkene generate heat the rete and hug closely the feeding bottle wall, opens 7 very convenient taking out feeding bottles of zip fastener.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the scope of the present invention.

Claims (7)

1. An infant is with heat preservation heating feeding bottle based on heat is assisted to graphite alkene generate heat membrane, includes: the feeding bottle comprises a feeding bottle, a graphene heating film layer, a heat insulation sleeve, a protective layer, a temperature sensor, a wire controller and an external power supply; the heating feeding bottle is characterized in that the heating feeding bottle is arranged in a heat insulation sleeve, the wall of the feeding bottle is in close contact with a graphene heating film layer, the graphene heating film layer is arranged on the inner side of the heat insulation sleeve, the graphene heating film layer is firmly adhered to the heat insulation sleeve, the outer layer of the heat insulation sleeve is a waterproof protective layer, a temperature sensor is arranged inside the heat insulation side and close to the wall of the feeding bottle, the temperature sensor is connected with a wire controller through a wire, an external power supply is connected with the graphene heating film layer through the wire controller to form a graphene heating film power loop, and the power supply is switched on to heat or insulate.

2. The heat-preservation heating feeding bottle for the infant based on auxiliary heating of the graphene heating film as claimed in claim 1, wherein the graphene heating film layer is a transparent polymer heat-conducting film, a printed heating circuit is arranged on the graphene heating layer, the heating circuit is provided with a chromium-zirconium-copper current collecting electrode, an output terminal of the chromium-zirconium-copper current collecting electrode is connected with a lead of a wire controller, the wire controller is connected with an external power supply, and the graphene heating film layer starts to heat or preserve heat of the feeding bottle through the conduction circuit of the wire controller.

3. The heat-preservation heating milk bottle for the infant based on the auxiliary heating of the graphene heating film as claimed in claim 1 or 2, wherein the thickness of the graphene heating film layer is 0.01-0.3mm, the heating temperature is 40-60 ℃, the graphene heating film layer is bent into a cylindrical shape, and the milk bottle is placed in the cylindrical shape.

4. The infant heat-preservation heating feeding bottle based on auxiliary heating of the graphene heating film as claimed in claim 1, wherein one end of a line controller is provided with a socket matched with a chromium-zirconium-copper collector terminal, the other end of the line controller is provided with a USB interface, and the USB interface is matched with a USB socket of an external power supply or a charger.

5. The heat-preservation heating feeding bottle for the infant based on auxiliary heating of the graphene heating film as claimed in claim 1, which is characterized in that a controller of a wire controller is provided with a temperature controller, a switch button, a temperature regulation gear and a temperature indicator lamp, wherein the temperature controller is connected with a temperature sensor through a wire, the temperature controller obtains the instant temperature of the wall of the feeding bottle through the temperature sensor and compares the instant temperature with the set temperature so as to control the heating process of the graphene heating film layer, the temperature controller is provided with an LED temperature indicator lamp, the indicator lamp is red during heating, and the temperature indicator lamp is green during heat preservation.

6. The graphene exothermic film assisted heating baby feeding bottle according to claim 1 or 5, wherein the temperature of the temperature range is displayed on a liquid crystal display, the real-time temperature of the wall of the feeding bottle is directly displayed, the temperature range is set to be 30-60 ℃, and the temperature difference between every two adjacent scales is 1 ℃.

7. The heat-preservation heating feeding bottle for the infant based on the auxiliary heating of the graphene heating film as claimed in claim 1, wherein the heat-preservation sleeve is of a cylindrical structure with a sealed bottom, the outer layer is a waterproof protection layer, the heat-preservation sleeve is made of one of textile fabrics, non-woven fabrics or artificial leather, a zipper is arranged on one side of the heat-preservation sleeve, the heat-preservation sleeve and the graphene heating film layer are combined to be tightly attached to the wall of the feeding bottle, and the feeding bottle can be conveniently taken out by opening the zipper.

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