CN217118921U - Flexible heater and feeding bottle heat-insulating heating sleeve using same - Google Patents

Abstract

The utility model discloses a flexible heater and a feeding bottle heat-insulating heating jacket applying the same, which relate to the technical field of electric heating devices and comprise a heat reflecting layer, a heating component, a light indicating component and a heat conducting layer; the heating element and the light indicating element are both arranged between the heat reflecting layer and the heat conducting layer, the heating surface of the heating element faces the heat conducting layer, and the light emitting surface of the light indicating element faces the heat reflecting layer. The utility model mainly solves the problem that whether the flexible heater is in operation or not can not be visually judged; the flexible heater not only can provide a heating and heat-preserving function through the heating component, but also can provide an operation state indicating function through the light indicating component, and a user can visually judge the operation condition of the heating component through the light indicating component.

Description

Flexible heater and feeding bottle heat-insulating heating sleeve using same

Technical Field

The utility model relates to an electric heating device technical field specifically is a flexible heater and use its feeding bottle heat preservation heating jacket.

Background

Embedding an electric heating wire or a far infrared lamp strip between the two pieces of fabric to form a flexible heater; the flexible heater has a sheet heating function, and the whole flexible heater can bear bending to a certain degree.

The flexible heater can be applied to articles such as a feeding bottle heat-insulating heating sleeve, a heating eye shield, a physiotherapy instrument, clothes and the like, and provides a certain heating or heat-insulating function for the articles.

The flexible heater in the prior art only has a heating or heat preservation function, but does not have an indication function, people cannot visually judge whether the flexible heater is in operation, and only can indirectly judge whether the flexible heater is in operation or not by sensing or detecting the heat of the flexible heater, so that the accuracy is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a flexible heater can judge the behavior of the part that generates heat directly perceivedly.

Another object of the utility model is to provide a feeding bottle heat preservation heating jacket, can judge the operational aspect of its inside heating element directly perceivedly.

In order to achieve the above object, the utility model provides a following technical scheme: a flexible heater comprises a heat reflecting layer, a heat generating component, a light indicating component and a heat conducting layer; the heating part and the light indicating part are all clamped between the heat reflecting layer and the heat conducting layer, the heating surface of the heating part faces the heat conducting layer, and the light emitting surface of the light indicating part faces the heat reflecting layer.

In the above technical solution, the flexible heater further includes a flexible circuit board sandwiched between the heat reflecting layer and the heat conducting layer; the light indicating component is a plurality of LED lamp beads carried on the flexible circuit board.

In the above technical scheme, the heating component is a plurality of far infrared lamp beads carried on the flexible circuit board.

In the above technical scheme, the heating component is a heating wire, and the heating wire is coiled and then clamped between the heat reflecting layer and the heat conducting layer.

A feeding bottle heat preservation heating jacket comprises the flexible heater, a bottle body sheath, a bottle bottom support position and an electric controller; at least a portion of the flexible heat generating plate is embedded in the bottle body sheath, the heat reflective layer faces the outside of the bottle body sheath, and the heat conductive layer faces the inside of the bottle body sheath; the bottle body sheath can be rolled into a cylinder shape, and two sides of the bottle body sheath can be jointed; the bottle base support position is fixed at one end of the bottle body sheath, and the free part of the bottle base support position can be jointed with the end of the bottle body sheath; the electric controller is fixed on the surface of the bottle body sheath and is electrically connected with the heating component of the flexible heater and the light indicating component.

In the above technical scheme, the electric controller includes an electric control housing, a circuit board, a power switch and an adjusting switch; the power switch and the regulating switch are in signal connection with the circuit board, the power switch and the regulating switch are all accommodated in the electric control shell, a plurality of keys are formed on the electric control shell, the keys are respectively aligned with the power switch and the regulating switch, and when the keys are pressed, the corresponding power switch or regulating switch can be triggered; the circuit board is electrically connected with the flexible heating plate.

In the above technical solution, the electric controller further comprises a display screen, and the display screen is in signal connection with the circuit board; the display screen is accommodated in the electric control shell, a display window is arranged on the electric control shell, and the display screen is aligned with the display window.

In the technical scheme, the feeding bottle heat-insulating heating jacket further comprises a power supply interface, and the power supply interface is electrically connected with the electric controller.

Compared with the prior art, the beneficial effects of the utility model are that:

1. according to the flexible heater, the heating surface of the heating part faces the heat conducting layer, and the light emitting surface of the light indicating part faces the heat reflecting layer, so that not only can the heating and heat preservation function be provided through the heating part, but also the running state indicating function can be provided through the light indicating part, and a user can intuitively judge the running condition of the heating part through the light indicating part;

2. this kind of feeding bottle heating insulation cover not only can provide the heating heat preservation function for the body sheath through the part that generates heat of flexible heater, can also provide running state instruction function through light indicating component, and convenient to use person judges the behavior of the part that generates heat through light indicating component directly perceivedly.

Drawings

Fig. 1 is a perspective view of a first embodiment of the present invention.

Fig. 2 is an exploded view of a first embodiment of the present invention.

Fig. 3 is an exploded view of a second embodiment of the present invention.

Fig. 4 is an exploded view of another embodiment of the present invention.

Fig. 5 is a perspective view of a second embodiment of the present invention.

Fig. 6 is a perspective view of the second embodiment of the present invention in another direction.

Fig. 7 is a perspective structural view of a second embodiment of the present invention.

Fig. 8 is an exploded view of an electric controller according to a second embodiment of the present invention.

The reference signs are: 1. a heat reflective layer; 2. a flexible circuit board; 3. an Led lamp bead; 4. a heat generating line; 5. a far infrared lamp bead; 6. a thermally conductive layer; 7. a flexible heater; 8. a bottle body sheath; 81. a first magic tape module; 82. a second magic tape module; 83. a third magic tape module; 84. a flannelette layer; 85. an outer jacket; 9. a bottle bottom support position; 91. a fourth magic tape module; 10. an electric controller; 101. an electronic control housing; 1011. pressing a key; 1012. displaying a window; 102. a circuit board; 103. a display screen; 104. a power switch; 105. an adjustment switch; 106. an indicator light; 11. and a power interface.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, the present embodiment provides a flexible heater, which includes a heat reflecting layer 1, a heat generating component, a light indicating component, and a heat conducting layer 6; the heat generating component and the light indicating component are both arranged between the heat reflecting layer 1 and the heat conducting layer 6, the heat generating surface of the heat generating component faces the heat conducting layer 6, and the light emitting surface of the light indicating component faces the heat reflecting layer 1.

The heat reflecting layer 1 is made of fabric with heat reflecting performance and can reflect heat; the heat conductive layer 6 is a porous and breathable fabric, such as heat insulating cotton.

Referring to fig. 2 and 3, in some possible embodiments, the flexible heater further includes a flexible circuit board 2, the flexible circuit board 2 is a Printed Circuit Board (PCB), and the flexible circuit board 2 is sandwiched between the heat reflective layer 1 and the heat conductive layer 6; light indication component is a plurality of LED lamp pearls 3 of carrying on flexible circuit board 2, and in this embodiment, LED lamp pearl 3 is carried on flexible circuit board 2 with the form of paster, and 3 equipartitions of LED lamp pearl are on flexible circuit board 2 and form the square matrix, and LED lamp pearl 3's light colour is one or more in red, blue or the green that have indicateability, also can be other colours.

The part that generates heat is for carrying on a plurality of far infrared lamp pearls 5 on flexible circuit board 2, and in this embodiment, far infrared lamp pearl 5 is carried on flexible circuit board 2 with the form of paster, and 5 equipartitions of far infrared lamp pearl are on flexible circuit board 2 and form the square matrix, and the wavelength of far infrared lamp pearl 5 is 740 nm.

In these embodiments, flexible circuit board 2 is square, is convenient for LED lamp pearl 3 and far infrared lamp pearl 5 to form the square matrix on flexible circuit board 2, makes far infrared lamp pearl 5 calorific capacity distribute evenly on whole flexible heater.

In the embodiments, a wire for taking electricity is LED out from the flexible circuit board 2, and the LED lamp beads 3 and the far infrared lamp beads 5 take electricity through the printed circuit on the flexible circuit board 2.

Referring to fig. 4, in other possible embodiments, the heating component is a heating wire 4, the heating wire 4 is one of a heating wire with a plastic sheath and a carbon fiber heating wire, and the heating wire 4 can generate heat after a direct current is supplied to the heating wire 4; the heating wire 4 is coiled and then clamped between the heat reflecting layer 1 and the heat conducting layer 6, and in this embodiment, the heating wire 4 is coiled and then uniformly distributed between the heat reflecting layer 1 and the heat conducting layer 6.

In the embodiments, the flexible circuit board 2 is in a strip shape, and the LED lamp beads 3 are uniformly distributed on the flexible circuit board 2 and form a column.

In the embodiments, a lead for getting electricity is LED out from the flexible circuit board 2, and the LED lamp beads 3 get electricity through the printed circuit on the flexible circuit board 2; the positive and negative electrodes of the heating wire 4 can be connected to the flexible circuit board 2, and the positive and negative electrodes of the heating wire 4 can also be led out to be independent wires so as to take electricity for the heating wire 4.

The heat reflective layer 1 and the heat conductive layer 6 are integrated by means of gluing, stitching or hot pressing, so that the heat generating component and the light indicating component are sandwiched and fixed between the heat reflective layer 1 and the heat conductive layer 6 to form a flexible heater.

According to the flexible heater, the heating surface of the heating component faces the heat conduction layer 6, the light emitting surface of the light indicating component faces the heat reflection layer 1, the heating and heat preservation functions can be provided through the heating component, the running state indicating function can also be provided through the light indicating component, and a user can visually judge the running condition of the heating component through the light indicating component.

Example two:

referring to fig. 5 to 8, the present embodiment provides a feeding bottle heating and heat insulating sleeve, which includes the flexible heater described in the embodiment, and further includes a bottle body sheath 8, a bottle bottom supporting position 9, and an electric controller 10.

Wherein, the bottle body sheath 8 is a textile with at least two layers, and the bottle body sheath 8 is rectangular when unfolded; the bottle bottom support 9 is textile and the outer contour is in a circular sheet shape.

At least one part of the flexible heater 7 is embedded in the bottle body sheath 8; the bottle body sheath 8 can be rolled into a cylindrical shape, and both sides of the bottle body sheath 8 can be joined; the bottle base support position 9 is fixed at one end of the bottle body sheath 8, and the free part of the bottle base support position 9 can be jointed with the end of the bottle body sheath 8; the electric controller 10 is fixed on the surface of the bottle body sheath 8 and is electrically connected with the heating component of the flexible heater 7 and the light indicating component so as to control the operation of the flexible heater 7.

Specifically, a first magic tape module 81 and a second magic tape module 82 which can be matched with each other are respectively arranged on two sides of the bottle body sheath 8, and the two sides of the bottle body sheath 8 are jointed through the first magic tape module 81 and the second magic tape module 82; the one end that body sheath 8 was fixed with bottle end support position 9 is equipped with third magic and pastes module 83, and the periphery of bottle end support position 9 is around being equipped with fourth magic subsides module 91 that can mutually support with third magic subsides module 83, pastes module 83 and fourth magic subsides module 91 with the free part of bottle end support position 9 and this end of body sheath 8 and joins in marriage through third magic.

Referring to fig. 5, in particular, the body covering 8 includes a flannelette layer 84 and an outer sheath 85; wherein, the outer protective layer 85 is a hydrophobic or waterproof fabric, such as canvas, fiber cloth, leather and artificial leather; when the bottle body sheath 8 is rolled into a cylinder shape, the flannelette layer 84 is on the inner side, and the outer protective layer 85 is on the outer side; the flexible heater 7 is sandwiched between the flannelette layer 84 and the outer sheath 85, the heating surface of the flexible heater 7 faces the flannelette layer 84, i.e. the heat conductive layer 633 of the flexible heater 7 faces the flannelette layer 84 of the bottle body sheath 8, and the heat reflective layer 131 of the flexible heater 7 faces the outer sheath 85 of the bottle body sheath 8.

Specifically, the bottle base 9 is made of a thermal insulating material, for example, two layers of textiles are stacked to form the bottle base 9, and thermal insulating cotton is filled between the two layers of textiles to form the bottle base 9.

Specifically, one of the first magic tape module 81 and the second magic tape module 82 is a magic tape matt surface, the other one is a magic tape hook surface, the first magic tape module 81 and the second magic tape module 82 are both in a square block shape, the first magic tape module 81 is located on the inner side of the bottle body sheath 8, the second magic tape module 82 is located on the outer side of the bottle body sheath 8, and both the first magic tape module 81 and the second magic tape module 82 are sewn on the bottle body sheath 8, so that the bottle body sheath 8 can join the two sides of the bottle body sheath 8 through the first magic tape module 81 and the second magic tape module 82, thereby forming a cylindrical shape; one of the third magic tape module 83 and the fourth magic tape module 91 is a magic tape hair surface, the other one is a magic tape hook surface, the third magic tape module 83 is in a long strip shape, the fourth magic tape module 91 is in a ring shape, the third magic tape module 83 is sewn on one side of the bottle body sheath 8 and is fully covered on the side, the fourth magic tape module 91 is sewn on the bottle bottom support position 9 and surrounds the bottle bottom support position 9, when the bottle body sheath 8 forms a cylinder shape, the third magic tape module 83 can contact with the fourth magic tape module 91, and the free part of the bottle bottom support position 9 can be jointed with one end of the bottle body sheath 8.

Referring to fig. 6 and 8, specifically, the electric controller 10 includes an electric control housing 101, a circuit board 102, a power switch 104, and an adjusting switch 105; the electronic control casing 101 is a silica gel casing, the circuit board 102 is a printed circuit board, the circuit board 102 is loaded with a main control, the main control is a Micro Control Unit (MCU) such as a single chip microcomputer or an embedded chip, and the power switch 104 and the adjusting switch 105 are microswitches; the power switch 104 and the adjusting switch 105 are in signal connection with the circuit board 102, in this embodiment, the power switch 104 and the adjusting switch 105 are mounted on the circuit board 102 in a form of a plug-in, at this time, the power switch 104 and the adjusting switch 105 are both connected with the main control signal through a printed circuit on the circuit board 102, in other possible embodiments, the power switch 104 and the adjusting switch 105 are independent parts, at this time, the power switch 104 and the adjusting switch 105 are led out of a lead and welded on the circuit board 102, and further connected with the main control signal through the printed circuit on the circuit board 102; the circuit board 102, the power switch 104 and the adjusting switch 105 are all accommodated in the electronic control housing 101, in this embodiment, the circuit board 102 is fixed in the electronic control housing 101 through glue, a plurality of keys 1011 are formed on the electronic control housing 101, the keys 1011 are aligned with the power switch 104 and the adjusting switch 105, and when the keys 1011 are pressed, the corresponding power switch 104 or the adjusting switch 105 can be triggered; the circuit board 102 is electrically connected to the flexible heater 7, and specifically, after the flexible circuit board 2 and/or the heating wire 4 of the flexible heater 7 are/is led out of the wires, the wires are electrically connected to the circuit board 102 according to polarity, and the wires led out of the flexible circuit board 2 and/or the heating wire 4 are routed between the flannelette layer 84 and the outer protective layer 85 of the bottle body sheath 8.

Further, the electric controller 10 further includes a display screen 103, the display screen 103 is in signal connection with the circuit board 102, in this embodiment, the display screen 103 is mounted on the circuit board 102 in a form of a plug-in, at this time, the display screen 103 is connected with the main control signal through a printed circuit on the circuit board 102, in other possible embodiments, the display screen 103 is an independent component, at this time, a lead is led out from the display screen 103 and is welded on the circuit board 102, and further, the display screen 103 is connected with the main control signal through the printed circuit on the circuit board 102; in this embodiment, the display screen 103 is an LED type nixie tube, and in other possible embodiments, the display screen 103 is an LED display screen or an LCD display screen with backlight; the display screen 103 is accommodated in the electronic control housing 101, a display window 1012 is arranged on the electronic control housing 101, the display window 1012 is a through hole or a thinner part on the electronic control housing 101, and the display screen 103 is aligned with the display window 1012, so that the display content of the display screen 103 can be transmitted through the display window 1012.

Furthermore, the circuit board 102 of the electric controller 10 is provided with the indicator light 106, the indicator light 106 is electrically connected with the main controller, the indicator light 106 can be set to be on when the heating wire 432 of the flexible heater 7 is powered on, the heating wire 432 of the flexible heater 7 is powered off when the heating wire 432 is powered off, and the light of the indicator light 106 can pass through the electric control shell 101 of the electric controller 10, so that the running state of the heating wire 432 is indicated.

Further, the feeding bottle heating and heat insulating sleeve further comprises a power supply interface 11, the power supply interface 11 is electrically connected with the electric controller 10, the power supply interface 11 is a waterproof female power supply interface, and specifically, the power supply interface 11 is a waterproof Type-C female power supply interface; in this embodiment, the power interface 11 is mounted in a housing, the housing is fixed on the surface of the bottle sheath 8, the power interface 11 leads out a wire and is electrically connected to the circuit board 102 of the electric controller 10, and the wire led out from the power interface 11 is routed between the flannelette layer 84 and the outer sheath 85 of the bottle sheath 8.

A temperature sensor, such as an NTC thermistor, is mounted on the circuit board 102 of the electric controller 10, and can acquire the temperature inside the bottle body sheath 8, and the temperature sensor is connected with a main control signal; the key 1011 of the electric controller 10 is pressed to trigger the power switch 104, so that the flexible circuit board 2 and/or the heating wire 4 of the flexible heater are powered on, the key 1011 of the electric controller 10 is pressed to trigger the regulating switch 105 to preset the required temperature, at the moment, the far infrared lamp bead 5 or the heating wire 4 operates, the Led lamp bead 3 is lighted, the temperature of the inner side of the bottle body sheath 8 rises, when the main controller obtains that the temperature of the inner side of the bottle body sheath 8 rises to the preset temperature through the temperature sensor, the far infrared lamp bead 5 or the heating wire 4 is powered off, and the Led lamp bead 3 is turned off; after the far infrared lamp beads 5 or the heating wire 4 is powered off, the temperature of the inner side of the bottle body sheath 8 is reduced, when the main control learns that the temperature of the inner side of the bottle body sheath 8 is reduced to the preset temperature through the temperature sensor, the far infrared lamp beads 5 or the heating wire 4 are electrified again, and the temperature of the inner side of the bottle body sheath 8 is increased again; in this way, the temperature inside the body jacket 8 is maintained constant; the display screen 103 can display the running state of the far infrared lamp beads 5 or the heating wires 4 and the information such as the temperature acquired by the current temperature sensor under the control of the master control, and the display screen 103 can be set to be refreshed every 3-10 seconds, so that a user can know the temperature of the inner side of the bottle body sheath 8 at any time.

Referring to fig. 2, 6 and 8, in the manufacturing process of the heating and insulating sleeve for a feeding bottle, a hole is formed in advance in the outer protective layer 85 of the bottle body sheath 8 to allow a conducting wire of the flexible heater 7 and the power interface 11 to pass through and be connected to the circuit board 102 in the electric control shell 101, then the electric control shell 101 and the power interface 11 are respectively sewn on the outer protective layer 85 of the bottle body sheath 8, so that the electric control shell 101 and the power interface 11 are respectively fixed on the outer protective layer 85 of the bottle body sheath 8, then the flannelette layer 84 is laid, the flexible heater 7 is laid on the flannelette layer 84 according to the direction, the outer protective layer 85 is sewn on the flannelette layer 84 by using a sewing machine to form the bottle body sheath 8, and at this time, the flexible heater 7 is buried in the bottle body sheath 8; sewing one side of the bottle bottom support position 9 in the center of the long edge of one side of the bottle body sheath 8, sewing the third magic tape module 83 on the side of the bottle body sheath 8, and sewing the fourth magic tape module 91 on the periphery of the bottle bottom support position 9; the first magic tape module 81 and the second magic tape module 82 are respectively sewn at the short sides of the two sides of the bottle body sheath 8, so that the first magic tape module 81 is positioned at the inner side of the bottle body sheath 8, and the second magic tape module 82 is positioned at the outer side of the bottle body sheath 8; thus, the manufacturing of the feeding bottle heating insulating sleeve is completed.

After waterproof glue is coated at the opening at the rear end of the electric control shell 101, the whole feeding bottle heating and heat-insulating sleeve has good waterproof performance and can adapt to a washing environment, and when the feeding bottle heating and heat-insulating sleeve is stained with dirt, the whole feeding bottle heating and heat-insulating sleeve can be washed by water.

When the feeding bottle heating and heat insulating sleeve is used, the bottle body sheath 8 is rolled into a cylinder shape with a proper size according to the size of a feeding bottle, two sides of the bottle body sheath 8 are jointed through the first magic tape module 81 and the second magic tape module 82, and the free part of the bottle bottom support position 9 is jointed with one end of the bottle body sheath 8 through the third magic tape module 83 and the fourth magic tape module 91; putting the feeding bottle filled with milk into a bottle body sheath 8, pressing a key 1011 of an electric controller 10 to trigger a power switch 104, electrifying a flexible circuit board 2 and/or a heating wire 4 of a flexible heater, pressing the key 1011 of the electric controller 10 to trigger an adjusting switch 105 to preset required temperature, at the moment, operating a far infrared lamp bead 5 or the heating wire 4, lighting an LED lamp bead 3, increasing the temperature of the inner side of the bottle body sheath 8, when a main controller obtains that the temperature of the inner side of the bottle body sheath 8 is increased to the preset temperature through a temperature sensor, powering off the far infrared lamp bead 5 or the heating wire 4, and turning off the LED lamp bead 3; after the far infrared lamp beads 5 or the heating wires 4 are powered off, the temperature of the inner side of the bottle body sheath 8 is reduced, when the main control knows that the temperature of the inner side of the bottle body sheath 8 is reduced to the preset temperature through the temperature sensor, the far infrared lamp beads 5 or the heating wires 4 are powered on again, and the temperature of the inner side of the bottle body sheath 8 is increased again; in this way, the temperature inside the body jacket 8 is maintained constant; the display screen 103 can display the running state of the far infrared lamp beads 5 or the heating wires 4 and the information such as the temperature acquired by the current temperature sensor under the control of the master control; the user also can judge the running state of far infrared lamp pearl 5 or heating wire 4 directly perceivedly through the light of Led lamp pearl 3.

This kind of feeding bottle heating insulation cover not only can provide the heating heat preservation function for body sheath 8 through the part that generates heat of flexible heater 7, can also provide running state instruction function through light indicating component, and convenient to use person judges the behavior of the part that generates heat through light indicating component directly perceivedly.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A flexible heater is characterized by comprising a heat reflecting layer, a heat generating component, a light indicating component and a heat conducting layer;

the heating part and the light indicating part are all clamped between the heat reflecting layer and the heat conducting layer, the heating surface of the heating part faces the heat conducting layer, and the light emitting surface of the light indicating part faces the heat reflecting layer.

2. The flexible heater according to claim 1, wherein: the flexible circuit board is clamped between the heat reflection layer and the heat conduction layer;

the light indicating component is a plurality of LED lamp beads carried on the flexible circuit board.

3. The flexible heater according to claim 2, wherein: the heating component is a plurality of far infrared lamp beads carried on the flexible circuit board.

4. The flexible heater according to claim 2, wherein: the heating component is a heating wire, and the heating wire is coiled and then clamped between the heat reflecting layer and the heat conducting layer.

5. A feeding bottle heat preservation heating jacket is characterized by comprising the flexible heater of any one of claims 1 to 4, a bottle body sheath, a bottle bottom support position and an electric controller;

at least a portion of the flexible heater is embedded in the body jacket, the heat reflective layer faces an exterior side of the body jacket, and the heat conductive layer faces an interior side of the body jacket;

the bottle body sheath can be rolled into a cylinder shape, and two sides of the bottle body sheath can be jointed;

the bottle base support position is fixed at one end of the bottle body sheath, and the free part of the bottle base support position can be jointed with the end of the bottle body sheath;

the electric controller is fixed on the surface of the bottle body sheath and is electrically connected with the heating component of the flexible heater and the light indicating component.

6. A feeding bottle heat-insulating heating jacket according to claim 5, characterized in that: the electric controller comprises an electric control shell, a circuit board, a power switch and an adjusting switch;

the power switch and the regulating switch are in signal connection with the circuit board, the power switch and the regulating switch are all accommodated in the electric control shell, a plurality of keys are formed on the electric control shell, the keys are respectively aligned with the power switch and the regulating switch, and when the keys are pressed, the corresponding power switch or regulating switch can be triggered;

the circuit board is electrically connected with the flexible heater.

7. The feeding bottle insulated heating jacket according to claim 6, characterized in that: the electric controller also comprises a display screen which is in signal connection with the circuit board;

the display screen is accommodated in the electric control shell, a display window is arranged on the electric control shell, and the display screen is aligned with the display window.

8. A feeding bottle heat-insulating heating jacket according to claim 5, characterized in that: the electric control device further comprises a power supply interface, and the power supply interface is electrically connected with the electric controller.

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