CN210783324U - Modular chargeable heating travel vacuum cup - Google Patents

Abstract

The utility model discloses a but modularization charging heating's travel thermos cup belongs to the tourism carrying device field of going out, including bottle lid, shell and inner bag and base, be provided with battery, charge-discharge circuit and temperature detect switch in the base, the base outside is provided with the mouth that charges, battery charge mouth, charge switch and heating switch of being equipped with outward. The utility model discloses a set up the thermos bottom and be provided with the treasured that charges, can solve people and travel out to take the precious condition that charges again outward, set up the hot plate in the thermos bottom simultaneously, can heat water, the condition that can't heat water in the field has been solved, make the water-jug with the integrative structure that charges, and set up scalability shadoof, make things convenient for people to more conveniently take when carrying in the field, put at the knapsack or put when the car, it is the same very convenient storage with general circular bottle to retract the shadoof of scalability.

Description

Modular chargeable heating travel vacuum cup

Technical Field

The utility model relates to a travel carrying device field especially relates to a travel thermos cup of chargeable heating of modularization.

Background

In the era of rapid development of the economy nowadays, people can pay more attention to the health of themselves to carry out outdoor exercises, according to the investigation of the Chinese industry information network, the number of people participating in the outdoor exercises in 2015 reaches 1.3 hundred million, which accounts for about 10 percent of the total population of the whole country, compared with 2010, the number of people participating in the outdoor exercises in China is doubled and increased in less than 5 years, and the number of people participating in the outdoor exercises in China is expected to reach 4.35 hundred million in 2020. Although outdoor exercises product is at the rapid renewal, still can't solve lightly to carry such as precious, flashlight, cleaning appliance, outdoor thermos cup scheduling problem that charges. Therefore, a multifunctional combined thermos cup is needed to be designed, so that people who go out for travel are more convenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but modularization charging heating's travel thermos cup to solve the functional single technical problem of thermos cup of current tourism takeout.

The utility model provides a travel thermos cup of chargeable heating of modularization, includes bottle lid, shell and inner bag and base, the inner bag inlays to be established in the shell, the opening of bottle lid and the rotatory setting of upper end screw thread of shell and stifled sealed inner bag, the bottom screw thread swivelling joint of base and shell, be provided with battery, charge-discharge circuit and temperature detect switch in the base, the base outside is provided with the external equipment mouth that charges, the battery mouth that charges, charge switch and heating switch, the top of base is provided with the hot plate, the hot plate sets up with the bottom contact of inner bag, the hot plate is connected with charge-discharge circuit through temperature detect switch and heating switch, charge-discharge circuit is connected with the battery, charge-discharge circuit is connected with the external equipment mouth that charges through charging switch, the battery mouth is connected with charge-discharge circuit.

Further, the heating plate comprises a substrate layer, a dielectric layer, a resistance layer, a conductor layer, an NTC layer and a glass layer, wherein the dielectric layer is arranged on the substrate layer, the resistance layer, the conductor layer and the NTC layer are all arranged on the dielectric layer, and the glass layer is arranged on the resistance layer and the conductor layer;

the base plate is set to be a circular structure plate, the diameter of the base plate layer is 100mm, a medium layer fixing groove and a medium layer stirring hole are formed in the medium layer, the medium layer stirring hole is formed in the center of the medium layer, the medium layer fixing groove is formed in the outer side of the medium layer stirring hole, the medium layer stirring hole and the medium layer fixing groove are both circular holes, and the radius of the medium layer stirring hole is larger than that of the medium layer fixing groove.

Furthermore, the number of the medium layer fixing grooves is three, the three medium layer fixing grooves are arranged on the outer side of the medium layer stirring hole in an equal radian mode, and the three medium layer fixing grooves are arranged on the same arc line;

the resistance layer is provided with a resistance layer fixing reserved area, a resistance layer stirring hole and a resistance layer contact reserved area, the resistance layer fixing reserved area is arranged above the dielectric layer fixing groove, and the resistance layer stirring hole is arranged above the dielectric layer stirring empty hole;

the conductor layer comprises connecting wires, NTC electrodes, NTC signal joints and current interfaces, the connecting wires are used for connecting discontinuous parts of disconnected resistance wires with each other, the number of the current interfaces is two, the current interfaces are set as current input and output points of the resistance wires, the number of the NTC electrodes is two, the two NTC electrodes are respectively arranged on two sides of the NTC layer, and the NTC signal joints are arranged at two ends of the NTC electrodes;

be provided with glass layer fixed orifices, glass layer NTC signal on the glass layer and connect hole, glass layer electric current and connect hole and glass layer stirring hole, the glass layer fixed orifices sets up the top in the fixed reservation district of resistance layer, glass layer NTC signal connects the hole setting in NTC signal contact top, glass layer electric current connects the hole setting in the top of current interface, glass layer stirring hole sets up the top in resistance layer stirring hole.

Further, the telescopic lifting rod has been seted up on the side of shell, the telescopic lifting rod includes rotary rod, telescopic link I, arc casing, telescopic link II and horizontal lifting rod, the lifting rod frame has been seted up on the lateral wall of shell, the rotatable setting of rotary rod is in one side of lifting rod frame, the both ends setting of rotary rod is all fixed to be set up by telescopic link I, the arc casing is fixed on rotary rod and telescopic link I, II nestings of telescopic link are in telescopic link I, the one end at two telescopic link II is fixed to horizontal lifting rod.

Further, be provided with hand-press atomizer on the bottle lid, hand-press atomizer includes pressurized-water button, nozzle, T type pipe, bionical valve and spray pipe, the number of pressurized-water button is two, and the opposition setting is in the opposition both sides of bottle lid respectively, and two pressurized-water buttons are respectively with the horizontal pipe both ends sealing connection of T type pipe, bionical valve sets up prevents in the vertical intraductal water backflow that prevents of bottom of T type pipe flows into pressurized-water button, and the vertical pipe in bottom of T type pipe stretches into in the inner bag, the bottom of inner bag is stretched into to spray pipe one end, and one end is connected with the nozzle.

Further, the charging and discharging circuit comprises a USB output interface, and the USB output interface comprises a power supply output pin and a ground pin;

a first voltage-stabilizing capacitor C16 is arranged between the power supply output pin and the ground pin;

the ground leg is also coupled with an N-channel enhanced field effect transistor, and a first voltage-sharing resistor R28 is connected in series between the grid electrode of the N-channel enhanced field effect transistor and the ground leg;

a second voltage-sharing resistor R25 is further coupled between the drain electrode of the N-channel enhancement type field effect transistor and the ground pin;

the source electrode of the N-channel enhancement type field effect transistor is coupled with an oscillation circuit, and the oscillation circuit is also coupled with a ground pin;

the second voltage-sharing resistor R25 is further coupled with a third voltage-sharing resistor R24, and a second voltage-stabilizing capacitor C28 is further coupled between the third voltage-sharing resistor R24 and the second voltage-sharing resistor R25; the oscillation circuit comprises a first oscillation unit, one end of which is coupled with the source electrode of the N-channel enhanced field effect transistor; the second oscillation unit is coupled between the other end of the first oscillation unit and the power supply output pin; an NPN transistor Q11, having a base coupled to a node to which the second oscillating unit and the first oscillating unit are coupled, an emitter grounded, and a collector forming a controlled terminal; the fourth voltage-sharing resistor R29 is coupled with the base electrode and the emitter electrode of the NPN tube Q11;

the first oscillating unit comprises a first oscillating resistor R31 and a first oscillating capacitor C23 which are arranged in parallel, and the second oscillating unit comprises a second oscillating resistor R32 and a second oscillating capacitor C22 which are arranged in parallel.

Further, the bottom of the base is provided with an LED bulb, and the LED bulb is connected with the storage battery through a conducting wire.

The utility model adopts the above technical scheme, the utility model discloses following technological effect has:

the utility model discloses a set up the thermos bottom and be provided with the treasured that charges, can solve people's tourism and go out to take the precious condition that charges of extra income, set up the hot plate simultaneously in the thermos bottom, can heat water, the condition that can't heat water in the field has been solved, make the water-jug with the integrative structure that charges, and set up scalability shadoof, make things convenient for people to more conveniently take when carrying in the field, put at the knapsack or put on the car, it is the same very convenient deposit with general round bottle to retract scalability shadoof, press atomizer at bottle lid installation hand, can conveniently wash hand when the field trip, wash water economy more such as polishing shoes, make more practical.

Drawings

Fig. 1 is a sectional view of the pull-out lifting rod of the present invention.

Fig. 2 is a schematic view of the lifting rod structure of the present invention.

Fig. 3 is a schematic view of the base structure of the present invention.

Fig. 4 is a schematic view of the bottle cap structure of the present invention.

Fig. 5 is an appearance diagram of the utility model.

Fig. 6 is a schematic diagram of the charging and discharging circuit of the present invention.

Fig. 7 is a schematic view of the structure of the handle frame of the present invention.

Fig. 8 is a bottom view of the base of the present invention.

Fig. 9 is a schematic diagram of the structure of the heating plate of the present invention.

Fig. 10 is an exploded view of each layer of the heating plate of the present invention.

Fig. 11 is a schematic view of the bottle cap spraying structure of the present invention.

Fig. 12 is a schematic view of the bottle cap spraying structure of the present invention without the squeezing structure.

In the figure: 1-bottle cap, 1.1-water pressing button, 1.2-spraying nozzle, 1.3-T-shaped pipe, 1.4-bionic valve, 1.5-water spraying pipe, 2-shell, 3-inner container, 4-lifting rod, 4.1-rotating rod, 4.2-telescopic rod I, 4.3-arc shell, 4.4-telescopic rod II, 4.5-transverse lifting rod, 5-base, 6-storage battery, 7-charging and discharging circuit, 8-external charging port, 9-storage battery charging port, 10-heating plate, 10.1-substrate layer, 10.2-dielectric layer, 10.21-dielectric layer fixing groove, 10.22-dielectric layer stirring hole, 10.3-resistance layer, 10.31-resistance layer fixing reserved area, 10.32-resistance wire, 10.33-resistance layer stirring hole, 10.34-resistance layer joint reserved area, 10.4-conductor layer, 10.41-connecting wire, 10.42-NTC electrode, 10.43-NTC signal contact, 10.44-current interface, 10.5-NTC layer, 10.6-glass layer, 10.61-glass layer fixing hole, 10.62-glass layer NTC signal connection hole, 10.63-glass layer current connection hole, 10.64-glass layer stirring hole and 11-LED bulb.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and by referring to preferred embodiments. It should be understood, however, that the numerous specific details set forth in the specification are merely set forth to provide a thorough understanding of one or more aspects of the present invention, which may be practiced without these specific details.

Referring to fig. 1, the utility model provides a travel thermos cup of chargeable heating of modularization, including bottle lid 1, shell 2 and inner bag 3 and base 5, inner bag 3 inlays and establishes in shell 2, the rotatory setting of upper end screw thread of bottle lid 1 and shell 2 seals up the opening of inner bag 3, the bottom screw thread swivelling joint of base 5 and shell 2. Be provided with battery 6, charge and discharge circuit 7 and temperature detect switch in the base 5, the base 5 outside is provided with external equipment charge mouth 8, battery charge mouth 9, charge switch and heating switch, the top of base 5 is provided with hot plate 10, hot plate 10 and the bottom contact setting of inner bag 3, hot plate 10 is connected with charge and discharge circuit 7 through temperature detect switch and heating switch, charge and discharge circuit 7 is connected with battery 6, charge and discharge circuit 7 is connected with external equipment charge mouth 8 through charging switch, battery charge mouth 9 is connected with charge and discharge circuit 7. The bottom of the heating plate 10 is provided with a heat insulation layer to prevent the heat from influencing the bottom storage battery 6. The temperature control switch is a KSD9700 type temperature control switch.

In the embodiment of the present invention, the heating plate 10 includes a substrate layer 10.1, a dielectric layer 10.2, a resistance layer 10.3, a conductor layer 10.4, an NTC layer 10.5 and a glass layer 10.6, the dielectric layer 10.2 is disposed on the substrate layer 10.1, the resistance layer 10.3, the conductor layer 10.4 and the NTC layer 10.5 are all disposed on the dielectric layer 10.2, and the glass layer 10.6 is disposed on the resistance layer 10.3 and the conductor layer 10.4.

The substrate layer 10.1 is set to be a circular structure plate, the diameter of the substrate layer 10.1 is 100mm, a medium layer fixing groove 10.21 and a medium layer stirring hollow hole 10.22 are formed in the medium layer 10.2, the medium layer stirring hollow hole 10.22 is arranged in the center of the medium layer 10.2, the medium layer fixing groove 10.21 is arranged on the outer side of the medium layer stirring hollow hole 10.22, the medium layer stirring hollow hole 10.22 and the medium layer fixing groove 10.21 are both set to be circular holes, and the radius of the medium layer stirring hollow hole 10.22 is larger than the radius of the medium layer fixing groove 10.21.

In the embodiment of the present invention, the number of the dielectric layer fixing slots 10.21 is three, the three dielectric layer fixing slots 10.21 are arranged at the outer side of the dielectric layer stirring hole 10.22 in equal radian, and the three dielectric layer fixing slots 10.21 are arranged on the same arc line;

the resistance layer 10.3 comprises a plurality of curved resistance lines 10.32 that the radius is inequality, series connection between resistance line 10.32 and resistance line 10.32, resistance layer 10.3 is provided with the fixed reservation of resistance layer district 10.31, resistance layer stirring hole 10.33 and resistance layer contact reservation district 10.34, the fixed reservation of resistance layer district 10.31 sets up in dielectric layer fixed slot 10.21 top, resistance layer stirring hole 10.33 sets up in dielectric layer stirring vacancy 10.22 top.

The conductor layer 10.4 includes connecting wire 10.41, NTC electrode 10.42, NTC signal contact 10.43 and current interface 10.44, connecting wire 10.41 interconnects the discontinuity of disconnected resistance line 10.32, the quantity of current interface 10.44 is two, sets up to the current input output point of resistance line 10.32, the quantity of NTC electrode 10.42 is two, and two NTC electrodes 10.42 set up respectively in the both sides of NTC layer 10.5, NTC signal contact 10.43 sets up at NTC electrode 10.42 both ends.

Glass layer 10.6 is last to be provided with glass layer fixed orifices 10.61, glass layer NTC signal connection hole 10.62, glass layer electric current connection hole 10.63 and glass layer stirring hole 10.64, glass layer fixed orifices 10.61 sets up the top at the fixed reservation of resistive layer district 10.31, glass layer NTC signal connection hole 10.62 sets up in NTC signal contact 10.43 top, glass layer electric current connection hole 10.63 sets up the top at current interface 10.44, glass layer stirring hole 10.64 sets up the top at resistive layer stirring hole 10.33.

The NTC layer 5 is 0.1.3-0.1.5mm thick, 1.8-2.5mm long and 1.8-2.2mm wide, and the NTC layer 5 is printed by using resistance paste of ESL NTC-2115 type. The spacing between the resistance lines 3.2 and 3.2 is 16-17 microns. The temperature detected by the NTC layer 5 is transmitted to the temperature control switch, and when the temperature is more than 60 degrees, the temperature control switch is switched off, and the heating of the heating plate 10 is stopped. When the temperature is lower than 60 degrees at ordinary times, the heating plate 10 heats the bottom of the inner container 3 after the heating switch is pressed, and the heating switch and the temperature control switch are connected in series. The charging switch and the heating switch are both key switches. The spacing between the resistor lines 10.32 and 10.32 is 16-17 microns, and the spacing is set to reduce arcing and thus provide a longer useful life.

The telescopic lifting rod 4 is arranged on the side edge of the shell 2, and the bottle cap 1 is provided with a hand-press spraying device. The bottle cap 1 is a convex bottle cap, the outer side of the convex part is provided with a spiral thread, and the convex part is arranged by a sealing ring and a water outlet of the inner container 3 in a sealing mode in order to enable the sealing performance to be better. The practical technical material of shell 2 is made, sets up between shell 2 and the inner bag 3 and keeps warm by the heat preservation foam blanket for the heat preservation effect is better. The outer side of the shell 2 is coated with the existing nano heat insulating material to isolate and reduce heat loss. The inner container 3 is made of food-grade 304 stainless steel materials and is set to be a circular structure.

The embodiment of the utility model provides an in, telescopic shadoof 4 includes rotary rod 4.1, telescopic link I4.2, arc casing 4.3, telescopic link II 4.4 and horizontal lifting rod 4.5, the shadoof frame has been seted up on the lateral wall of shell 2, the rotatable setting of rotary rod 4.1 is in one side of shadoof frame, rotary rod 4.1's both ends set up equal fixed setting by telescopic link I4.2, arc casing 4.3 is fixed on rotary rod 4.1 and telescopic link I4.2, telescopic link II 4.4 nestification is in telescopic link I4.2, horizontal lifting rod 4.5 fixes the one end at two telescopic links II 4.4. The arc of arc casing 4.3 is the same with the arc of shell 2, and behind the horizontal lifting rod 4.5 compression telescopic link II 4.4, horizontal lifting rod 4.5 contacts and parallel arrangement with one side of arc casing 4.3 for arc casing 4.3 just fills in the square or trapezoidal frame that shell 2 was seted up with horizontal lifting rod 4.5, constitutes the circular shape arcwall face. When needing to use horizontal lifting rod 4.5, buckle out horizontal lifting rod 4.5 or press arc casing 4.3 of rotary rod 4.1 one end with the finger and make and rotate around rotary rod 4.1, horizontal lifting rod 4.5 comes out, with the horizontal lifting rod 4.5 of hand power rope, stretch out in telescopic link I4.2 telescopic link II 4.4 for more make things convenient for daily placing and carry the level when peaceful. Arc casing 4.3 and rotary rod 4.1, telescopic link I4.2 all are fixed the setting, and the one end of telescopic link I4.2 does not stretch out outside arc casing 4.3, but is flat mutually with arc casing 4.3, can be parallel with stretching out arc casing 4.3 one side after the compression of horizontal lifting rod 4.5 goes back. The water pressing button 1.1, the bionic valve 1.4 and the T-shaped pipe 1.3 can be purchased by an implementer on a Taobao and directly installed and used in a polar mode, and the water pressing button, the bionic valve and the T-shaped pipe are all of the existing structures.

The embodiment of the utility model provides an in, hand pressing atomizer includes pressurized-water button 1.1, nozzle 1.2, T type pipe 1.3, bionical valve 1.4 and spray pipe 1.5, pressurized-water button 1.1's number is two, and opposition setting is in the opposition both sides of bottle lid 1 respectively, two pressurized-water button 1.1 respectively with the horizontal pipe both ends sealing connection of T type pipe 1.3, bionical valve 1.4 sets up in the vertical intraductal water backflow prevention pressurized-water button 1.1 in T type pipe 1.3's bottom, and the vertical pipe in bottom of T type pipe 1.3 stretches into in inner bag 3, spray pipe 1.5 one end stretches into the bottom of inner bag 3, and one end is connected with nozzle 1.2. The water pressing button 1.1 is arranged to be a telescopic air bag structure, and a spring compression air inlet is arranged at the joint of the air bag structure and the T-shaped pipe 1.3. The structure is the same as the structure of the existing hand water press for barreled water, and the specific structure refers to the patent structure disclosed in the application number 201821635981.7. The telescopic gasbag structure sets up in the outside of bottle lid 1, sets up two effects that make the compression spraying better, and the pressure of the inside is bigger, sets up at the opposite face simultaneously, accords with the demand of anthropology. The spray nozzle 1.2 is provided with a plurality of small spray holes which are communicated with the spray pipe 1.5. Wherein, the spray nozzle 1.2 is provided with a rotatable cover to cover, thereby preventing the bottle from falling down and flowing water at ordinary times. The bionic valve 1.4 is directly sleeved in the pipe by using the bionic valve structure of patent application No. 201721454002.3.

The embodiment of the utility model provides an in, still include base 5, base 5 and 2 bottom threaded connection of shell.

Be provided with battery 6 and charge-discharge circuit 7 in the base 5, the base 5 outside is provided with external equipment and charges mouthful 8, battery and charge mouthful 9 and the switch of charging, charge-discharge circuit 7 is connected with battery 6, charge-discharge circuit 7 charges mouthful 8 through the switch and is connected with the external equipment, battery charges mouthful 9 and is connected with charge-discharge circuit 7. The outside of external equipment charging mouth 8 and battery charging mouth 9 all is provided with spiral cover switch, covers and closes, prevents the entering such as piece.

In the embodiment of the present invention, the charging and discharging circuit 7 includes a USB output interface, and the USB output interface includes a power output pin and a ground pin;

a first voltage-stabilizing capacitor C16 is arranged between the power supply output pin and the ground pin;

the ground leg is also coupled with an N-channel enhanced field effect transistor, and a first voltage-sharing resistor R28 is connected in series between the grid electrode of the N-channel enhanced field effect transistor and the ground leg;

a second voltage-sharing resistor R25 is further coupled between the drain electrode of the N-channel enhancement type field effect transistor and the ground pin;

the source electrode of the N-channel enhancement type field effect transistor is coupled with an oscillation circuit, and the oscillation circuit is also coupled with a ground pin;

the second voltage-sharing resistor R25 is further coupled with a third voltage-sharing resistor R24, and a second voltage-stabilizing capacitor C28 is further coupled between the third voltage-sharing resistor R24 and the second voltage-sharing resistor R25; the oscillation circuit comprises a first oscillation unit, one end of which is coupled with the source electrode of the N-channel enhanced field effect transistor; the second oscillation unit is coupled between the other end of the first oscillation unit and the power supply output pin; an NPN transistor Q11, having a base coupled to a node to which the second oscillating unit and the first oscillating unit are coupled, an emitter grounded, and a collector forming a controlled terminal; and the fourth voltage equalizing resistor R29 is coupled with the base electrode and the emitter electrode of the NPN tube Q11.

The first oscillating unit comprises a first oscillating resistor R31 and a first oscillating capacitor C23 which are arranged in parallel, and the second oscillating unit comprises a second oscillating resistor R32 and a second oscillating capacitor C22 which are arranged in parallel. The model of the NPN pipe Q11 is S8050. The resistance value of the first voltage-sharing resistor R28 is 10K ohms. The resistance value of the third voltage-sharing resistor R24 is 1K ohm. The resistance value of the second voltage-sharing resistor R25 is 0.02 ohm, and the capacity of the second voltage-stabilizing capacitor C28 is 0.01 microfarad. The resistance of the first oscillating resistor R31 is set to 1M ohm, the capacity of the first oscillating capacitor C23 is set to 0.1 microfarad, the resistance of the second oscillating resistor R32 is set to 1M ohm, the capacity of the second oscillating capacitor C22 is set to 0.1 ohm, and the resistance of the fourth equalizing resistor R29 is set to 100K ohm.

This circuit one can provide better steady voltage effect, two come to compensate the voltage of output between lower margin and lower margin, and the compensating mode compensates the load through the output current of enhancement mode N channel field effect transistor, when charging, if the fluctuation appears in the load, and under the unchangeable circumstances of drain voltage, the current can be shunted to the lower margin by the lower margin and realize current balance, guarantees that charging voltage is comparatively stable.

The bottom of the base 5 is provided with an LED bulb 11, and the LED bulb 11 is connected with the storage battery 6 through a conducting wire. A bulb key switch is arranged between the LED bulb 11 and the storage battery 6 and is used for controlling the LED bulb 11 to be turned on and off, and the specific key is not labeled in the figure. The LED bulb 11 is used for illumination in outdoor travel and can be used as an illumination tool in travel.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. 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.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a travel thermos cup of chargeable call of modularization, includes bottle lid (1), shell (2) and inner bag (3) and base (5), inner bag (3) inlay is established in shell (2), the opening of bottle lid (1) and the rotatory setting of upper end screw thread of shell (2) and stifled inner bag (3), base (5) and the bottom screw thread swivelling joint of shell (2), its characterized in that: be provided with battery (6), charge and discharge circuit (7) and temperature detect switch in base (5) in, base (5) outside is provided with external equipment and charges mouthful (8), battery charge mouthful (9), charge switch and heating switch, the top of base (5) is provided with hot plate (10), hot plate (10) set up with the bottom contact of inner bag (3), hot plate (10) are connected with charge and discharge circuit (7) through temperature detect switch and heating switch, charge and discharge circuit (7) are connected with battery (6), charge and discharge circuit (7) are connected with external equipment charge mouthful (8) through charging switch, battery charge mouthful (9) are connected with charge and discharge circuit (7).

2. The modular, electrically chargeable, heated travel thermos cup of claim 1, wherein: the heating plate (10) comprises a substrate layer (10.1), a dielectric layer (10.2), a resistance layer (10.3), a conductor layer (10.4), an NTC layer (10.5) and a glass layer (10.6), wherein the dielectric layer (10.2) is arranged on the substrate layer (10.1), the resistance layer (10.3), the conductor layer (10.4) and the NTC layer (10.5) are all arranged on the dielectric layer (10.2), and the glass layer (10.6) is arranged on the resistance layer (10.3) and the conductor layer (10.4);

the substrate layer (10.1) is set to be a circular structure plate, the diameter of the substrate layer (10.1) is 100mm, a medium layer fixing groove (10.21) and a medium layer stirring hollow hole (10.22) are formed in the medium layer (10.2), the medium layer stirring hollow hole (10.22) is formed in the center of the medium layer (10.2), the medium layer fixing groove (10.21) is formed in the outer side of the medium layer stirring hollow hole (10.22), the medium layer stirring hollow hole (10.22) and the medium layer fixing groove (10.21) are both set to be circular holes, and the radius of the medium layer stirring hollow hole (10.22) is larger than that of the medium layer fixing groove (10.21).

3. The modular, electrically chargeable, heated travel thermos cup of claim 2 wherein: the number of the medium layer fixing grooves (10.21) is three, the three medium layer fixing grooves (10.21) are arranged on the outer side of the medium layer stirring hollow hole (10.22) in equal radian, and the three medium layer fixing grooves (10.21) are arranged on the same arc line;

the resistor layer (10.3) is composed of a plurality of arc-shaped resistor wires (10.32) with different radiuses, the resistor wires (10.32) are connected with the resistor wires (10.32) in series, the resistor layer (10.3) is provided with a resistor layer fixing reserved area (10.31), a resistor layer stirring hole (10.33) and a resistor layer joint reserved area (10.34), the resistor layer fixing reserved area (10.31) is arranged above the dielectric layer fixing groove (10.21), and the resistor layer stirring hole (10.33) is arranged above the dielectric layer stirring hole (10.22);

the conductor layer (10.4) comprises a connecting wire (10.41), NTC electrodes (10.42), NTC signal contacts (10.43) and current interfaces (10.44), the connecting wire (10.41) connects the discontinuous parts of the disconnected resistance wires (10.32), the number of the current interfaces (10.44) is two, the current interfaces are arranged as current input and output points of the resistance wires (10.32), the number of the NTC electrodes (10.42) is two, the two NTC electrodes (10.42) are respectively arranged at two sides of the NTC layer (10.5), and the NTC signal contacts (10.43) are arranged at two ends of the NTC electrodes (10.42);

be provided with glass layer fixed orifices (10.61), glass layer NTC signal connect hole (10.62), glass layer current connect hole (10.63) and glass layer stirred cell (10.64) on glass layer (10.6), glass layer fixed orifices (10.61) set up in the fixed top of reserving district (10.31) of resistive layer, glass layer NTC signal connects hole (10.62) and sets up in NTC signal contact (10.43) top, glass layer current connects hole (10.63) and sets up the top at current interface (10.44), glass layer stirred cell (10.64) sets up the top in resistive layer stirred cell (10.33).

4. The modular, electrically chargeable, heated travel thermos cup of claim 1, wherein: telescopic lifting rod (4) have been seted up on the side of shell (2), telescopic lifting rod (4) include rotary rod (4.1), telescopic link I (4.2), arc casing (4.3), telescopic link II (4.4) and horizontal lifting rod (4.5), the lifting rod frame has been seted up on the lateral wall of shell (2), rotary rod (4.1) rotatable setting is in one side of lifting rod frame, the both ends setting of rotary rod (4.1) is all fixed to be set up by telescopic link I (4.2), arc casing (4.3) are fixed on rotary rod (4.1) and telescopic link I (4.2), telescopic link II (4.4) nestification is in telescopic link I (4.2), the one end at two telescopic link II (4.4) is fixed in horizontal lifting rod (4.5).

5. The modular, electrically chargeable, heated travel thermos cup of claim 1, wherein: be provided with hand on bottle lid (1) and press atomizer, hand is pressed atomizer and is included pressurized-water button (1.1), nozzle (1.2), T type pipe (1.3), bionic valve (1.4) and spray pipe (1.5), the number of pressurized-water button (1.1) is two, and the opposition setting is in the opposition both sides of bottle lid (1) respectively, two pressurized-water button (1.1) respectively with the horizontal pipe both ends sealing connection of T type pipe (1.3), bionic valve (1.4) set up in the vertical intraductal prevention water that flows backward pressurized-water button (1.1) in the bottom of T type pipe (1.3), and the vertical pipe in bottom of T type pipe (1.3) stretches into in inner bag (3), spray pipe (1.5) one end stretches into the bottom of inner bag (3), and one end is connected with nozzle (1.2).

6. The modular, electrically chargeable, heated travel thermos cup of claim 1, wherein: the charging and discharging circuit (7) comprises a USB output interface, and the USB output interface comprises a power supply output pin and a ground pin;

a first voltage-stabilizing capacitor C16 is arranged between the power supply output pin and the ground pin;

the ground leg is also coupled with an N-channel enhanced field effect transistor, and a first voltage-sharing resistor R28 is connected in series between the grid electrode of the N-channel enhanced field effect transistor and the ground leg;

a second voltage-sharing resistor R25 is further coupled between the drain electrode of the N-channel enhancement type field effect transistor and the ground pin;

the source electrode of the N-channel enhancement type field effect transistor is coupled with an oscillation circuit, and the oscillation circuit is also coupled with a ground pin;

the second voltage-sharing resistor R25 is further coupled with a third voltage-sharing resistor R24, and a second voltage-stabilizing capacitor C28 is further coupled between the third voltage-sharing resistor R24 and the second voltage-sharing resistor R25; the oscillation circuit comprises a first oscillation unit, one end of which is coupled with the source electrode of the N-channel enhanced field effect transistor; the second oscillation unit is coupled between the other end of the first oscillation unit and the power supply output pin; an NPN transistor Q11, having a base coupled to a node to which the second oscillating unit and the first oscillating unit are coupled, an emitter grounded, and a collector forming a controlled terminal; the fourth voltage-sharing resistor R29 is coupled with the base electrode and the emitter electrode of the NPN tube Q11;

the first oscillating unit comprises a first oscillating resistor R31 and a first oscillating capacitor C23 which are arranged in parallel, and the second oscillating unit comprises a second oscillating resistor R32 and a second oscillating capacitor C22 which are arranged in parallel.

7. The modular, electrically chargeable, heated travel thermos cup of claim 1, wherein: the LED lamp is characterized in that an LED bulb (11) is arranged at the bottom of the base (5), and the LED bulb (11) is connected with the storage battery (6) through a lead.

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