CN111227594A - Separable accompanying constant-temperature cup - Google Patents

Abstract

The invention relates to the field of drinking appliances, and provides a separable following constant-temperature cup which comprises a cup body, a cup cover and a base, wherein the cup cover is covered at the upper end of the cup body; the cup body comprises an inner container, a phase change shell, a vacuum shell and a cup body shell which are sequentially arranged from inside to outside, wherein a phase change material filling layer is formed between the inner container and the phase change shell, and a vacuum interlayer is formed between the vacuum shell and the cup body shell; the outer side wall of the inner container is also provided with a heating sheet, the heating sheet is connected with a cup body main control board arranged below the inner container, the cup body main control board is fixed below the inner container through a connecting seat, and the bottom end of the connecting seat is matched with a bottom cover with a metal ring; the base comprises a base shell and a bottom shell matched with the base shell, and the base shell and the bottom shell jointly form a space for accommodating the base main control board and the rechargeable battery. The invention has the advantages that: simple structural design, convenient carrying and simple and convenient use and operation.

Description

Separable accompanying constant-temperature cup

Technical Field

The invention relates to the field of drinking water appliances, in particular to a separable accompanying constant-temperature cup.

Background

In recent years, the rapid development of society brings great abundance on materials, and the requirements of people on the quality of life are higher and higher. The constant temperature cup on the existing market is mostly produced under the limited traditional production and processing conditions, and the processed product has the defects of complex structure, inconvenience in carrying, troublesome use and operation and the like, and can not meet the requirement of high-quality drinking water of customers.

Accordingly, there is a need for a thermostatic cup with simple structure, easy carrying and operation.

Disclosure of Invention

The invention aims to solve the technical problem of providing a separable accompanying constant-temperature cup which is simple in structural design, convenient to carry and simple and convenient to use and operate.

The invention adopts the following technical scheme to solve the technical problems:

a separable accompanying constant temperature cup comprises a cup body, a cup cover arranged at the upper end of the cup body in a covering mode, and a base arranged at the lower end of the cup body in a cushioning mode; the cup body comprises an inner container, a phase change shell, a vacuum shell and a cup body shell which are sequentially arranged from inside to outside, wherein a phase change material filling layer is formed between the inner container and the phase change shell, and a vacuum interlayer is formed between the vacuum shell and the cup body shell; the outer side wall of the inner container is also provided with a heating sheet, the heating sheet is connected with a cup body main control board arranged below the inner container, the cup body main control board is fixed below the inner container through a connecting seat, and the bottom end of the connecting seat is matched with a bottom cover with a metal ring; the base comprises a base shell and a bottom shell matched with the base shell, and the base shell and the bottom shell jointly form a space for accommodating the base main control board and the rechargeable battery; the base main control board is respectively connected with the cup body main control board and the rechargeable battery.

In a preferred embodiment of the present invention, the phase change material filling layer is filled with a phase change material; and vacuumizing the vacuum interlayer.

In a preferred embodiment of the present invention, a phase change housing is disposed on an upper portion of an outer sidewall of the inner container, a heating sheet is disposed on a lower portion of the outer sidewall, and a heat insulating sleeve is disposed on an outer periphery of the heating sheet; the outer side wall of the phase change shell is provided with the vacuum shell, the upper end of the vacuum shell extends upwards to be matched with an upper port of the liner, and the lower end of the vacuum shell extends downwards to be matched with a connecting seat below the liner.

As one of the preferable modes of the invention, the connecting seat is arranged at the bottom end of the vacuum shell and is matched with the inner side wall of the vacuum shell; the outer side wall of the connecting seat is formed with an annular buckling groove, a rolling rib is formed at the corresponding position of the inner side wall of the vacuum shell, and the annular buckling groove is matched with the rolling rib.

As one preferable mode of the present invention, the connecting seat specifically includes a partition plate, and an upward annular plate and a downward annular plate which are respectively formed by extending in the upper and lower directions along the outer edge of the partition plate; the upward annular plate is provided with the annular buckling groove, and the downward annular plate is provided with the water sealing ring accommodating groove; a first accommodating groove is formed between the upward annular plate and the partition plate, and an inner container and heat insulation cotton padded at the bottom of the inner container are matched in the first accommodating groove; a second accommodating groove is formed between the downward annular plate and the partition plate, and a cup body main control plate is matched in the second accommodating groove.

As one preferable mode of the invention, the bottom cover is arranged at the bottom of the cup body, and the upper surface of the bottom cover extends upwards to form a butt joint matching part matched with the inner side wall of the connecting seat; the outer side wall of the butt joint matching part is longitudinally provided with a first positioning rib, a first positioning groove is formed in the corresponding position of the inner side wall of the connecting seat, and the first positioning rib is in limit matching with the first positioning groove; the outer side wall of the butt joint matching part is further provided with a first buckling groove along the circumferential direction of the outer side wall, a first buckling rib is arranged at the corresponding position of the inner side wall of the connecting seat, and the first buckling groove is in buckling fit with the first buckling rib.

As one of the preferable modes of the invention, a main control chip and a cup body conductive elastic needle are arranged on the cup body main control board, the direction of the cup body conductive elastic needle faces to the bottom cover, and the cup body conductive elastic needle is in butt contact with a metal ring on the bottom cover; the cup body main control board is also connected with a first temperature sensor and a second temperature sensor; one end of the first temperature sensor is connected with the cup body main control board, and the other end of the first temperature sensor extends upwards to be in contact with the bottom of the inner container so as to detect the liquid temperature of the inner container; one end of the second temperature sensor is connected with the cup body main control board, and the other end of the second temperature sensor extends upwards to be connected with the side wall of the heating sheet so as to detect the temperature of the heating sheet; in addition, still meet through heating plate power supply wire between heating plate and the automatically controlled mainboard.

As one of the preferable modes of the invention, a second positioning rib is longitudinally arranged on the outer side wall of the base shell, a second positioning groove is arranged at a corresponding position on the inner side wall of the bottom shell, and the second positioning rib is in limit fit with the second positioning groove; a second buckling groove is further formed in the outer side wall of the base shell along the circumferential direction of the outer side wall, a second buckling rib is arranged at a corresponding position of the inner side wall of the bottom shell, and the second buckling groove is in limit fit with the second buckling rib;

in addition, the upper surface of the base shell is also provided with a plurality of third buckling ribs, third buckling grooves are formed in corresponding positions of the bottom cover, and the third buckling ribs are matched with the third buckling grooves in a buckling mode.

As one preferable mode of the present invention, a space enclosed by the base shell and the bottom shell specifically contains a base main control board, a rechargeable battery, a pressing board, a display screen and a shading member; the base main control board is fixed in the base, a rechargeable battery is connected below the base main control board, and a display screen is connected to the side of the base main control board; the display screen is fixed on the base shell through the pressing plate, and one side of the display surface of the display screen is matched with the light shading piece.

As one preferable mode of the present invention, a pressing plate fitting groove extends inwards from the inner side wall of the base housing, and the pressing plate fitting groove is fitted with a fourth fastening rib provided on the pressing plate; the outer side wall of the pressing plate is attached with a display screen, the outer side wall of the display screen is attached with a shading piece, and the outer side wall of the shading piece is attached to the base shell at a corresponding position; the pressing plate is matched with the fourth buckling rib through the pressing plate matching groove, and the display screen and the shading piece are fixed on the side wall of the base shell.

As one of the preferable modes of the invention, a base conductive pogo pin, a main chip, a charge and discharge management chip and two touch springs are arranged on the base main control board; the setting direction of the base conductive elastic needle faces to the bottom cover and is in butt contact with the metal ring on the bottom cover; the main chip and the charge and discharge management chip are arranged towards the bottom shell; the setting directions of the two touch springs face the side wall of the base shell and are in contact with the corresponding positions of the base shell.

In a preferred embodiment of the present invention, the base is made of translucent plastic, and is generally made of PC, so that the information on the display screen can be obtained from the outside. In addition, in order to cooperate with the touch spring, a mark is arranged at the corresponding position of the base shell contacted with the touch spring; when the touch spring is needed, the operation can be completed only by touching the mark on the outer side wall of the base shell.

As one preferable mode of the invention, the base is further provided with a charging port, and the opening of the charging port is matched with a dustproof soft plug. The charging port is used for external USB charging; when the thermostatic cup needs to be charged, the USB is inserted into the charging port, the inserted USB is connected with the USB interface on the base main control panel, and the rechargeable battery is further charged; when charging is not needed, the dustproof soft plug is inserted into the charging port to play a role in protection.

Compared with the prior art, the invention has the advantages that:

(1) the thermostatic cup is simple in structural design, modular in structure and strong in expansibility;

(2) the thermostatic cup integrally comprises a cup body, a cup cover and a base; when the user does not need to use the heating function, the base is not assembled, and only the cup body and the cup cover are carried; when a user needs to use the heating constant temperature, the independent base can be directly charged, after the charging is finished, the base is connected with the cup body, and the heating constant temperature function is performed under the coordination of each electric control device; therefore, the thermostatic cup is convenient to carry, very simple and convenient to use and operate and wide in application;

(3) according to the invention, the phase-change material filling layer is formed between the inner container and the phase-change shell, and the phase-change material is arranged in the phase-change material filling layer, so that hot water in the inner container can be rapidly cooled, and the cooled water can be kept at a proper temperature for a long time, thereby meeting the requirements of users; meanwhile, a closed vacuum interlayer is formed between the vacuum shell and the cup body shell, the vacuum interlayer can achieve the effects of heat insulation and short-time heat preservation, the defect of excessive heat dissipation of the outer wall of the cup body is effectively overcome, a user is prevented from being scalded in the carrying process, and potential safety hazards in use are eliminated.

Drawings

FIG. 1 is a schematic view showing the overall structure of a separable traveling thermostatic cup in embodiment 1;

FIG. 2 is an exploded view of a separable traveling thermostatic cup in accordance with embodiment 1;

FIG. 3 is an exploded view of the cup and lid of example 1;

FIG. 4 is an exploded view of the base in example 1;

FIG. 5 is an exploded view of the cup liner, phase change shell, vacuum shell and cup shell of example 1;

FIG. 6 is a front sectional view of the separable traveling thermostatic cup in example 1;

FIG. 7 is a front sectional view of the cup body in example 1;

FIG. 8 is an assembled view of the base in embodiment 1;

FIG. 9 is a front sectional view of a base in example 1;

FIG. 10 is a schematic view showing the structure of a main control panel of a cup body in example 1;

FIG. 11 is a schematic view showing the structure of the upper surface of the base main control board in example 1;

fig. 12 is a schematic view of a downward structure of the base main control board in example 1.

In the figure: 1 is a cup body, 11 is an inner container, 111 is heat insulation cotton, 12 is a phase change shell, 13 is a vacuum shell, 131 is a rolling rib, 14 is a cup body shell, 15 is a heating plate, 151 is a heat insulation sleeve, 16 is a connecting seat, 161 is an annular buckling groove, 162 is a water sealing ring, 163 is a separation plate, 164 is an upward annular plate, 165 is a downward annular plate, 166 is a first positioning groove, 167 is a first buckling rib, 17 is a cup body main control plate, 171 is a main control chip, 172 is a cup body conductive elastic pin, 173 is a first temperature sensor, 174 is a second temperature sensor, 175 is a heating plate power supply lead, 18 is a bottom cover, 181 is a metal ring, 182 is a butt joint matching part, 183 is a first positioning rib, 184 is a first buckling groove, 185 is a first sealing ring, 186 is a soft cushion, 187 is a third buckling groove, 2 is a cup cover, 3 is a base, 31 is a base shell, 311 is a second positioning rib, 312 is a second buckling groove, 313 is a third buckling rib, 314 is the clamp plate cooperation groove, 32 is the drain pan, 321 is the second constant head tank, 322 is the second and detains the position muscle, 323 is the second sealing washer, 33 is base master control board, 331 is the electrically conductive bullet needle of base, 332 is the main chip, 333 is the charge and discharge management chip, 334 is the touch spring, 335 is the USB interface, 34 is rechargeable battery, 35 is the clamp plate, 351 is the fourth and detains the position muscle, 36 is the display screen, 37 is the shading spare, 38 is the mouth that charges, 4 is dustproof soft stopper.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

Example 1

As shown in fig. 1-12, the separable following constant temperature cup of the present embodiment includes a cup body 1, a cup cover 2 covering an upper end of the cup body 1, and a base 3 cushioning a lower end of the cup body 1.

Referring to fig. 5 and 6, the cup body 1 includes an inner container 11, a phase change shell 12, a vacuum shell 13 and a cup body shell 14, which are sequentially arranged from inside to outside, wherein a phase change material filling layer is formed between the inner container 11 and the phase change shell 12, and a vacuum interlayer is formed between the vacuum shell 13 and the cup body shell 14; wherein, the outer side wall of the inner container 11 is also provided with a heating sheet 15, and the heating sheet 15 is connected with a cup body main control board 17 arranged below the inner container 11; the cup main control plate 17 is fixed below the inner container 11 through a connecting seat 16, and a bottom cover 18 with a metal ring 181 is fitted at the bottom end of the connecting seat 16.

Referring to fig. 4, 8 and 9, the base 3 includes a base shell 31 and a bottom shell 32 cooperating therewith, which together form a space for accommodating the base main control board 33, the rechargeable battery 34, the pressing board 35, the display screen 36 and the light shielding member 37; the base main control board 33 is fixed in the base 3, the rechargeable battery 34 is connected below the base main control board 33, and the display screen 36 is connected to the side of the base main control board 33; the display screen 36 is fixed on the base housing 31 by the pressing plate 35, and a light shielding member 37 is fitted on one side of the display surface of the display screen 36. In addition, the base main control board 33 is also connected to the cup main control board 17.

Further, referring to fig. 6, in the present embodiment, a phase change housing 13 is disposed on an upper portion of an outer sidewall of the inner container 11, and a heating sheet 15 is disposed on a lower portion of the outer sidewall; further, a heat insulating jacket 151 is additionally provided on the outer circumference of the heating sheet 15 for effective heat insulation. In addition, the outer side wall of the phase change housing 13 is closely attached to the vacuum housing 13, the upper end of the vacuum housing 13 extends upward to be matched with the upper port of the inner container 11, and the lower end of the vacuum housing 13 extends downward to be matched with the connecting seat 16 below the inner container 11.

Further, referring to fig. 6, in the present embodiment, the connection seat 16 is specifically disposed at the bottom end of the vacuum casing 13 and is matched with the inner sidewall of the vacuum casing 13. Wherein, an annular groove 161 is formed on the outer side wall of the connecting base 16, a rolling rib 131 is formed on the corresponding position of the inner side wall of the vacuum casing 13, and the annular groove 161 is matched with the rolling rib 131. In addition, a water sealing ring accommodating groove is further formed in the outer side wall of the connecting seat 16, which is in contact with the vacuum housing 13, and a water sealing ring 162 is accommodated in the water sealing ring accommodating groove. Specifically, the connecting section 16 specifically includes a partition plate 163, and an upward annular plate 164 and a downward annular plate 165 respectively formed to extend in the up-down direction thereof along the outer edge of the partition plate 163. The upward annular plate 164 is provided with the annular catching groove 161, and the downward annular plate 165 is provided with the water sealing ring accommodating groove; a first accommodating groove is formed between the upward annular plate 164 and the partition plate 163, and the inner container 11 and the heat insulation cotton 111 padded at the bottom of the inner container 11 are matched in the first accommodating groove; a second receiving groove is formed between the downward ring plate 165 and the partition plate 163, and the cup main control plate 17 is fitted in the second receiving groove.

Further, referring to fig. 7, in the present embodiment, the bottom cover 18 is disposed at the bottom of the cup body 1, and the upper surface of the bottom cover 18 extends upward to form a butt-joint matching portion 182 matching with the inner sidewall of the connecting seat 16. First positioning ribs 183 are longitudinally arranged on the outer side wall of the butt joint matching portion 182, first positioning grooves 166 are formed in corresponding positions of the inner side wall of the connecting seat 16, and the first positioning ribs 183 are in limit matching with the first positioning grooves 166. Meanwhile, a first buckling groove 184 is further formed on the outer side wall of the butt joint matching part 182 along the circumferential direction thereof, a first buckling rib 167 is arranged at a corresponding position of the inner side wall of the connecting seat 16, and the first buckling groove 184 is in buckling fit with the first buckling rib 167. In addition, a first sealing ring 185 is disposed between the bottom cover 18 and the connecting seat 16, and a soft pad 186 is disposed at the bottom end of the bottom cover 18.

Further, referring to fig. 3, 6, 7 and 10, in the present embodiment, the cup main control board 17 is provided with a main control chip 171 and a cup conductive pogo pin 172, and the cup conductive pogo pin 172 is disposed toward the bottom cover 18 and in butt contact with the metal ring 181 on the bottom cover 18. The cup main control board 17 is also connected with a first temperature sensor 173 and a second temperature sensor 174; one end of the first temperature sensor 173 is connected with the cup body main control board 17, and the other end extends upwards to cross the heat insulation cotton 111 and contact with the bottom of the inner container 11 so as to detect the liquid temperature of the inner container 11; one end of the second temperature sensor 174 is connected to the cup main control board 17, and the other end thereof extends upward to be connected to the side wall of the heating sheet 15, so as to detect the temperature of the heating sheet 15; in addition, the heating plate 15 is connected with the electric control main board 17 through a heating plate power supply lead 175.

Further, referring to fig. 9, in the present embodiment, a second positioning rib 311 is disposed on an outer side wall of the base shell 31 along a longitudinal direction thereof, a second positioning groove 321 is disposed at a corresponding position of an inner side wall of the bottom shell 32, and the second positioning rib 311 is in limit fit with the second positioning groove 321. Meanwhile, a second buckling groove 312 is further formed in the outer side wall of the base shell 31 along the circumferential direction of the outer side wall, a second buckling rib 322 is arranged at a corresponding position of the inner side wall of the bottom shell 32, and the second buckling groove 312 is in limit fit with the second buckling rib 322. Further, a second sealing ring 323 is provided between the bottom case 32 and the base case 31.

In addition, referring to fig. 6, a plurality of third fastening ribs 313 are further disposed on the upper surface of the base shell 31, third fastening grooves 187 are disposed at corresponding positions on the bottom cover 18, and the third fastening ribs 313 are fastened and engaged with the third fastening grooves 187.

Further, referring to fig. 8, in the present embodiment, the inner side wall of the base shell 31 extends inward to form a pressing plate engaging groove 314, and the pressing plate engaging groove 314 is engaged with a fourth fastening rib 351 disposed on the pressing plate 35; a display screen 36 is attached to the outer side wall of the pressing plate 35, a shading piece 37 is attached to the outer side wall of the display screen 36, and the outer side wall of the shading piece 37 is attached to the base shell 31 at the corresponding position; the pressing plate 35 fixes the display screen 36 and the light shielding member 37 on the sidewall of the base housing 31 through the cooperation of the pressing plate engaging groove 314 and the fourth engaging rib 351.

Further, referring to fig. 11 and 12, in the present embodiment, the base main control board 33 is provided with a base conductive pogo pin 331, a main chip 332, a charge and discharge management chip 333, and two touch springs 334. The setting direction of the base conductive elastic needle 331 faces to the bottom cover 18 and is in butt contact with the metal ring 181 on the bottom cover 18; the main chip 332 and the charge and discharge management chip 333 are disposed toward the bottom case 32; the two touch springs 334 are disposed toward the sidewall of the base housing 31 and contact corresponding positions of the base housing 31; two touch springs 334 are also disposed just to the left and right of the display screen 36.

In addition, in order to make the information on the display screen 36 available to the outside, the base 3 is made of translucent plastic, and is generally made of PC. In order to cooperate with the touch spring 334, a mark is further provided at a position corresponding to the base shell 31 contacted with the touch spring 334; when the touch spring 334 is needed, the operation can be completed only by touching the mark on the outer side wall of the base shell 31.

Further, referring to fig. 8, in the present embodiment, a charging port 38 is further disposed on the base 3 at a position opposite to the USB interface 335 on the base main control board 33, and an opening of the charging port 38 is matched with the dust-proof soft plug 4. The charging port 38 is used for external USB charging; when the thermostatic cup needs to be charged, the USB is inserted into the charging port 38, the inserted USB is connected with the USB interface 335 on the base main control panel 33, and the rechargeable battery 34 is further charged; when charging is not needed, the dustproof soft plug 4 is inserted into the charging port 38 to play a role in protection.

In addition, it should be noted that, regarding the fixing manner of the cup main control board 17, the base main control board 33 and the rechargeable battery 34, the cup main control board 17 is fixed to the connecting seat 166 by a first tapping screw, the base main control board 33 is fixed to the base 3 by a second tapping screw, and the rechargeable battery 34 is fixed to the upper surface of the bottom case 32 of the base 3 by a double-sided tape.

The working principle is as follows:

1. serving as a common vacuum cup:

when the user does not need to use the heating function, the base 3 is not assembled, and the cup body 1 and the cup cover 2 are only carried.

2. Acting as a heating thermostatic cup:

when a user needs to use the heating constant temperature function, firstly, the universal standard USB is inserted into the charging port 38 and is connected with the USB interface 335 on the base main control panel 33, and meanwhile, the other end of the USB is connected into a normal power supply system of local residents, so that the base 3 can be charged conveniently; after the charging is finished, the base 3 is connected with the cup body 1, at the moment, the circuit is conducted, the display screen 36 on the base main control panel 33 presents information prompt, and a user can trigger the touch spring 334 through a corresponding mark on the base shell 31 to perform function selection confirmation; here, the design of the touch spring 334 is to select a large function option and a small function option according to the magnetic field changing frequency; the touch spring 334 is a button for entering a large function option, and different touch frequencies and different operation interfaces have different meanings; such as:

(1) starting up the mobile phone by pressing any touch spring 334 for 5 seconds;

(2) clicking the right touch spring 334 to switch the large functions, specifically: electric quantity display, temperature regulation, available duration display and other functions;

(3) clicking the left touch spring 334 to confirm the function, entering the large-function interface, adjusting specific numerical values, and waiting for 5 seconds to automatically return to the previous page after the setting is finished;

(4) when the user is in the large function category, the user presses any one of the touch springs 334 for a long time to shut down the device.

After the corresponding temperature selection is performed, the first temperature sensor 173 measures the temperature of the water in the inner container 11 and transmits information to the base main control board 33 through the cup main control board 17, and the base main control board 33 controls the operating state of the heating plate 15 according to the original program. Specifically, when the temperature of the cup water is higher than the user set temperature, the heating sheet 15 does not work; when the temperature of the water in the cup is lower than the temperature set by the user, the heating sheet 15 starts to work in a power-variable mode, the temperature of the water in the cup is maintained at the temperature set by the user, and the better drinking taste is brought.

The assembly production process comprises:

firstly, assembling the cup body 1:

(1) assembling the cup body 1 according to the structural characteristics of an inner container 11, a phase change shell 12, a vacuum shell 13 and a cup body shell 14 from inside to outside in sequence; meanwhile, phase-change material is filled between the inner container 11 and the phase-change shell 12 to form a phase-change material filling layer; vacuum is pumped between the vacuum shell 13 and the cup body shell 14 to form a vacuum interlayer;

(2) placing the heating sheet 15 at the bottom of the inner container 11, and tightly attaching the second temperature sensor 174 to the outer side of the heating sheet 15 by using the heat insulation sleeve 151; placing the heat insulation cotton 111 below the bottom of the liner 11, and tightly attaching the first temperature sensor 173 to the outer layer of the bottom end of the liner 11 by using an encapsulation process;

(3) placing water sealing ring 162 on connecting seat 16; the annular buckle slot 161 arranged on the connecting base 16 is tightly matched with the rolling rib 131 arranged on the vacuum shell 13; a first self-tapping screw penetrates through a through hole formed in the cup body main control board 17 to fasten the cup body main control board 17 on the connecting seat 16; connecting the metal ring 181 with the bottom cover 18 by using a hardware injection molding technology, placing the first seal ring 185 in a corresponding groove formed in the bottom cover 18, positioning the first positioning rib 183 formed in the bottom cover 18 in cooperation with the first positioning groove 166 formed in the connecting seat 16, and fixing the first catching groove 184 formed in the bottom cover 18 in cooperation with the first catching rib 167 formed in the connecting seat 16; finally, the soft pad 186 is placed in the corresponding fitting groove at the bottom end of the bottom cover 18, and thus, the assembly of the cup body 1 is completed.

Assembling the base 3:

(1) the base main control board 33 is fastened to the base housing 31 by second tapping screws; the light shielding member 37 is arranged at the outer end of the display screen 36, and the light shielding member 37 is tightly attached to the inside of the base shell 31; placing the pressing plate 35 at the inner end of the display screen 36, and enabling the fourth buckling rib 351 arranged on the pressing plate 35 to be matched with the pressing plate matching groove 314 of the base shell 31, so as to tightly fix the display screen 36 and the shading piece 37 in position;

(2) the dustproof soft plug 4 is matched with the charging port 38 in an installing mode so as to fixedly shield and protect the charging port 38; placing the second sealing ring 323 in the assembly groove at the bottom end of the bottom case 32, and connecting the bottom of the rechargeable battery 34 with the upper top surface of the bottom case 32 by using a double-sided adhesive tape; the second positioning rib 311 on the base housing 31 is matched and positioned with the second positioning groove 321 on the bottom case 32, and the second buckling groove 312 on the base housing 31 is matched and fixed with the second buckling rib 322 on the bottom case 32, so that the assembly of the base 3 is completed.

Thirdly, integral assembly:

the third buckling rib 313 arranged on the base shell 31 is matched and connected with the third buckling groove 187 arranged on the bottom cover 18, so that the assembly of the base 3 and the cup body 1 is completed; then, the cup cover 2 is mounted in place.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A separable following constant temperature cup is characterized by comprising a cup body, a cup cover arranged at the upper end of the cup body in a covering mode, and a base arranged at the lower end of the cup body in a cushioning mode; the cup body comprises an inner container, a phase change shell, a vacuum shell and a cup body shell which are sequentially arranged from inside to outside, wherein a phase change material filling layer is formed between the inner container and the phase change shell, and a vacuum interlayer is formed between the vacuum shell and the cup body shell; the outer side wall of the inner container is also provided with a heating sheet, the heating sheet is connected with a cup body main control board arranged below the inner container, the cup body main control board is fixed below the inner container through a connecting seat, and the bottom end of the connecting seat is matched with a bottom cover with a metal ring; the base comprises a base shell and a bottom shell matched with the base shell, and the base shell and the bottom shell jointly form a space for accommodating the base main control board and the rechargeable battery; the base main control board is respectively connected with the cup body main control board and the rechargeable battery.

2. The separable traveling constant temperature cup according to claim 1, wherein a phase change casing is provided on an upper portion of an outer side wall of the inner container, a heating sheet is provided on a lower portion of the outer side wall, and a heat insulating sleeve is provided on an outer periphery of the heating sheet; the outer side wall of the phase change shell is provided with a vacuum shell in an attached mode, the upper end of the vacuum shell extends upwards to be matched with an upper port of the inner container, and the lower end of the vacuum shell extends downwards to be matched with a connecting seat below the inner container.

3. The separable traveling thermostatic cup according to claim 1, wherein the connecting base is provided at a bottom end of the vacuum casing and is engaged with an inner sidewall of the vacuum casing; the outer side wall of the connecting seat is formed with an annular buckling groove, a rolling rib is formed at the corresponding position of the inner side wall of the vacuum shell, and the annular buckling groove is matched with the rolling rib.

4. The separable traveling thermostatic cup according to claim 3, wherein the connecting seat comprises a partition plate, and an upward annular plate and a downward annular plate extending in the vertical direction along the outer edge of the partition plate; the upward annular plate is provided with the annular buckling groove, and the downward annular plate is provided with the water sealing ring accommodating groove; a first accommodating groove is formed between the upward annular plate and the partition plate, and an inner container and heat insulation cotton padded at the bottom of the inner container are matched in the first accommodating groove; a second accommodating groove is formed between the downward annular plate and the partition plate, and a cup body main control plate is matched in the second accommodating groove.

5. The separable follow-up constant temperature cup according to claim 1, wherein the bottom cover is disposed at the bottom of the cup body, and a butt joint matching part matching with the inner side wall of the connecting seat extends upwards from the upper surface of the bottom cover; the outer side wall of the butt joint matching part is longitudinally provided with a first positioning rib, a first positioning groove is formed in the corresponding position of the inner side wall of the connecting seat, and the first positioning rib is in limit matching with the first positioning groove; the outer side wall of the butt joint matching part is further provided with a first buckling groove along the circumferential direction of the outer side wall, a first buckling rib is arranged at the corresponding position of the inner side wall of the connecting seat, and the first buckling groove is in buckling fit with the first buckling rib.

6. The separable traveling constant temperature cup according to claim 1, wherein a main control chip and a cup body conductive pogo pin are provided on the cup body main control board, and the cup body conductive pogo pin is provided toward the bottom cover and in butt contact with the metal ring on the bottom cover; the cup body main control board is also connected with a first temperature sensor and a second temperature sensor; one end of the first temperature sensor is connected with the cup body main control board, and the other end of the first temperature sensor extends upwards to be in contact with the bottom of the inner container so as to detect the liquid temperature of the inner container; one end of the second temperature sensor is connected with the cup body main control board, and the other end of the second temperature sensor extends upwards to be connected with the side wall of the heating sheet so as to detect the temperature of the heating sheet; in addition, still meet through heating plate power supply wire between heating plate and the automatically controlled mainboard.

7. The separable traveling constant temperature cup according to claim 1, wherein a second positioning rib is provided on an outer side wall of the base housing along a longitudinal direction thereof, a second positioning groove is provided at a corresponding position of an inner side wall of the bottom housing, and the second positioning rib is in limit fit with the second positioning groove; a second buckling groove is further formed in the outer side wall of the base shell along the circumferential direction of the outer side wall, a second buckling rib is arranged at a corresponding position of the inner side wall of the bottom shell, and the second buckling groove is in limit fit with the second buckling rib;

in addition, the upper surface of the base shell is also provided with a plurality of third buckling ribs, third buckling grooves are formed in corresponding positions of the bottom cover, and the third buckling ribs are matched with the third buckling grooves in a buckling mode.

8. The separable traveling constant temperature cup according to claim 1, wherein a base main control board, a rechargeable battery, a pressing board, a display screen and a light shielding member are specifically accommodated in a space surrounded by the base shell and the bottom shell; the base main control board is fixed in the base, a rechargeable battery is connected below the base main control board, and a display screen is connected to the side of the base main control board; the display screen is fixed on the base shell through the pressing plate, and one side of the display surface of the display screen is matched with the light shading piece.

9. The separable traveling constant temperature cup according to claim 8, wherein the base main control board is provided with a base conductive pogo pin, a main chip, a charge and discharge management chip, and two touch springs; the setting direction of the base conductive elastic needle faces to the bottom cover and is in butt contact with the metal ring on the bottom cover; the main chip and the charge and discharge management chip are arranged towards the bottom shell; the setting directions of the two touch springs face the side wall of the base shell and are in contact with the corresponding positions of the base shell.

10. The separable follow-up constant temperature cup according to any one of claims 1 to 9, wherein a charging port is further provided on the base, and a dust-proof soft plug is fitted at an opening of the charging port.

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