CN111348332A - Multifunctional intelligent portable device and multifunctional intelligent control method - Google Patents
Multifunctional intelligent portable device and multifunctional intelligent control method Download PDFInfo
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- CN111348332A CN111348332A CN202010146690.7A CN202010146690A CN111348332A CN 111348332 A CN111348332 A CN 111348332A CN 202010146690 A CN202010146690 A CN 202010146690A CN 111348332 A CN111348332 A CN 111348332A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D81/00—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
- B65D81/18—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents providing specific environment for contents, e.g. temperature above or below ambient
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D81/00—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
- B65D81/18—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents providing specific environment for contents, e.g. temperature above or below ambient
- B65D81/20—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents providing specific environment for contents, e.g. temperature above or below ambient under vacuum or superatmospheric pressure, or in a special atmosphere, e.g. of inert gas
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D81/00—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
- B65D81/24—Adaptations for preventing deterioration or decay of contents; Applications to the container or packaging material of food preservatives, fungicides, pesticides or animal repellants
- B65D81/26—Adaptations for preventing deterioration or decay of contents; Applications to the container or packaging material of food preservatives, fungicides, pesticides or animal repellants with provision for draining away, or absorbing, or removing by ventilation, fluids, e.g. exuded by contents; Applications of corrosion inhibitors or desiccators
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D81/00—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
- B65D81/24—Adaptations for preventing deterioration or decay of contents; Applications to the container or packaging material of food preservatives, fungicides, pesticides or animal repellants
- B65D81/30—Adaptations for preventing deterioration or decay of contents; Applications to the container or packaging material of food preservatives, fungicides, pesticides or animal repellants by excluding light or other outside radiation
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Food Science & Technology (AREA)
- Apparatus For Disinfection Or Sterilisation (AREA)
Abstract
A multifunctional intelligent portable device comprises a portable case, an isolation plate, a control assembly, a low-temperature heat preservation module, a high-temperature heating module, a deep ultraviolet disinfection module, a power supply module and an interaction module; the partition board divides the interior of the portable case into a high-temperature cavity and a low-temperature cavity; the control assembly is connected with the low-temperature heat preservation module, the high-temperature heating module, the deep ultraviolet disinfection module and the interaction module; the power supply module is connected with the control assembly, the low-temperature heat preservation module, the high-temperature heating module, the deep ultraviolet disinfection module and the interaction module; the deep ultraviolet disinfection module comprises a low-temperature disinfection unit arranged in the low-temperature cavity and a high-temperature disinfection unit arranged in the high-temperature cavity. Thus integrating the functions of low-temperature preservation, high-temperature drying, disinfection and the like into a whole and being convenient to carry. The invention also provides a multifunctional intelligent control method by utilizing the multifunctional intelligent portable device.
Description
Technical Field
The invention relates to the technical field of portable heat-preservation articles, in particular to a multifunctional intelligent portable device and a multifunctional intelligent control method.
Background
In order to improve the quality of life and guarantee health, some articles in life need to be stored at low temperature, some articles need to be stored at high temperature, and some articles need to be disinfected regularly, such as low-temperature storage of infant food, drying, heat preservation and disinfection of women and infant clothes and articles, disinfection of various close-fitting articles or tableware and the like. The existing low-temperature storage device, the high-temperature storage device and the disinfection device are all independently arranged, and have single functions and large occupied space. In addition, the existing low-temperature storage device, the high-temperature storage device and the disinfection device are fixedly arranged, so that the low-temperature storage device, the high-temperature storage device and the disinfection device are inconvenient to carry by a user.
Disclosure of Invention
In view of the above, the present invention provides a portable multifunctional intelligent device integrating functions of low-temperature storage, high-temperature drying, and sterilization, and a portable multifunctional intelligent control method, so as to solve the above problems.
A multifunctional intelligent portable device comprises a portable case, a partition board transversely arranged in the middle of the portable case, a control assembly, a low-temperature heat preservation module, a high-temperature heating module, a deep ultraviolet disinfection module, a power supply module and an interaction module arranged on the outer side surface of the portable case, wherein the control assembly, the low-temperature heat preservation module, the high-temperature heating module, the deep ultraviolet disinfection module and the power supply module are arranged in the portable case; the partition board divides the inner space of the portable case into a high-temperature cavity above the partition board and a low-temperature cavity below the partition board; the control assembly is connected with the low-temperature heat preservation module, the high-temperature heating module, the deep ultraviolet disinfection module and the interaction module; the power supply module is connected with the control assembly, the low-temperature heat preservation module, the high-temperature heating module, the deep ultraviolet disinfection module and the interaction module; the low-temperature heat preservation module comprises a low-temperature preservation unit arranged in a low-temperature cavity and a low-temperature cavity temperature sensor arranged on the inner side wall of the low-temperature cavity, the low-temperature preservation unit comprises two shells which are oppositely arranged, a phase-change heat storage filler, a storage container and a shell temperature sensor, a filling cavity is formed in each shell, the phase-change heat storage filler is located in each filling cavity, a charging opening communicated with each filling cavity is formed in one end of each shell, the shell temperature sensor is embedded in each shell, and the storage container is located between the two shells; the high-temperature heating module comprises a first aluminum substrate arranged in the high-temperature cavity, a plurality of LED lamp beads arranged on the first aluminum substrate, a glass lens arranged on one side of the LED lamp beads, which is far away from the first aluminum substrate, a constant-current driver used for driving the LED lamp beads and a high-temperature cavity temperature sensor arranged on the inner side wall of the high-temperature cavity; the deep ultraviolet disinfection module comprises a low-temperature disinfection unit arranged in the low-temperature cavity and a high-temperature disinfection unit arranged in the high-temperature cavity.
Furthermore, the portable case has an outer protective layer, an inner protective layer, heat insulation cotton and an aluminum foil layer from outside to inside, and an interlayer space is arranged between the outer protective layer and the inner protective layer.
Furthermore, the control assembly and the power supply module are both arranged in the interlayer space.
Furthermore, the middle part of division board has the backup pad, and the top and the below of backup pad all are provided with thermal-insulated cotton, and thermal-insulated cotton outside is provided with the aluminium foil layer.
Furthermore, a handle part is arranged on the outer side of the top of the portable case.
Furthermore, the control assembly comprises a control chip, a memory and a wireless radio frequency unit, and the control chip is connected with the memory and the wireless radio frequency unit.
Furthermore, one side of the two shells opposite to each other is also provided with a limiting groove in a relatively concave mode, and the storage container is located in the limiting groove.
Further, the phase change heat storage filler is blue ice.
Further, the glass lens is coated with a far infrared ray radiation film.
A multifunctional intelligent control method by utilizing the multifunctional intelligent portable device comprises the following steps: step S0: selecting different functional modes, wherein the functional modes comprise a low-temperature heat-preservation and disinfection working mode, a high-temperature drying and disinfection mode and a high-temperature heat-preservation and disinfection mode; step S11: under the low-temperature heat-preservation and disinfection working mode, starting a low-temperature heat-preservation module, starting refrigeration and starting timing; step S12: checking the temperature of the phase change heat storage filler at regular time; step S13: judging whether the temperature of the phase change heat storage filler is lower than the preset material temperature, if so, entering step S14, otherwise, entering step S16; step S14: judging whether the timing time reaches the preset low-temperature preservation time, if so, entering the step S15, otherwise, returning to the step S14; step S15: starting the low-temperature disinfection unit to work for a period of time; step S16: the low-temperature heat preservation module stops working, so that the phase change heat storage filler is naturally cooled; step S21: under the high-temperature drying and sterilizing mode, starting a high-temperature heating module and starting timing; step S22: judging whether the heating time reaches the preset drying time, if so, entering the step S23, otherwise, returning to the step S22; step S23: starting the high-temperature disinfection unit to work for a period of time, and then closing the high-temperature heating module; step S31: under the high-temperature heat-preservation and disinfection mode, starting a high-temperature heating module and starting timing; step S32: monitoring the temperature in the high-temperature cavity in real time; step S33: judging whether the temperature in the high-temperature cavity 11 is lower than a preset heat preservation temperature, if so, returning to the step S31, if so, entering the step S34, and if so, entering the step S35; step S34: controlling the high-temperature heating module to be closed; step S35: judging whether the timing time reaches the preset high-temperature heat preservation time, if so, entering the step S36, otherwise, returning to the step S35; step S36: and starting the high-temperature disinfection unit to work for a period of time.
Compared with the prior art, the multifunctional intelligent portable device comprises a portable case, a partition board transversely arranged in the middle of the portable case, a control assembly, a low-temperature heat preservation module, a high-temperature heating module, a deep ultraviolet disinfection module and a power supply module which are arranged in the portable case, and an interaction module arranged on the outer side surface of the portable case; the partition board divides the inner space of the portable case into a high-temperature cavity above the partition board and a low-temperature cavity below the partition board; the control assembly is connected with the low-temperature heat preservation module, the high-temperature heating module, the deep ultraviolet disinfection module and the interaction module; the power supply module is connected with the control assembly, the low-temperature heat preservation module, the high-temperature heating module, the deep ultraviolet disinfection module and the interaction module; the low-temperature heat preservation module comprises a low-temperature preservation unit arranged in a low-temperature cavity and a low-temperature cavity temperature sensor arranged on the inner side wall of the low-temperature cavity, the low-temperature preservation unit comprises two shells which are oppositely arranged, a phase-change heat storage filler, a storage container and a shell temperature sensor, a filling cavity is formed in each shell, the phase-change heat storage filler is located in each filling cavity, a charging opening communicated with each filling cavity is formed in one end of each shell, the shell temperature sensor is embedded in each shell, and the storage container is located between the two shells; the high-temperature heating module comprises a first aluminum substrate arranged in the high-temperature cavity, a plurality of LED lamp beads arranged on the first aluminum substrate, a glass lens arranged on one side of the LED lamp beads, which is far away from the first aluminum substrate, a constant-current driver used for driving the LED lamp beads and a high-temperature cavity temperature sensor arranged on the inner side wall of the high-temperature cavity; the deep ultraviolet disinfection module comprises a low-temperature disinfection unit arranged in the low-temperature cavity and a high-temperature disinfection unit arranged in the high-temperature cavity. Thus integrating the functions of low-temperature preservation, high-temperature drying, disinfection and the like into a whole and being convenient to carry. The invention also provides a multifunctional intelligent control method by utilizing the multifunctional intelligent portable device.
Drawings
Embodiments of the invention are described below with reference to the accompanying drawings, in which:
fig. 1 is a schematic perspective view of a multifunctional intelligent portable device provided by the present invention.
Fig. 2 is a block diagram of the multifunctional intelligent portable device provided by the invention.
Fig. 3 is a partial schematic view of the low temperature module of fig. 2.
FIG. 4 is a partial schematic view of the high temperature heating module of FIG. 2.
Fig. 5 is a schematic step diagram of the multifunctional intelligent control method provided by the present invention.
Detailed Description
Specific embodiments of the present invention will be described in further detail below based on the drawings. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.
Referring to fig. 1 and 2, the multifunctional intelligent portable device provided by the present invention includes a portable bag 10, a partition board 20 horizontally or horizontally disposed in the middle of the portable bag 10, a control module 30 disposed in the portable bag 10, a low temperature heat preservation module 40, a high temperature heating module 50, a deep ultraviolet disinfection module 60, a power supply module, and an interaction module 70 disposed on the outer side of the portable bag 10.
The partition board 20 partitions the internal space of the portable bag 10 into a high temperature chamber 11 located above the partition board 20 and a low temperature chamber 12 located below the partition board 20.
The portable case 10 has an outer protective layer, an inner protective layer, heat insulating cotton, and an aluminum foil layer from the outside to the inside. The external protective layer and the internal protective layer can be non-woven fabrics or PU layers, and the aluminum foil layer has the functions of reflecting light and preserving heat. An interlayer space is provided between the outer protective layer and the inner protective layer of the portable bag 10.
The control component 30 and the power supply module are both disposed in the interlayer space.
The middle part of division board 20 has the backup pad, and the top and the below of backup pad all are provided with thermal-insulated cotton, and thermal-insulated cotton outside is provided with the aluminium foil layer.
The portable case 10 is also provided with a handle 13 on the top outer side.
The control component 30 is connected with the low-temperature heat preservation module 40, the high-temperature heating module 50, the deep ultraviolet disinfection module 60 and the interaction module 70. The power supply module is connected with the control assembly 30, the low-temperature heat preservation module 40, the high-temperature heating module 50, the deep ultraviolet disinfection module 60 and the interaction module 70 to supply power to the components.
The control component 30 includes a control chip 31, a memory 32 and a radio frequency unit 33, wherein the control chip 31 is connected to both the memory 32 and the radio frequency unit 33.
The low temperature keeping module 40 includes two low temperature keeping units 41 respectively disposed at both sides of the low temperature chamber 12 and a low temperature chamber temperature sensor 42 disposed on an inner sidewall of the low temperature chamber 12. The low temperature chamber temperature sensor 42 is used to sense the temperature in the low temperature chamber 12.
Referring to fig. 3, the cryopreservation unit 41 includes two housings 411 disposed opposite to each other, a phase change heat storage filler filled in the housings 411, a storage container 413, and a housing temperature sensor 414.
A filling cavity 412 is formed in the housing 411, and a charging opening 415 communicated with the filling cavity 412 is formed at one end of the housing 411. The case temperature sensor 414 is embedded on the case 411 and at least partially contacts the phase change heat storage filler.
The opposite sides of the two housings 411 are also recessed relatively to form a limiting groove 416, and the storage container 413 is positioned in the limiting groove 416 and is clamped by the two housings 411 oppositely.
In this embodiment, the cross-sectional shape of the stopper groove 416 is an arc shape, and the storage container 413 is a cylindrical shape.
The phase-change heat storage filler is blue ice which is in a polymer gel state, has the refrigeration temperature of-30 ℃, high heat absorption ratio (1.9 times of water), no toxicity, no combustion and explosion, no corrosiveness, reusability, and a service life of 10 years, can be completely and naturally degraded after being discarded, is free from pollution, and has no adverse effect on the environment and human bodies.
Referring to fig. 4, the high temperature heating module 50 includes a first aluminum substrate 51, a plurality of LED beads 52 disposed on the first aluminum substrate 51, a glass lens 53 disposed on a side of the LED beads 52 away from the first aluminum substrate 51, a constant current driver 54 for driving the plurality of LED beads 52, and a high temperature chamber temperature sensor 55 disposed on an inner sidewall of the high temperature chamber 11. The high temperature chamber temperature sensor 55 is used to sense the temperature in the high temperature chamber 11.
The glass lens 53 is coated with a far infrared radiation film, and light emitted by the LED lamp beads 52 passes through the glass lens 53 and becomes far infrared IR-B band light with the wave band of 1.4-3 microns due to the conversion effect of the far infrared radiation film.
The interactive module 70 has a display 71, a plurality of operation buttons 72, and a plurality of switch circuits 73. The control component 30 controls the on and off of the plurality of LED beads 52 through the switch circuit 73 and the constant current driver 54.
The control chip 31 further has a timing unit therein for timing the working states of the low temperature heat preservation module 40, the high temperature heating module 50, and the deep ultraviolet disinfection module 60, such as the low temperature heat preservation time, the high temperature heat preservation time, and the like.
The control component 30 can display the temperatures sensed by the low-temperature cavity temperature sensor 42, the high-temperature cavity temperature sensor 55 and the shell temperature sensor 414 through the display screen 71, and display the timing time, the working states of the low-temperature heat preservation module 40, the high-temperature heating module 50 and the deep ultraviolet disinfection module 60, and the like. The selection of function mode, the setting of working parameters, and the control of the operation or stop of the low temperature heat preservation module 40, the high temperature heating module 50, and the deep ultraviolet disinfection module 60 can be performed by a plurality of operation buttons 72 and a switch circuit 73.
Specifically, the control chip 31 has a function mode selection unit therein to select different function modes, such as a low temperature heat preservation and sterilization mode, a high temperature drying and sterilization mode, and a high temperature heat preservation and sterilization mode. The memory 32 stores working parameters and working flows in different functional modes, such as preset time, preset temperature, and the like, and the multifunctional intelligent portable device works in different functional modes according to different working parameters and working flows.
The deep ultraviolet sterilizing module 60 includes a low temperature sterilizing unit 61 disposed in the low temperature chamber 12 and a high temperature sterilizing unit 62 disposed in the high temperature chamber 11. The low-temperature disinfection unit 61 and the high-temperature disinfection unit 62 both comprise a second aluminum substrate, a plurality of deep ultraviolet lamp beads arranged on the second aluminum substrate, and a disinfection driving circuit board for driving the deep ultraviolet lamp beads to work. The deep ultraviolet lamp bead is used for emitting deep ultraviolet rays with wave bands of 250-280 nanometers, and has high killing rate on various bacteria, viruses, parasites, algae and other pathogens.
Referring to fig. 5, the present invention further provides a multifunctional intelligent control method using the multifunctional intelligent portable device, including the following steps:
step S0: different functional modes such as a low-temperature heat-preservation and disinfection working mode, a high-temperature drying and disinfection mode and a high-temperature heat-preservation and disinfection mode are selected by operating the button 72.
Step S11: in the low-temperature heat preservation and disinfection working mode, the control chip 31 starts the low-temperature heat preservation module 40, so that the low-temperature preservation unit 41 starts to refrigerate and starts to time at the same time.
Step S12: the control chip 31 senses the operating temperature of the low-temperature preservation unit 41 through the case temperature sensor 414 to periodically check the temperature of the phase-change heat storage filler (phase-change heat storage material).
Step S13: the control chip 31 determines whether the temperature of the phase-change heat storage filler is lower than the preset material temperature, if so, the step S14 is performed, otherwise, the step S16 is performed.
Step S14: the control chip 31 determines whether the counted time reaches the predetermined low temperature preservation time, if yes, it proceeds to step S15, otherwise, it returns to step S14.
Step S15: the control chip 31 starts the low temperature sterilizing unit 61 for a certain period of time.
Then, the display screen 71 displays that the low-temperature heat preservation and the sterilization are completed, and the low-temperature heat preservation module 40 can continue to maintain the preset low-temperature preservation temperature.
Step S16: the low temperature insulation module 40 stops working, so that the phase change heat storage filler is naturally cooled.
Step S21: under the high temperature stoving disinfection mode, control chip 31 opens high temperature heating module 50 for a plurality of LED lamp pearl 52 light and generate heat, begin the timing simultaneously.
Step S22: the control chip 31 determines whether the heating time reaches the predetermined drying time, and if so, the step S23 is executed, otherwise, the step S22 is executed.
Step S23: the control chip 31 turns on the high temperature sterilizing unit 62 for a certain period of time.
Then the control chip 31 closes the high temperature heating module 50, and the display screen 71 displays that the drying and the disinfection are completed.
Step S31: under the high-temperature heat preservation and disinfection mode, the control chip 31 starts the high-temperature heating module 50, so that the LED lamp beads 52 are lightened to generate heat, and timing is started at the same time.
Step S32: the control chip 31 monitors the temperature in the high temperature chamber 11 in real time through the high temperature chamber temperature sensor 55.
Step S33: the control chip 31 determines whether the temperature in the high temperature chamber 11 is lower than a preset holding temperature, if so, the process returns to step S31, if so, the process goes to step S34, and if so, the process goes to step S35.
Step S34: the control chip 31 controls the high temperature heating module 50 to be turned off.
Step S35: the control chip 31 determines whether the timing time reaches the predetermined high temperature keeping time, if yes, the step S36 is performed, otherwise, the step S35 is performed.
Step S36: the control chip 31 turns on the high temperature sterilizing unit 62 for a certain period of time.
Finally, the display screen 71 displays that the high-temperature heat preservation and the disinfection are finished, and the high-temperature heating module 50 can continuously maintain the preset high-temperature preservation temperature.
Compared with the prior art, the multifunctional intelligent portable device comprises a portable case 10, a partition board 20 transversely arranged in the middle of the portable case 10, a control component 30, a low-temperature heat-preservation module 40, a high-temperature heating module 50, a deep ultraviolet disinfection module 60, a power supply module and an interaction module 70 arranged on the outer side surface of the portable case 10, wherein the control component 30, the low-temperature heat-preservation module 40, the high-temperature heating module 50, the deep ultraviolet disinfection module 60 and the power supply module are arranged; the partition board 20 divides the internal space of the portable luggage 10 into a high-temperature cavity 11 located above the partition board 20 and a low-temperature cavity 12 located below the partition board 20; the control component 30 is connected with the low-temperature heat preservation module 40, the high-temperature heating module 50, the deep ultraviolet disinfection module 60 and the interaction module 70; the power supply module is connected with the control component 30, the low-temperature heat preservation module 40, the high-temperature heating module 50, the deep ultraviolet disinfection module 60 and the interaction module 70; the low-temperature heat preservation module 40 comprises a low-temperature preservation unit 41 arranged in the low-temperature cavity 12 and a low-temperature cavity temperature sensor 42 arranged on the inner side wall of the low-temperature cavity 12, wherein the low-temperature preservation unit 41 comprises two oppositely arranged shells 411, phase change heat storage filler filled in the shells 411, a storage container 413 and a shell temperature sensor 414, a filling cavity 412 is formed in each shell 411, a charging opening 415 communicated with the filling cavity 412 is formed in one end of each shell 411, the shell temperature sensor 414 is embedded in each shell 411, and the storage container 413 is located between the two shells 411; the high-temperature heating module 50 comprises a first aluminum substrate 51, a plurality of LED lamp beads 52 arranged on the first aluminum substrate 51, a glass lens 53 arranged on one side of the LED lamp beads 52 far away from the first aluminum substrate 51, a constant-current driver 54 for driving the plurality of LED lamp beads 52, and a high-temperature cavity temperature sensor 55 arranged on the inner side wall of the high-temperature cavity 11; the deep ultraviolet sterilizing module 60 includes a low temperature sterilizing unit 61 disposed in the low temperature chamber 12 and a high temperature sterilizing unit 62 disposed in the high temperature chamber 11. Thus integrating the functions of low-temperature preservation, high-temperature drying, disinfection and the like into a whole and being convenient to carry. The invention also provides a multifunctional intelligent control method by utilizing the multifunctional intelligent portable device.
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 scope of the present invention, and any modifications, equivalents or improvements that are within the spirit of the present invention are intended to be covered by the following claims.
Claims (10)
1. The utility model provides a multi-functional intelligent portable device which characterized in that: the portable luggage comprises a portable luggage, a partition board transversely arranged in the middle of the portable luggage, a control assembly, a low-temperature heat preservation module, a high-temperature heating module, a deep ultraviolet disinfection module, a power supply module and an interaction module arranged on the outer side surface of the portable luggage; the partition board divides the inner space of the portable case into a high-temperature cavity above the partition board and a low-temperature cavity below the partition board; the control assembly is connected with the low-temperature heat preservation module, the high-temperature heating module, the deep ultraviolet disinfection module and the interaction module; the power supply module is connected with the control assembly, the low-temperature heat preservation module, the high-temperature heating module, the deep ultraviolet disinfection module and the interaction module; the low-temperature heat preservation module comprises a low-temperature preservation unit arranged in a low-temperature cavity and a low-temperature cavity temperature sensor arranged on the inner side wall of the low-temperature cavity, the low-temperature preservation unit comprises two shells which are oppositely arranged, a phase-change heat storage filler, a storage container and a shell temperature sensor, a filling cavity is formed in each shell, the phase-change heat storage filler is located in each filling cavity, a charging opening communicated with each filling cavity is formed in one end of each shell, the shell temperature sensor is embedded in each shell, and the storage container is located between the two shells; the high-temperature heating module comprises a first aluminum substrate arranged in the high-temperature cavity, a plurality of LED lamp beads arranged on the first aluminum substrate, a glass lens arranged on one side of the LED lamp beads, which is far away from the first aluminum substrate, a constant-current driver used for driving the LED lamp beads and a high-temperature cavity temperature sensor arranged on the inner side wall of the high-temperature cavity; the deep ultraviolet disinfection module comprises a low-temperature disinfection unit arranged in the low-temperature cavity and a high-temperature disinfection unit arranged in the high-temperature cavity.
2. The multi-functional smart portable device of claim 1, wherein: the portable case is provided with an external protective layer, an internal protective layer, heat insulation cotton and an aluminum foil layer from outside to inside, and an interlayer space is arranged between the external protective layer and the internal protective layer.
3. The multi-functional smart portable device of claim 2, wherein: the control assembly and the power supply module are arranged in the interlayer space.
4. The multi-functional smart portable device of claim 1, wherein: the middle part of division board has the backup pad, and the top and the below of backup pad all are provided with thermal-insulated cotton, and thermal-insulated cotton outside is provided with the aluminium foil layer.
5. The multi-functional smart portable device of claim 1, wherein: the outer side of the top of the portable case is provided with a handle part.
6. The multi-functional smart portable device of claim 1, wherein: the control assembly comprises a control chip, a memory and a wireless radio frequency unit, and the control chip is connected with the memory and the wireless radio frequency unit.
7. The multi-functional smart portable device of claim 1, wherein: the opposite sides of the two shells are also provided with limit grooves in a relatively concave mode, and the storage container is located in the limit grooves.
8. The multi-functional smart portable device of claim 1, wherein: the phase change heat storage filler is blue ice.
9. The multi-functional smart portable device of claim 1, wherein: the glass lens is coated with a far infrared radiation film.
10. A multifunctional intelligent control method by utilizing the multifunctional intelligent portable device comprises the following steps:
step S0: selecting different functional modes, wherein the functional modes comprise a low-temperature heat-preservation and disinfection working mode, a high-temperature drying and disinfection mode and a high-temperature heat-preservation and disinfection mode;
step S11: under the low-temperature heat-preservation and disinfection working mode, starting a low-temperature heat-preservation module, starting refrigeration and starting timing;
step S12: checking the temperature of the phase change heat storage filler at regular time;
step S13: judging whether the temperature of the phase change heat storage filler is lower than the preset material temperature or not, if so, entering
Step S14, otherwise, go to step S16;
step S14: judging whether the timing time reaches the preset low-temperature preservation time, if so, entering the step S15, otherwise, returning to the step S14;
step S15: starting the low-temperature disinfection unit to work for a period of time;
step S16: the low-temperature heat preservation module stops working, so that the phase change heat storage filler is naturally cooled;
step S21: under the high-temperature drying and sterilizing mode, starting a high-temperature heating module and starting timing;
step S22: judging whether the heating time reaches the preset drying time, if so, entering the step S23, otherwise, returning to the step S22;
step S23: starting the high-temperature disinfection unit to work for a period of time, and then closing the high-temperature heating module;
step S31: under the high-temperature heat-preservation and disinfection mode, starting a high-temperature heating module and starting timing;
step S32: monitoring the temperature in the high-temperature cavity in real time;
step S33: judging whether the temperature in the high-temperature cavity 11 is lower than a preset heat preservation temperature or not, and returning to the step of judging if the temperature is lower than the preset heat preservation temperature
Step S31, if yes, go to step S34, and if yes, go to step S35;
step S34: controlling the high-temperature heating module to be closed;
step S35: judging whether the timing time reaches the preset high-temperature heat preservation time, if so, entering the step S36, otherwise, returning to the step S35;
step S36: and starting the high-temperature disinfection unit to work for a period of time.
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