CN214048393U - Intelligent medicine refrigeration and cold insulation cup - Google Patents

Abstract

An intelligent medicine refrigeration and cold insulation cup, comprising: the cup body provides an accommodating space for the cold conducting inner container; the semiconductor refrigerating device is arranged in the refrigerating cup cover and comprises a fan, a radiator and a semiconductor refrigerating sheet, and airflow generated by the fan enters the radiator cavity from the air inlet hole for heat exchange and is exhausted from the heat dissipation exhaust hole; the semiconductor refrigeration sheet is connected with the cold guide block, the cold guide block is in surface contact with the opening of the cold guide liner, and cold energy is transmitted to the lower part of the cold guide liner by means of the wall of the cold guide liner; the cold storage bottle is internally provided with a cold storage agent and used for absorbing and storing cold energy transmitted by the cold guide liner and releasing the stored cold energy when the refrigerating cover stops working, so that the low-temperature environment of the medicine is maintained and the continuous-running cold insulation time is prolonged; the structure is simple and compact, refrigeration can be realized, the cold insulation is lasting, and the multipurpose use of one cup is very convenient; therefore, the device has superior performance in technical performance, practicability and economical efficiency.

Description

Intelligent medicine refrigeration and cold insulation cup

Technical Field

The utility model relates to an intelligence medicine refrigeration cold insulation cup.

Background

According to market research and patent search, the international diabetes union has just released the latest edition of overview of global diabetes overview, and it is pointed out that by 2019, about 4.63 million diabetic patients are shared among people aged 20 to 79, wherein the number of Chinese patients is the first, the total number of Chinese patients is about 1.164 million, and the number of deaths caused by diabetes in China is about 83.4 ten thousand each year. In a large number of diabetic patients, some patients require long-term insulin therapy, however, the temperature of the storage environment of insulin is strictly limited, insulin which generally needs to be stored for a long time must be stored in an environment of 2 ℃ to 8 ℃, and unsealed insulin can be stored in an environment of 2 ℃ to 25 ℃ for 4 weeks. With the progress of science and technology, various medicine refrigeration equipment is brought forward, wherein, the medicine refrigeration cup is made out of the sun, and the medicine refrigeration cup has good heat preservation effect because the vacuum heat preservation cup is used as a heat preservation refrigeration chamber, thereby having wide market prospect and practical value. However, the market share of the current medicine refrigeration cup is less than 10%, and the reason is as follows:

firstly, the cold end cold transfer structural design of the semiconductor refrigeration piece of the refrigeration cup in the prior art is unreasonable, so that the cold end cold transfer efficiency of the semiconductor refrigeration piece is low, and cold energy generated by the semiconductor refrigeration piece cannot be timely and effectively transferred to the whole refrigeration space, so that the overall refrigeration effect of the refrigeration cup is poor, and the energy consumption is high;

secondly, the refrigerating cup of the prior art, intelligent temperature controller occupation space is great. The intelligent temperature controller is arranged at the top end of the refrigeration cup cover, so that ventilation of a radiator of the medicine refrigeration cup is influenced, heat dissipation at the hot end of the refrigeration sheet is poor, the refrigeration effect is influenced, meanwhile, the overall height of the medicine refrigeration cup is increased, and the overall attractiveness and portability of the cup are influenced;

thirdly, in the prior art, semiconductor refrigeration sheets are used as refrigeration elements, energy sources are provided for the refrigeration elements by using electric energy, once the refrigeration cups leave the electric energy, the refrigeration cups cannot work, the temperature in the refrigeration cups is rapidly high, and in the journey of people, the capacity of a mobile power supply carried by passengers is strictly limited by an air traffic control department and the passengers cannot carry the mobile power supply with the capacity, so that the anxiety of continuation of the journey exists;

fourthly, in the refrigeration process of the refrigeration cup in the prior art, the heat dissipation and ventilation conditions must be ensured, the refrigeration cup cannot be placed in a closed bag to work, and the privacy of a patient cannot be guaranteed;

fifthly, the refrigeration cup in the prior art has energy waste, cannot store cold energy generated by refrigeration components, and releases the stored cold energy to supply the cold energy to the refrigeration cup for refrigerating the medicine when needed;

people always expect a medicine refrigeration equipment which has the advantages of large refrigeration space, high refrigeration efficiency, good cold insulation effect, good privacy, long endurance time, small size, portability, capability of storing cold energy, capability of automatically releasing the cold energy when needed and no anxiety of endurance.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing an intelligent medicine refrigeration and cold insulation cup which has simple and compact structure, can refrigerate and keep cold for a long time and realizes one cup with multiple purposes and extremely convenient use; therefore, the device has superior performance in technical performance, practicability and economical efficiency.

In order to realize the above purpose, the utility model provides an intelligence medicine refrigeration cold insulation cup, its characterized in that, it includes:

the cup body provides an accommodating space for the cold conducting inner container;

the semiconductor refrigerating device is arranged in the refrigerating cup cover and comprises a fan, a radiator and a semiconductor refrigerating sheet, and airflow generated by the fan enters the radiator cavity from the air inlet hole for heat exchange and is exhausted from the heat dissipation exhaust hole;

the semiconductor refrigeration sheet is connected with the cold guide block, the cold guide block is in surface contact with the opening of the cold guide liner, and cold energy is transmitted to the lower part of the cold guide liner by means of the wall of the cold guide liner;

the cold storage bottle is internally provided with a cold storage agent and used for absorbing and storing cold energy transmitted by the cold guide liner, and releasing the stored cold energy when the refrigeration cover stops working, so that the low-temperature environment of the medicine is maintained, and the continuous-running cold insulation time is prolonged.

In one or more embodiments of the present invention, the cold conducting inner container is disposed in the inner cavity of the inner liner; a cold-resisting outer scattering layer is formed between the inner lining cylinder and the shell; the cold resistance outer scattering layer prevents cold energy from leaking outwards; the cold storage bottle is arranged in the cold guide inner container.

In one or more embodiments of the present invention, the heat dissipation exhaust hole is formed on the side wall of the refrigeration cup cover, the air inlet hole is formed on the top wall of the refrigeration cup cover, and the fan shell wall and the exhaust hole form an air channel to discharge heat to the side edge along with the air flow; the cold accumulation bottle comprises a bottle body, a bottle cap and a phase change cold accumulation agent arranged in the bottle body.

In one or more embodiments of the present invention, the heat insulating plate is connected to the cooling conducting block to prevent the cold energy generated by the cold semiconductor refrigeration piece from being lost outwards, and the heat insulating plate is located between the heat sink and the cooling conducting block to prevent the heat sink from transferring heat to the cooling conducting block.

In one or more embodiments of the present invention, the cold end surface of the semiconductor cooling plate is tightly attached to the upper top surface of the cooling guide block, and the semiconductor heating end surface is tightly attached to the bottom surface of the heat sink.

In one or more embodiments of the present invention, the cooling guide block and the cooling guide liner are made of aluminum or copper material.

In one or more embodiments of the present invention, the refrigeration cup cover provides a placing cavity for a gasket, and the gasket is arranged between the inner wall of the cup cover main body and the outer side of the cold guide block and is connected to the lower surface of the thermal insulation plate; the mouth of the cup body is pressed with a sealing gasket to delay the cooling speed.

In one or more embodiments of the present invention, the cold block provides a through hole or a mounting hole for the first temperature sensor.

In one or more embodiments of the present invention, the refrigeration cup cover provides a four-core socket for four-core control line connection; the four-core control line comprises an electric energy transmission line and a signal transmission line, the electric energy transmission line is used for transmitting electric energy given by the relay module when the relay module is closed, and the signal transmission line is used for transmitting a temperature signal fed back to the microprocessor by the first temperature sensor;

one end of the electric energy transmission line is connected with the four-core plug, and the other end of the electric energy transmission line is connected with the relay module; the relay module is connected with the microprocessor; one end of the signal transmission line is connected with the four-core plug, and the other end of the signal transmission line is connected with the microprocessor; the first temperature sensor, the fan and the semiconductor refrigerating sheet are respectively connected with the four-core socket, the four-core plug is detachably assembled in the four-core socket, and the microprocessor is connected with the display module and the control key module; the microprocessor is connected with the DC power interface, and the alternating current and direct current power converter module is connected with the DC power interface.

In one or more embodiments of the present invention, the cup further comprises a touch-control temperature-displaying cup cover, wherein the touch-control temperature-displaying cup cover is detachably assembled to the cup body so that the cup body is commonly used for the touch-control temperature-displaying cup cover and the refrigeration cup cover; the touch-control temperature display cup cover is connected with a second temperature sensor, and the second temperature sensor feeds back a temperature signal detected by the touch-control temperature display cup cover to the touch-control temperature display cup cover so that the touch-control temperature display cup cover can display the refrigerated temperature of the medicine when being touched.

Compared with the prior art, the utility model the effect that exists is:

because the utility model adopts the above scheme, the structure is simple and compact, the refrigeration and the cold insulation are lasting, and the multipurpose use of one cup is very convenient; therefore, the device has superior performance in technical performance, practicability and economical efficiency.

Drawings

Fig. 1 is a schematic structural view of an intelligent medicine refrigeration and cold insulation cup in an embodiment of the present invention;

fig. 2 is a schematic view of an expanded structure of the intelligent medicine refrigeration and cold insulation cup in an embodiment of the present invention;

fig. 3 is a schematic sectional structure view of an intelligent medicine refrigeration and cold insulation cup according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a further expanded structure of the intelligent medicine refrigeration and cold insulation cup in an embodiment of the present invention;

fig. 5 is a schematic view of an embodiment of the present invention in another use state of the intelligent medicine refrigeration and cold insulation cup;

FIG. 6 is a cross-sectional view of the smart medicine refrigeration and cold insulation cup of FIG. 5;

fig. 7 is a schematic view of the combined structure of the intelligent medicine refrigeration and cold insulation cup of the present invention;

those skilled in the art can appreciate that the shapes, configurations and arrangements of the various elements shown in the drawings are not necessarily to scale, and that the dimensions of the various elements and components of the drawings may be exaggerated or minimized to more clearly illustrate the embodiments of the present invention described herein.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout.

The orientation shown in the drawings is not to be considered as limiting the scope of the invention, but merely as providing a reference to the preferred embodiments, changes in position or addition of numbers or structural simplifications may be made to the product parts shown in the drawings.

The relation of "connected" in the specification and "connected" between the components shown in the drawings may be understood as fixedly connected or detachably connected or integrally connected; the connecting elements can be directly connected or connected through an intermediate medium, and persons skilled in the art can understand the connecting relation according to specific conditions, and can use the connecting elements in a screwed connection or riveting connection or welding connection or clamping connection or embedding connection mode to replace different embodiments in a proper mode.

The terms of orientation such as up, down, left, right, top, bottom, and the like in the description and the orientation shown in the drawings, may be used for direct contact or contact with each other through another feature therebetween; above may be directly above and obliquely above, or it simply means above the other; other orientations may be understood by analogy. The technical solution and the advantages of the present invention will be more clear and clear by further describing the embodiments of the present invention with reference to the drawings of the specification.

Detailed description of the preferred embodimentsthe following detailed description, with reference to the figures shown in fig. 1-7, however, those skilled in the art will readily appreciate that the detailed description given herein with respect to these figures is for illustrative purposes only and should not be construed as limiting, as the present invention provides a preferred embodiment of an intelligent drug refrigeration and cold-retention cup comprising a cup body 1, a refrigeration cup lid 2, a cold-conducting inner container 3 and a cold-storage bottle 4; the refrigerating cup cover 2 is arranged on the cup body 1 in a covering mode, the refrigerating cup cover 2 is provided with an air inlet 21 and a heat dissipation exhaust hole 22, a semiconductor refrigerating device 23 is arranged in the refrigerating cup cover 2, the semiconductor refrigerating device 23 comprises a fan 231, a radiator 232 and a semiconductor refrigerating sheet 233, and air flow generated by the fan 231 enters the cavity of the radiator 232 through the air inlet 21 to carry out heat exchange and then is exhausted from the heat dissipation exhaust hole 22; the semiconductor refrigeration piece 233 is connected with the cold guide block 24, the cold guide block 24 is in surface contact with the opening of the cold guide inner container 3 and transmits cold energy to the lower part of the cold guide inner container by means of the wall of the cold guide inner container 3; the cold storage bottle 4 is arranged in the cold guide inner container 3; the cold storage bottle 1 comprises a bottle body 42, a bottle cap 41 and a phase change coolant 43 arranged in the bottle body, wherein the phase change temperature of the phase change coolant 43 is any phase change temperature point between 2 ℃ and 25 ℃; the cold storage agent is used for absorbing and storing cold energy transmitted by the cold guide inner container, releasing the stored cold energy when the refrigeration cover stops working, keeping the low-temperature environment of the medicine and prolonging the endurance and cold insulation time.

The cold conducting inner container 3 is arranged in the inner cavity of the lining barrel 11, and a cold-resistant outer scattering layer 13 is formed between the lining barrel 11 and the shell 12; the leakage of the cold energy to the outside is prevented by the cold resistance of the cold-resistant outer radiation layer 13. The cold-resistant outer scattering layer 13 is a vacuum layer. The heat dissipation exhaust hole 22 is formed in the side wall of the refrigeration cup cover, the air inlet hole 21 is formed in the top wall of the refrigeration cup cover, and the wall of the fan shell and the exhaust hole form an air channel so that heat is exhausted to the side edge along with air flow. The refrigeration cup cover 2 can be made into a split structure or an integrated structure.

The cold block 24 is connected to the thermal insulating plate 25 to prevent the outward loss of cold energy generated by the cold semiconductor chilling plates and the thermal insulating plate 25 is located between the heat sink 232 and the cold block 24 to prevent the heat sink from transferring heat to the cold block. The refrigerating end face of the semiconductor refrigerating plate 233 is closely attached to the upper top face of the cold guide block 24, and the heating end face of the semiconductor refrigerating plate 233 is closely attached to the bottom face of the heat sink 232.

The cold guide block 24 and the cold guide inner container 3 can be made of aluminum or copper materials.

The refrigeration cup cover 2 provides a placing cavity for a sealing gasket 26, and the sealing gasket 26 is arranged between the inner wall of the cup cover main body and the outer side of the cold guide block and connected to the lower surface of the heat insulation plate 25; the sealing gasket 26 is pressed on the opening of the cup body to delay the cooling speed.

The refrigeration cup cover 2 provides a four-core socket 27 for connecting the four-core control wire 5; the four-core control line 5 comprises an electric energy transmission line and a signal transmission line, the electric energy transmission line is used for transmitting electric energy given by the relay module when the relay module is closed, and the signal transmission line is used for transmitting a temperature signal fed back to the microprocessor by the temperature sensor; cold block 24 provides a perforation or mounting hole for first temperature sensor 28, which is used to mount first temperature controller 28, in other examples, the perforation is used to allow first temperature sensor 28 to pass through and extend into cup 1 to detect the temperature of the cup.

One end of the electric energy transmission line is connected with the four-core plug 6, and the other end of the electric energy transmission line is connected with the relay module; the relay module is connected with the microprocessor; one end of the signal transmission line is connected with the four-core plug 6, and the other end of the signal transmission line is connected with the microprocessor; the first temperature sensor 28, the fan 231 and the semiconductor 233 sheet are respectively connected with the four-core socket 27, the four-core plug 6 is detachably assembled on the four-core socket 27, and the microprocessor is connected with the display module 7 and the control key module 8; the microprocessor is connected with a DC power interface 9, and the AC-DC power converter module is connected with the DC power interface 9.

The touch temperature display cup cover 20 is detachably assembled with the cup body 1, so that the cup body is used for the touch temperature display cup cover 20 and the refrigeration cup cover 2; the cross section of the bottle body 42 is semicircular or crescent or circular or eccentric ring; touch-control is shown temperature bowl cover 20 and is connected second temperature sensor 201, and second temperature sensor 201 extends to 2 inner chambers of cup, and second temperature sensor 201 feeds back its temperature signal of surveying to touch-control is shown temperature bowl cover 20 so that touch-control is shown temperature bowl cover 20 and can show the cold-stored temperature of medicine when being touched.

The cold-conducting inner container is of a cylindrical structure with a bottom, and a DC power interface can be guaranteed to be used under the conditions of a vehicle-mounted power supply, a mobile power supply and a power adapter. The cold-conducting alternating current direct current power converter module is used for converting the civil alternating current into direct current voltage with the voltage of 0-12V.

In order to effectively improve the sealing performance between the bottle cap 41 and the bottle body 42, a sealing gasket may be disposed in the bottle cap 41, and the material used for the sealing gasket includes, but is not limited to, PVC material and rubber material; for convenience of customers observes the temperature of phase transition coolant, can also set up probe-type mechanical thermometer on the bottle lid of cold storage bottle, probe-type mechanical thermometer's dial plate is inlayed and is located on the bottle lid, and probe-type mechanical thermometer's probe is deepened cold storage bottle internal, and the user can know the temperature of coolant at any time, improves user's use and experiences.

During refrigeration, in order to make the cold conducting inner container 3 contact closely with the cold conducting block 24 and ensure good energy transfer, an elastic pad may be padded at the bottom of the cold conducting inner container 3, and the elastic pad includes but is not limited to a silica gel material.

The use of the above is further described in combination with all of the accompanying drawings:

the user can select a corresponding combination mode according to the actual application scene, and one cup of multi-purpose is realized. When the user has a power condition, for example: when a household power supply, a vehicle-mounted power supply or a mobile power supply is provided, the intelligent temperature controller is used for setting the appropriate temperature. During operation, the refrigeration cup cover 2 provides cold sources for the medicine and the cold accumulation bottle 4, and the phase change cold accumulation agent 43 in the cold accumulation bottle 4 absorbs and stores cold energy. After the energy storage is finished, the cold accumulation bottle 4 can be used for providing a cold source for the medicine, so that the low-temperature environment of the medicine is maintained, and the endurance time is prolonged.

For a user who travels in a short distance, only the refrigeration cup cover 2 is needed, the touch temperature display cup cover 20 does not need to be switched, and certain endurance time can be met. The energy storage, refrigeration and cold storage are realized. The user can set the temperature interval of accuse temperature through intelligent temperature controller, realizes intelligent management.

When a user goes out for a long time trip, the refrigeration and cold insulation cup is placed in the sealed bag, and when the ventilation condition for the work of the refrigeration cup cover is not provided, the refrigeration cup cover 2 can be selected to be used for precooling and storing energy for the cold accumulation bottle 4 in advance. After the precooling is completed, the refrigeration cup cover 2 is switched to the cold insulation mode of the touch temperature display cup cover 20.

The cold insulation mode is as shown in fig. 5 and 6; the touch temperature display cup cover 20 covers the cup body 1 for use, and the touch temperature display cup cover 20 has a better cold insulation effect when being matched with the cup body 1 for use compared with the refrigeration cup cover 2, so that the endurance time is greatly prolonged. Meanwhile, the user can touch the temperature display cup cover 20 at any time to display the current medicine refrigeration temperature.

To sum up the utility model discloses under having the power supply condition, keeping unnecessary cold energy when giving medicine refrigeration and can be under no power supply condition, release the low temperature environment who maintains the refrigeration room to the cold energy of storage, accommodation is wide, and on the way the travel is simultaneously, under the refrigerated condition of non-power, can put into inclosed package to keep it, has the advantage of protection user privacy nature. Simultaneously, the cooperation of touch-control temperature display bowl cover and cup is used, and its cold insulation effect is better, and the time of endurance is longer, and the user can touch the touch-control temperature display bowl cover at any time moreover, learns the cold-stored temperature of medicine. Its more reasonable energy of utilization utilizes refrigeration cold insulation cup to refrigerate, the energy storage for the phase transition cold-storage agent in the cold storage bottle, and the leading initiative has broken traditional cold storage cup and can only use the refrigerator to be the single mode of cold storage bottle precooling in using, and the accurate accuse temperature of refrigeration cold insulation cup cooperation intelligent temperature controller has solved cold storage cup and must cooperate the refrigerator to be the loaded down with trivial details operation of cold storage bottle precooling in using, the utility model discloses, intelligence, energy-conservation, practicality, safety, low in production cost, portable, therefore this refrigeration cold insulation cup has wide market prospect and spreading value. The foregoing description, for purposes of explanation, used specific nomenclature to provide a thorough understanding of the embodiments. However, it will be apparent to one skilled in the art that the specific details are not required in order to practice the embodiments. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and modifications and substitutions based on the known art are intended to fall within the scope of the present invention, which is defined by the claims.

Claims (10)

1. The utility model provides an intelligence medicine refrigeration cold insulation cup which characterized in that, it includes:

the cup body provides an accommodating space for the cold conducting inner container;

the semiconductor refrigerating device is arranged in the refrigerating cup cover and comprises a fan, a radiator and a semiconductor refrigerating sheet, and airflow generated by the fan enters the radiator cavity from the air inlet hole for heat exchange and is exhausted from the heat dissipation exhaust hole;

the semiconductor refrigeration sheet is connected with the cold guide block, the cold guide block is in surface contact with the opening of the cold guide liner, and cold energy is transmitted to the lower part of the cold guide liner by means of the wall of the cold guide liner;

the cold storage bottle is internally provided with a cold storage agent and used for absorbing and storing cold energy transmitted by the cold guide liner, and releasing the stored cold energy when the refrigeration cover stops working, so that the low-temperature environment of the medicine is maintained, and the continuous-running cold insulation time is prolonged.

2. The intelligent medicine refrigeration and cold insulation cup of claim 1, wherein: the cold guide inner container is arranged in the inner cavity of the inner lining barrel; a cold-resisting outer scattering layer is formed between the inner lining cylinder and the shell; the cold resistance outer scattering layer prevents cold energy from leaking outwards; the cold storage bottle is arranged in the cold guide inner container.

3. The intelligent medicine refrigeration and cold insulation cup of claim 2, wherein: the heat dissipation exhaust hole is formed in the side wall of the refrigeration cup cover, the air inlet hole is formed in the top wall of the refrigeration cup cover, and the wall of the fan shell and the exhaust hole form an air channel so that heat is exhausted to the side edge along with air flow; the cold accumulation bottle comprises a bottle body, a bottle cap and a phase change cold accumulation agent arranged in the bottle body.

4. The intelligent medicine refrigeration and cold insulation cup of claim 3, wherein: the cold conducting block is connected with the heat insulating plate to prevent the cold energy generated by the cold semiconductor refrigerating piece from losing outwards, and the heat insulating plate is positioned between the radiator and the cold conducting block to prevent the radiator from transferring heat to the cold conducting block.

5. The intelligent medicine cooling and heat preserving cup as claimed in any one of claims 1 to 4, wherein: the cold end face of the semiconductor refrigerating sheet is tightly attached to the upper top face of the cold guide block, and the semiconductor heating end face is tightly attached to the bottom face of the radiator.

6. The intelligent medicine refrigeration and cold insulation cup of claim 5, wherein: the cold conducting block and the cold conducting inner container are made of aluminum or copper materials.

7. The intelligent medicine refrigeration and cold insulation cup of claim 6, wherein: the refrigeration cup cover provides a placing cavity for a sealing gasket, and the sealing gasket is arranged between the inner wall of the cup cover main body and the outer side of the cold guide block and is connected to the lower surface of the heat insulation plate; the mouth of the cup body is pressed with a sealing gasket to delay the cooling speed.

8. The intelligent medicine refrigeration and cold insulation cup of claim 6, wherein: the cold block provides a perforation or mounting hole for the first temperature sensor.

9. The intelligent medicine refrigeration and cold insulation cup of claim 8, wherein: the refrigeration cup cover provides a four-core socket for the connection of a four-core control line; the four-core control line comprises an electric energy transmission line and a signal transmission line, the electric energy transmission line is used for transmitting electric energy given by the relay module when the relay module is closed, and the signal transmission line is used for transmitting a temperature signal fed back to the microprocessor by the first temperature sensor;

one end of the electric energy transmission line is connected with the four-core plug, and the other end of the electric energy transmission line is connected with the relay module; the relay module is connected with the microprocessor; one end of the signal transmission line is connected with the four-core plug, and the other end of the signal transmission line is connected with the microprocessor; the first temperature sensor, the fan and the semiconductor refrigerating sheet are respectively connected with the four-core socket, the four-core plug is detachably assembled in the four-core socket, and the microprocessor is connected with the display module and the control key module; the microprocessor is connected with the DC power interface, and the alternating current and direct current power converter module is connected with the DC power interface.

10. The intelligent medicine refrigeration and cold insulation cup of claim 8, wherein: the cup body is detachably assembled on the touch temperature display cup cover, so that the cup body is commonly used for the touch temperature display cup cover and the refrigeration cup cover; the touch-control temperature display cup cover is connected with a second temperature sensor, and the second temperature sensor feeds back a temperature signal detected by the touch-control temperature display cup cover to the touch-control temperature display cup cover so that the touch-control temperature display cup cover can display the refrigerated temperature of the medicine when being touched.

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