CN107280391B - A kind of cooling cup - Google Patents

Abstract

The invention discloses a kind of cooling cups, including the tubular liner with open end, tubular liner olo is provided with shell, closed chamber is formed between tubular liner and shell, closed chamber is penetrated through by the heat release hole and the external world for being provided with shell upper, lower part is provided with air inlet in closed chamber, air inlet position is provided with supply fan, openable and closable heat dissipation channel is provided on shell, heat dissipation channel and closed chamber penetrate through, for the air outlet of heat dissipation channel towards the open end of liner, supply fan has been sequentially connected electrically temperature detect switch (TDS), switch and power supply.Based on above structure, component is few, and structure is simple, the bottom, middle part and top of the hot water in liner are carried out while being cooled down simultaneously using the air of flowing, so that the temperature of hot water quickly reduces, while guaranteeing that the temperature difference of hot water internal cooling is smaller, cooling effect is more uniform；It can repeat to cool down to the hot water poured into liner simultaneously, to realize amount of drinking water big waiting time short beneficial effect.

Description

Heat dissipation water cup

Technical Field

The invention relates to the technical field of daily supplies, in particular to a heat dissipation water cup.

Background

The water cup serves as a water container and a drinking water container and becomes a necessary tool for daily life of people, and the heat preservation water cup can keep the water temperature so that people can drink drinking water with moderate temperature under cold conditions. However, the existing heat preservation water cup has excellent heat preservation effect and long heat preservation time, when people pour hot water into the heat preservation water cup, the water cannot be drunk immediately due to high water temperature when drinking water needs, and the heat can not be quickly cooled after the cup cover is opened to dissipate heat, so that great inconvenience is brought to the use of people; if the heat preservation effect is poor, the temperature of the water in the vacuum cup is reduced quickly, and when people drink the water, the water temperature is cooler, so that the drinking requirement cannot be met.

In order to solve the problems, a 55-degree cup is designed by people, the 55-degree cup utilizes the interlayer special liquid of the inner container of the cup to absorb heat to achieve the cooling effect, so that the drinking requirement of people is met, when a second cup of water needs to be cooled, the interval between the 55-degree cup and the first cup of water needs to be 1 hour, and the absorbed heat can continue to work after being dissipated for a long time because the interlayer special liquid absorbs heat in a limited way.

Therefore, a heat dissipation water cup is provided, so that the structure is simple, the hot water inside the cup can be rapidly cooled, the temperature difference of the hot water cooling is small, meanwhile, the hot water can be continuously injected for multiple times to realize cooling, and the technical problem to be solved by the technical personnel in the field is solved urgently.

Disclosure of Invention

The invention aims to provide a radiating water cup which is simple in structure, can quickly cool hot water in the radiating water cup, enables the temperature difference of the hot water to be small, and can continuously inject hot water for multiple times to cool.

In order to achieve the purpose, the invention provides a heat-dissipation water cup which comprises a cylindrical inner container with an opening end, wherein a shell is arranged at an interval outside the cylindrical inner container, a sealed cavity is formed between the cylindrical inner container and the shell, the sealed cavity is communicated with the outside through a heat-dissipation port formed in the upper part of the shell, an air inlet hole is formed in the lower part of the sealed cavity, an air inlet fan is arranged at the air inlet hole, an openable heat-dissipation channel is formed in the shell, the heat-dissipation channel is communicated with the sealed cavity, an air outlet of the heat-dissipation channel faces to the opening end face of the cylindrical inner container, and the air inlet fan is electrically connected with a temperature control switch, a switch and a power supply.

Preferably, a radiating fin is arranged in the closed cavity, the radiating fin is fixedly connected with the outer wall of the cylindrical inner container, and the length direction of the radiating fin is consistent with the height direction of the cylindrical inner container.

Preferably, the radiating fins are of rectangular sheet structures, the number of the radiating fins is multiple, and the radiating fins are arranged around the outer circumference of the cylindrical inner container at equal intervals.

Preferably, the heat dissipation channel includes the sliding sleeve and slides and set up sliding tube in the sliding sleeve, the bottom of sliding sleeve in airtight chamber link up, its top with the opening terminal surface parallel and level of tube-shape inner bag, the free end of sliding tube is airtight structure, and the air outlet has been seted up to its lateral wall, the free end of sliding tube stretches out the sliding sleeve, the air outlet orientation the open end of tube-shape inner bag makes airtight chamber link up with the external world.

Preferably, the sliding sleeve is provided with a long hole along the length direction thereof, a wrench is arranged in the long hole in a sliding manner, the wrench is fixedly connected with the outer wall of the sliding pipe, and the wrench moves relative to the long hole to enable the sliding pipe to extend out or retract into the sliding sleeve.

Preferably, a damping member is provided in the elongated hole, and the damping member maintains the sliding position of the wrench.

Preferably, the heat dissipation openings are rectangular long holes, the length of each heat dissipation opening is 1/10 of the height of the shell, the number of the heat dissipation openings is multiple, and the heat dissipation openings are arranged around the circumference of the shell at equal intervals.

Preferably, the air inlet is a long hole, the length direction of the air inlet is consistent with the height direction of the shell, the number of the air inlets is multiple, and the air inlets are arranged around the outer circumference of the shell at equal intervals.

Preferably, the air inlet fan is arranged above each air inlet and outside the bottom of the cylindrical inner container, the air inlet fan comprises fan blades and a motor, the motor is fixedly connected with the inner wall of the shell, and the air outlet surface of the fan blades faces the end surface of the bottom of the cylindrical inner container.

Preferably, the switch is arranged on the shell, a base of the switch is fixedly connected with the shell, and an operating key of the switch protrudes out of the shell; the temperature control switch is arranged in the closed cavity and is fixedly connected with the outer wall of the cylindrical inner container; the battery compartment is arranged at the bottom end of the shell, the battery compartment is provided with a charging interface communicated with the outside, the charging interface is connected with a battery through a charging module, the battery is a rechargeable battery, and the rechargeable battery is fixedly connected in the battery compartment.

The invention provides a heat dissipation water cup which comprises a cylindrical inner container with an opening end, wherein shells are arranged outside the cylindrical inner container at intervals, a sealed cavity is formed between the cylindrical inner container and the shells, the sealed cavity is communicated with the outside through a heat dissipation port arranged at the upper part of the shells, an air inlet hole is formed in the lower part of the sealed cavity, an air inlet fan is arranged at the air inlet hole, a heat dissipation channel capable of being opened and closed is arranged on the shells, the heat dissipation channel is communicated with the sealed cavity, an air outlet of the heat dissipation channel faces to the opening end face of the cylindrical inner container, and the air inlet fan is sequentially and electrically connected with a temperature control switch, a switch and a power supply. The heat dissipation water cup is of a double-layer structure and comprises a cylindrical inner container and a shell, wherein the shell is wrapped at the outer side of the cylindrical inner container at intervals, a cavity, namely a closed cavity, is formed between the shell and the cylindrical inner container, the closed cavity is communicated with the outside through a heat dissipation port arranged at the upper part (close to one side of a cup opening) of the shell, the lower part (close to one side of a cup bottom) of the shell is communicated with the outside through an air inlet, an air inlet fan is arranged at the air inlet, the air inlet fan enables outside air to enter the closed cavity through the air inlet, a heat dissipation channel is arranged at the outer part of the shell, the bottom of the heat dissipation channel is of an openable structure and is communicated with the closed cavity, an air outlet is arranged at the top of the heat dissipation channel, the air outlet faces the opening end face of the cylindrical inner container, namely the water level of hot water, and is sequentially and is electrically connected with, when the temperature is higher than the preset temperature, the temperature control switch is in a closed state, and the switch is used for switching on a circuit, so that the air inlet fan can work normally.

When the water cup is used, the cup cover is opened, hot water can be directly led into the cylindrical inner container or hot water stored in the cylindrical inner container in advance, when the temperature control switch senses that the temperature exceeds a preset temperature (the temperature is the optimal drinking temperature of people), the temperature control switch is closed, the linkage switch is closed when the heat dissipation channel is opened, so that the air inlet fan works, positive pressure is formed at the bottom of the closed cavity after the air inlet fan works, outside air enters the bottom of the closed cavity through the air inlet hole, the air runs from bottom to top under the action of the positive pressure, the running air is divided into two paths, one path runs in the closed cavity, the other path runs in the heat dissipation channel, the air in the closed cavity is in contact with the outer wall of the cylindrical inner container in the running process to conduct heat, and finally is discharged out of the closed cavity through the heat dissipation port, so that the temperature; the air that gets into heat dissipation channel blows to the open end of tube-shape inner bag after the air outlet is discharged via heat dissipation channel under the effect of malleation, appears hydrothermal surface of water promptly for hot water still plays certain endless effect to tube-shape inner bag hot water under the effect of malleation wind when the hot water surface cools down, and improved the radiating efficiency.

Based on the structure, the structure is simple, and the flowing air is utilized to simultaneously cool the bottom, the middle part and the top of the hot water in the cylindrical liner, so that the temperature of the hot water is rapidly reduced, the temperature difference of the internal cooling of the hot water is ensured to be smaller, and the cooling effect is more uniform; meanwhile, the hot water poured into the cylindrical inner container can be cooled repeatedly, so that the beneficial effect of large drinking water amount and short waiting time is realized.

Drawings

FIG. 1 is a schematic structural view of a heat-dissipating cup;

fig. 2 is a front sectional view of the heat-dissipating cup.

Wherein,

1 is a cylindrical inner container;

2 is a shell; 21 is a heat dissipation port, 22 is a heat dissipation channel, 221 is a long hole, 222 is a wrench, 223 is a sliding tube, 224 is a sliding sleeve, 225 is a limiting member, 23 is an air inlet hole, 24 is a sealing plate, 25 is a baffle, 26 is a switch, 27 is a charging interface, 28 is a battery compartment, 281 is a battery, 282 is a charging module, 29 is an air inlet fan, 291 is a motor, 292 is a fan blade, and 293 is a support.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1 and 2, fig. 1 is a schematic structural view of a heat dissipation cup; fig. 2 is a front sectional view of the heat-dissipating cup.

In a specific embodiment, the heat dissipation water cup provided by the invention comprises a cylindrical inner container 1 with an opening end, a shell 2 is arranged at an interval outside the cylindrical inner container 1, a sealed cavity is formed between the cylindrical inner container 1 and the shell 2, the sealed cavity is communicated with the outside through a heat dissipation port 21 arranged at the upper part of the shell 2, an air inlet 23 is arranged at the lower part in the sealed cavity, an air inlet fan 29 is arranged at the air inlet 23, an openable heat dissipation channel 22 is arranged on the shell 2, the heat dissipation channel 22 is communicated with the sealed cavity, an air outlet of the heat dissipation channel 22 faces to the opening end face of the cylindrical inner container 1, and the air inlet fan 29 is electrically connected with a temperature control switch, a switch 26 and a power supply in sequence. The heat dissipation water cup is of a double-layer structure and comprises a cylindrical inner container 1 and a shell 2, wherein the shell 2 is wrapped at the outer side of the cylindrical inner container 1 at intervals, a cavity, namely a closed cavity, is formed between the shell 2 and the cylindrical inner container 1, the closed cavity is communicated with the outside through a heat dissipation port 21 arranged at the upper part (close to one side of a cup opening) of the shell 2, the lower part (close to one side of a cup bottom) of the shell 2 is communicated with the outside through an air inlet 23, an air inlet fan 29 is arranged at the air inlet 23, the air inlet fan 29 enables outside air to enter the closed cavity through the air inlet 23, a heat dissipation channel 22 is arranged at the outer part of the shell 2, the heat dissipation channel 22 is of an openable and closable structure, the bottom of the heat dissipation channel is communicated with the closed cavity, an air outlet is arranged at the top, the air outlet faces the opening end face of the cylindrical inner container 1, namely, the temperature control switch is arranged in the closed cavity and used for sensing the temperature in the closed cavity, when the temperature is higher than a preset temperature, the temperature control switch is in a closed state, and the switch 26 is used for switching on a circuit, so that the air inlet fan 29 can normally work.

When the water cup is used, the cup cover is opened, hot water can be directly led into the cylindrical inner container 1, or hot water stored in the cylindrical inner container 1 in advance can be used, when the temperature controlled switch senses that the temperature exceeds a preset temperature (the temperature is the optimal drinking temperature of people), the temperature controlled switch is closed, the heat dissipation channel 22 is opened, the switch 26 is closed at the moment, the air inlet fan 29 works, positive pressure is formed at the bottom of the closed cavity after the air inlet fan 29 works, outside air enters the bottom of the closed cavity through the air inlet hole 23, the air runs from bottom to top under the action of the positive pressure, the running air is divided into two paths, one path runs in the closed cavity, the other path runs in the heat dissipation channel 22, the air in the closed cavity is in contact with the outer wall of the cylindrical inner container 1 in the running process to conduct heat, and finally is discharged out of the closed cavity; the air entering the heat dissipation channel 22 is discharged from the air outlet via the heat dissipation channel 22 under the action of positive pressure and then blown to the opening end of the cylindrical inner container 1, namely, the water surface of hot water appears, so that the hot water surface is cooled, meanwhile, certain circulation effect is achieved on the hot water in the cylindrical inner container under the action of positive pressure air, and the heat dissipation efficiency is improved.

Based on the structure, the structure is simple, and the flowing air is utilized to simultaneously cool the bottom, the middle part and the top of the hot water in the cylindrical liner 1, so that the temperature of the hot water is rapidly reduced, the temperature difference of the internal cooling of the hot water is ensured to be smaller, and the cooling effect is more uniform; meanwhile, the hot water poured into the cylindrical inner container 1 can be cooled repeatedly, so that the beneficial effects of large drinking water amount and short waiting time are realized.

It should be understood that the preset temperature of the temperature control switch is 45-55 ℃, the hot water temperature in the interval can effectively meet the use requirement of a user, meanwhile, the temperature control switch is arranged to monitor the temperature in real time, and on the other hand, the switch 26 is closed to timely disconnect the circuit after the temperature reaches the reference temperature, so that the electric quantity of the battery 281 is saved, and the use cost is effectively reduced. Meanwhile, the cylindrical liner 1 is generally made of stainless steel, is food-grade, has good heat conductivity, and can effectively conduct heat, so that the time for cooling by hot water is further shortened. Furthermore, the openings of the heat dissipation openings 21 and the air intake openings 23 may be circular, rectangular or other irregular shapes, and the number and the positions thereof need to be set according to specific use requirements. In addition, the battery 281 is a rechargeable battery, which can realize the reuse of the battery 281 and save the use cost, and can effectively protect the environment.

It should be pointed out that, through adopting above-mentioned structure, can effectively guarantee that the inside difference in temperature keeps within 5 ℃ at the in-process to hot water cooling to the hot water after the better assurance cooling is cold and hot even, guarantees user's application demand.

It is further understood that a radiating fin is arranged in the closed cavity, the radiating fin is fixedly connected with the outer wall of the cylindrical inner container 1, and the length direction of the radiating fin is consistent with the height direction of the cylindrical inner container 1. The heat radiating fins are arranged in the closed cavity, one end of each heat radiating fin is fixedly connected with the outer wall of the tubular inner container 1, the other end of each heat radiating fin is suspended in the closed cavity, meanwhile, the length direction of each heat radiating fin is consistent with the height direction of the tubular inner container 1, namely, the length direction of each heat radiating fin is parallel to the length direction of the tubular inner container 1, the heat radiating fins are connected with the tubular inner containers 1 at the moment, hot water in the tubular inner containers 1 conducts heat to the heat radiating fins through the tubular inner containers 1, the heat is conducted to flowing air in the closed cavity through the heat radiating fins, and the heat is conducted to the outside through the flowing air.

It should be understood that the heat sink is made of a metal material, which must have a good thermal conductivity, and may be made of stainless steel, copper, silver, or gold, and the details of the heat sink are not repeated herein again. In addition, the length of the radiating fins is generally consistent with the height of the cylindrical liner 1, and can be increased or reduced on the premise of meeting the requirements of design and use.

Furthermore, the radiating fins are of rectangular sheet structures, the number of the radiating fins is multiple, and the radiating fins are arranged around the outer circumference of the cylindrical inner container 1 at equal intervals. Above-mentioned fin is rectangle sheet structure, the breadth through both sides of this kind of structure dispels the heat, heat radiating area is big this moment to make efficient, the quantity of fin is a plurality of simultaneously, and the mode of setting is the equidistant setting of the outer circumferencial direction of ring tube shape inner bag 1, can make hot water cooling rapider on the one hand through setting up the equidistant fin of the outer circumference of 1 of tube shape inner bag, reduce user's latency, on the other hand can guarantee that the inside cooling of hot water is even, improve the travelling comfort that the user drunk.

It should be understood that the width of the heat sink needs to be determined according to specific design and usage requirements, and certainly, the wider the heat sink is, the better the heat dissipation effect is on the basis of ensuring that the housing 2 can be effectively held, and meanwhile, the number of the heat sinks and the spacing distance between two adjacent heat sinks need to consider the specific design and usage requirements, which is not described herein again.

Further, heat dissipation channel 22 includes that sliding sleeve 224 and slip set up sliding tube 223 in sliding sleeve 224, sliding sleeve 224's bottom in airtight chamber link up, its top with the opening terminal surface parallel and level of tube-shape inner bag 1, sliding tube 223's free end is airtight structure, and the air outlet has been seted up to its lateral wall, sliding tube 223's free end stretches out sliding sleeve 224, the air outlet orientation airtight chamber is link up with the external world for the open end of tube-shape inner bag 1. The heat dissipation channel 22 is of a telescopic structure, including the sliding sleeve 224 and the sliding tube 223 slidably disposed in the sliding sleeve 224, and both are communicated, the bottom of the sliding sleeve 224 is communicated with the bottom of the sealed cavity, the top of the sliding tube 223 is a sealing structure, the side wall at the top of the sliding tube 223 is provided with the air outlet, the air outlet direction of the air outlet faces to the open end of the cylindrical inner container 1, namely, the air outlet is blown to the water surface, when the heat dissipation channel 22 is not used, the sliding tube 223 retracts into the sliding sleeve 224, the heat dissipation channel 22 is of a closed structure at the moment, when the heat dissipation channel 223 extends out relative to the sliding sleeve 224 when the heat dissipation channel is used, the air outlet located at the side wall at the top end of the sliding tube 223 is exposed at the moment, the heat dissipation channel 22 is of a structure.

It should be understood that the setting direction of the heat dissipation channel 22 is consistent with the length direction of the cylindrical liner 1, and this setting mode saves materials during manufacturing, and can effectively reduce manufacturing cost, and on the other hand, it is convenient for a user to operate the sliding tube 223 to extend and retract, and improves the comfort level of the user. Meanwhile, one end of the sliding sleeve 224 is flush with the top end of the cup opening, the other end of the sliding sleeve is flush with the bottom of the sealed cavity, circulation of air can be effectively guaranteed, accordingly, a heat dissipation effect is guaranteed, the length of the sliding pipe 223 is smaller than that of the sliding sleeve 224, a limiting part 225 can be arranged at the free end (top end) of the sliding pipe 223, the length of the sliding pipe 223 is effectively reduced, and manufacturing cost is reduced.

It should be pointed out that above-mentioned slide pipe 223 and sliding sleeve 224 can be the plastics material also can be the metal material, and this application is no longer repeated herein, takes seal structure between sliding sleeve 224 and the slide pipe 223 simultaneously, can not take place the condition of gas leakage promptly at the relative sliding process of sliding sleeve 224 of slide pipe 223 to further guarantee the radiating effect. In addition, the air outlet direction of the air outlet and the sliding direction of the sliding pipe 223 form an acute angle, the range of the acute angle is 30-60 degrees, the air outlet can effectively appear on the water surface, and the heat dissipation effect of hot water is further guaranteed.

Specifically, the sliding sleeve 224 is provided with a long hole 221 along the length direction thereof, a wrench 222 is slidably disposed in the long hole 221, the wrench 222 is fixedly connected with the outer wall of the sliding tube 223, and the wrench 222 moves relative to the long hole 221 to extend or retract the sliding tube 223 into or out of the sliding sleeve 224. Above-mentioned sliding sleeve 224 has seted up slot 221 along its length direction, and slide in slot 221 and set up spanner 222, the one end of spanner 222 and the outer wall rigid coupling of slide pipe 223, when needs stretch out slide pipe 223 relative sliding sleeve 224, need make spanner 222 upwards (towards air outlet one side) slide along slot 221, when needs retract slide pipe 223 relative sliding sleeve 224, need slide spanner 222 downwards (keeping away from air outlet one side) along slot 221, realize user's effective operation through setting up spanner 222, and then guaranteed the convenience that the user used.

It should be noted that the wrench 222 is a block-shaped structure protruding outside the slot 221, and an anti-slip structure is disposed on an end surface operated by a user, so as to further ensure the operation accuracy during the use process of the user. The wrench 222 may be made of metal or nonmetal, and is not repeated herein again.

Specifically, a damping member is provided in the elongated hole 221, and the damping member maintains the sliding position of the wrench 222. Set up the damping piece in above-mentioned slot 221, this damping piece can be for setting up the rubber layer in slot 221 length direction, also can be for setting up the elastic component in slot 221 length direction, and because need keep the sliding position when spanner 222 slides the in-process to guarantee the extension length of slide pipe 223 relative sliding sleeve 224, so set up the damping piece and can effectively keep the sliding position, further guarantee user's convenience in use.

It is specifically understood that the heat dissipation openings 21 are rectangular long holes, the length of each heat dissipation opening 21 is 1/10 of the height of the housing 2, the number of the heat dissipation openings 21 is multiple, and the heat dissipation openings 21 are arranged around the circumference of the housing 2 at equal intervals. Above-mentioned thermovent 21 is the rectangle slot hole, and the spot facing work of this kind of structure is convenient, can effectively reduce the cost of manufacturing, and the length of thermovent 21 is the 1/10 of 2 heights of shell simultaneously, and the radiating effect can effectively be guaranteed on the one hand to this structure, improves the travelling comfort that the user used, and on the other hand need not dispel the heat and can effectively keep hydrothermal temperature to further satisfy user's water storage demand. Simultaneously the quantity of thermovent 21 is a plurality of to 2 circumference equidistant settings of each thermovent 21 ring shell can effectively increase the exit area of mobile air through this structure, thereby further guarantee the radiating effect, effectively shorten the time of cooling, and then satisfy user's user demand.

It should be noted that, the above-mentioned thermovent 21 is provided with the baffle 25, and this baffle 25 is that the structure that slides from top to bottom also can be the internal and external rotation and overlap the open-close structure, and it does not need to dispel the heat to keep warm when needs carry out, thereby slides upward or rotatory messenger thermovent 21 with baffle 25 and close and realize keeping warm, thereby slides down messenger thermovent 21 with baffle 25 and open when needs dispel the heat and realize the cooling.

Further, the air inlet holes 23 are long holes, the length direction of the air inlet holes 23 is consistent with the height direction of the outer shell 2, the number of the air inlet holes 23 is multiple, and the air inlet holes 23 are arranged around the outer circumference of the outer shell 2 at equal intervals. Above-mentioned inlet port 23 is rectangular hole, and the spot facing work of this kind of structure is convenient, can effectively reduce the cost of manufacturing, and the effect of admitting air can effectively be guaranteed to this structure, and then improves the radiating effect. Simultaneously the quantity of inlet port 23 is a plurality of to 2 circumference equidistant settings of each inlet port 23 ring shell can effectively increase the inlet area of air that flows through this structure, thereby further guarantee the radiating effect, effectively shorten the time of cooling, and then satisfy user's user demand.

It should be noted that, the air inlet 23 is provided with a sealing plate 24, the sealing plate 24 can be an up-down sliding structure or an inner-outer rotating overlapping opening and closing structure, when heat is required to be preserved and heat is not required to be removed, the sealing plate 24 slides upwards or rotates to close the air inlet 23, so that heat preservation is realized, and when heat is required to be removed, the sealing plate 24 slides downwards to open the air inlet 23, so that cooling is realized.

Further, the air inlet fan 29 is disposed above each air inlet 23 and outside the bottom of the cylindrical liner 1, the air inlet fan 29 includes a fan blade 292 and a motor 291, the motor 291 is fixedly connected to the inner wall of the housing 2, and an air outlet surface of the fan blade 292 faces the end surface of the bottom of the cylindrical liner 1. The air inlet fan 29 is arranged between each air inlet 23 and the bottom of the cylindrical liner 1 and comprises a motor 291 and fan blades 292, wherein the motor 291 is fixed with the inside of the shell 2 through a support 293, the air outlet surface of the fan blades 292 faces the end surface of the bottom of the cylindrical liner 1, the motor 291 drives the fan blades 292 to rotate to form negative pressure, outside air enters the sealed cavity through the air inlet 23 and is blown to the bottom of the cylindrical liner 1 through the fan blades 292, and therefore hot water heat conduction is achieved, and hot water cooling is achieved. Air inlet fan 29 sets up the position and can effectively be with the leading-in airtight intracavity of ambient air to make the air heat conduction that circulates, and the air-out face of flabellum 292 is towards tube-shape inner bag 1 bottom, can make the area of contact of air and tube-shape inner bag 1 that gets into airtight chamber through inlet port 23 the biggest, thereby further guarantee radiating high efficiency, improve the travelling comfort that the user used.

Specifically, the switch 26 is disposed on the housing 2, a base of the switch 26 is fixedly connected to the housing 2, and an operation key of the switch 26 protrudes from the housing 2; the temperature control switch is arranged in the closed cavity and is fixedly connected with the outer wall of the cylindrical inner container 1; the bottom of shell 2 is provided with battery compartment 28, battery 281 is rechargeable battery, and the rigid coupling is in the battery compartment 28, battery compartment 28 is provided with the interface 27 that charges with external intercommunication, the interface 27 that charges through charge module 282 with battery 281 connects. In the above structure, the switch 26 is provided on the housing 2, so that the base of the switch 26 is fixed to the housing 2, meanwhile, the key of the switch 26 protrudes out of the shell 2, so that the convenience of operation when a user uses the temperature control switch is effectively ensured, and meanwhile, the temperature control switch is arranged in the sealed cavity, and is fixedly connected with the outer wall of the cylindrical inner container 1, at the moment, the temperature control switch can monitor the temperature of the cylindrical inner container 1 in real time, thereby indirectly monitoring the temperature of the hot water, when the temperature is higher than the preset temperature of the temperature control switch, the temperature control switch is closed to realize the connection of the circuit at the position, when the temperature is lower than the preset temperature, the temperature control switch is switched off, so that the circuit is disconnected at the position, namely, when the switch 26 is switched on, the circuit can be automatically switched on or off according to the temperature change through the temperature control switch, so that the intelligence of operation is effectively improved, the convenience of use of a user is further ensured, and meanwhile, the energy conservation of the battery 281 can be realized; the battery bin 28 is arranged at the bottom end of the shell 2, and the structure can realize that the gravity center of the whole structure is lowered, effectively ensure the stability of the whole structure and further ensure the use safety; battery 281 is rechargeable battery, and this kind of structure can realize that battery 281's repetitious usage can effectively reduce the cost that the user used, sets up the interface 27 that charges simultaneously on shell 2 to realize the charging to battery 281 through the module 282 that charges, thereby guarantee that battery 281 can stabilize continuous work, the user's of being convenient for use.

The above embodiments are only preferred embodiments of the present invention, and any changes and modifications based on the technical solutions of the present invention in the technical field should not be excluded from the protection scope of the present invention.

Claims (7)

1. The utility model provides a heat dissipation water cup, includes tube-shape inner bag (1) that has the open end, tube-shape inner bag (1) outer interval is provided with shell (2), its characterized in that, tube-shape inner bag (1) with form airtight chamber between shell (2), airtight chamber is through seting up the thermovent on shell (2) upper portion link up with the external world, airtight intracavity lower part is provided with inlet port (23), inlet port (23) department is provided with air inlet fan (29), be provided with heat dissipation channel (22) that can open and shut on shell (2), heat dissipation channel (22) with airtight chamber link up, the air outlet orientation of heat dissipation channel (22) the opening terminal surface of tube-shape inner bag (1), air inlet fan (29) electricity is connected with temperature detect switch, switch (26) and power in proper order, be provided with fin (11) in the airtight chamber, the radiating fins (11) are fixedly connected with the outer wall of the cylindrical inner container (1), the length direction of the radiating fins (11) is consistent with the height direction of the cylindrical inner container (1), the radiating fins (11) are of rectangular sheet structures, the number of the radiating fins is multiple, the radiating fins (11) are arranged around the outer circumference of the cylindrical inner container (1) at equal intervals, the radiating channel (22) comprises a sliding sleeve (224) and a sliding pipe (223) arranged in the sliding sleeve (224) in a sliding manner, the bottom of the sliding sleeve (224) is communicated with the closed cavity, the top of the sliding tube is flush with the opening end surface of the cylindrical inner container (1), the free end of the sliding tube (223) is of a closed structure, the side wall of the sliding pipe (223) is provided with an air outlet, the free end of the sliding pipe extends out of the sliding sleeve (224), the air outlet faces to the opening end of the cylindrical inner container (1) to enable the sealed cavity to be communicated with the outside.

2. The heat dissipation water cup as recited in claim 1, wherein the sliding sleeve (224) is provided with a long hole (221) along a length direction thereof, a wrench (222) is slidably disposed in the long hole (221), the wrench (222) is fixedly connected to an outer wall of the sliding tube (223), and the wrench (222) moves relative to the long hole (221) to extend or retract the sliding tube (223) into or out of the sliding sleeve (224).

3. The heat dissipating cup according to claim 2, wherein a damping member is provided in the elongated hole (221), and the damping member maintains a sliding position of the wrench (222).

4. The heat dissipation cup according to claim 3, wherein the heat dissipation opening (21) is a rectangular long hole, the length of the heat dissipation opening (21) is 1/10 of the height of the outer shell (2), the number of the heat dissipation openings (21) is multiple, and the heat dissipation openings (21) are arranged at equal intervals around the circumference of the outer shell (2).

5. The heat dissipation cup as claimed in claim 4, wherein the air inlet holes (23) are elongated holes, the length direction of the air inlet holes (23) is consistent with the height direction of the outer shell (2), the number of the air inlet holes (23) is multiple, and the air inlet holes (23) are arranged around the outer circumference of the outer shell (2) at equal intervals.

6. The heat dissipation cup as claimed in claim 5, wherein the air inlet fan (29) is disposed above each air inlet hole (23) and outside the bottom of the cylindrical inner container (1), the air inlet fan (29) includes a fan blade (292) and a motor (291), the motor (291) is fixedly connected to the inner wall of the outer casing (2), and an air outlet surface of the fan blade (292) faces the bottom end surface of the cylindrical inner container (1).

7. The heat dissipation water cup according to claim 6, wherein the switch (26) is arranged on the housing (2), a base of the switch (26) is fixedly connected with the housing (2), and an operating key of the switch (26) protrudes out of the housing (2); the temperature control switch is arranged in the closed cavity and is fixedly connected with the outer wall of the cylindrical inner container (1); shell (2) bottom is provided with battery compartment (28), the rigid coupling has battery (281) in battery compartment (28), the battery is rechargeable battery, battery compartment (28) are provided with the interface (27) that charges with external intercommunication, interface (27) that charges through charge module (282) with battery (281) are connected.