AU2019202252B1 - a portable thermostatic water cup - Google Patents

Abstract

This invention discloses a portable thermostatic water cup, comprising a water cup (113), wherein a water storage chamber (112) is disposed in the water cup (113) wherein the top of the water cup (113) is provided with a water cup cover (111), and the water cup (111) is coupled with the water cup (113), and a thermostat mechanism (200) is disposed at a bottom of the water storage chamber (112), and the thermostat mechanism (200) comprises an upper heat exchanger (115). This invention's entire structure is more reasonable and delicate, and shaking force during using can be converted into electricity, which improves the portability of this invention, and electric leakage happened in connection with high voltage can also be avoided, consequently, this invention has higher value of usage and promotion.

Description

A PORTABLE THERMOSTATIC WATER CUP TECHNICAL FIELD

[0001] The present invention relates to the technical field of daily necessities, in particular to

a portable thermostatic water cup.

BACKGROUND OF THE INVENTION

[0002] Currently, water cups for drinking only have simple function of holding water or

physically keeping the temperature of water inside of it. When the water temperature is too

high or too low, it becomes unfit for drinking. In addition, most of current thermostatic water

cups are using bases to keep the temperature, which is prone to water leakage and electric

shock. Therefore, it is necessary to improve current technique and enhance the safety of using

water cups.

BRIEF SUMMARY OF THE INVENTION

[0003] The technical problem to be solved by the invention is to provide a portable

thermostatic water cup, so as to overcome the problems existing in the prior art.

[0004] A portable thermostatic water cup comprising, a water cup, wherein a water storage

chamber is disposed in the water cup, wherein the top of the water cup is provided with a

water cup cover, and the water cup cover is coupled with the water cup; a thermostat

mechanism is disposed at a bottom of the water storage chamber, and the thermostat

mechanism comprises an upper heat exchanger and a lower heat exchanger, and the upper

heat exchanger is fixedly disposed in a bottom wall of the water storage chamber, and the

lower heat exchanger that located below the upper heat exchanger is fixedly disposed in a

bottom wall of the water storage chamber, and a liquid storage chamber is disposed in a bottom wall of the water storage chamber, and a circulating fluid is disposed in the liquid storage chamber, and a compression chamber is disposed in a first side wall of the liquid storage chamber, and a throttle valve is fixedly disposed in a first side wall of the compression chamber, and a return line is communicated with the liquid storage chamber and the lower heat exchanger, and a suction line is communicated with the liquid storage chamber and the compression chamber, and a high pressure line is communicated with the compression chamber and the upper heat exchanger, and a high temperature line is communicated with the upper heat exchanger and the throttle valve, and a throttle line is communicated with the throttle valve and the lower heat exchanger, wherein a driving mechanism comprises a driving motor and a driving shaft, and integrated power chambers are disposed in a first side wall of the liquid storage chamber, and the driving shaft is rotatably disposed in the integrated power chambers, and the driving motor is fixedly disposed in a second side wall of one of the integrated power chambers, and a second side end of the drive shaft is in power connection with the drive motor; the drive mechanism drives the thermostat mechanism to cycle.

[0005] As an optimized technical proposal, the thermostat mechanism is provided with a compression mechanism, and the compression mechanism comprises a compression power shaft disposed between the compression chamber and one of the integrated power chambers at one end, and a main compression screw is fixed on afirst side wall of the compression power shaft in the compression chamber, and a sub-compression screw is disposed in the compression chamber, and the sub-compression screw is in connection with the main compression screw, and a compression driven gear is fixedly disposed at a second side end of the compression power shaft in one of the integrated power chambers, and a compression driving gear is fixedly disposed on an outer end wall of the driving shaft in one of the integrated power chambers, and the compression driving gear meshes with the compression driven gear; circulating fluid in the liquid storage chamber can be compressed and cooled by the compression mechanism.

[0006] As an optimized technical proposal, the thermostat mechanism is provided with a heat

exchange device, the heat exchange device comprises heat exchange chambers disposed in

bottom walls of the integrated power chambers, and heat exchange power shafts extending

upward and downward are disposed between the integrated power chambers and the heat

exchange chambers, and heat exchange driven bevel gears are fixedly disposed at a top side

end of the heat exchange power shafts in the integrated power chambers, and heat exchange

driving bevel gears are disposed in an outer end wall of the driving shaft, and the heat

exchange driving bevel gears mesh with the heat exchange driven bevel gears, and heat

exchange fans are fixedly disposed at bottom ends of the heat exchange power shafts in the

heat exchange chambers, and a bottom wall of the water cup is provided with heat exchange

holes; heat between the circulating fluid in the lower heat exchanger and air can be exchanged

by the heat exchange device to reduce the temperature of the circulating fluid.

[0007] As an optimized technical proposal, a power generating mechanism is disposed in the

water cup; the power generating mechanism comprises a power generating chamber disposed

in a bottom wall of the water storage chamber, and a winding coil is fixedly disposed in the

power generating chamber, and a permanent magnet slider is disposed in the power generating

chamber for sliding horizontally; a left return spring is elastically disposed between a first

side wall of the permanent magnet slider and a first side wall of the power generating chamber,

and a right return spring is elastically disposed between a second side wall of the permanent

magnet slider and a second side wall of the power generating chamber, and electromagnetic

energy plates are fixed in both side end walls of the water storage chamber, and a storage

battery is fixed in a first side wall of the power generation cavity; external energy can be

converted by the power generation mechanism into electric power and being stored to ensure

continuous operation of the thermostat mechanism.

[0008] The benefits of the invention are as follows: this invention's entire structure is more

reasonable and delicate, and shaking force during using can be converted into electricity,

which improves the portability of this invention, and electric leakage happened in connection

with high voltage can also be avoided, consequently, this invention has higher value of usage and promotion.

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] For better explain the technical proposal in the present invention embodiments or the prior art, the drawings to be used in the description of the embodiments or the prior art will be briefly described below.

[0010] FIG. 1 is an overall schematic structural diagram of the portable thermostatic water cup.

[0011] FIG. 2 is a schematic structural diagram of A in FIG. 1

DETAILED DESCRIPTION OF THE INVENTION

[0012] The invention will be described in detail below referring to FIG. 1 to FIG. 2. For better explanation, the orientations described hereinafter are defined as follows: directions ofup and down in the text are identical to the directions of up and down of FIG.1.

[0013] As shown in Figures 1-2, a portable thermostatic water cup according to the present invention comprises a water cup 113, wherein a water storage chamber 112 is disposed in the water cup 113 wherein the top of the water cup 113 is provided with a water cup cover 111, and the water cup cover 111 is coupled with the water cup 113; a thermostat mechanism 200 is disposed at a bottom of the water storage chamber 112, and the thermostat mechanism 200 comprises an upper heat exchanger 115 and a lower heat exchanger 122, and the upper heat exchanger 115 is fixedly disposed in a bottom wall of the water storage chamber 112, and the lower heat exchanger 122 that located below the upper heat exchanger 115 is fixedly disposed in a bottom wall of the water storage chamber 112, and a liquid storage chamber 127 is disposed in a bottom wall of the water storage chamber 112, and a circulating fluid is disposed in the liquid storage chamber 127, and a compression chamber 143 is disposed in a first side wall of the liquid storage chamber 127, and a throttle valve 125 isfixedly disposed in a first side wall of the compression chamber 143, and a return line 123 is communicated with the liquid storage chamber 127 and the lower heat exchanger 122, and a suction line 128 is communicated with the liquid storage chamber 127 and the compression chamber 143, and a high pressure line 129 is communicated with the compression chamber 143 and the upper heat exchanger 115, and a high temperature line 126 is communicated with the upper heat exchanger 115 and the throttle valve 125, and a throttle line 121 is communicated with the throttle valve 125 and the lower heat exchanger 122, wherein a driving mechanism 100 comprises a driving motor 124 and a driving shaft 131, and integrated power chambers 137 are disposed in a first side wall of the liquid storage chamber 127, and the driving shaft 131 is rotatably disposed in the integrated power chambers 137, and the driving motor 124 isfixedly disposed in a second side wall of one of the integrated power chambers 137, and a second side end of the drive shaft 131 is in power connection with the drive motor 124; the drive mechanism 100 drives the thermostat mechanism 200 to cycle.

[0014] As an optimized technical proposal, the thermostat mechanism 200 is provided with a

compression mechanism 300, and the compression mechanism 300 comprises a compression

power shaft 134 disposed between the compression chamber 143 and one of the integrated

power chambers 137 at one end, and a main compression screw 135 is fixed on a first side

wall of the compression power shaft 134 in the compression chamber 143, and a

sub-compression screw 136 is disposed in the compression chamber 143, and the

sub-compression screw 136 is in connection with the main compression screw 135, and a

compression driven gear 133 is fixedly disposed at a second side end of the compression

power shaft 134 in one of the integrated power chambers 137, and a compression driving gear

132 is fixedly disposed on an outer end wall of the driving shaft 131 in one of the integrated

power chambers 137, and the compression driving gear 132 meshes with the compression

driven gear 133; circulating fluid in the liquid storage chamber 127 can be compressed and

cooled by the compression mechanism 300.

As an optimized technical proposal, the thermostat mechanism 200 is provided with a heat

exchange device 400, the heat exchange device 400 comprises heat exchange chambers 142

disposed in bottom walls of the integrated power chambers 137, and heat exchange power

shafts 140 extending upward and downward are disposed between the integrated power

chambers 137 and the heat exchange chambers 142, and heat exchange driven bevel gears 139

are fixedly disposed at a top side end of the heat exchange power shafts 140in the integrated

power chambers 137, and heat exchange driving bevel gears 138 are disposed in an outer end

wall of the driving shaft 131, and the heat exchange driving bevel gears 138 mesh with the

heat exchange driven bevel gears 139, and heat exchange fans 141 are fixedly disposed at

bottom ends of the heat exchange power shafts 140 in the heat exchange chambers 142, and a

bottom wall of the water cup 113 is provided with heat exchange holes 130; heat between the

circulating fluid in the lower heat exchanger 122 and air can be exchanged by the heat

exchange device 400 to reduce the temperature of the circulating fluid.

[0015] As an optimized technical proposal, a power generating mechanism 500 is disposed in

the water cup 113; the power generating mechanism comprises a power generating chamber

118 disposed in a bottom wall of the water storage chamber 112, and a winding coil 117 is

fixedly disposed in the power generating chamber 118, and a permanent magnet slider 120 is

disposed in the power generating chamber 118 for sliding horizontally; a left return spring 119

is elastically disposed between a first side wall of the permanent magnet slider 120 and a first

side wall of the power generating chamber 118, and a right return spring 144 is elastically

disposed between a second side wall of the permanent magnet slider 120 and a second side

wall of the power generating chamber 118, and electromagnetic energy plates 114 are fixed in

both side end walls of the water storage chamber 112, and a storage battery 116 is fixed in a

first side wall of the power generation cavity 118; external energy can be converted by the

power generation mechanism 500 into electric power and being stored to ensure continuous

operation of the thermostat mechanism 200.

[0016] In the initial state, the permanent magnet slider 120 is located at an intermediate

position of the power generation cavity 118;

[0017] When the apparatus is being used, a user pours water into the water storage chamber

112, and the water cup cover 111 is connected with the water cup 113, and the

electromagnetic energy board 114 converts the light into electric power and stores it in the

storage battery 116, at the same time, the user carries the water cup while walking, the human

body swaying drives the permanent magnet slider 120 to slide horizontally, and the permanent

magnet slider 120 and the winding coil 117 are relatively slid to generate electric power

which are stored in the storage battery 116, and when the temperature of the water in the

water storage chamber 112 is too high, the drive motor 124 starts to work, and the driving

motor 124 drives the driving shaft 131 to rotate, and the driving shaft 131 drives the

compression driving gear 132 to rotate, and the compression driving gear 132 drives the

compression driven gear 133 to rotate, and the compression driven gear 133 drives the

compression power shaft 134 to rotate, and the compression power shaft 134 drives the main

compression screw 135 to rotate, and the main compression screw 135 drives the

sub-compression screw 136 to rotate, and the sub-compression screw 136 and the main

compression screw 135 suck the circulating liquid in the liquid storage chamber 127 into the

compression chamber 143 through the suction line 128, and then the circulating fluid is

pressurized and cooled, and the high-pressure circulating fluid enters the upper heat

exchanger 115 through the high-pressure pipeline 129 and absorbs the temperature of the

water in the water tank in the water storage chamber 112, and then the temperature in the

water cup is lowered, and the circulating fluid that is heated is introduced into the throttle

valve 125 through the high temperature line 126, and the circulating fluid in the throttle valve

125 enters the lower heat exchanger 122 through the throttle line 121, at the same time, the

driving shaft 131 drives the heat exchange driving bevel gears 138 to rotate, and the heat

exchange driving bevel gears 138 drive the heat exchange driven bevel gears 139 to rotate,

and the heat exchange driven bevel gear 139s drive the heat exchange power shafts 140 to

rotate, and the heat exchange power shafts 140 drive the heat exchange fans 141 to rotate, and

the heat exchange fans 141 disperse heat of the high temperature circulating liquid in the

lower heat exchanger 122 into the air; when the cup's temperature is too low, the drive motor

124 begins to reverse operation, raising the temperature inside the cup.

[0018] The present invention has the beneficial effects that the apparatus is more reasonable

and ingenious in the overall structure, and the apparatus can convert the shaking into electric

power during the movement of the user, thereby improving portability of the apparatus,

avoiding current leakage which is easy to occur in connection with high-voltage power source,

and improving safety of the apparatus, and as a result, the apparatus has a high use and

promotion value.

[0019] The above shows and illustrates the basic principles, main features, and advantages of

the present invention. Persons skilled in the art should understand that, the invention is not

subject to restrictions of the embodiments above, the embodiments and descriptions stated

above only describe the principle of the present invention. The invention will be subject to

modification and improvement based on its intention and extent, which will also fall into the

claimed protection extent of this invention. The claimed protection extent of the invention

shall be determined with reference to the appended claims and any equivalents thereof.

Claims (1)

1. A portable thermostatic water cup comprises,

a water cup;

a water storage chamber disposed in the water cup;

wherein the top of the water cup is provided with a water cup cover, and the water cup

cover is coupled with the water cup;

a thermostat mechanism disposed at a bottom of the water storage chamber;

an upper heat exchanger fixedly disposed in a bottom wall of the water storage

chamber;

a lower heat exchanger located below the upper heat exchanger andfixedly disposed

in a bottom wall of the water storage chamber;

a liquid storage chamber disposed in a bottom wall of the water storage chamber;

a circulating fluid disposed in the liquid storage chamber;

a compression chamber disposed in a first side wall of the liquid storage chamber;

a throttle valve fixedly disposed in a first side wall of the compression chamber;

a return line communicated with the liquid storage chamber and the lower heat

exchanger; a suction line communicated with the liquid storage chamber and the compression chamber; a high pressure line communicated with the compression chamber and the upper heat exchanger; a high temperature line communicated with the upper heat exchanger and the throttle valve; a throttle line communicated with the throttle valve and the lower heat exchanger; wherein a driving mechanism comprises a driving motor and a driving shaft; integrated power chambers disposed in a first side wall of the liquid storage chamber; wherein the driving shaft is rotatably disposed in the integrated power chambers; wherein the driving motor is fixedly disposed in a second side wall of one of the integrated power chambers; a second side end of the drive shaft is in power connection with the drive motor; whereby the drive mechanism drives the thermostat mechanism to cycle; wherein said thermostat mechanism is provided with a compression mechanism, and the compression mechanism comprises a compression power shaft disposed between the compression chamber and one of the integrated power chambers at one end; a main compression screw fixed on a first side wall of the compression power shaft in the compression chamber; a sub-compression screw disposed in the compression chamber and the sub-compression screw is in connection with the main compression screw; a compression driven gear fixedly disposed at a second side end of the compression power shaft in one of the integrated power chambers; a compression driving gear fixedly disposed on an outer end wall of the driving shaft in one of the integrated power chambers; whereby the compression driving gear meshes with the compression driven gear; circulating fluid in the liquid storage chamber can be compressed and cooled by the compression mechanism; wherein said thermostat mechanism is provided with a heat exchange device, and the heat exchange device comprises heat exchange chambers disposed in bottom walls of the integrated power chambers; heat exchange power shafts extending upward and downward disposed between the integrated power chambers and the heat exchange chambers; heat exchange driven bevel gears fixedly disposed at a top side end of the heat exchange power shafts in the integrated power chambers; heat exchange driving bevel gears disposed in an outer end wall of the driving shaft; wherein the heat exchange driving bevel gears mesh with the heat exchange driven bevel gears; heat exchange fans fixedly disposed at bottom ends of the heat exchange power shafts in the heat exchange chambers; a bottom wall of the water cup is provided with heat exchange holes; wherein heat between the circulating fluid in the lower heat exchanger and air can be exchanged by the heat exchange device to reduce the temperature of the circulating fluid; a power generating mechanism is disposed in the water cup; the power generating mechanism comprises a power generating chamber disposed in a bottom wall of the water storage chamber; a winding coil fixedly disposed in the power generating chamber; a permanent magnet slider disposed in the power generating chamber for sliding horizontally; a left return spring elastically disposed between a first side wall of the permanent magnet slider and a first side wall of the power generating chamber; a right return spring elastically disposed between a second side wall of the permanent magnet slider and a second side wall of the power generating chamber; electromagnetic energy plates fixed in both side end walls of the water storage chamber; a storage battery fixed in a first side wall of the power generation cavity; whereby external energy is able to be converted by the power generation mechanism into electric power and being stored to ensure continuous operation of the thermostat mechanism.