AU2019202207B1 - A cup with temperature control function - Google Patents

Abstract

This invention discloses a cup with temperature control function, including a cup 10 which is internally provided with a water storage chamber 11; a temperature control chamber 15 outside the water storage chamber 11, wherein solar panels 19 is fixed on one end of each of rotary plates 18, and each of photo-voltaic controllers 20 is electrically connected with the end of the respective one of the solar panels 18 far away from the water storage chamber 11, and batteries 23 are electrically connected with the photo-voltaic controllers 20 via electric leads 21. This invention converts solar energy into electric energy stored in batteries which frees the device from regional and environmental restrictions in power source for temperature control, and water temperature in the storage chamber goes up or down evenly, therefore, the cup has a long service life and is portable and stable.

Description

[0001] The present invention relates to the field of living goods, in particular to a cup with temperature control function.

BACKGROUND OF THE INVENTION [0002] The existing convenient-to-carry cup only has a heat preservation function, and the inner container of the water cup is sealed with the water cup by means of the material of the inner container of the water cup, but the heat preservation effect is timeliness. And after the temperature is maintained within a certain period of time or a few days, the water temperature gradually decreases, so that the heat preservation of the water cup has a time limitation. And the existing water cup with a heating function uses an electrical connection port to perform an electrical connection operation with an external power source, so as to provide electric energy for the heating device in the water cup, and to heat the water in the water cup, so that the water cup has the limitation of use. In addition, the external power-on interface is easy to be wetted by water, causing an electric leakage problem and other unsafe problems. And the water cup is in a use-prohibited state during the heating process, thereby causing inconvenience in use.

[0003] Second, when the temperature of the contained water in the water cup is reduced, the cup cover is usually opened to perform natural cooling, and an upper layer of water in contact with the air is cooled first, and the time consumption is long, so that the cooling is non-uniform, and there is another existing cooling mode is achieved, by which the stirring rod is used for cooling the contained water in the water cup, so that the manpower operation is time and labor consuming, and the usability is poor.

2019202207 10 May 2019 [0004] Therefore, it is necessary to further improve the water cup in the prior art, so as to improve the temperature control function of the water cup.

BRIEF SUMMARY OF THE INVENTION [0005] The aim of the invention is to provide a cup with temperature control function so as to overcome the above-mentioned problems existing in the prior art.

[0006] A cup with temperature control function according to this invention comprises a cup, wherein the cup is internally provided with a water storage chamber which is communicated with the outside in the upper side and equipped with a rabbet, and on the upside of the cup, there is a lid with a seal groove opening down inside, wherein the seal groove and said cup are sealed by threads, and there is a temperature control chamber which is U-shaped outside the water storage chamber, wherein the upper side of the temperature control chamber is communicated with the outside and equipped with an air outlet, in which a solenoid valve is fixed, and there is a heating plate fixedly arranged within the inner end wall of the temperature control chamber, and contraction cavities with openings facing outwards are symmetrically fixed outside the temperature control chamber, wherein the contraction cavities are internally provided with rotary plates which have locking slots fixed on the upper sides, and above the contraction cavities, there are locking devices clamped with the locking slots, and a respective one of solar panels is fixed on one end of each of the rotary plates near the water storage chamber, wherein each of photo-voltaic controllers is electrically connected with the end of the respective one of the solar panels far away from the water storage chamber, and under the contraction cavities, there are batteries which are annular electrically connected with the photo-voltaic controllers via electric leads, and retractable springs are respectively arranged on the ends of the rotary plates far away from the water storage chamber, wherein the retractable springs are connected to the bottom end walls of the contraction cavities, and outside the rotary plates, there are closing plates to close the contraction cavities, wherein upper ends of the closing plates are provided beveled surfaces, wherein the upper ends of the

2019202207 10 May 2019 closing plates are abutted against the locking devices, and under the contraction cavities, and lifting devices are arranged on the lower sides of the contraction cavities, wherein the lifting devices are fixedly connected with the lower ends of said closing plates, wherein anti-skid washers which are annular are sheathed on the outer side of said lifting devices, and an electrical device is arranged one of the lifting devices, wherein the electrical device is electrically connected with the heating plate via a wire. A wind cavity is arranged on the lower side of said temperature control chamber, wherein the wind cavity is communicated with the temperature control chamber via a connecting slot, wherein inside the wind cavity, there is a cooling device cooling water in the water storage chamber after having cooled the temperature control chamber by wind power, and on one side of said wind cavity, a conversion device is connected with the cooling device, and the lower side of the wind cavity is communicated with the outside and equipped with a ventilation cavity, wherein the ventilation cavity internally provided with a sealing plate through the rotation of a sealing rotatable shaft, wherein the sealing plate is used to seal the wind cavity, and the sealing rotatable shaft is in power connection with the conversion device, and inside the sealing plate, there is a vent hole penetrated through up and down to connect the wind cavity with the outer space.

[0007] Furthermore, the locking devices comprise vertical slide bar slots with openings facing downwards communicated with the contraction cavities, wherein in the vertical slide bar slots, vertical slide bars are clamped to the locking slots with the lower ends stretching into said contraction cavities, wherein the upper ends of the vertical slide bars are fixedly provided with pushing springs, wherein the upper ends of the pushing springs are fixedly connected with the upper end wall of the vertical slide bar slots, and there are abutting slots penetrated through one side to the other side in the vertical slide bars, and squeezing slots are arranged on ends of said vertical slide bar slots far away from the water storage chamber, wherein the squeezing slots with openings facing downwards are communicated with the contraction cavities, and the upper ends of said closing plates stretch into the squeezing slots, and the squeezing slots are communicated with the vertical slide bar slots through horizontal

2019202207 10 May 2019 chutes, wherein horizontal slide bars are arranged in the horizontal chutes, wherein one end of each of the horizontal slide bars is provided with a beveled surface, and horizontal slide bars are abutted against the vertical slide bars, wherein the ends of the horizontal slide bars, which near the water storage chamber, are fixedly connected with the inner end walls on corresponding sides of the horizontal chutes via squeezing springs, and the other ends of the horizontal slide bars, which far away from the water storage chamber, stretch into the squeezing slots and touch against closing plates; the lifting devices comprise lifting grooves which are symmetric and far away from both sides of the water storage chamber, and the lower ends of said closing plates stretch into lifting grooves which are connected by a link slot, and the ends of said closing plates, which are on outer sides, are fixedly connected with first reset components; the closing plates in the lifting grooves are fixedly connected by a connecting link running through the link slot; there is a cord at the lower end of one of said closing plates which is far away from the connecting slot, and a winding slot is arranged at the lower end of one of the lifting grooves on the corresponding side, wherein a winding runner is rotatably arranged in the winding slot for via a winding rotatable shaft; the lower end of said cord stretches into the winding slot and fixedly winds around the winding runner, while the end of said winding slot far away from the water storage chamber is communicated with the outside via a twist slot, and the end of said winding rotatable shaft far away from the water storage chamber stretches into the twist slot and is fixedly provided with a twist block.

[0008] Furthermore, the electrical device comprises a electricity slide cavity internally and fixedly equipped with a power-connecting fixed block which is electrically connected with one of the batteries via an electrified wire; there are two power-connecting slots, which are symmetrical, in the power-connecting fixed block, and a power-connecting slide block is slidably arranged on the lower side of the electricity slide cavity; a connecting spring fixedly connected with the lower end wall of said electricity slide cavity is fixed on the lower end wall of the power-connecting slide block, and inside the power-connecting slide block, an energizing block is fixed; the electricity slide cavity is communicated with the temperature control chamber via a wire slot; the upper end of said wire stretches into the electricity slide

2019202207 10 May 2019 cavity and is electrically connected with the energizing block, and the upper end of said energizing block is fixedly provided with power-connecting inserting blocks for socketing the power-connecting slots; the cooling device comprises a support rod which is fixed in the wind cavity and has rotary belt groove with an opening facing outwards, wherein the rotary belt groove is provided with a rotating pulley rotating via a belt rotating shaft, wherein the upper end of the belt rotating shaft stretches into the wind cavity and is fixedly and symmetrically provided with fan blade; there is a transmission belt slot communicated with the rotary belt groove, which is arranged at the end of said wind cavity far away from the sealing rotatable shaft, and in the transmission belt slot, a transmission pulley is rotatably arranged via a spline shaft, wherein the transmission pulley is in power connection with the rotating pulley via a transmission belt, and the upper end of said spline shaft is splined to the conversion device.

[0009] Furthermore, the conversion device comprises a conversion cavity communicated with the electricity slide cavity, and there is a conversion sliding block in the conversion cavity; the upper end of said conversion sliding block is fixedly provided with a push rod, wherein the upper end of the push rod stretches into the electricity slide cavity and is abutted against the power-connecting slide block; the end of said conversion cavity far away from the water storage chamber is communicated via a guide sliding slot with a fixed cavity, and the end of said conversion sliding block far away from the water storage chamber is fixedly provided with a deflector rod, which runs through the guide sliding slot and stretches into the fixed cavity; the lower end of said deflector rod in the guide sliding slot is fixedly provided with a reset spring, whose lower end is fixedly connected with the lower end of the guide sliding slot; the deflector rod in the fixed cavity is symmetrically and fixedly provided with fixing lock catches to hook the fixing device outside of the fixed cavity, and the conversion sliding block is internally provided with a conversion motor which is electrically connected with the batteries; the lower end of the conversion motor is in power connection with a spline sleeve, and the conversion cavity is communicated with the transmission belt slot; the upper end of the spline shaft extends into the conversion cavity to be splined to the spline sleeve; a meshing cavity is arranged between and communicated with the conversion

2019202207 10 May 2019 cavity and the connecting slot, and the meshing cavity is internally provided with a meshing gear which is slidable and meshes with the conversion sliding block; a first bevel gear is fixedly arranged on the meshing gear, and the first bevel gear is meshed with a second bevel gear at the end near the connecting slot; the second bevel gear is fixedly provided with a gear rotating shaft at the end near the connecting slot; there is a meshing groove communicated with the connecting slot and said ventilation cavity, which is arranged on the upper of said ventilation cavity, and the end of said gear rotating shaft near the connecting slot extends into the meshing groove and has a third bevel gear fixedly arranged; the upper end of the sealing rotatable shaft extends into the meshing groove and is fixedly provided with a fourth bevel gear which is meshed with the third bevel gear.

[0010] Furthermore, the fixing device comprises mount rotation slots which are longitudinally symmetrical and opening relatively and communicated with the fixed cavity, and the mount rotation slots are internally provided with mount rotating rods, whose ends far away from the fixed cavity are rotatably provided with connecting rotary rods communicated with sliding grooves; the mount rotation slots are internally and fixedly provided with fixing rods which is communicated with the sliding grooves, and the ends of said mount rotation slots far away from the water storage chamber are communicated with the outer space by push slots; within the push slots, pushing blocks far away from the end of said fixed cavity are rotatably connected with the connecting rotary rods; second reset components are fixedly arranged on the end faces of said pushing blocks close to the water storage chamber.

[0011] Beneficial effects of the present invention are as follows:

[0012] This invention is simple in structure and convenient to operate. Converting solar energy into electric energy stored in batteries through the solar panels frees the device from regional and environmental restrictions in power source for temperature control, and the cup itself has a power storage device, so the cup is easy to carry and problems such as poor contact or water damage resulted from external power supply interface are avoided, which is

2019202207 10 May 2019 highly safe. In addition, heating and cooling are realized through temperature conduction from the temperature control chamber to the water storage chamber, thus, water temperature in the storage chamber goes up or down evenly, and such unsafe elements as accelerated water tank damage and electric leakage caused by direct heating are avoided, therefore, the cup has a long service life. What’s more, the cup is portable and stable, and the heating and cooling devices are installed one the inner walls of the cup which will not affect the appearance.

BRIEF DESCRIPTION OF THE DRAWINGS [0013] Fig.l is an overall schematic structural diagram inside a cup with temperature control function in this invention.

[0014] Fig.2 is an enlarged schematic structural diagram of “A” in Fig.l.

[0015] Fig.3 is an enlarged schematic structural diagram of “B” in Fig.2.

[0016] Fig.4 is the schematic structural diagram along “C-C” in Fig.l.

[0017] Fig.5 is an enlarged schematic structural diagram of “D” in Fig.l.

[0018] Fig.6 is an enlarged schematic structural diagram of “E” in Fig.l.

[0019] Fig.7 is an enlarged schematic structural diagram along “F-F” in Fig.l.

[0020] Fig.8 is an enlarged schematic structural diagram of “G” in Fig.l.

DETAILED DESCRIPTION OF THE INVENTION

2019202207 10 May 2019 [0021] By reference to Fig. 1-8, and in accordance with the embodiments, the invention relates to a cup with temperature control function which comprises a cup 10, wherein the cup 10 is internally provided with a water storage chamber 11 which is communicated with the outside in the upper side and equipped with a rabbet 12, and on the upside of the cup 10, there is a lid 13 with a seal groove 14 opening down inside, wherein the seal groove 14 and said cup 10 are sealed by threads, and there is a temperature control chamber 15 which is U-shaped outside the water storage chamber 11, wherein the upper side of the temperature control chamber 15 is communicated with the outside and equipped with an air outlet 30, in which a solenoid valve 31 is fixed, and there is a heating plate 16 fixedly arranged within the inner end wall of the temperature control chamber 15, and contraction cavities 17 with openings facing outwards are symmetrically fixed outside the temperature control chamber 15, wherein the contraction cavities 17 are internally provided with rotary plates 18 which have locking slots 24 fixed on the upper sides, and above the contraction cavities 17, there are locking devices 100 clamped with the locking slots 24, and a respective one of solar panels 19 is fixed on one end of each of the rotary plates 18 near the water storage chamber 11, wherein each of photo-voltaic controllers 20 is electrically connected with the end of the respective one of the solar panels 19 far away from the water storage chamber 11, and under the contraction cavities 17, there are batteries 23 which are annular electrically connected with the photo-voltaic controllers 20 via electric leads 21, and retractable springs 22 are respectively arranged on the ends of the rotary plates 18 far away from the water storage chamber 11, wherein the retractable springs 22 are connected to the bottom end walls of the contraction cavities 17, and outside the rotary plates 18, there are closing plates 25 to close the contraction cavities 17, wherein upper ends of the closing plates 25 are provided beveled surfaces, wherein the upper ends of the closing plates 25 are abutted against the locking devices 100, and under the contraction cavities 17, and lifting devices 200 are arranged on the lower sides of the contraction cavities 17, wherein the lifting devices 200 are fixedly connected with the lower ends of said closing plates 25, wherein anti-skid washers 26 which are annular are sheathed on the outer side of said lifting devices 200, and an electrical device 300 is arranged one of the lifting devices 200, wherein the electrical device 300 is electrically

2019202207 10 May 2019 connected with the heating plate 16 via a wire 27. A wind cavity 29 is arranged on the lower side of said temperature control chamber 15, wherein the wind cavity 29 is communicated with the temperature control chamber 15 via a connecting slot 28, wherein inside the wind cavity 29, there is a cooling device 400 cooling water in the water storage chamber 11 after having cooled the temperature control chamber 15 by wind power, and on one side of said wind cavity 29, a conversion device 500 is connected with the cooling device 400, and the lower side of the wind cavity 29 is communicated with the outside and equipped with a ventilation cavity 32, wherein the ventilation cavity 32 internally provided with a sealing plate 33 through the rotation of a sealing rotatable shaft 34, wherein the sealing plate 33 is used to seal the wind cavity 29, and the sealing rotatable shaft 34 is in power connection with the conversion device 500, and inside the sealing plate 33, there is a vent hole 35 penetrated through up and down to connect the wind cavity 29 with the outer space.

[0022] Beneficially or as an embodiment, the locking devices 100 comprise vertical slide bar slots 36 with openings facing downwards communicated with the contraction cavities 17, wherein in the vertical slide bar slots 36, vertical slide bars 37 are clamped to the locking slots 24 with the lower ends stretching into said contraction cavities 17, wherein the upper ends of the vertical slide bars 37 are fixedly provided with pushing springs 38, wherein the upper ends of the pushing springs 38 are fixedly connected with the upper end wall of the vertical slide bar slots 36, and there are abutting slots 39 penetrated through one side to the other side in the vertical slide bars 37, and squeezing slots 43 are arranged on ends of said vertical slide bar slots 36 far away from the water storage chamber 11, wherein the squeezing slots 43 with openings facing downwards are communicated with the contraction cavities 17, and the upper ends of said closing plates 25 stretch into the squeezing slots 43, and the squeezing slots 43 are communicated with the vertical slide bar slots 36through horizontal chutes 40, wherein horizontal slide bars 42 are arranged in the horizontal chutes 40, wherein one end of each of the horizontal slide bars 42 is provided with a beveled surface, and horizontal slide bars 42 are abutted against the vertical slide bars 37, wherein the ends of the horizontal slide bars 42, which near the water storage chamber 11, are fixedly connected

2019202207 10 May 2019 with the inner end walls on corresponding sides of the horizontal chutes 40 via squeezing springs 41, and the other ends of the horizontal slide bars 42, which far away from the water storage chamber 11, stretch into the squeezing slots 43 and touch against closing plates 25; the lifting devices 200 comprise lifting grooves 44 which are symmetric and far away from both sides of the water storage chamber 11, and the lower ends of said closing plates 25 stretch into lifting grooves 44 which are connected by a link slot 46, and the ends of said closing plates 25, which are on outer sides, are fixedly connected with first reset components 45; the closing plates 25 in the lifting grooves 44 are fixedly connected by a connecting link 47 running through the link slot 46; there is a cord 48 at the lower end of one of said closing plates 25 which is far away from the connecting slot 28, and a winding slot 49 is arranged at the lower end of one of the lifting grooves 44 on the corresponding side, wherein a winding runner 51 is rotatably arranged in the winding slot 49 for via a winding rotatable shaft 50; the lower end of said cord 48 stretches into the winding slot 49 and fixedly winds around the winding runner 51, while the end of said winding slot 49 far away from the water storage chamber 11 is communicated with the outside via a twist slot 52, and the end of said winding rotatable shaft 50 far away from the water storage chamber 11 stretches into the twist slot 52 and is fixedly provided with a twist block 53.

[0023] Beneficially or as an embodiment, the electrical device 300 comprises a electricity slide cavity 54 internally and fixedly equipped with a power-connecting fixed block 55 which is electrically connected with one of the batteries 23 via an electrified wire 56; there are two power-connecting slots 57, which are symmetrical, in the power-connecting fixed block 55, and a power-connecting slide block 58 is slidably arranged on the lower side of the electricity slide cavity 54; a connecting spring 61 fixedly connected with the lower end wall of said electricity slide cavity 54 is fixed on the lower end wall of the power-connecting slide block 58, and inside the power-connecting slide block 58, an energizing block 59 is fixed; the electricity slide cavity 54 is communicated with the temperature control chamber 15 via a wire slot 62; the upper end of said wire 27 stretches into the electricity slide cavity 54 and is electrically connected with the energizing block 59, and the upper end of said

2019202207 10 May 2019 energizing block 59 is fixedly provided with power-connecting inserting blocks 60 for socketing the power-connecting slots 57; the cooling device 400 comprises a support rod 63 which is fixed in the wind cavity 29 and has rotary belt groove 64 with an opening facing outwards, wherein the rotary belt groove 64 is provided with a rotating pulley 65 rotating via a belt rotating shaft 66, wherein the upper end of the belt rotating shaft 66 stretches into the wind cavity 29and is fixedly and symmetrically provided with fan blade 67 ; there is a transmission belt slot 69 communicated with the rotary belt groove 64, which is arranged at the end of said wind cavity 29 far away from the sealing rotatable shaft 34, and in the transmission belt slot 69, a transmission pulley 83 is rotatably arranged via a spline shaft 84, wherein the transmission pulley 83 is in power connection with the rotating pulley 65 via a transmission belt 68, and the upper end of said spline shaft 84 is splined to the conversion device 500.

[0024] Beneficially or as an embodiment, the conversion device 500 comprises a conversion cavity 70 communicated with the electricity slide cavity 54, and there is a conversion sliding block 71 in the conversion cavity 70; the upper end of said conversion sliding block 71 is fixedly provided with a push rod 74, wherein the upper end of the push rod 74 stretches into the electricity slide cavity 54 and is abutted against the power-connecting slide block 58; the end of said conversion cavity 70 far away from the water storage chamber 11 is communicated via a guide sliding slot 85 with a fixed cavity 87, and the end of said conversion sliding block 71 far away from the water storage chamber 11 is fixedly provided with a deflector rod 86, which runs through the guide sliding slot 85 and stretches into the fixed cavity 87; the lower end of said deflector rod 86 in the guide sliding slot 85 is fixedly provided with a reset spring 89, whose lower end is fixedly connected with the lower end of the guide sliding slot 85; the deflector rod 86 in the fixed cavity 87 is symmetrically and fixedly provided with fixing lock catches 88 to hook the fixing device 600 outside of the fixed cavity 87, and the conversion sliding block 71 is internally provided with a conversion motor 72 which is electrically connected with the batteries 23; the lower end of the conversion motor 72 is in power connection with a spline sleeve 73, and the conversion cavity 70 is

2019202207 10 May 2019 communicated with the transmission belt slot 69; the upper end of the spline shaft 84 extends into the conversion cavity 70 to be splined to the spline sleeve 73; a meshing cavity 75 is arranged between and communicated with the conversion cavity 70 and the connecting slot 28, and the meshing cavity 75 is internally provided with a meshing gear 76 which is slidable and meshes with the conversion sliding block 71; a first bevel gear 77 is fixedly arranged on the meshing gear 76, and the first bevel gear 77 is meshed with a second bevel gear 79 at the end near the connecting slot 28; the second bevel gear 79 is fixedly provided with a gear rotating shaft 78 at the end near the connecting slot 28; there is a meshing groove 80 communicated with the connecting slot 28 and said ventilation cavity 32, which is arranged on the upper of said ventilation cavity 32, and the end of said gear rotating shaft 78 near the connecting slot 28 extends into the meshing groove 80 and has a third bevel gear 81 fixedly arranged; the upper end of the sealing rotatable shaft 34 extends into the meshing groove 80 and is fixedly provided with a fourth bevel gear 82 which is meshed with the third bevel gear 81.

[0025] Beneficially or as an embodiment, the fixing device 600 comprises mount rotation slots 90 which are longitudinally symmetrical and opening relatively and communicated with the fixed cavity 87, and the mount rotation slots 90 are internally provided with mount rotating rods 91, whose ends far away from the fixed cavity 87 are rotatably provided with connecting rotary rods 93 communicated with sliding grooves 94; the mount rotation slots 90 are internally and fixedly provided with fixing rods 92 which is communicated with the sliding grooves 94, and the ends of said mount rotation slots 90 far away from the water storage chamber 11 are communicated with the outer space by push slots 95; within the push slots 95, pushing blocks 96 far away from the end of said fixed cavity 87 are rotatably connected with the connecting rotary rods 93; second reset components 97 are fixedly arranged on the end faces of said pushing blocks 96 close to the water storage chamber 11.

[0026] Initially, the lid 13 seals the water storage chamber 11, and the vertical slide bars 37 RE locked with the locking slots 24, and the rotary plates 18 are vertically placed in the

2019202207 10 May 2019 contraction cavities 17, and the retractable springs 22 are stretched, and the closing plates 25 close the contraction cavities 17, and the power-connecting slots 57 and power-connecting inserting blocks 60 are not electrified, and the spline sleeve 73 does not be splined to the spline shaft 84, and the sealing plate 33 seals the wind cavity 29.

[0027] When the device is required to work, the twist block 53 is rotated to drive the winding runner 51 to rotate after having removed the anti-skid washers 26; the closing plates 25 are descended through the cord 48 to open the contraction cavities 17; when the closing plates 25 are descended, the horizontal slide bars 42 move away from the water storage chamber 11 under the action of the squeezing springs 41, and the vertical slide bars 37 rise out of the locking slots 24; when the closing plates 25 are descended into the lifting grooves 44, the rotary plates 18 are able to rotate outwards to place the solar panels 19 upward for converting the solar energy into electric energy and storing the electric energy in the batteries 23 through the photo-voltaic controllers 20; when the water in the water storage chamber 11 needs to be heated up, the deflector rod 86 is pushed up for buckling one of the fixing lock catches 88 on the upper side and one of the mount rotating rods 91 on the upper side, and push the power-connecting slide block 58 to move upwards via the push rod 74 to insert the power-connecting inserting blocks 60 into the power-connecting slots 57 for power, and the heating plate 16 works via the wire 27, as a result, the air in the temperature control chamber 15 is heated, so that the water in the water storage chamber 11 heats up uniformly; when the water in the water storage chamber 11 is needed to be cooled, the solenoid valve 31 is opened, and the pushing blocks 96 is pushed to move toward each other, and then the connecting rotary rods 93 drives one of the mount rotating rods 91 on the upper side rotate clockwise to disconnect with one of the upper fixing lock catches 88 on the upper side, and thenceforth, the deflector rod 86 is pulled down so that the conversion sliding block 71 is descended, so that the meshing gear 76 drives the second bevel gear 79 to rotates and the fourth bevel gear 82 is driven to rotate via the gear rotating shaft 78, and the sealing plate 33 rotates to communicate with the wind cavity 29 in the vent hole 35, so the air from outside enters the wind cavity 29 via the ventilation cavity 32, and the conversion sliding block 71 stops descending, and by

2019202207 10 May 2019 this time, the spline sleeve 73 is splined to the spline shaft 84, so the conversion motor 72 works to drive the spline sleeve 73 to rotate, so that the transmission pulley 83 is driven to rotate; the transmission belt 68 drives the rotating pulley 65 to rotate, so that the fan blade 67 rotates to bring the external wind through the connecting slot 28 into the temperature control chamber 15 and then the wind is expelled through the air outlet 30, thereby, the water in the water storage chamber 11 can be cooled evenly.

[0028] Beneficial effects of the present invention are as follows:

[0029] This invention is simple in structure and convenient to operate. Converting solar energy into electric energy stored in batteries through the solar panels frees the device from regional and environmental restrictions in power source for temperature control, and the cup itself has a power storage device, so the cup is easy to carry and problems such as poor contact or water damage resulted from external power supply interface are avoided, which is highly safe. In addition, heating and cooling are realized through temperature conduction from the temperature control chamber to the water storage chamber, thus, water temperature in the storage chamber goes up or down evenly, and such unsafe elements as accelerated water tank damage and electric leakage caused by direct heating are avoided, therefore, the cup has a long service life. What’s more, the cup is portable and stable, and the heating and cooling devices are installed one the inner walls of the cup which will not affect the appearance.

[0030] Persons skilled in the art should understand that, 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.

Claims (5)

1. A cup with temperature control function, comprising:

a cup, wherein the cup is internally provided with a water storage chamber which is communicated with the outside in the upper side and equipped with a rabbet, and on the upside of the cup, there is a lid with a seal groove opening down inside, wherein the seal groove and said cup are sealed by threads, and there is a temperature control chamber which is U-shaped outside the water storage chamber, wherein the upper side of the temperature control chamber is communicated with the outside and equipped with an air outlet, in which a solenoid valve is fixed, and there is a heating plate fixedly arranged within the inner end wall of the temperature control chamber, and contraction cavities with openings facing outwards are symmetrically fixed outside the temperature control chamber, wherein the contraction cavities are internally provided with rotary plates which have locking slots fixed on the upper sides, and above the contraction cavities, there are locking devices clamped with the locking slots, and a respective one of solar panels is fixed on one end of each of the rotary plates near the water storage chamber, wherein each of photo-voltaic controllers is electrically connected with the end of the respective one of the solar panels far away from the water storage chamber, and under the contraction cavities, there are batteries which are annular electrically connected with the photo-voltaic controllers via electric leads, and retractable springs are respectively arranged on the ends of the rotary plates far away from the water storage chamber,

2019202207 10 May 2019 wherein the retractable springs are connected to the bottom end walls of the contraction cavities, and outside the rotary plates, there are closing plates to close the contraction cavities, wherein upper ends of the closing plates are provided beveled surfaces, wherein the upper ends of the closing plates are abutted against the locking devices, and under the contraction cavities, and lifting devices are arranged on the lower sides of the contraction cavities, wherein the lifting devices are fixedly connected with the lower ends of said closing plates, wherein anti-skid washers which are annular are sheathed on the outer side of said lifting devices, and an electrical device is arranged one of the lifting devices, wherein the electrical device is electrically connected with the heating plate via a wire; a wind cavity arranged on the lower side of said temperature control chamber, wherein the wind cavity is communicated with the temperature control chamber via a connecting slot, wherein inside the wind cavity, there is a cooling device cooling water in the water storage chamber after having cooled the temperature control chamber by wind power, and on one side of said wind cavity, a conversion device is connected with the cooling device, and the lower side of the wind cavity is communicated with the outside and equipped with a ventilation cavity, wherein the ventilation cavity internally provided with a sealing plate through the rotation of a sealing rotatable shaft, wherein the sealing plate is used to seal the wind cavity, and the sealing rotatable shaft is in power connection with the conversion device, and inside the sealing plate, there is a vent hole

2019202207 10 May 2019 penetrated through up and down to connect the wind cavity with the outer space;

whereby after the anti-skid washers are removed, the closing plates are descended through the lifting devices, so that the contraction cavities are opened, and when the closing plates are descended, the locking devices are driven to work to disengage from the locking slots, and the rotary plates are driven to rotate outwards under the action of the retractable springs, so solar energy is converted into electrical energy through the solar panels and stored in the batteries, and through the conversion device, the power device heats the heating plate to heat water, or the water is cooled by the cooling device.

2. The cup with temperature control function according to claim 1, wherein the locking devices comprise vertical slide bar slots with openings facing downwards communicated with the contraction cavities, wherein in the vertical slide bar slots, vertical slide bars are clamped to the locking slots with the lower ends stretching into said contraction cavities, wherein the upper ends of the vertical slide bars are fixedly provided with pushing springs, wherein the upper ends of the pushing springs are fixedly connected with the upper end wall of the vertical slide bar slots, and there are abutting slots penetrated through one side to the other side in the vertical slide bars, and squeezing slots are arranged on ends of said vertical slide bar slots far away from the water storage chamber, wherein the squeezing slots with openings facing downwards are communicated with the contraction cavities, and the upper ends of said closing plates stretch into the squeezing slots, and the squeezing slots are communicated with the vertical slide bar slots through horizontal chutes, wherein horizontal slide bars are arranged in the horizontal chutes, wherein one end of each of the horizontal slide bars is provided with a beveled surface, and horizontal slide bars are abutted against the vertical slide bars,

2019202207 10 May 2019 wherein the ends of the horizontal slide bars, which near the water storage chamber, are fixedly connected with the inner end walls on corresponding sides of the horizontal chutes via squeezing springs, and the other ends of the horizontal slide bars, which far away from the water storage chamber, stretch into the squeezing slots and touch against closing plates;

wherein the lifting devices comprise lifting grooves which are symmetric and far away from both sides of the water storage chamber, and the lower ends of said closing plates stretch into lifting grooves which are connected by a link slot, and the ends of said closing plates, which are on outer sides, are fixedly connected with first reset components, and the closing plates in the lifting grooves are fixedly connected by a connecting link running through the link slot, and there is a cord at the lower end of one of said closing plates which is far away from the connecting slot, and a winding slot is arranged at the lower end of one of the lifting grooves on the corresponding side, wherein a winding runner is rotatably arranged in the winding slot for via a winding rotatable shaft, and the lower end of said cord stretches into the winding slot and fixedly winds around the winding runner, and the end of said winding slot far away from the water storage chamber is communicated with the outside via a twist slot, and the end of said winding rotatable shaft far away from the water storage chamber stretches into the twist slot and is fixedly provided with a twist block;

whereby the closing plates descend, so that the horizontal slide bars move in a direction away from the water storage chamber under the action of the squeezing springs, and the vertical slide bars rise and disengage from locking of the locking slots, and the rotary plates can rotate freely, and the twist block is rotated, so that the winding runner rotates, and the closing plates on the two sides are pulled by means of the cord to descend along the lifting grooves to release the wire.

3.

The cup with temperature control function according to claim 1, wherein the

2019202207 10 May 2019 electrical device comprises a electricity slide cavity internally and fixedly equipped with a power-connecting fixed block which is electrically connected with one of the batteries via an electrified wire, and there are two power-connecting slots, which are symmetrical, in the power-connecting fixed block, and a power-connecting slide block is slidably arranged on the lower side of the electricity slide cavity;

a connecting spring, which is fixedly connected with the lower end wall of said electricity slide cavity, fixed on the lower end wall of the power-connecting slide block, wherein inside the power-connecting slide block, an energizing block is fixed, and the electricity slide cavity is communicated with the temperature control chamber via a wire slot, and the upper end of said wire stretches into the electricity slide cavity and is electrically connected with the energizing block, and the upper end of said energizing block is fixedly provided with power-connecting inserting blocks for socketing the power-connecting slots;

wherein the cooling device comprises a support rod which is fixed in the wind cavity and has rotary belt groove with an opening facing outwards, wherein the rotary belt groove is provided with a rotating pulley rotating via a belt rotating shaft, wherein the upper end of the belt rotating shaft stretches into the wind cavity and is fixedly and symmetrically provided with fan blade, and there is a transmission belt slot communicated with the rotary belt groove, which is arranged at the end of said wind cavity far away from the sealing rotatable shaft, and in the transmission belt slot, a transmission pulley is rotatably arranged via a spline shaft, wherein the transmission pulley is in power connection with the rotating pulley via a transmission belt, and the upper end of said spline shaft is splined to the conversion device;

2019202207 10 May 2019 whereby the power-connecting slide block rises so that the power-connecting inserting blocks are electrically connected to the power-connecting slots, the energizing block is powered on, and the heating plate is driven to work by means of the wire., and the conversion device drives the transmission pulley to rotate, and the rotating pulley is driven to rotate through the transmission belt, so that the fan blade rotates to generate wind power

4. The cup with temperature control function according to claim 1, wherein the conversion device comprises a conversion cavity communicated with the electricity slide cavity, and there is a conversion sliding block in the conversion cavity, and the upper end of said conversion sliding block is fixedly provided with a push rod, wherein the upper end of the push rod stretches into the electricity slide cavity and is abutted against the power-connecting slide block; the end of said conversion cavity far away from the water storage chamber is communicated via a guide sliding slot with a fixed cavity, and the end of said conversion sliding block far away from the water storage chamber is fixedly provided with a deflector rod, which runs through the guide sliding slot and stretches into the fixed cavity, wherein the lower end of said deflector rod in the guide sliding slot is fixedly provided with a reset spring, whose lower end is fixedly connected with the lower end of the guide sliding slot, wherein the deflector rod in the fixed cavity is symmetrically and fixedly provided with fixing lock catches to hook the fixing device outside of the fixed cavity, and the conversion sliding block is internally provided with a conversion motor which is electrically connected with the batteries, wherein the lower end of the conversion motor is in power connection with a spline sleeve, and the conversion cavity is communicated with the transmission belt slot, and the upper end of the spline shaft extends into the conversion cavity to be splined to the spline sleeve;

2019202207 10 May 2019 a meshing cavity arranged between and communicated with the conversion cavity and the connecting slot, wherein the meshing cavity is internally provided with a meshing gear which is slidable and meshes with the conversion sliding block;

a first bevel gear fixedly arranged on the meshing gear, wherein the first bevel gear is meshed with a second bevel gear at the end near the connecting slot, and the second bevel gear is fixedly provided with a gear rotating shaft at the end near the connecting slot, and there is a meshing groove communicated with the connecting slot and said ventilation cavity, which is arranged on the upper of said ventilation cavity, and the end of said gear rotating shaft near the connecting slot extends into the meshing groove and has a third bevel gear fixedly arranged, and the upper end of the sealing rotatable shaft extends into the meshing groove and is fixedly provided with a fourth bevel gear which is meshed with the third bevel gear;

whereby when the conversion sliding block is pushed to ascend by the deflector rod, the electrical device works, and when the conversion sliding block descends, the conversion sliding block drives the meshing gear to rotate, and the fourth bevel gear is driven to rotate through the gear rotating shaft, so that the sealing plate rotates until the vent hole is communicated with the wind cavity, and when the spline sleeve is in spline connection with the spline shaft, the lowering of the conversion sliding block is stopped, and the conversion motor drives the cooling device to work, and air flows into the wind cavity through the ventilation cavity.

5. The cup with temperature control function according to claim 4, wherein the fixing device comprises mount rotation slots which are longitudinally symmetrical and opening relatively and communicated with the fixed cavity, wherein the mount rotation slots are internally provided with mount rotating rods, whose ends far away from the fixed cavity are rotatably provided with connecting rotary rods communicated with sliding grooves, and the mount rotation slots are internally and fixedly

2019202207 10 May 2019 provided with fixing rods which is communicated with the sliding grooves, and the ends of said mount rotation slots far away from the water storage chamber are communicated with the outer space by push slots, wherein in the push slots, pushing blocks far away from the end of said fixed cavity are rotatably connected with the connecting rotary rods, and second reset components are fixedly arranged on the end faces of said pushing blocks close to the water storage chamber;

whereby the fixing lock catches extend into the hanging rotating groove to be hung with the mount rotating rods, so as to push the pushing blocks on upper and lower side to move towards each other; and through the connecting rotary rods, the mount rotating rods on the upper side are driven to rotate clockwise and the mount rotating rods on the lower side are driven to rotate anticlockwise, so as to disconnect from the fixing lock catches.