CN112603135A - Automatic heating and cooling vacuum cup - Google Patents

Abstract

The invention discloses an automatic heating and cooling vacuum cup, which belongs to the technical field of automatic heating and cooling and comprises a vacuum cup device, a compression piston device, a sealing device and a cup head device, wherein the vacuum cup device is horizontally arranged, the compression piston device is arranged in the vacuum cup device, the sealing device is arranged in the vacuum cup device and positioned at one side of the compression piston device, and the cup head device is arranged in the vacuum cup device.

Description

Automatic heating and cooling vacuum cup

Technical Field

The invention relates to the technical field of automatic heating and cooling, in particular to an automatic heating and cooling vacuum cup.

Background

The existing vacuum cup can delay the temperature of food cooling, so that people can enjoy hot meal or hot water for a long time, but after the heat preservation time is exceeded, the food is cooled and then eaten to be unfavorable for human health, the vacuum cup is a very common daily product, the existing vacuum cup is usually a double-layer vacuum stainless steel shell, the heat preservation effect can be well achieved, but the obvious defect still exists, in the prior art, the heat of water is slowly dissipated under the condition that the cup cover is opened, the heat cup cannot be rapidly cooled to a proper drinking temperature, and great inconvenience is brought to thirsty users.

Disclosure of Invention

The invention aims to solve the technical problem that when hot water in an insulation cup is opened, the heat of the water is slowly dissipated and the water cannot be rapidly cooled to a proper drinking temperature in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: an automatic heating and cooling vacuum cup comprises a vacuum cup device, a compression piston device, a sealing device and a cup head device, wherein the vacuum cup device is horizontally arranged, the compression piston device is arranged inside the vacuum cup device, the sealing device is arranged inside the vacuum cup device and positioned on one side of the compression piston device, and the cup head device is arranged inside the vacuum cup device;

the vacuum cup device comprises a vacuum cup base, a vacuum cup bottom shell, a vacuum cup inner container, a vacuum cup belt, a vacuum cup shell and a cup cover mechanism, wherein the vacuum cup base is horizontally arranged, an air outlet is formed in the vacuum cup base, the vacuum cup bottom shell is arranged on the vacuum cup base, the vacuum cup shell is arranged on the vacuum cup bottom shell, a vent is formed in the bottom of the vacuum cup shell, the vacuum cup inner container is arranged inside the vacuum cup shell, the vacuum cup belt is arranged outside the vacuum cup shell, the cup cover mechanism is arranged above the vacuum cup shell, and an internal thread is formed in the vacuum cup inner container;

the compression piston device comprises a compression piston motor, a compression piston column, a compression piston swing shaft and a heating and cooling mechanism, wherein the compression piston motor is arranged above the heat-preserving cup base and located inside the heat-preserving cup bottom shell, the compression piston column is provided with two compression piston columns which are symmetrically arranged on one side of the compression piston motor and located on the heat-preserving cup base respectively, the compression piston swing shaft is arranged on an output shaft of the compression piston motor and is movably connected with the output shaft of the compression piston motor, the compression piston swing shaft is convexly arranged and runs through two compression piston columns which are movably connected with the compression piston column.

Further, the heating and cooling mechanism comprises a heating and cooling rack, a heating and cooling gear, a heating and cooling movable shaft, heating and cooling rods, a heating and cooling frame and a heating and cooling piston, the heating and cooling rack is sleeved on the compression piston column and is positioned at the middle positions of the two compression piston columns, two sliding grooves are arranged on two sides of the heating and cooling rack, the heating and cooling gear is arranged on one side of the heating and cooling rack and is in meshing arrangement, the heating and cooling movable shaft is arranged on the heating and cooling gear, the heating and cooling rods are provided with two ends, one ends of the two heating and cooling rods are respectively symmetrically arranged in the two sliding grooves on two sides of the heating and cooling rack and are movably connected, the other ends of the two heating and cooling rods are respectively symmetrically arranged at two ends of the heating and cooling movable shaft, one end of the heating and cooling frame is arranged at two ends of the heating and cooling movable shaft, the other end of heating cooling frame runs through the inside of thermos cup shell and is located the outside of thermos cup inner bag, the outside that the heating cooling piston cover was established in the inside of thermos cup shell and was located the thermos cup inner bag is encapsulated situation and sets up, heating cooling piston connects on the other end of heating cooling frame.

Furthermore, the cup cover mechanism comprises a heat preservation cup cover and a heat preservation cup handle, the heat preservation cup cover is arranged above the heat preservation cup shell, and the heat preservation cup handle is arranged at the side end of the heat preservation cup cover.

Furthermore, a cavity is arranged inside the vacuum cup shell and outside the vacuum cup liner.

Compared with the prior art, the invention has the beneficial effects that:

firstly, when people need to drink water, the heat-preservation cup cover is taken down by the people, the handle of the heat-preservation cup is held by the hand, the water is poured into the heat-preservation cup cover for drinking, and the phenomenon that the water in the inner container of the heat-preservation cup is easy to choke due to too much water when the mouth faces the inner container of the heat-preservation cup for drinking is avoided.

Secondly, when the cavity is in a sealed state, the air can generate heat after rapidly and repeatedly moving back and forth in the cavity, so that water in the vacuum cup can be heated, and when the cavity is in a ventilated state, the air can generate wind after rapidly and repeatedly moving back and forth in the cavity, so that the water in the vacuum cup is cooled.

Thirdly, when the water in the vacuum cup needs to be heated, the sealing oscillating rod on the output shaft of the sealing motor is driven to rotate by the operation of the sealing motor, the sealing oscillating rod drives the sealing loop rod to oscillate, the sealing loop rod drives the sealing rod on the sealing column to oscillate, the sealing rod drives the sealing attachment plate on the sealing rod to oscillate, so that the air outlet on the base of the vacuum cup is sealed, the cavity can be operated in a sealing state, the compression piston oscillating shaft on the output shaft of the compression piston motor is driven to rotate on the compression piston column by the operation of the compression piston motor, the heating and cooling rack is driven to move up and down by the rotation of the compression piston oscillating shaft, the heating and cooling rack moves up and down, the heating and cooling gear moves up and down to drive the heating and cooling rod on the heating and cooling movable shaft to move up and down in the sliding groove on the heating and, the heating and cooling gear moves up and down to drive the heating and cooling rack on the heating and cooling movable shaft to move up and down in the cavity, so that the heating and cooling piston is driven to move up and down in the cavity, and automatic heating and cooling of water in the vacuum cup are realized.

Fourthly, when the vacuum cup needs to be cooled by water in the vacuum cup, the sealing oscillating rod on the output shaft of the sealing motor is driven to rotate through the operation of the sealing motor, the sealing oscillating rod drives the sealing sleeve rod to swing, the sealing sleeve rod swings to drive the sealing rod on the sealing column to swing, the sealing rod swings to drive the sealing attaching plate on the sealing rod to swing, when the air outlet on the base of the vacuum cup and the bottom of the vacuum cup shell are provided with the ventilation openings to be opened to be in a ventilation state, the heating and cooling piston is driven to rapidly and repeatedly move back and forth in the cavity through the operation of the compression piston device, so that external air can flow into the cavity and be discharged, and cooling operation is realized.

Drawings

FIG. 1 is a schematic view of an expanded perspective structure of the present invention;

FIG. 2 is a schematic view of the internal deployment mechanism of the present invention;

FIG. 3 is a schematic view of the present invention in a cut-away, expanded configuration;

FIG. 4 is a schematic perspective view of the thermos cup apparatus of the present invention;

FIG. 5 is a schematic perspective view of a cup head device according to the present invention;

FIG. 6 is a schematic perspective view of a first angular compression piston assembly according to the present invention;

FIG. 7 is a schematic perspective view of a heating and cooling mechanism according to the present invention;

FIG. 8 is a perspective view of a second angular compression piston assembly according to the present invention;

fig. 9 is a schematic perspective view of the sealing device of the present invention.

The reference numbers in the figures are:

the vacuum cup device 1, the vacuum cup base 11, the vacuum cup bottom shell 12, the vacuum cup liner 13, the vacuum cup belt 14, the vacuum cup shell 15, the cup cover mechanism 16, the vacuum cup cover 161, the vacuum cup handle 162, the cavity 2, the cup head device 3, the cup head shell 31, the cup head pouring hole 32, the cup head sealing buckle 33, the cup head sealing pressing block 34, the compression piston device 4, the compression piston motor 41, the compression piston column 42, the compression piston swinging shaft 43, the heating and cooling mechanism 44, the heating and cooling rack 441, the heating and cooling gear 442, the heating and cooling movable shaft 443, the heating and cooling rod 444, the heating and cooling frame 445, the heating and cooling piston 446, the sealing device 5, the sealing motor 51, the sealing plate 52, the sealing swinging rod 53, the sealing sleeve rod 54, the sealing column 55, the sealing rod 56 and the sealing plate 57.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 9, the invention provides an automatic heating and cooling vacuum cup, which comprises a vacuum cup device 1, a compression piston device 4, a sealing device 5 and a cup head device 3, wherein the vacuum cup device 1 is horizontally arranged, the compression piston device 4 is arranged in the vacuum cup device 1, the sealing device 5 is arranged in the vacuum cup device 1 and is positioned at one side of the compression piston device 4, and the cup head device 3 is arranged in the vacuum cup device 1.

The thermos cup device 1 comprises a thermos cup base 11, a thermos cup bottom shell 12, a thermos cup liner 13, a thermos cup belt 14, a thermos cup shell 15 and a cup cover mechanism 16, the thermos cup base 11 is arranged horizontally, an air outlet is arranged on the thermos cup base 11, the thermos cup bottom shell 12 is arranged on the thermos cup base 11, the thermos cup shell 15 is arranged on the thermos cup bottom shell 12, the bottom of the thermos cup shell 15 is provided with a vent, the thermos cup liner 13 is arranged in the thermos cup shell 15, the thermos cup belt 14 is arranged outside the thermos cup shell 15, the cup cover mechanism 16 is arranged above the thermos cup shell 15, an internal thread is arranged on the thermos cup liner 13, the compression piston device 4 can be supported and stored through the thermos cup base 11 and the thermos cup bottom shell 12, the air outlet on the thermos cup base 11 and the bottom of the thermos cup shell 15 are provided with a vent through which water in the thermos cup can be cooled through the flow of air However, the inner container 13 of the vacuum cup can play a role in heat preservation with certain effect.

Bowl cover mechanism 16 includes heat preservation bowl cover 161 and heat preservation bowl cover 162, heat preservation bowl cover 161 sets up in the top of heat preservation bowl shell 15, heat preservation bowl cover 162 sets up the side at heat preservation bowl cover 161, and when personnel need drink water, personnel take off heat preservation bowl cover 161, hold heat preservation bowl cover 162 with the hand, pour water into and drink in heat preservation bowl cover 161, when avoiding drinking water with the mouth facing to heat preservation bowl inner bag 13, because the water in the heat preservation bowl inner bag 13 is too much, chock easily.

The inside of thermos cup shell 15 and thermos cup inner bag 13's outside are equipped with cavity 2, and when cavity 2 was encapsulated situation, gaseous can produce the heat after the back and forth movement fast relapseing in cavity 2, can heat the water in the thermos cup, and when cavity 2 was the ventilation state, gaseous can produce the wind after the back and forth movement fast relapseing in cavity 2 to water to in the thermos cup cools off.

The utility model discloses a vacuum cup, including cup head casing 31, cup head pouring water hole 32, the sealed buckle of cup head 33 and the sealed pressing block 34 of cup head, cup head casing 31 sets up the inside at heat preservation cup inner bag 13, cup head casing 31 outside is equipped with the external screw thread, the external screw thread of cup head casing 31 and the internal thread of thermos cup inner bag 13 just are swing joint, the cup head pouring water hole 32 sets up on cup head casing 31 and is the intercommunication setting, the sealed buckle of cup head 33 sets up on cup head casing 31 and is located cup head pouring water hole 32, the sealed pressing block 34 of cup head sets up in the one end of the sealed buckle of cup head 33 and is located cup head casing 31, can unscrew cup head casing 31 and take out cup head casing 31 through personnel's manual work, can add water to the thermos cup, and pour the water in the thermos cup through the cup head pouring water hole 32 that sets up, press the sealed block 34 of cup head to make the sealed buckle of cup head 33 perk can pour the water in the thermos cup head from cup head pouring water hole 32 through personnel Go out, when need not pour water, press the sealed buckle 33 of cupule through the personnel and with the sealed of cupule hole 32 can.

The compression piston device 4 includes a compression piston motor 41, a compression piston column 42, a compression piston swing shaft 43 and a heating and cooling mechanism 44, the compression piston motor 41 is arranged above the heat-preservation cup base 11 and is positioned inside the vacuum cup bottom shell 12, two compression piston columns 42 are arranged, the two compression piston columns 42 are respectively and symmetrically arranged at one side of the compression piston motor 41 and are positioned on the vacuum cup base 11, the compression piston swing shaft 43 is arranged on the output shaft of the compression piston motor 41 and is movably connected, the compression piston swing shaft 43 is arranged in a convex shape, the compression piston swing shaft 43 penetrates through the two compression piston columns 42 and is movably connected, the compression piston swing shaft 43 on the output shaft of the compression piston motor 41 is driven to rotate on the compression piston column 42 by the operation of the compression piston motor 41, the compression piston device 4 can automatically heat and cool the water in the vacuum cup.

The heating and cooling mechanism 44 comprises a heating and cooling rack 441, a heating and cooling gear 442, heating and cooling movable shafts 443, heating and cooling rods 444, a heating and cooling rack 445 and a heating and cooling piston 446, the heating and cooling rack 441 is sleeved on the compression piston columns 42 and is located at the middle position of the two compression piston columns 42, two sliding grooves are arranged on two sides of the heating and cooling rack 441, the heating and cooling gear 442 is arranged at one side of the heating and cooling rack 441 and is meshed with the heating and cooling rack, the heating and cooling movable shafts 443 are arranged on the heating and cooling gear 442, two heating and cooling rods 444 are arranged, one ends of the two heating and cooling rods 444 are symmetrically arranged in the two sliding grooves on two sides of the heating and cooling rack 441 and are movably connected, and the other ends of the two heating and cooling rods 444 are symmetrically arranged at two ends of the heating and cooling movable shafts 443, one end of the heating and cooling rack 445 is arranged at two ends of the heating and cooling movable shaft 443, the other end of the heating and cooling rack 445 penetrates through the inside of the thermos cup shell 15 and is positioned at the outside of the thermos cup liner 13, the heating and cooling piston 446 is sleeved in the thermos cup shell 15 and is positioned at the outside of the thermos cup liner 13 in a sealing state, the heating and cooling piston 446 is connected to the other end of the heating and cooling rack 445, the heating and cooling rack 441 is driven to move up and down by the rotation of the compression piston swinging shaft 43, the heating and cooling rack 441 moves up and down the heating and cooling gear 442 moves up and down, the heating and cooling gear 442 moves up and down to drive the heating and cooling rod 444 on the heating and cooling movable shaft 443 to move up and down in the sliding groove on the heating and cooling rack 441, and the heating and cooling gear 442 moves up and down, thereby drive heating cooling piston 446 and reciprocate in cavity 2, realize carrying out the self-heating cooling to the inside water of thermos cup, when needs are to the water-chilling in the thermos cup, be equipped with the vent through the bottom with air outlet on the thermos cup base 11 and thermos cup shell 15 and open when being the ventilation status, when operating through compression piston device 4, heating cooling piston 446 is at cavity 2 quick round trip movement repeatedly, thereby can flow into cavity 2 with the wind of outside, and discharge, realize the cooling operation.

The sealing device 5 comprises a sealing motor 51, a sealing plate 52, a sealing swing rod 53, a sealing sleeve rod 54, a sealing column 55, a sealing rod 56 and a sealing attachment plate 57, the sealing motor 51 is arranged at the bottom of the heat-preserving cup shell 15 and is located inside the heat-preserving cup bottom shell 12, the sealing plate 52 is arranged at one side of the sealing motor 51 and is located at the bottom of the heat-preserving cup shell 15, the sealing swing rod 53 is arranged on an output shaft of the sealing motor 51 and penetrates through the sealing plate 52 to be movably connected, one end of the sealing sleeve rod 54 is sleeved on the sealing swing rod 53 and is located at one side of the sealing plate 52 to be movably connected, the sealing column 55 is arranged on the sealing plate 52, one end of the sealing rod 56 is sleeved on the sealing column 55 and is movably connected, the other end of the sealing sleeve rod 54 is connected on the sealing rod 56, the sealing attachment plate 57 is arranged at the other end of the sealing rod 56 and is located at the bottom, the sealing oscillating rod 53 on the output shaft of the sealing motor 51 is driven to rotate by the operation of the sealing motor 51, the sealing oscillating rod 53 drives the sealing loop rod 54 to oscillate, the sealing loop rod 54 oscillates to drive the sealing rod 56 on the sealing column 55 to oscillate, the sealing rod 56 oscillates to drive the sealing attachment plate 57 on the sealing rod 56 to oscillate, so that the air outlet on the vacuum cup base 11 is sealed, the cavity 2 can be operated in a sealing state, when water in the vacuum cup needs to be heated, the air outlet on the vacuum cup base 11 is sealed by the operation of the sealing device 5, the heating and cooling piston 446 is rapidly and repeatedly moved back and forth in the cavity 2 to compress gas to generate heat when the compression piston device 4 is operated, the water in the vacuum cup is heated, and the heating and cooling piston 446 is driven to move downwards by the operation of the compression piston device 4, when the air in the cavity 2 is completely pumped out and discharged, the heat preservation effect on the water in the vacuum cup can be achieved.

The working principle of the invention is as follows: the compression piston device 4 can be supported and stored through the vacuum cup base 11 and the vacuum cup bottom shell 12, the air outlet on the vacuum cup base 11 and the bottom of the vacuum cup shell 15 are provided with vents which can cool water in the vacuum cup through the flow of air, a certain effect of heat preservation can be achieved through the vacuum cup liner 13, when the cavity 2 is in a sealing state, air can generate heat after rapidly and repeatedly moving back and forth in the cavity 2, water in the vacuum cup can be heated, when the cavity 2 is in a ventilating state, air can generate wind after rapidly and repeatedly moving back and forth in the cavity 2, so that water in the vacuum cup is cooled, when people need to drink water, the people take off the vacuum cup cover 161, hold the vacuum cup handle 162 with hands, pour water into the vacuum cup cover 161 for drinking, when the vacuum cup cover 13 is prevented from being faced with a mouth, the water in the vacuum cup liner 13 is too much, the cup is easy to choke, the cup shell 31 can be unscrewed and the cup shell 31 can be taken out by manual operation of personnel, water can be added into the vacuum cup, the water in the vacuum cup can be poured out through the arranged cup pouring hole 32, the cup sealing buckle 33 can be tilted through pressing the cup sealing pressing block 34 by personnel, the water in the vacuum cup can be poured out from the cup pouring hole 32, when the water does not need to be poured out, the cup pouring hole 32 can be sealed through pressing the cup sealing buckle 33 by personnel, the compression piston swinging shaft 43 on the output shaft of the compression piston motor 41 is driven to rotate on the compression piston column 42 through the operation of the compression piston motor 41, the water in the vacuum cup can be automatically heated and cooled through the arranged compression piston device 4, the heating and cooling rack 441 is driven to move up and down through the rotation of the compression piston swinging shaft 43, the heating and cooling rack 441 moves up and down the heating and cooling gear 442, the heating and cooling gear 442 moves up and down to drive the heating and cooling rod 444 on the heating and cooling movable shaft 443 to move up and down in the sliding groove on the heating and cooling rack 441, the heating and cooling gear 442 moves up and down to drive the heating and cooling rack 445 on the heating and cooling movable shaft 443 to move up and down in the cavity 2, so as to drive the heating and cooling piston 446 to move up and down in the cavity 2, so as to realize automatic heating and cooling of water in the vacuum cup, when the vacuum cup needs to be cooled by water, when the air outlet on the vacuum cup base 11 and the bottom of the vacuum cup shell 15 are provided with ventilation openings to be opened to be in a ventilation state, when the compression piston device 4 operates, the heating and cooling piston 446 rapidly and repeatedly moves back and forth in the cavity 2, so as to flow external air into the cavity 2 and discharge the air, so as to realize cooling operation, the sealing swing rod 53 on the, the sealing swing rod 53 rotates to drive the sealing sleeve rod 54 to swing, the sealing sleeve rod 54 swings to drive the sealing rod 56 on the sealing column 55 to swing, the sealing rod 56 swings to drive the sealing attachment plate 57 on the sealing rod 56 to swing, thereby realizing the sealing of the air outlet on the vacuum cup base 11, and enabling the cavity 2 to work in a sealing state, when the compression piston device 4 operates to drive the heating and cooling piston 446 to move downwards and completely evacuate and discharge the air in the cavity 2, the heat preservation effect on the water in the vacuum cup can be achieved, when the water in the thermos cup is heated, the air outlet on the base 11 of the thermos cup is sealed by the operation of the sealing device 5, and the heating and cooling piston 446 rapidly and repeatedly moves to and fro in the cavity 2 to compress gas to generate heat when the compression piston device 4 operates, so that the water in the thermos cup is heated.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (4)

1. The utility model provides an automatic heating cooling thermos cup which characterized in that: the vacuum cup device comprises a vacuum cup device (1), a compression piston device (4), a sealing device (5) and a cup head device (3), wherein the vacuum cup device (1) is horizontally arranged, the compression piston device (4) is arranged in the vacuum cup device (1), the sealing device (5) is arranged in the vacuum cup device (1) and positioned on one side of the compression piston device (4), and the cup head device (3) is arranged in the vacuum cup device (1);

the thermos cup device (1) comprises a thermos cup base (11), a thermos cup bottom shell (12), a thermos cup liner (13), a thermos cup belt (14), a thermos cup shell (15) and a cup cover mechanism (16), wherein the thermos cup base (11) is horizontally arranged, an air outlet is formed in the thermos cup base (11), the thermos cup bottom shell (12) is arranged on the thermos cup base (11), the thermos cup shell (15) is arranged on the thermos cup bottom shell (12), a vent is formed in the bottom of the thermos cup shell (15), the thermos cup liner (13) is arranged inside the thermos cup shell (15), the thermos cup belt (14) is arranged outside the thermos cup shell (15), the cup cover mechanism (16) is arranged above the thermos cup shell (15), and an internal thread is formed in the thermos cup liner (13);

compression piston device (4) are including compression piston motor (41), compression piston post (42), compression piston oscillating axle (43) and heating cooling body (44), compression piston motor (41) set up in the top of thermos cup base (11) and are located the inside of thermos cup drain pan (12), compression piston post (42) are equipped with two, two compression piston post (42) are the symmetry respectively and set up in one side of compression piston motor (41) and are located thermos cup base (11), compression piston oscillating axle (43) set up on the output shaft of compression piston motor (41) and be swing joint, compression piston oscillating axle (43) are the convex setting, compression piston oscillating axle (43) run through two compression piston post (42) and are swing joint.

2. An automatically heating and cooling thermos cup according to claim 1, characterized in that: the heating and cooling mechanism (44) comprises a heating and cooling rack (441), a heating and cooling gear (442), a heating and cooling movable shaft (443), heating and cooling rods (444), a heating and cooling frame (445) and a heating and cooling piston (446), wherein the heating and cooling rack (441) is sleeved on the compression piston column (42) and is positioned in the middle position of the two compression piston columns (42), two sliding grooves are formed in two sides of the heating and cooling rack (441), the heating and cooling gear (442) is arranged on one side of the heating and cooling rack (441) and is meshed with the heating and cooling movable shaft (443) and is arranged on the heating and cooling gear (442), two heating and cooling rods (444) are arranged, one ends of the two heating and cooling rods (444) are symmetrically arranged in the two sliding grooves on two sides of the heating and cooling rack (441) and are movably connected with each other, two the other end of heating cooling rod (444) is the symmetry respectively and sets up the both ends at heating cooling loose axle (443), the one end setting of heating cooling frame (445) is at the both ends of heating cooling loose axle (443), the other end of heating cooling frame (445) runs through the inside of thermos cup shell (15) and is located the outside of thermos cup inner bag (13), heating cooling piston (446) cover is established and is sealed state setting in the inside of thermos cup shell (15) and the outside that is located thermos cup inner bag (13), heating cooling piston (446) is connected on the other end of heating cooling frame (445).

3. An automatically heating and cooling thermos cup according to claim 1, characterized in that: bowl cover mechanism (16) include heat preservation bowl cover (161) and heat preservation cup handle (162), heat preservation bowl cover (161) set up the top at heat preservation cup shell (15), heat preservation cup handle (162) set up the side at heat preservation bowl cover (161).

4. An automatically heating and cooling thermos cup according to claim 1, characterized in that: the vacuum cup is characterized in that a cavity (2) is arranged inside the vacuum cup shell (15) and outside the vacuum cup liner (13).

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