CN112869510A

CN112869510A - Multifunctional self-heating vacuum cup

Info

Publication number: CN112869510A
Application number: CN202110044378.1A
Authority: CN
Inventors: 何志取; 陈杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-13
Filing date: 2021-01-13
Publication date: 2021-06-01

Abstract

The invention belongs to the technical field of self-heating vacuum cups, and particularly relates to a multifunctional self-heating vacuum cup which comprises a cup body, a cup cover, a base, a power supply and a controller, wherein the cup cover is arranged on the cup body; the baffle plate is arranged, so that the baffle plate can drive tea water in the cup body to rise, a user can drink the tea water in the cup body conveniently, the baffle plate slides up and down on the inner wall of the cup body, on one hand, scale is prevented from being generated on the inner wall of the cup body, and on the other hand, the baffle plate rotates on the inner wall of the cup body, so that the user can clean the vacuum cup which is not used for a long time conveniently; the baffle and the filter screen are matched with each other, and tea to be poured is squeezed by the baffle and the filter screen, so that the tea is prevented from being attached to the inner wall of the cup body, a user is prevented from repeatedly using clear water to wash the tea on the inner wall of the cup body, and waste of water resources is reduced; the baffle drives tea water in the cup body to flow up and down, so that the tea leaves in the soaking process move along with water flow, the soaking speed of the tea leaves is increased, and the soaking time of the tea leaves is shortened.

Description

Multifunctional self-heating vacuum cup

Technical Field

The invention belongs to the technical field of self-heating vacuum cups, and particularly relates to a multifunctional self-heating vacuum cup.

Background

The vacuum cup is a drinking water device in daily life, meets the requirements of people on carrying drinking water and keeping warm for a long time, is generally a container for containing water, which is made of ceramic or stainless steel and a vacuum layer, is tightly sealed by a cover at the top, and can delay heat dissipation of liquid such as water and the like in the vacuum heat insulation layer so as to achieve the purpose of heat preservation; however, in the prior art, the thermos cup is because of long-time use, the one deck incrustation scale or the tea incrustation scale that the inner wall of cup can be adnexed, thereby cause the user to carry out clearance repeatedly, and when empting tealeaves in the cup at every turn, moist tealeaves adhesion is at the cup inner wall, make the user need constantly wash the tealeaves on the cup inner wall with the clear water, on the one hand waste water resource, on the other hand increase user's work load, and drink water at every turn, cause the water level to descend, make drink water at every turn and will constantly increase the angle of lifting up the drinking cup and just can drink water, and then cause the inconvenience that the user.

Some technical solutions related to multifunctional self-heating vacuum cups have appeared in the prior art, for example, a chinese patent with application number CN201510810185.7 discloses a multifunctional self-heating vacuum cup, the self-heating vacuum cup includes: the cup cover is provided with an infrared emitting device and a heating device; the heating cup comprises a cup body, wherein the bottom of the cup body is provided with a position detection device, the position detection device is used for detecting the position of infrared rays emitted by an infrared emission device, and when the position of the infrared rays is detected to meet a preset condition, the heating device is triggered to heat; according to the technical scheme, the purpose of automatic heating is achieved by detecting whether water exists in the cup or not; but this technical scheme can't solve the thermos cup because of using for a long time, the one deck incrustation scale or the tea scale that the inner wall of cup can be adnexed, thereby cause the user to carry out the clearance that relapses, and when empting tealeaves in the cup at every turn, moist tealeaves adhesion is at the cup inner wall, make the user need constantly wash the tealeaves on the cup inner wall with the clear water, on the one hand waste water resource, on the other hand increase user's work load, and drink water at every turn, cause the water level to descend, make the angle that drinks the drinking cup at every turn and will constantly increase and lift up the drinking cup just can drink water, and then cause the inconvenience that the user used the thermos cup.

In view of this, in order to overcome the above technical problems, the present invention provides a multifunctional self-heating vacuum cup, which adopts a special self-heating vacuum cup structure to solve the above technical problems.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides the multifunctional self-heating vacuum cup, the baffle is arranged, so that the baffle can drive tea water in the cup body to rise, a user can drink the tea water in the cup body conveniently, the baffle slides up and down on the inner wall of the cup body, on one hand, scale is prevented from being generated on the inner wall of the cup body, on the other hand, the baffle rotates on the inner wall of the cup body, and the user can clean the vacuum cup which is not used for a long time conveniently; the baffle and the filter screen are matched with each other, and tea to be poured is squeezed by the baffle and the filter screen, so that the tea is prevented from being attached to the inner wall of the cup body, a user is prevented from repeatedly using clear water to wash the tea on the inner wall of the cup body, and waste of water resources is reduced; the baffle drives tea water in the cup body to flow up and down, so that the tea leaves in the soaking process move along with water flow, the soaking speed of the tea leaves is increased, and the soaking time of the tea leaves is shortened.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a multifunctional self-heating vacuum cup which comprises a cup body, a cup cover, a base, a power supply and a controller, wherein the cup cover is arranged on the cup body; the cup body is cylindrical; a filter screen is arranged in the cup body, and a sealing ring is arranged between the cup body and the cup cover; the base is rotatably connected to the lower end of the cup body, and the upper end of the base is fixedly connected with a water temperature sensor; the water temperature sensor is positioned in the center of the base, threads are arranged on the surface of the water temperature sensor, and a cylindrical baffle is sleeved on the surface of the water temperature sensor; the baffle is in threaded connection with the water temperature sensor, the baffle is in sliding contact with the inner wall of the cup body, and a cavity is formed in the baffle; a resistance wire is fixedly connected in the cavity; the inner wall of the cup body is provided with a chute; a rotating block is connected inside the sliding groove in a sliding manner; the cross section of the rotating block is consistent with that of the sliding chute, and the rotating block is arranged on the side wall of the baffle; the controller controls the vacuum cup to automatically operate;

in the prior art, due to long-time use of the vacuum cup, a layer of scale or tea scale can be attached to the inner wall of the cup body, so that a user needs to clean repeatedly, and when tea leaves in the cup are poured out each time, wet tea leaves are adhered to the inner wall of the cup body, so that the user needs to continuously wash the tea leaves on the inner wall of the cup body with clear water, on one hand, water resources are wasted, on the other hand, the workload of the user is increased, and the water level is reduced due to each time of drinking, so that the user can drink water only by continuously increasing the angle of lifting the cup each time of drinking water, and further, the inconvenience;

when the electric heating wire works, the resistance wire is powered by the rechargeable power supply; at the moment, the water temperature sensor senses the water temperature in the cup body, when the water temperature is lower than 55 ℃, the water temperature sensor transmits an electric signal to the controller, so that the controller controls the resistance wire to be electrified and heated, thereby heating the water in the cup body, when drinking water, a user can rotate the base, so that the base drives the water temperature sensor to rotate, the baffle and the water temperature sensor are rotated spirally, because the baffle is fixedly connected with the rotating block, the baffle is limited leftwards and rightwards when the rotating block is blocked by the sliding chute, and further the baffle is moved in the vertical direction, and the baffle is in close contact with the inner wall of the cup body, so that the baffle can drive the tea water in the cup body to move up and down; when tea leaves in the thermos cup are cleaned, the baffle pushes the tea leaves to the filter screen, so that the baffle and the filter screen squeeze water in the tea leaves, the water in the tea leaves is removed, the filter screen is picked off, and the tea leaves are poured out; therefore, the baffle plate is arranged, so that the baffle plate can drive tea in the cup body to rise, a user can drink the tea in the cup body conveniently, and the baffle plate slides up and down on the inner wall of the cup body, so that on one hand, scale is prevented from being generated on the inner wall of the cup body, and on the other hand, the baffle plate slides on the inner wall of the cup body, so that the user can clean the vacuum cup which is not used for a long time conveniently; the baffle and the filter screen are matched with each other, and tea to be poured is squeezed by the baffle and the filter screen, so that the tea is prevented from being attached to the inner wall of the cup body, a user is prevented from repeatedly using clear water to wash the tea on the inner wall of the cup body, and waste of water resources is reduced; the baffle drives tea water in the cup body to flow up and down, so that the tea leaves in the soaking process move along with water flow, the soaking speed of the tea leaves is increased, and the soaking time of the tea leaves is shortened.

Preferably, the sliding groove is spiral on the inner wall of the cup body; when the base is rotated, the baffle plate can drive the rotating block to slide along the sliding groove; when the cup body rotates, the base is rotated, so that the rotating block moves up and down along the sliding groove, and simultaneously, the rotating block drives the baffle to move up and down; therefore, the cup cleaning device is provided with the spiral chute, so that on one hand, the baffle plate drives the rotating block to slide along the chute, and simultaneously, the baffle plate can drive the water flow in the cup body to rotate, so that the water flow rotates and impacts scale on the inner wall of the cup body in the cleaning process, and the cleaning effect is improved.

Preferably, one surface of the baffle close to the inner wall of the cup body is provided with an annular groove; the rotating block is connected in the annular groove in a sliding manner, and a first spring is arranged between the rotating block and the annular groove; one end of the first spring is fixedly connected with the bottom of the annular groove, and the other end of the first spring is fixedly connected with the rotating block; an elastic plate is arranged in the annular groove; the number of the elastic plates is at least two, and one of the elastic plates is provided with a through groove corresponding to the rotating block; the rotating block is tightly attached to the inner wall of the through groove; the cross section shapes of the elastic plate and the rotating block are consistent with the cross section shape of the annular groove, and a second spring is arranged between the elastic plate and the annular groove; one end of the second spring is fixedly connected with the groove bottom of the annular groove, and the other end of the second spring is fixedly connected with the elastic plate; during operation, when the baffle rotated, the baffle drove turning block and the elastic plate in the ring channel and rotated, the turning block slided along the cell wall of spout, the elastic plate slides on the cup inner wall, because the turning block extrudees a spring and the elastic plate extrudees No. two springs, thereby make a spring promote the turning block to support tightly sealed to the spout, No. two springs promote the elastic plate to support tightly sealed to the cup inner wall, so when turning block and elastic block lost because of sliding friction, a spring promotes the turning block to support tightly the spout, No. two springs promote the elastic plate to support tightly the cup inner wall, and then promote the life of thermos cup.

Preferably, the surface of the water temperature sensor is sleeved with a rotating block; the rotating block is positioned above the baffle and is in threaded connection with the water temperature sensor, and balls are arranged on two sides of the rotating block; the ball is fixedly connected with the rotating block through an elastic rope; when the vacuum cup is placed upside down, the rotating block can rotate around the water temperature sensor under the action of gravity; when the rotating block rotates, the round ball is driven by the elastic rope to rotate around the water temperature sensor; when the thermos cup works, a user can rotate the rotating block which rotates to the upper surface of the baffle plate towards the direction far away from the baffle plate under the action of gravity by inverting the thermos cup, the round ball is also far away from the baffle plate under the action of gravity, and the round ball is fixedly connected with the rotating block through the elastic rope, so that the rotating block can be driven to rotate around the water temperature sensor while rotating; therefore, the water temperature sensor is provided with the rotating block and the round ball, so that the rotating block drives the round ball to rotate around the water temperature sensor; thereby driving the water flow in the cup to rotate, and further improving the dissolving speed of the tea particles or the coffee particles in the thermos cup in water.

Preferably, the sphere is made of a silica gel material, an air cavity is formed inside the sphere, and an air hole is formed between the surface of the sphere and the air cavity; one end of the air hole is communicated with the air cavity, and the other end of the air hole is communicated with the outside through the surface of the ball; when the cup works, the ball rotates around the water temperature sensor to drive water flow in the cup to rotate, and the water flow can pass through the air holes while rotating, so that the water flow flows inside and outside the air cavity, the flowing speed of the water flow is increased, and the dissolving speed of tea particles or coffee particles in the cup in water is further improved.

Preferably, the surface of the round ball is fixedly connected with a magnet I; the upper surface of the baffle is fixedly connected with a second magnet; the second magnet is close to the inner wall of the inner body; the first magnet and the second magnet are magnetically attracted, and the attraction force of the first magnet and the second magnet is smaller than the sum of the gravity of the ball and the gravity of the rotating block; when the first magnet and the second magnet attract each other, the ball is contacted with the inner wall of the cup body; when the cup body rotates, the baffle plate drives the round ball to rotate along the inner wall of the cup body; the vacuum cup is inverted, the first magnet and the second magnet are separated under the action of the gravity of the rotary block and the ball, so that the ball is far away from the baffle, the inverted vacuum cup is inverted, the rotary block and the ball rotate towards the direction close to the baffle, and the rotary block drives the ball to rotate rapidly under the attraction of the first magnet and the second magnet; therefore, the first magnet and the second magnet are mutually attracted, when the baffle rotates, the baffle can drive the round ball to rotate together, so that the inner wall of the cup body can be cleaned in the rotating process of the round ball, the inverted vacuum cup is aligned, the round ball moves towards the direction close to the baffle, the first magnet and the second magnet are attracted, the rotation of the round ball and the rotating block is accelerated, the rotating speed of the round ball around the water temperature sensor is accelerated, the water flow rotates quickly, and the dissolving speed of tea particles or coffee particles in the cup in water is improved.

The invention has the following beneficial effects:

1. the baffle plate is arranged, so that the baffle plate can drive tea water in the cup body to rise, a user can drink the tea water in the cup body conveniently, and the baffle plate slides up and down on the inner wall of the cup body, so that on one hand, scale is prevented from being generated on the inner wall of the cup body, and on the other hand, the baffle plate slides on the inner wall of the cup body, so that the user can clean the vacuum cup which is not used for a long time conveniently; the baffle and the filter screen are matched with each other, and tea to be poured is squeezed by the baffle and the filter screen, so that the tea is prevented from being attached to the inner wall of the cup body, a user is prevented from repeatedly using clear water to wash the tea on the inner wall of the cup body, and waste of water resources is reduced; the baffle drives tea water in the cup body to flow up and down, so that the tea leaves in the soaking process move along with water flow, the soaking speed of the tea leaves is increased, and the soaking time of the tea leaves is shortened.

2. According to the cup cleaning device, the spiral chute is arranged, so that the baffle plate can drive the rotating block to slide along the chute, meanwhile, the baffle plate can drive water flow in the cup body to rotate, the water flow rotates and impacts scale on the inner wall of the cup body in the cleaning process, and therefore the cleaning effect is improved.

3. The water temperature sensor is provided with the rotating block and the round ball, so that the rotating block drives the round ball to rotate around the water temperature sensor; thereby driving the water flow in the cup to rotate, and further improving the dissolving speed of the tea particles or the coffee particles in the thermos cup in water.

Drawings

The invention is further described with reference to the following figures and embodiments.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is an enlarged view at B in FIG. 2;

in the figure: 1. a cup body; 11. a chute; 2. a cup cover; 3. a base; 4. a filter screen; 5. a seal ring; 6. a water temperature sensor; 7. a baffle plate; 71. a cavity; 72. a resistance wire; 73. rotating the block; 74. an annular groove; 75. a first spring; 76. an elastic plate; 77. a second spring; 78. a magnet II; 8. rotating the block; 81. an elastic cord; 9. a ball; 91. an air cavity; 92. air holes; 93. a first magnet.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in figures 1 to 4, the multifunctional self-heating vacuum cup comprises a cup body 1, a cup cover 2, a base 3, a power supply and a controller; the cup body 1 is cylindrical; a filter screen 4 is arranged in the cup body 1, and a sealing ring 5 is arranged between the cup body 1 and the cup cover 2; the base 3 is rotatably connected to the lower end of the cup body 1, and the upper end of the base 3 is fixedly connected with a water temperature sensor 6; the water temperature sensor 6 is positioned in the center of the base 3, threads are arranged on the surface of the water temperature sensor 6, and a cylindrical baffle 7 is sleeved on the surface of the water temperature sensor 6; the baffle 7 is in threaded connection with the water temperature sensor 6, the baffle 7 is in sliding contact with the inner wall of the cup body 1, and a cavity 71 is formed in the baffle 7; a resistance wire 72 is fixedly connected in the cavity 71; the inner wall of the cup body 1 is provided with a chute 11; a rotating block 73 is connected inside the sliding chute 11 in a sliding manner; the cross section of the rotating block 73 is consistent with that of the chute 11, and the rotating block 73 is arranged on the side wall of the baffle 7; the controller controls the vacuum cup to automatically operate;

in the prior art, due to long-time use of the vacuum cup, a layer of scale or tea scale can be attached to the inner wall of the cup body 1, so that a user needs to repeatedly clean the inner wall of the cup body 1, and when tea leaves in the cup are poured out each time, wet tea leaves are adhered to the inner wall of the cup body 1, so that the user needs to continuously wash the tea leaves on the inner wall of the cup body 1 with clear water, on one hand, water resources are wasted, on the other hand, the workload of the user is increased, and the water level is reduced due to the fact that the water level is lowered because the angle for lifting the cup is continuously increased each time of drinking water, and;

when the electric heating wire works, the resistance wire 72 is powered by a rechargeable power supply; at the moment, the water temperature sensor 6 senses the water temperature in the cup body 1, when the water temperature is lower than 55 ℃, the water temperature sensor 6 transmits an electric signal to the controller, the controller controls the resistance wire 72 to be electrified and generate heat, so that the water in the cup body 1 is heated, when drinking water, a user can rotate the base 3, the base 3 drives the water temperature sensor 6 to rotate, the baffle 7 and the water temperature sensor 6 are rotated in a spiral mode, the baffle 7 is fixedly connected with the rotating block 73, the sliding groove 11 blocks the rotating block 73 to rotate left and right, meanwhile, the sliding groove 11 limits the baffle 7 left and right, the baffle 7 is further moved in the vertical direction, the baffle 7 is in close contact with the inner wall of the cup body 1, and the baffle 7 can drive the tea water in the cup body 1 to move up and down; when tea leaves in the thermos cup are cleaned, the baffle 7 pushes the tea leaves to the filter screen 4, so that the baffle 7 and the filter screen 4 squeeze water in the tea leaves, the water in the tea leaves is removed, the filter screen 4 is picked off, and the tea leaves are poured out; therefore, the baffle 7 is arranged, so that the baffle 7 can drive the tea in the cup body 1 to rise, a user can drink the tea in the cup body 1 conveniently, and the baffle 7 slides up and down on the inner wall of the cup body 1, so that on one hand, scale is prevented from being generated on the inner wall of the cup body 1, and on the other hand, the baffle 7 slides on the inner wall of the cup body 1, so that the user can clean a vacuum cup which is not used for a long time conveniently; the baffle 7 and the filter screen 4 are matched with each other, and tea to be poured is squeezed by the baffle 7 and the filter screen 4, so that the tea is prevented from being attached to the inner wall of the cup body 1, a user is prevented from repeatedly using clear water to wash the tea on the inner wall of the cup body 1, and waste of water resources is reduced; the baffle 7 drives the tea water in the cup body 1 to flow up and down, so that the tea leaves in the soaking process move along with the water flow, the soaking speed of the tea leaves is increased, and the soaking time of the tea leaves is shortened.

As an embodiment of the present invention, the sliding groove 11 is formed in a spiral shape on the inner wall of the cup body 1; when the base 3 is rotated, the baffle 7 can drive the rotating block 73 to slide along the sliding groove 11; when the cup works, the base 3 is rotated, so that the rotating block 73 moves up and down along the sliding groove 11, and simultaneously, the rotating block 73 drives the baffle 7 to move up and down, and because the sliding groove 11 is spiral on the inner wall of the cup body 1, the rotating block 73 drives the baffle 7 to rotate upwards along the inner wall of the cup body 1 in the rotating and lifting process of the rotating block 73; therefore, the spiral chute 11 is arranged, on one hand, the baffle 7 drives the rotating block 73 to slide along the chute 11, and simultaneously, the baffle 7 can drive the water flow in the cup body 1 to rotate, so that the water flow rotates and impacts scale on the inner wall of the cup body 1 in the cleaning process, and the cleaning effect is improved, on the other hand, the stroke of the rotating block 73 in the chute 11 is increased, so that the friction time between the baffle 7 and the cup body 1 is increased, and the cleaning effect of the baffle 7 on the inner wall of the cup body 1 is improved.

As an embodiment of the invention, one side of the baffle 7 close to the inner wall of the cup body 1 is provided with an annular groove 74; the rotating block 73 is connected in the annular groove 74 in a sliding manner, and a first spring 75 is arranged between the rotating block 73 and the annular groove 74; one end of the first spring 75 is fixedly connected with the bottom of the annular groove 74, and the other end of the first spring is fixedly connected with the rotating block 73; an elastic plate 76 is arranged in the annular groove 74; at least two elastic plates 76 are arranged, wherein a through groove corresponding to the rotating block 73 is formed in one elastic plate 76; the rotating block 73 is tightly attached to the inner wall of the through groove; the cross section shapes of the elastic plate 76 and the rotating block 73 are consistent with the cross section shape of the annular groove 74, and a second spring 77 is arranged between the elastic plate 76 and the annular groove 74; one end of the second spring 77 is fixedly connected with the groove bottom of the annular groove 74, and the other end of the second spring is fixedly connected with the elastic plate 76; when the vacuum cup works, when the baffle 7 rotates, the baffle 7 drives the rotating block 73 and the elastic plate 76 in the annular groove 74 to rotate, the rotating block 73 slides along the groove wall of the sliding groove 11, the elastic plate 76 slides on the inner wall of the cup body 1, and the rotating block 73 extrudes the first spring 75 and the elastic plate 76 extrudes the second spring 77, so that the first spring 75 pushes the rotating block 73 to tightly support and seal the sliding groove 11, the second spring 77 pushes the elastic plate 76 to tightly support and seal the inner wall of the cup body 1, when the rotating block 73 and the elastic plate are damaged due to sliding friction, the first spring 75 pushes the rotating block 73 to tightly support the sliding groove 11, and the second spring 77 pushes the elastic plate 76 to tightly support the inner wall of the cup body 1, so that the service life of the vacuum cup is prolonged.

As an embodiment of the present invention, a rotating block 8 is sleeved on the surface of the water temperature sensor 6; the rotating block 8 is positioned above the baffle 7, the rotating block 8 is in threaded connection with the water temperature sensor 6, and round balls 9 are arranged on two sides of the rotating block 8; the round ball 9 is fixedly connected with the rotating block 8 through an elastic rope 81; when the vacuum cup is placed upside down, the rotating block 8 rotates around the water temperature sensor 6 under the action of gravity; when the rotating block 8 rotates, the round ball 9 is driven by the elastic rope 81 to rotate around the water temperature sensor 6; when the thermos cup works, a user can rotate the rotating block 8 which rotates to the upper surface of the baffle 7 by inverting the thermos cup, the rotating block rotates towards the direction far away from the baffle 7 under the action of gravity, the round ball 9 also moves away from the baffle 7 under the action of gravity, and the round ball 9 is fixedly connected with the rotating block 8 through the elastic rope 81, so that the rotating block 8 can drive the round ball 9 to rotate around the water temperature sensor 6 while rotating; therefore, the invention is provided with the rotating block 8 and the round ball 9, so that the rotating block 8 drives the round ball 9 to rotate around the water temperature sensor 6; thereby driving the water flow in the cup to rotate, and further improving the dissolving speed of the tea particles or the coffee particles in the thermos cup in water.

As an embodiment of the present invention, the round ball 9 is made of a silica gel material, an air cavity 91 is formed inside the round ball 9, and an air hole 92 is formed between the surface of the round ball 9 and the air cavity 91; one end of the air hole 92 is communicated with the air cavity 91, and the other end is communicated with the outside through the surface of the ball 9; when the water cup works, the ball 9 rotates around the water temperature sensor 6 to drive water flow in the cup to rotate, and the water flow can pass through the air holes 92 while rotating, so that the water flow flows inside and outside the air cavity 91, the flowing speed of the water flow is increased, and the dissolving speed of tea particles or coffee particles in the cup in water is further increased.

As an embodiment of the present invention, a first magnet 93 is fixedly connected to the surface of the round ball 9; the upper surface of the baffle 7 is fixedly connected with a second magnet 78; the second magnet 78 is close to the inner wall of the inner body; the first magnet 93 and the second magnet 78 are magnetically attracted, and the attraction force of the first magnet 93 and the second magnet 78 is smaller than the sum of the gravity of the ball 9 and the gravity of the rotating block 8; when the first magnet 93 and the second magnet 78 attract each other, the ball 9 is contacted with the inner wall of the cup body 1; when the cup is in operation, the rotating block 8 is positioned on the upper surface of the baffle 7, the round ball 9 and the baffle 7 are attracted through the first magnet 93 and the second magnet 78, the round ball 9 is in contact with the inner wall of the cup body 1, and the baffle 7 is rotated while the baffle 7 drives the round ball 9 to rotate along the inner wall of the cup body 1; the vacuum cup is inverted, under the action of the gravity of the rotary block 8 and the round ball 9, the first magnet 93 and the second magnet 78 are separated, so that the round ball 9 is far away from the baffle 7, the inverted vacuum cup is inverted, the rotary block 73 and the round ball 9 rotate towards the direction close to the baffle 7, and under the attraction of the first magnet 93 and the second magnet 78, the rotary block 8 drives the round ball 9 to rotate rapidly; therefore, according to the cup, the first magnet 93 and the second magnet 78 are mutually attracted, when the baffle 7 rotates, the baffle 7 can drive the round ball 9 to rotate together, so that the inner wall of the cup body 1 can be cleaned in the rotating process of the round ball 9, the inverted vacuum cup is aligned, the round ball 9 moves towards the direction close to the baffle 7, the first magnet 93 and the second magnet 78 are attracted, the rotation of the round ball 9 and the rotating block 8 is accelerated, the rotating speed of the round ball 9 around the water temperature sensor 6 is accelerated, the water flow rotation is accelerated, and the dissolving speed of tea particles or coffee particles in the cup in water is improved.

When the electric heating wire works, the resistance wire 72 is powered by a rechargeable power supply; at the moment, the water temperature sensor 6 senses the water temperature in the cup body 1, when the water temperature is lower than 55 ℃, the water temperature sensor 6 transmits an electric signal to the controller, the controller controls the resistance wire 72 to be electrified and generate heat, so that the water in the cup body 1 is heated, when drinking water, a user can rotate the base 3, the base 3 drives the water temperature sensor 6 to rotate, the baffle 7 and the water temperature sensor 6 are rotated in a spiral mode, the baffle 7 is fixedly connected with the rotating block 73, the sliding groove 11 blocks the rotating block 73 to rotate left and right, meanwhile, the sliding groove 11 limits the baffle 7 left and right, the baffle 7 is further moved in the vertical direction, the baffle 7 is in close contact with the inner wall of the cup body 1, and the baffle 7 can drive the tea water in the cup body 1 to move up and down; when tea leaves in the thermos cup are cleaned, the baffle 7 pushes the tea leaves to the filter screen 4, so that the baffle 7 and the filter screen 4 squeeze water in the tea leaves, the water in the tea leaves is removed, the filter screen 4 is picked off, and the tea leaves are poured out; the base 3 is rotated, so that the baffle 7 is driven by the rotating block 73 to move up and down while the rotating block 73 moves up and down along the sliding chute 11, and the sliding chute 11 is spiral on the inner wall of the cup body 1, so that the baffle is driven by the rotating block 73 to rotate up along the inner wall of the cup body 1 in the rotating and rising process of the rotating block 73; when the baffle 7 rotates, the baffle 7 drives the rotating block 73 and the elastic plate 76 in the annular groove 74 to rotate, the rotating block 73 slides along the groove wall of the chute 11, the elastic plate 76 slides on the inner wall of the cup body 1, and because the rotating block 73 extrudes the first spring 75 and the elastic plate 76 extrudes the second spring 77, the first spring 75 pushes the rotating block 73 to tightly abut against and seal the chute 11, and the second spring 77 pushes the elastic plate 76 to tightly abut against and seal the inner wall of the cup body 1, when the rotating block 73 and the elastic block are damaged due to sliding friction, the first spring 75 pushes the rotating block 73 to tightly abut against the chute 11, and the second spring 77 pushes the elastic plate 76 to tightly abut against the inner wall of the cup body 1, so that the service life of the vacuum cup is prolonged; a user inverts the vacuum cup to enable the rotating block 8 rotating to the upper surface of the baffle 7 to rotate towards the direction far away from the baffle 7 under the action of gravity, the round ball 9 is also far away from the baffle 7 under the action of gravity, and the round ball 9 is fixedly connected with the rotating block 8 through the elastic rope 81, so that the round ball 9 is driven to rotate around the water temperature sensor 6 while the rotating block 8 rotates; the ball 9 rotates around the water temperature sensor 6 to drive water flow in the cup to rotate, and the water flow can pass through the air hole 92 while rotating, so that the water flow flows inside and outside the air cavity 91, the flow speed of the water flow is increased, and the dissolution speed of tea particles or coffee particles in the cup in water is further improved; the rotating block 8 is positioned on the upper surface of the baffle 7, the round ball 9 and the baffle 7 are attracted through the first magnet 93 and the second magnet 78, the round ball 9 is in contact with the inner wall of the cup body 1, and the baffle 7 is rotated while the baffle 7 drives the round ball 9 to rotate along the inner wall of the cup body 1; the thermos cup stands upside down, under the action of gravity of rotatory piece 8 and ball 9 for a magnet 93 separates with No. two magnet 78, thereby makes ball 9 keep away from baffle 7, returns the thermos cup of standing upside down just, and turning block 73 rotates to the direction that is close to baffle 7 with ball 9, and under the attraction of a magnet 93 and No. two magnet 78, and rotatory piece 8 drives the quick rotation of ball 9.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A multifunctional self-heating vacuum cup comprises a cup body (1), a cup cover (2), a base (3), a power supply and a controller; the cup body (1) is cylindrical; a filter screen (4) is arranged in the cup body (1), and a sealing ring (5) is arranged between the cup body (1) and the cup cover (2); the method is characterized in that: the base (3) is rotatably connected to the lower end of the cup body (1), and the upper end of the base (3) is fixedly connected with a water temperature sensor (6); the water temperature sensor (6) is positioned at the center of the base (3), threads are arranged on the surface of the water temperature sensor (6), and a cylindrical baffle (7) is sleeved on the surface of the water temperature sensor (6); the baffle (7) is in threaded connection with the water temperature sensor (6), the baffle (7) is in sliding contact with the inner wall of the cup body (1), and a cavity (71) is formed in the baffle (7); a resistance wire (72) is fixedly connected in the cavity (71); a chute (11) is arranged on the inner wall of the cup body (1); a rotating block (73) is connected inside the sliding chute (11) in a sliding manner; the cross section of the rotating block (73) is consistent with that of the sliding chute (11), and the rotating block (73) is arranged on the side wall of the baffle (7); the controller controls the vacuum cup to automatically operate.

2. The multifunctional self-heating thermos cup of claim 1, characterized in that: the chute (11) is spiral on the inner wall of the cup body (1); when the base (3) is rotated, the baffle (7) can drive the rotating block (73) to slide along the sliding groove (11).

3. The multifunctional self-heating thermos cup of claim 2, characterized in that: an annular groove (74) is formed in one surface, close to the inner wall of the cup body (1), of the baffle (7); the rotating block (73) is connected in the annular groove (74) in a sliding manner, and a first spring (75) is arranged between the rotating block (73) and the annular groove (74); one end of the first spring (75) is fixedly connected with the bottom of the annular groove (74), and the other end of the first spring is fixedly connected with the rotating block (73); an elastic plate (76) is arranged in the annular groove (74); at least two elastic plates (76) are arranged, wherein a through groove corresponding to the rotating block (73) is formed in one elastic plate (76); the rotating block (73) is tightly attached to the inner wall of the through groove; the cross section shapes of the elastic plate (76) and the rotating block (73) are consistent with the cross section shape of the annular groove (74), and a second spring (77) is arranged between the elastic plate (76) and the annular groove (74); one end of the second spring (77) is fixedly connected with the groove bottom of the annular groove (74), and the other end of the second spring is fixedly connected with the elastic plate (76).

4. A multi-functional self-heating thermos cup of claim 3, characterized in that: the surface of the water temperature sensor (6) is sleeved with a rotating block (8); the rotating block (8) is positioned above the baffle (7), the rotating block (8) is in threaded connection with the water temperature sensor (6), and round balls (9) are arranged on two sides of the rotating block (8); the round ball (9) is fixedly connected with the rotating block (8) through an elastic rope (81); when the vacuum cup is placed in an inverted state, the rotating block (8) can rotate around the water temperature sensor (6) under the action of gravity; when the rotating block (8) rotates, the round ball (9) is driven by the elastic rope (81) to rotate around the water temperature sensor (6).

5. The multifunctional self-heating thermos cup of claim 4, characterized in that: the round ball (9) is made of a silica gel material, an air cavity (91) is formed in the round ball (9), and an air hole (92) is formed between the surface of the round ball (9) and the air cavity (91); one end of the air hole (92) is communicated with the air cavity (91), and the other end of the air hole is communicated with the outside through the surface of the round ball (9).

6. The multifunctional self-heating thermos cup of claim 5, characterized in that: the surface of the round ball (9) is fixedly connected with a first magnet (93); the upper surface of the baffle (7) is fixedly connected with a second magnet (78); the second magnet (78) is close to the inner wall of the inner body; the first magnet (93) and the second magnet (78) are magnetically attracted, and the attraction force of the first magnet (93) and the second magnet (78) is smaller than the sum of the gravity of the round ball (9) and the gravity of the rotating block (8); when the first magnet (93) and the second magnet (78) attract each other, the round ball (9) is contacted with the inner wall of the cup body (1).