CN112545287A

CN112545287A - Self-generating multifunctional water cup

Info

Publication number: CN112545287A
Application number: CN202011552769.6A
Authority: CN
Inventors: 熊依雯
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2021-03-26
Anticipated expiration: 2040-12-24
Also published as: CN112545287B

Abstract

The invention discloses a self-generating multifunctional water cup which comprises a central cylinder, an inner shell, an outer shell and a cup cover. A positioning device is arranged on a straw of the cup cover, the length scale of the straw corresponds to a temperature-liquid level scale display screen on the side face of the cup, a cavity between the inner barrel and the outer shell and between the inner barrel is divided into 4 longitudinal cavities by 4 longitudinal separating parts which are symmetrically arranged in pairs, a pair of longitudinal cavities are provided with pore plates, the other longitudinal cavity bottom is provided with an anti-impact isolation, an adjustable cover is arranged at the lower end of a central barrel, the heat insulation shell is made of an insulating light-transmitting material, and a semiconductor natural light power generation sheet is arranged between the heat insulation shell and the outer shell. The self-generating multifunctional water cup provided by the invention can be used for containing boiled water and making tea, can be used for quickly layering the temperature of water in the water cup, sucking water with different temperatures as required, cannot cause great influence on temperature layering of residual water in the cup when water is continued, and also has a natural light power generation and storage device.

Description

Self-generating multifunctional water cup

Technical Field

The invention belongs to the technical field of tableware, and relates to a self-charging multifunctional water cup.

Background

Water is an essential substance for the human body to complete metabolism and maintain physiological functions, some people like drinking boiled water, some people like drinking sugar water, and some people like drinking tea, and in short, individual demands are different. In addition, when people drink water, the oral cavity is easily scalded when the water temperature is too high, body discomfort can be caused when the water temperature is too low, and the requirement on the water temperature also has individual difference.

The invention patent 201710040489.9 discloses a water cup with adjustable outlet water temperature, wherein the lower part of the water cup is a heat conducting layer, the upper part of the water cup is a heat insulating layer, when hot water is filled in the water cup, the water close to the heat conducting layer at the lower part of the water cup is quickly cooled, and the water close to the heat insulating layer at the upper part of the water cup is kept at a higher temperature. Thereafter, if the water in the cup is left standing, thermal stratification of the water is maintained. The inner container is internally provided with an anti-convection interlayer which divides the space in the inner container into a plurality of vertical long and narrow small chambers to prevent the heat generation convection of the upper water layer and the lower water layer. The small holes on the anti-convection interlayer play a role in communicating the vertical long and narrow small chambers. When water is sucked, the numerical value of the temperature display is observed, the suction pipe is pulled up and down, and the height of the lower end of the suction pipe is adjusted, so that the water with the corresponding temperature can be sucked out. The patent well solved the regulatory function to leaving water temperature, but also had following shortcoming simultaneously:

(1) because the water cup is internally provided with a plurality of vertical and long small chambers and the space is limited, the water cup can only contain liquid such as white water, brewed tea water and the like and can not make tea in the water cup;

(2) when a person holds the water cup, the person inevitably holds the lower part of the water cup, but in order to quickly cool water at the lower part, the lower part of the water cup is made of a material with good heat conduction performance, and when the temperature of the water poured into the water cup is high, hands can be scalded;

(3) according to the patent, when water with different temperatures needs to be sucked, the height of the lower end of the suction pipe needs to be adjusted by observing the numerical value of the temperature display and drawing the suction pipe, but when people draw the suction pipe, the lower end of the suction pipe is difficult to be accurately positioned in a certain specific water temperature area, namely the process is a trial and error process;

(4) if the water in the cup is drunk partially and needs to be continued, no matter the injected water is boiled water or cold water, the injected water flow can form a forced stirring effect on the water in the vertical long and narrow small chamber, and the original heat stratification can be disturbed.

Disclosure of Invention

In order to overcome the defects of single function, scalding hands, uncontrollable temperature of absorbed water, incapability of midway water supply and the like of a water cup with adjustable outlet water temperature in the prior art, the invention provides a self-charging multifunctional water cup which can be used for containing boiled water, tea making and the like.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a self-charging's multi-functional drinking cup, includes adiabatic shell, inner shell, a center section of thick bamboo, annular orifice plate and bowl cover, adiabatic shell is the printing opacity material, adiabatic shell cladding is outer periphery and the bottom of cup shell on the shell, be semiconductor natural light electricity generation piece between adiabatic shell and the shell, the shell has the hole at the bottom of cup, and seals completely between the periphery of hole and the inner shell, and this hole is used for installing detection device on the inner shell, detection device has pH value, sugar concentration, tea concentration detection module.

The shell is also provided with a plug hole and a plug cock matched with the plug hole at the bottom of the cup, and a stirring device, wherein the bottom surfaces of the plug cock and the stirring device are lower than the bottom surface of the bottom of the heat insulation shell. The stirring device is used for stirring the cooling water in the cavity between the outer shell and the inner shell, so that the convection of the cooling water is strengthened, and the water cooling and layering at the bottom of the water cup are accelerated. The power of the stirring device is derived from a natural light semiconductor power generation sheet between the heat insulation shell and the outer shell.

The diameter of the inner shell is smaller than that of the outer shell and larger than that of the central cylinder, the inner shell and the outer shell are connected into a whole in a seamless mode at the lower portion of the outer shell, and an annular cavity is formed between the inner shell and the outer shell. A cavity is arranged between the bottom surface of the inner shell and the bottom surface of the outer shell and is communicated with the annular cavity, and the cavity is communicated with the tap hole.

The outer shell and the inner shell are provided with flexible structures in the annular cavity section. The upper end face of the central cylinder is flush with the upper end face of the outer shell, and the lower end of the central cylinder is lower than the upper end face of the inner shell and is spaced from the lower end face of the inner shell by a certain distance.

4 longitudinal separating parts which are symmetrical pairwise are arranged between the outer surface of the central cylinder and the inner surface of the outer shell and between the outer surface of the central cylinder and the inner surface of the inner shell to separate the outer cavity of the central cylinder into 4 longitudinal cavities, the upper end surfaces of the longitudinal separating parts are flush with the upper end surface of the central cylinder, the lower end surfaces of the two symmetrical longitudinal separating parts are flush with the lower end surface of the central cylinder, and the lower end surfaces of the other two symmetrical longitudinal separating parts are flush with the upper end surface of the inner shell or slightly lower than the upper end surface of the.

The lower parts of two symmetrical cavities of the 4 longitudinal cavities are axially layered with horizontal separating pore plates, the pore positions between every two adjacent pore plates are completely staggered on a horizontal projection plane, and the distance between the two adjacent separating pore plates is equal to 8-10 times of the diameter of the small pores on the separating pore plates. The inner circle of the horizontal separation pore plate is connected with the central cylinder into a whole, and the outer circle of the horizontal separation pore plate is connected with the inner shell into a whole. The other two symmetrical cavity lower extremes of 4 vertical cavities are provided with the scour protection isolation part, the scour protection isolation part flushes with the lower terminal surface of a central section of thick bamboo, and the interior circle of scour protection isolation part links into a whole with a central section of thick bamboo, and the excircle and the inner shell of scour protection isolation part link into a whole. The edge of the cup mouth corresponding to the longitudinal cavity with the scour prevention separation part is provided with a special mark.

The inner shell is provided with longitudinal protruding parts at two-phase symmetrical positions, the outer circle of each longitudinal protruding part is flush with the outer circle of the outer shell, a temperature display strip is arranged on one protruding part along the longitudinal direction of the protruding part, the temperature display strip is reversible thermochromic paint and is tightly attached to the protruding part, and a temperature-liquid level scale contrast display screen is longitudinally arranged on the other protruding part. An annular protruding part is arranged on the inner circle of the upper end of the central cylinder and close to the end face, and the filter basket can be placed on the annular protruding part.

The filter basket has a recess in the circumference for passage of a straw. The cup cover is provided with an electronic element integration part, a suction pipe, a semiconductor natural light power generation and storage module and a power switch, and the suction pipe penetrates through the cup cover and extends to the bottom of the inner shell along the concave part of the filter basket. The electronic component integrated part has PH value display, sugar concentration display, tea concentration display, PH concentration value, sugar concentration value, tea concentration value setting functions and corresponding prompt components, and PH concentration, sugar concentration, tea concentration detection module switches. The suction pipe positioning device is arranged on the cup cover of the suction pipe, so that the length of the suction pipe extending into the cup is the same as the depth of the cup. The length scale is arranged on the suction pipe and is consistent with the liquid level scale.

The lower end of the central cylinder is provided with an adjustable cover, a control button of the adjustable cover is fixed at the top of the central cylinder, and the adjustable cover can be opened/closed through the control button.

The invention has the advantages that water with lower temperature is injected into the cavity on the outer wall of the inner shell, when boiled water is injected into the cup, the water at the lower part is rapidly cooled, and after the water at the lower part is cooled, the density of the water at the lower part is higher than that of the water at the upper part, and the heat stratification is kept. The cooling water stirring strengthens convection, increases the cooling speed of the water at the bottom of the cup and accelerates the temperature stratification of the water in the cup. When water is fed into the cup again, the water is injected through different channels, so that the water in the cup is prevented from generating forced convection due to water flow. The multi-layer orifice plate in the cup prevents thermal convection of the water in the cup and further maintains thermal stratification.

When tea is needed to be brewed, the adjustable cover is closed, so that the problem that water with lower temperature at the bottom of the water cup enters the central cylinder to affect the tea brewing effect can be avoided.

The scale consistent with the temperature-liquid level scale display screen is arranged on the suction pipe on the cup cover and is compared with the temperature-liquid level scale display screen, and water with required temperature can be sucked by drawing the suction pipe.

The outer wall of the cup is provided with a reversible thermochromic layer and a temperature and color comparison map, so that the temperature layering condition of water in the cup can be visually observed.

The temperature-liquid level scale display screen can detect the temperature of any height on the protruding part and convert the temperature into a number to be displayed on the temperature-liquid level scale display screen, the liquid level scale on the temperature-liquid level scale display screen is marked by increment from bottom to top along the axial direction of the water cup, and the unit increment of the liquid level and the length is the same. The straw is provided with length scales, the length scales are marked in an incremental manner from top to bottom along the axial direction of the straw, the starting point of the length scales of the straw and the end point of the liquid level scales are on the same horizontal plane, and the end point of the length scales of the straw and the starting point of the liquid level scales are on the same horizontal plane.

The semiconductor natural light power generation sheet on the side surface of the water cup converts light energy into electric energy, the electric energy is then transmitted to the semiconductor natural light power generation/power storage module to be stored, when the cooling water stirring device needs to be used, the power switch is turned on, and the stirring device starts to work after being electrified.

The PH value, sugar concentration and tea concentration detection module of the detection device can be turned on/off as required, the detection result is transmitted to the PH value, sugar concentration and tea concentration display screen of the electronic component integration part on the cup cover by adopting a wireless signal, the PH value, sugar concentration value and tea concentration value can be set, when the set value is reached, sound and light prompt can be carried out, and the requirements of people on the universality, the multifunction and the individuation of the water cup are met.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic top view of FIG. 1;

fig. 3 is a schematic cross-sectional view taken along line a-a of fig. 2.

In the figure, 1, an insulating shell, 2, an outer shell, 3, an inner shell, 4, a central cylinder, 5, a suction pipe, 6, a partition part, 7, an inner shell protrusion part, 8, a temperature-liquid level scale display screen, 9, an inner shell protrusion part, 10, a temperature display strip, 11, a cup cover, 12, an annular protrusion part, 13, a filter basket, 14, a pore plate, 15, an outer shell flexible structure, 16, an anti-impact isolation part, 17, an inner shell flexible structure, 18, a cock, 19, a detection device, 20, a pore, 21, a suction pipe positioning device, 22, an electronic element integration part, 23, an adjustable cover, 24, a semiconductor natural light power generation/storage module, 25, a power switch, 26 and a stirring device are arranged.

Detailed Description

[ example 1 ]

The present invention will be described in further detail below with reference to specific examples and drawings, but the embodiments of the present invention are not limited thereto.

In the figures 1, 2 and 3, the invention designs a multifunctional water cup, which comprises a heat insulation shell 1, an outer shell 2, an inner shell 3, a central cylinder 4, a suction pipe 5, a separation part 6, an inner shell protrusion part 7, a temperature-liquid level scale display screen 8, an inner shell protrusion part 9, a temperature display strip 10, a cup cover 11, an annular protrusion part 12, a filter basket 13, an orifice plate 14, an outer shell flexible structure 15, an anti-impact separation part 16, an inner shell flexible structure 17, a cock 18, a detection device 19, an orifice 20, a suction pipe positioning device 21, an electronic element integration part 22, an adjustable cover 23, a semiconductor natural light power generation/storage module 24, a power switch 25 and a stirring device 26.

Adiabatic shell 1 cladding is at outer periphery and the shell bottom of cup of shell 2, shell 2 has the hole at the bottom of cup, and seals completely between the periphery of hole and the inner shell, and this hole is used for installing detection device 19 on the inner shell, detection device 19 has pH value, sugar concentration, tea concentration detection module. The shell 2 is provided with a tap hole 18 at the bottom of the cup and a tap matched with the tap, and the bottom surface of the tap is lower than that of the bottom surface of the heat insulation shell 1. The shell 2 is provided with a stirring device 26 at the bottom of the cup, and the bottom surface of the stirring device 26 is lower than the bottom surface of the bottom of the heat insulation shell 1.

The diameter of the inner shell 3 is smaller than that of the outer shell 2 and larger than that of the central cylinder 4, the inner shell 3 is seamlessly connected with the outer shell 2 at the lower part of the outer shell 2 into a whole, and an annular cavity is formed between the inner shell 3 and the outer shell 2. A cavity is arranged between the bottom surface of the inner shell 3 and the bottom surface of the outer shell 2 and is communicated with the annular cavity, and the cavity is communicated with the tap hole 18. The housing 2 is provided with a flexible structure 15 at the aforementioned annular cavity section. The upper end face of the central cylinder 4 is flush with the upper end face of the outer shell 2, and the lower end of the central cylinder is lower than the upper end face of the inner shell 3 and has a certain distance with the lower end face of the inner shell 3.

4 longitudinal separating parts 6 which are symmetrical pairwise are arranged between the outer surface of the central cylinder 4 and the inner surface of the outer shell 2 and the inner surface of the inner shell 3 to separate the outer cavity of the central cylinder 4 into 4 longitudinal cavities, the upper end surfaces of the longitudinal separating parts 6 are flush with the upper end surface of the central cylinder 4, the lower end surfaces of the two symmetrical longitudinal separating parts 6 are flush with the lower end surface of the central cylinder 4, and the lower end surfaces of the other two symmetrical longitudinal separating parts 6 are flush with the upper end surface of the inner shell 3 or slightly lower than the upper end surface of the inner shell 3.

The lower parts of two symmetrical cavities of the 4 longitudinal cavities are axially and hierarchically provided with horizontal separating pore plates 14, the hole positions between every two adjacent pore plates 14 are completely staggered on a horizontal projection plane, and the distance between every two adjacent pore plates 14 is equal to 8-10 times of the diameter of a small hole 20 on each separating pore plate. The inner circle of the horizontal separation pore plate 14 is connected with the central cylinder 4 into a whole, and the outer circle of the horizontal separation pore plate 14 is connected with the outer shell 2 and the inner shell 3 into a whole. The other two symmetrical cavity lower extremes of 4 vertical cavities are provided with scour protection isolation part 16, scour protection isolation part 16 flushes with the lower terminal surface of a central section of thick bamboo 4, and the interior circle of scour protection isolation part 16 links into a whole with a central section of thick bamboo 4, and the excircle of scour protection isolation part 16 links into a whole with inner shell 3. The rim of the cup mouth corresponding to the longitudinal cavity with the anti-impact partition 16 is marked with a special mark.

Inner shell 3 has inner

shell protruding portion

7 and 9 at double-phase counterpoint, the excircle of protruding

portion

7 and 9 flushes with the excircle of shell 2, protruding portion 9 along vertically being provided with temperature display strip 10, temperature display strip 10 is reversible temperature-induced discoloration coating, closely laminate with protruding portion 9, another protruding portion 7 vertically is provided with temperature-liquid level scale display screen 8, temperature-liquid level scale display screen 8 can detect the temperature of arbitrary height on the protruding portion and convert it to the digital display on temperature-liquid level scale display screen 8, the liquid level scale on temperature-liquid level scale display screen 8 is along the axial increment sign from bottom to top of drinking cup.

An annular protrusion 12 is arranged on the inner circle of the upper end of the central cylinder 4 near the end face, and the annular protrusion 12 can be used for holding a filter basket 13. The filter basket 13 has a recess in the circumference, which is located for the passage of the suction pipe 5. The cup cover 11 is provided with an electronic component integrated part 22 and a suction pipe 5, and the suction pipe 5 penetrates through the cup cover 11 and extends to the bottom of the inner shell 3 along the concave part of the filter basket 13. The lower end of the central cylinder 4 is provided with an adjustable cover 23, a control button of the adjustable cover 23 is arranged at the top end of the central cylinder 4, and the opening/closing of the adjustable cover 23 can be realized through the control button.

The electronic component integration part 22 displays the PH value, the sugar concentration and the tea concentration, sets functions of the PH concentration value, the sugar concentration value and the tea concentration value and corresponding prompt components, and detects module switches of the PH concentration, the sugar concentration and the tea concentration. The suction pipe 5 is provided with a suction pipe positioning device 21 on the cup cover 11, the suction pipe 5 is provided with length scales, the length scales are incrementally marked from top to bottom along the axial direction of the suction pipe 5, the starting point of the length scales of the suction pipe 5 and the end point of the liquid level scales are on the same horizontal plane, and the end point of the length scales of the suction pipe 5 and the starting point of the liquid level scales are on the same horizontal plane.

The cup cover 11 is provided with a semiconductor natural light power generation/storage module 24 and a power switch 25. The semiconductor natural light power generation sheet disposed between the heat insulation case 1 and the outer case 2 converts light energy into electric energy to be stored in the semiconductor natural light power generation/storage module 24, and the stirring device 26 starts/stops operating by controlling the power switch 25. The heat insulation shell 1 is made of light-transmitting materials.

The outer shell flexible structure 15 and the inner shell flexible structure 17 have the function of absorbing axial deformation caused by the existence of temperature difference.

The PH concentration, sugar concentration, tea concentration detection module switches located on the electronic component integration part 22 may be turned on/off as needed.

The PH, sugar concentration, or tea concentration on the electronic component integrated part 22 can be set as required, and when the PH, sugar concentration, or tea concentration detection module is turned on and set, the corresponding module is activated accordingly.

[ example 2 ]

When tea needs to be brewed in the water cup, the tap hole 18 is opened to completely drain cooling water, meanwhile, a tea concentration detection module on the electronic component integration part 22 can be opened, a tea concentration value is set according to personal preference, tea leaves are placed in the filter basket 13, boiled water is injected into the water cup, the cup cover 11 is covered to make boiled water for brewing tea, after the concentration of the tea reaches a set value, a sound and light prompt is given, the cup cover 11 can be opened, and the filter basket 13 is taken out to form the rear cover and the cup cover 11. If the tea water with lower temperature needs to be drunk, cold water can be injected from the screw plug hole 18, then the water cup is kept still, after a period of time, the temperature of the tea water at the lower part is reduced, and the temperature display strip 10 can be observed from the side surface of the water cup so as to observe the temperature layering condition of the tea water. The required tea temperature can be observed from the temperature-liquid level scale display screen 8 according to the liquid level scale, and then the required tea is sucked by drawing the length of the suction pipe 5.

If boiled water needs to be added, the boiled water is added from a channel with a special mark, the added boiled water is changed into transverse flow due to the buffering effect of the anti-impact isolation part 16, the added hot water enters the longitudinal cavity with the pore plate 14 after being buffered by the anti-impact isolation part 16, the disturbance of the tea with the temperature reduced at the bottom is limited by the multilayer pore plate 14, the heat convection is prevented, the heat stratification of the tea is maintained, and finally the water levels of 4 longitudinal cavities are kept consistent.

[ example 3 ]

When the white boiled water needs to be contained, the plug cock is screwed after the plug cock hole 18 is opened to inject the cooling water, meanwhile, a PH value detection module on the electronic element integration part 22 can be opened, the boiled water is poured into the cup, the cup cover 11 is covered, then the cup is placed still, after a period of time, the detection value of the PH value can be displayed on the cup cover 11, the stirring device 26 is opened through the power switch 25, the cooling water starts to force the water at the lower part in the convection cooling cup, the water temperature at the lower part is reduced, the observation temperature display strip 10 at the side surface of the cup can be followed, and the temperature layering condition of the water can be. It is also possible to observe from the temperature-level scale display screen 8 what level scale the desired water temperature is at, and then draw the desired water by drawing the length of the suction tube 5.

If boiled water needs to be added continuously, the boiled water is added from a channel with a special mark, the added boiled water is changed into transverse flow due to the buffering effect of the anti-impact isolation part 16, the added hot water enters the longitudinal cavity with the pore plate 14 after being buffered by the anti-impact isolation part 16, the disturbance of the tea water with the temperature reduced at the bottom is limited by the multilayer pore plate 14, the heat convection is prevented, the heat stratification of the tea water is maintained, and finally the water levels of 4 longitudinal cavities are kept consistent.

If cold water needs to be added continuously, the cold water is added from the central cylinder 4, the added cold water flows upwards through the multilayer pore plate 14, the disturbance of the heated cold water on the hot water at the upper part is limited, the heat convection is prevented, the heat stratification of the tea water is maintained, and finally the water levels of the 4 longitudinal cavities are kept consistent.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A self-generating multifunctional water cup comprises a heat insulation shell (1), an outer shell (2), an inner shell (3), a central cylinder (4), a straw (5), a partition part (6), an inner shell protruding part (7), a temperature-liquid level scale display screen (8), an inner shell protruding part (9), a temperature display strip (10), a cup cover (11), an annular protruding part (12), a filter basket (13), an orifice plate (14), an outer shell flexible structure (15), an anti-impact isolation part (16), an inner shell flexible structure (17), a cock (18), a detection device (19), an orifice (20), a straw positioning device (21), an electronic element integrated part (22), an adjustable cover (23), a semiconductor natural light power generation/storage module (24), a power switch (25) and a stirring device (26). The novel tea cup is characterized in that the outer circumferential surface of the outer shell (2) and the cup bottom of the outer shell are coated with the heat insulation shell (1), the outer shell (2) is provided with a hole in the cup bottom, the periphery of the hole is completely sealed with the inner shell, the hole is used for installing a detection device (19) on the inner shell, and the detection device (19) is provided with a PH value, sugar concentration and tea concentration detection module. The shell (2) is also provided with a tap hole (18) at the bottom of the cup and is matched with a tap and a stirring device (26), and the bottom surfaces of the tap and the stirring device (26) are lower than the bottom surface of the bottom of the heat insulation shell (1). The heat insulation shell (1) is made of an insulating light-transmitting material, a semiconductor natural light power generation sheet is arranged between the heat insulation shell (1) and the outer shell (2), the diameter of the inner shell (3) is smaller than that of the outer shell (2) and larger than that of the central cylinder (4), the inner shell (3) is connected with the outer shell (2) in a seamless mode to form a whole at the lower portion of the outer shell (2), and an annular cavity is formed between the inner shell (3) and the outer shell (2). A cavity is arranged between the bottom surface of the inner shell (3) and the bottom surface of the outer shell (2) and is communicated with the annular cavity, and the cavity is communicated with the tap hole (18). The housing (2) is provided with a flexible structure (15) at the aforesaid annular cavity section. The upper end face of the central cylinder (4) is flush with the upper end face of the outer shell (2), and the lower end of the central cylinder is lower than the upper end face of the inner shell (3) and has a certain distance with the lower end face of the inner shell (3). 4 longitudinal separating parts (6) which are symmetrical pairwise are arranged between the outer surface of the central cylinder (4) and the inner surface of the outer shell (2) and the inner surface of the inner shell (3) to separate the outer cavity of the central cylinder (4) into 4 longitudinal cavities, the upper end surfaces of the longitudinal separating parts (6) are flush with the upper end surface of the central cylinder (4), the lower end surfaces of the two symmetrical longitudinal separating parts (6) are flush with the lower end surface of the central cylinder (4), and the lower end surfaces of the other two symmetrical longitudinal separating parts (6) are flush with the upper end surface of the inner shell (3) or are slightly lower than the upper end surface of the inner shell (3).

2. The self-generating multifunctional water cup according to claim 1, further characterized in that horizontal separating pore plates (14) are axially arranged in layers at the lower parts of two symmetrical cavities of the 4 longitudinal cavities, the hole sites between every two adjacent pore plates (14) are completely staggered on a horizontal projection plane, and the distance between the two adjacent pore plates (14) is equal to 8-10 times of the diameter of the small hole 10. The inner circle of the horizontal separation pore plate (14) is connected with the central cylinder (4) into a whole, and the outer circle of the horizontal separation pore plate (14) is connected with the inner shell (3) into a whole. The other two symmetrical cavity lower extremes of 4 vertical cavities are provided with scour protection isolation portion (16), and scour protection isolation portion (16) flushes with the lower terminal surface of a central section of thick bamboo (4), and the interior circle of scour protection isolation portion (16) links into a whole with a central section of thick bamboo (4), and the excircle of scour protection isolation portion (16) links into a whole with inner shell (3). The rim of the cup mouth corresponding to the longitudinal cavity with the scour prevention separation part (16) is specially marked.

3. The self-generating multifunctional water cup according to claim 1, further characterized in that the inner shell (3) is provided with inner shell protrusions (7) and (9) at two opposite positions, the excircles of the protrusions (7) and (9) are flush with the excircles of the outer shell (2), the protrusions (9) are longitudinally provided with temperature display bars (10), the temperature display bars (10) are reversible thermochromic coatings and are tightly attached to the protrusions (9), the other protrusion (7) is longitudinally provided with a temperature-liquid level scale display screen (8), the temperature-liquid level scale display screen (8) can detect the temperature at any height on the protrusion and convert the temperature into a number to be displayed on the temperature-liquid level scale display screen (8), and the liquid level scales on the temperature-liquid level scale display screen (8) are incremental marked from bottom to top along the axial direction of the water cup.

4. The self-generating multifunctional water cup according to claim 1, further characterized in that an annular protrusion (12) is arranged on the inner circle of the upper end of the central cylinder (4) near the end face, and the annular protrusion (12) can be used for holding the filter basket (13). The filter basket (13) has a recess in the circumference, which is provided for the passage of the suction pipe 5. The cup cover 11 is provided with an electronic element integrated part 22, a suction pipe (5), a semiconductor natural light power generation/storage module (24) and a power switch (25), and the suction pipe (5) penetrates through the cup cover (11) and extends to the bottom of the inner shell (3) along the sunken part of the filter basket (13).

5. The self-generating multifunctional water cup according to claim 1, further characterized in that the electronic component integration part (22) is connected with a PH value display module, a sugar concentration display module, a tea concentration display module, a PH concentration value, a sugar concentration value, a tea concentration setting function and corresponding prompting components, and a PH concentration detection module, a sugar concentration detection module and a tea concentration detection module. The novel liquid level measuring cup is characterized in that the suction pipe (5) is provided with a suction pipe positioning device (21) on the cup cover (11), the suction pipe (5) is provided with length scales, the length scales are incremental marked along the axial direction of the suction pipe (5) from top to bottom, the starting point of the length scales of the suction pipe (5) and the end point of the liquid level scales are on the same horizontal plane, and the end point of the length scales of the suction pipe (5) and the starting point of the liquid level scales are on the same horizontal.

6. The self-generating multifunctional water cup according to claim 1, further characterized in that the switches of the PH concentration, sugar concentration and tea concentration detection modules on the electronic component integration part (22) can be turned on/off as required.

7. The self-generating multifunctional water cup according to claim 1, further characterized in that a PH value, a sugar concentration value, or a tea concentration value on the electronic component integration part (22) can be set as required, and when the PH value, the sugar concentration value, or the tea concentration value is set by turning on the PH concentration detection module, the sugar concentration detection module, or the tea concentration detection module, the acoustic-optical prompt of the corresponding module is correspondingly started.

8. The self-generating multifunctional water cup according to claim 1, further characterized in that the inner shell (3) is preferably made of a material with excellent heat-conducting property.

9. The self-generating multifunctional water cup according to claim 1, further characterized in that an adjustable cover (23) is provided at the lower end of the central cylinder (4), a control button of the adjustable cover (23) is provided at the top of the central cylinder (4), and the adjustable cover (23) can be opened/closed by the control button.

10. The self-generating multifunctional water cup according to claim 1, further characterized in that a semiconductor natural light power generation sheet is arranged between the heat insulation shell (1) and the outer shell (2) to store electric energy in the semiconductor natural light power generation/storage module (24), the power source of the stirring device (26) is the semiconductor natural light power generation/storage module (24), and the working state of the stirring device (26) is controlled by the power switch (25).