CN112278516A

CN112278516A - Non-contact quantitative tea-taking sealed tea caddy

Info

Publication number: CN112278516A
Application number: CN202011163974.3A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-27
Filing date: 2020-10-27
Publication date: 2021-01-29

Abstract

The invention discloses a non-contact quantitative tea-taking sealed tea caddy which comprises a sealed cavity top cover, wherein a guide piece is movably arranged inside the sealed cavity top cover, the bottom end of the sealed cavity top cover is connected with a sealed caddy body in a sealing mode, an adjustable constant-temperature bin is arranged in the center of the inside of the sealed caddy body, a material guide pipe is arranged in the vertical direction of the center of the inside of the adjustable constant-temperature bin, a plurality of extension shaft bodies are uniformly arranged in the middle of the outer side of the material guide pipe, a piston device is arranged at the bottom end of the material guide pipe, a base is arranged at the bottom. Has the advantages that: can realize that zero extrusion of tealeaves is deposited by furthest, realize tealeaves contactless, ration access, reduce the tealeaves disintegrating slag and produce, can realize constant temperature and preserve and realize nearly contactless outside air before the secondary is deposited, can realize tealeaves cooling or heat up to the room temperature when taking out simultaneously, can realize the screening of tealeaves disintegrating slag, improve the purity of the tealeaves of taking out, easy operation, convenient to use.

Description

Non-contact quantitative tea-taking sealed tea caddy

Technical Field

The invention relates to the technical field of tea storage, in particular to a non-contact quantitative tea-taking sealed tea caddy.

Background

Tea is a long-history drink in China, is very dry when being made and is easy to absorb water and damp, so that a proper container is needed for storing tea, most of the existing families use tea, and tea is stored in a tea tank, so that the tea tank is attractive and practical, and most of the existing merchants also package tea by adopting packaging tanks so as to facilitate the storage and use of tea by users.

At present current tea caddy generally by the canned structure that jar body and lid constitute, this kind of canned structure still leads to tealeaves moisture absorption to wet easily when in-service use to lead to fragrance to volatilize, and when taking away, generally take through empting or the mode of manually taking, this kind of mode leads to tealeaves to appear breaking very easily, and then produces the disintegrating slag, and also can not guarantee that the volume of once only taking reaches the requirement.

In order to solve the problem of quantitative taking, there is a tea caddy with quantitative taking in the prior art, such as the one disclosed in chinese patent No. CN 108408199B. However, although the tea caddy has a function of taking out tea leaves quantitatively, the tea caddy is taken out quantitatively in an inverted mode, the mode inevitably generates extrusion and friction of the tea leaves during use, the generation of broken tea leaves is increased, meanwhile, the upper tea leaves cannot be guaranteed to fall smoothly although the tea caddy is provided with a leakage hole, and a constant-temperature storage and sealing device is not arranged in the tea caddy, so that the tea caddy is not beneficial to long-term storage and drinking of the tea leaves.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

The invention provides a non-contact quantitative-measuring tea sealed tea caddy, which aims to solve the problems that tea stored in a tea caddy is easy to crack to generate tea broken slag when in use, and the tea storage and drinking are affected because good heat preservation and moisture preservation cannot be realized.

Therefore, the invention adopts the following specific technical scheme:

a non-contact sealed tea caddy capable of quantitatively taking tea comprises a sealed cavity top cover, wherein an accommodating cavity with an opening is formed in the sealed cavity top cover, a material guide piece is placed in the accommodating cavity, a conductive layer is coated on one side of the material guide piece, a handle is arranged at the end part of the material guide piece, a button is arranged on the handle, and a power storage device is arranged in the handle and is electrically connected with the button and the conductive layer; the bottom end of a top cover of the sealed cavity body is hermetically connected with a sealed tank body, an adjustable constant temperature bin is arranged at the central position inside the sealed tank body and comprises a bin cover and a double-layer bin body, the bin cover is movably arranged at the top end of the double-layer bin body, the inner wall of the double-layer bin body is provided with a plurality of chutes, the top end and the bottom end of each chute are respectively provided with an upper magnet ring and a lower magnet ring which have opposite magnetism, a material guide pipe which is inserted in the bin cover is arranged in the vertical direction of the center inside of the double-layer bin body, the top end of the material guide pipe is provided with a switching electromagnetic valve, one end of the switching electromagnetic valve, far away from the material guide pipe, is provided with a bidirectional through pipe, the other end of the bidirectional through pipe is provided with an air regulating pipe, a normal-temperature sliding pipe is arranged on the other side of the fan, an insulating smooth surface is arranged on the inner wall of the normal-temperature sliding pipe, the normal-temperature sliding pipe surrounds the adjustable constant-temperature bin for a circle and is inserted into the sealing tank body to extend out of the sealing tank body, and a heat insulating layer is uniformly arranged on the outer side of the normal-temperature sliding pipe; the outer side of the material guide pipe is uniformly provided with a plurality of sleeve shafts, the top ends of the sleeve shafts are connected with the outer side of the material guide pipe, an accommodating clearance groove is arranged between the top of each sleeve shaft and the material guide pipe, a clockwork spring is arranged in the accommodating clearance groove, a trigger switch for controlling the clockwork spring to be clamped is arranged on the outer side of the accommodating clearance groove, an extending shaft body is arranged on the outer side of each sleeve shaft, an opening is formed in one side of each extending shaft body, a hairbrush is arranged at the bottom end of the opening, an extending belt fixing shaft is arranged on one side, close to the opening, in the extending shaft body and is in rotating connection with a gear bidirectional motor arranged at the end part of the extending shaft body, an extending belt is connected to the outer side of each extending belt fixing shaft, extending branches are uniformly arranged at the bottom of each, the telescopic shaft is provided with and extends branch matched with sliding opening, the inside open-ended one side bottom of keeping away from of extension axis body is equipped with and is located the oblique below slope blown down tank of extension area fixed axle, the other end of extension axis body is provided with the coil, the coil is located go up the magnet circle with down between the magnet circle, just the coil with gear two-way motor rotates to be connected, the passage bottom is equipped with piston device, the piston device top is equipped with the foil, the sealed tank body bottom is equipped with the base, the inside central point of base puts and is equipped with constant temperature equipment, base one side is equipped with intelligence switch button and controller (the controller is the HAD-SC controller), the controller with intelligence switch button, trigger switch and gear two-way motor control are connected.

Further, the jar body of the sealed jar body is double-deck ceramic material, adjustable constant temperature storehouse main part adopts ceramic material.

Furthermore, the guide piece is of a telescopic structure, and a rack is arranged on one side of the top end of the lower magnet ring.

Further, the bin cover and the double-layer bin body are connected through a sealing silica gel spiral ring.

Furthermore, the inner wall of the material guide pipe and the inner wall of the inclined material outlet groove are coated with conductive smooth layers.

Furthermore, displacement detectors are arranged on one sides of the switch electromagnetic valve and the butterfly valve and are in control connection with the controller.

The invention has the beneficial effects that: through arranging the non-contact quantitative tea-taking sealed tea caddy consisting of a sealed cavity top cover, a guide piece, an adjustable constant-temperature bin, a guide pipe, an extension shaft body, an air conditioning pipe, a normal-temperature sliding pipe, a piston device, a switch button, a heat insulation layer and a displacement detector, the non-contact layered storage of tea can be realized, the single-layer non-extrusion storage of tea can be realized, the freshness preservation of each piece of tea can be realized to the maximum extent, the non-contact tea-taking of tea can be realized through a conductive smooth layer, the quantitative tea-taking of tea can be realized through the cooperation of a gear bidirectional motor and a controller, the breakage of tea caused by extrusion when the tea is taken out can be avoided through an inclined discharge chute, the piston device and a conductive sheet, the broken tea can be generated, the non-extrusion tea-taking of the tea can be realized, through the guide pipe, the mutual matching between the air conditioning pipe and the normal-temperature sliding, furthest keeps fresh and seals tealeaves, can realize tealeaves cooling or heat up to the room temperature when taking out simultaneously, it is slightly little to have in the weight of tealeaves disintegrating slag, adsorb on the extension axle area, with this screening that can realize the tealeaves disintegrating slag, improve the purity of the tealeaves of taking out, through the controller, switch solenoid valve, the sleeve shaft, go up the magnet circle, down the magnet circle, the semi-automatic access function of whole tea caddy can be realized in the mutual cooperation between gear two-way motor and the switch button, energy-concerving and environment-protective, and the operation is thus simple, and the use is convenient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic view of the internal structure of a non-contact quantitative tea-measuring sealed tea caddy according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the internal structure of an adjustable thermostatic cartridge according to an embodiment of the present invention;

FIG. 3 illustrates an operational state of an extended shaft body before opening according to an embodiment of the present invention;

FIG. 4 is an enlarged view of the structure according to A in FIG. 1;

FIG. 5 is an enlarged view of the structure according to B in FIG. 1;

FIG. 6 is an enlarged view of the structure according to C in FIG. 1;

FIG. 7 is an enlarged view of the structure according to D in FIG. 1;

FIG. 8 is a schematic illustration of a configuration of a leader according to an embodiment of the present invention;

FIG. 9 is a schematic view showing the structure of an extended shaft according to an embodiment of the present invention;

FIG. 10 is a schematic illustration of an expanded shaft according to an embodiment of the invention;

FIG. 11 is a schematic view showing the positions of an extended shaft, an upper magnet ring, and a lower magnet ring according to an embodiment of the present invention.

In the figure:

1. sealing the top cover of the cavity; 2. a material guide sheet; 3. a conductive layer; 4. a handle; 5. a button; 6. an electricity storage device; 7. sealing the tank body; 8. the constant temperature bin can be adjusted; 9. a bin cover; 10. a double-layer bin body; 11. a chute; 12. an upper magnetic ring; 13. a lower magnetic ring; 14. a material guide pipe; 15. switching on and off the electromagnetic valve; 16. a bidirectional pipe; 17. an air conditioning duct; 18. an air dehumidifying device; 19. a temperature adjustment device; 20. a butterfly valve; 21. a fan; 22. sliding the tube at normal temperature; 23. an insulating smooth surface; 24. a thermal insulation layer; 25. an extension shaft body; 26. a sleeve shaft; 27. a trigger switch; 28. a clockwork spring; 29. an opening; 30. a brush; 31. the extension belt fixing shaft; 32. the discharge chute is inclined; 33. extending the belt; 34. extending branches; 35. a geared bidirectional motor; 36. a coil; 37. a piston device; 38. a metal foil; 39. a base; 40. a thermostatic device; 41. a switch knob; 42. a rack; 43. sealing the silica gel spiral ring; 44. and a displacement detector.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the invention, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements.

As shown in fig. 1 to 11, according to an embodiment of the present invention, there is provided a non-contact quantitative-taking sealed tea caddy, including a sealed cavity top cover 1, wherein a containing cavity with an opening is arranged on the sealed cavity top cover 1, a guide sheet 2 is placed in the containing cavity, a conductive layer 3 is coated on one side of the guide sheet 2, and the end of the guide sheet 2 is provided with a handle 4, a button 5 is arranged on the handle 4, a power storage device 6 is arranged inside the handle 4, and the power storage device 6 is electrically connected with the button 5 and the conductive layer 3; the bottom end of the sealed cavity top cover 1 is hermetically connected with a sealed tank body 7, an adjustable constant temperature bin 8 is arranged at the central position inside the sealed tank body 7, the adjustable constant temperature bin 8 comprises a bin cover 9 and a double-layer bin body 10, the bin cover 9 is movably arranged at the top end of the double-layer bin body 10, a plurality of chutes 11 are arranged on the inner wall of the double-layer bin body 10, an upper magnet ring 12 and a lower magnet ring 13 which have opposite magnetism are respectively arranged at the top end and the bottom end of each chute 11, a material guide pipe 14 which is inserted into the bin cover 9 is arranged in the vertical direction at the center inside of the double-layer bin body 10, a switch electromagnetic valve 15 is arranged at the top end of the material guide pipe 14, a two-way through pipe 16 is arranged at one end of the switch electromagnetic valve 15, which is far away from the material guide pipe 14, an air, the other end of the air adjusting pipe 17 is provided with a butterfly valve 20, the other side of the butterfly valve 20 is provided with a fan 21, the other side of the fan 21 is provided with a normal-temperature sliding pipe 22, the inner wall of the normal-temperature sliding pipe 22 is provided with an insulating smooth surface 23, the normal-temperature sliding pipe 22 surrounds the adjustable constant-temperature bin 8 for one circle and is inserted into the sealing tank body 7 to extend out, and the outer side of the normal-temperature sliding pipe 22 is uniformly provided with a heat insulating layer 24; a plurality of sleeve shafts 26 are uniformly arranged on the outer side of the material guide pipe 14, the top ends of the sleeve shafts 26 are connected with the outer side of the material guide pipe 14, a clearance accommodating groove is formed between the top of each sleeve shaft 26 and the material guide pipe 14, a clockwork spring 28 is arranged in the clearance accommodating groove, a trigger switch 27 for controlling the clockwork spring 28 to be clamped is arranged on the outer side of the clearance accommodating groove, an extension shaft body 25 is arranged on the outer side of each sleeve shaft 26, an opening 29 is formed in one side of each extension shaft body 25, a hairbrush 30 is arranged at the bottom end of each opening 29, an extension belt fixing shaft 31 is arranged on one side, close to each opening 29, in each extension shaft body 25, the extension belt fixing shaft 31 is rotatably connected with a gear bidirectional motor 35 arranged at the end part of each extension shaft body 25, an extension belt 33 is connected to the outer side of each extension belt fixing shaft 31, extension branches 34 are uniformly arranged at the bottom of, the sleeve shaft 26 is provided with a sliding opening matched with the extension branch 34, the bottom end of one side, far away from the opening 29, inside the extension shaft body 25 is provided with an inclined discharge chute 32 positioned below the extension belt fixing shaft 31 in an inclined manner, the other end of the extension shaft body 25 is provided with a coil 36, the coil 36 is positioned between the upper magnet ring 12 and the lower magnet ring 13, the coil 36 is rotatably connected with the gear bidirectional motor 35, the bottom end of the material guide pipe 14 is provided with a piston device 37, the top end of the piston device 37 is provided with a metal sheet 38, the bottom end of the sealed tank body 7 is provided with a base 39, the central position inside the base 39 is provided with a constant temperature device 40, one side of the base 39 is provided with an intelligent switch button 41 and a controller, the controller is in control connection with the intelligent switch button 41, the trigger switch 27 and the gear bidirectional motor 35, and the tank body, the 8 main parts in adjustable constant temperature storehouse adopt ceramic material, guide piece 2 is extending structure, 13 top one side of magnet circle is equipped with rack 42 down, cang gai 9 with double-deck storehouse body 10 is connected through sealing silica gel helicoid 43, the passage 14 inner wall with slope silo 32 inner wall scribbles electrically conductive smooth layer, switching solenoid valve 15 with butterfly valve 20 one side all is equipped with displacement detector 44, displacement detector 44 with controller control connection.

For the convenience of understanding the technical solutions of the present invention, the following detailed description will be made on the working principle or the operation mode of the present invention in the practical process.

With continued reference to fig. 1-3, the trigger switch 27 controls the clockwork spring 28 to be unfolded, so that when tea leaves are stored, the tea leaves can be stored from the bottom layer of the extension belt 33 to the top layer in sequence, thereby realizing multi-layer storage of the tea leaves, reducing extrusion and friction among the tea leaves, and simultaneously enlarging the maximum contact surface of the tea leaves in the constant-temperature bin body 8 to achieve the effect of full fresh keeping;

as shown in fig. 4-8, the extension shaft belt 33 is driven to be unfolded by the trigger switch 27, the extension belt 33 generates uniform charges by the friction of the brush 30, meanwhile, the coil 36 cuts magnetic induction lines in the upper magnet ring 12 and the lower magnet ring 13 to generate electric energy to drive the gear bidirectional motor 35 to rotate, meanwhile, the inclined discharging groove 32 generates homopolar charges through the conductive smooth layer, the conductive layer 3 on the inner wall of the guide sheet 2 generates homopolar charges by the electric storage device 6 while the extension belt 33 is unfolded, and the tea leaves are charged in a manner of being opposite to the extension belt 33 when passing through the guide sheet 2, so that the adsorption of tea leaf residues and the repulsion space between the tea leaves are achieved, and the extrusion between the tea leaves is reduced;

with continued reference to fig. 9-11, the piston assembly 37, the foil 38, the inclined chute 32, the conductive smoothing layer and displacement monitor 44 are able to achieve the effect that the tea leaves, when received in the inclined chute 32 in the elongated shaft 25, fall and float into the guide tube 14 due to gravity, pass through the homopolar charges carried by the piston assembly 37 and the foil 38, and the conductive smooth layer on the inner wall of the material guide pipe 14 can realize non-contact transmission of the tea leaves to the maximum extent in the output process, the tea leaves firstly enter the air adjusting pipe 17 from the material guiding pipe 14 and then enter the normal temperature sliding pipe 22 through the switch electromagnetic valve 15, the butterfly valve 20 and the displacement detector 44, the isolation of the adjustable constant temperature bin 8 from the outside air is realized, the maximum fresh keeping of the tea leaves before the secondary storage is ensured, the fan 21, the normal temperature slide pipe 22 and the heat insulation layer 24 realize that the tea leaves gradually contact the outdoor environment and have a dust removal effect in the process of sliding down around the pipeline.

In general, in practical application, when tea needs to be stored, the switch knob 41 is directed to the storage direction, the switch knob is pressed down, the trigger switch 27 is enabled to loosen the clockwork spring 28 through the switch knob 41, the clockwork spring 28 drives the extension belt 33 to unfold, meanwhile, the hairbrush 30 rubs the extension belt 33, the extension belt 33 is charged, the switch knob 41 is pressed down, the conductive layer 3 on the guide sheet 2 generates reverse charge, the tea is obliquely guided into the guide sheet 2, the tea is scattered on the extension belt 33 and sequentially unfolded to the top layer, the tea is in a state of being isolated from the outside through the sealing connection of the sealing cavity top cover 1 and the sealing tank body 7, the switch knob 41 is rotated to the standby direction, the switch knob 41 is pressed down, the thermostatic device 40 of the base 39 starts to work, the temperature and the humidity of the sealing tank body 7 are adjusted to the most suitable state of the tea, when the tea needs to be taken, the switch knob 41 is, the fan 21 starts to wind for a certain preset time, so that no dust is accumulated in the normal temperature sliding pipe 22, the fan is pressed once and reversely rotates through the gear bidirectional motor 35, the coil 36 generates electric energy through cutting a magnetic induction line to drive the gear bidirectional motor 35 to rotate, the extension belt fixing shaft 30 is driven to rotate for a circle, the whole tea falls into the inclined discharging groove 32 due to the action of gravity, the piston device 37 waits for the tea to slide out at the discharging end of the inclined discharging groove 32, the metal sheet 38 is electrified to carry the same electrode to repel the tea, the tea is not contacted to the switch electromagnetic valve 15 to the maximum extent, the switch electromagnetic valve 15 detects the tea through the displacement detector 44, the electromagnetic valve 15 is opened to enable the tea to enter the air adjusting pipe 17, when the tea is not output any more, the switch electromagnetic valve 15 is closed, the adjustable constant temperature bin 8 is closed again, then the butterfly valve 20 is opened, the, due to the action of gravity, the tea leaves slide out of the tea caddy along the normal-temperature sliding tube 22, the extension belt fixing shaft 30 rotates for a circle every time the switch button is pressed, the quantitative output of the tea leaves at each time is achieved, and meanwhile, the tea leaves reach a normal-temperature state in the process of sliding out of the normal-temperature sliding tube 22.

The invention has the beneficial effects that: through the arrangement of the non-contact quantitative tea-taking sealed tea caddy consisting of the sealed cavity top cover 1, the material guiding sheets 2, the adjustable constant-temperature bin 8, the material guiding pipe 14, the extension shaft body 33, the air adjusting pipe 17, the normal-temperature sliding pipe 22, the piston device 37, the switch knob 41, the heat insulation layer 24 and the displacement detector 44, the non-contact layered storage of tea leaves can be realized, the single-layer non-extrusion storage of tea leaves is realized, the preservation of each tea leaf is realized to the maximum extent, the non-contact tea-taking of tea leaves is realized through the conductive smooth layer, the quantitative tea-taking of tea leaves is realized through the cooperation of the gear bidirectional motor 35 and the controller, the breakage of tea leaves caused by extrusion when the tea leaves are taken out is avoided through the inclined material outlet groove 32, the piston device 37 and the conductive sheets 38, the broken tea leaves are generated, the non-extrusion tea-taking of the tea leaves is realized, the mutual matching between the air adjusting pipe 17 and the normal-temperature sliding pipe 22 is realized, furthest keeps fresh and seals tealeaves, can realize tealeaves cooling or heat up to the room temperature when taking out simultaneously, it is slightly little to have in the weight of tealeaves disintegrating slag, adsorb on extension axle area 33, with this screening that can realize the tealeaves disintegrating slag, improve the purity of the tealeaves of taking out, through switching solenoid valve 15, sleeve shaft 26, go up magnet circle 12, magnet circle 13 down, gear two-way motor 35 and switch button 41 can realize the semi-automatic access function of whole tea caddy, energy saving and environmental protection, and the operation is simple, and is convenient for use.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The non-contact sealed tea caddy capable of quantitatively measuring tea is characterized by comprising a sealed cavity top cover (1), wherein an accommodating cavity with an opening is formed in the sealed cavity top cover (1), a guide piece (2) is placed in the accommodating cavity, a conductive layer (3) is coated on one side of the guide piece (2), a handle (4) is arranged at the end part of the guide piece (2), a button (5) is arranged on the handle (4), a power storage device (6) is arranged inside the handle (4), and the power storage device (6) is electrically connected with the button (5) and the conductive layer (3); the bottom end of the seal cavity top cover (1) is hermetically connected with the seal tank body (7), an adjustable constant temperature bin (8) is arranged at the center position inside the seal tank body (7), the adjustable constant temperature bin (8) comprises a bin cover (9) and a double-layer bin body (10), the bin cover (9) is movably arranged at the top end of the double-layer bin body (10), a plurality of sliding chutes (11) are formed in the inner wall of the double-layer bin body (10), an upper magnet ring (12) and a lower magnet ring (13) which are opposite in magnetism are respectively arranged at the top end and the bottom end of each sliding chute (11), a material guide pipe (14) which is inserted in the bin cover (9) in the vertical direction of the center inside of the double-layer bin body (10) is arranged in a penetrating manner, an on-off electromagnetic valve (15) is arranged at the top end of the material guide pipe (14), a bidirectional through pipe (16) is arranged at one end, an air dehumidifying device (18) and a temperature adjusting device (19) are arranged on one side of the top end of the air adjusting pipe (17), a butterfly valve (20) is arranged at the other end of the air adjusting pipe (17), a fan (21) is arranged on the other side of the butterfly valve (20), a normal-temperature sliding pipe (22) is arranged on the other side of the fan (21), an insulating smooth surface (23) is arranged on the inner wall of the normal-temperature sliding pipe (22), the normal-temperature sliding pipe (22) surrounds the adjustable constant-temperature bin (8) for one circle and is inserted into the sealing tank body (7) to extend out of the sealing tank body, and a heat insulating layer (24) is uniformly arranged on the outer; the outer side of the material guide pipe (14) is uniformly provided with a plurality of sleeve shafts (26), the top ends of the sleeve shafts (26) are connected with the outer side of the material guide pipe (14), a containing clearance groove is formed between the top of the sleeve shafts (26) and the material guide pipe (14), a clockwork spring (28) is arranged in the containing clearance groove, a trigger switch (27) for controlling the clockwork spring (28) to be clamped is arranged on the outer side of the containing clearance groove, an extension shaft body (25) is arranged on the outer side of the sleeve shafts (26), an opening (29) is formed in one side of the extension shaft body (25), a hairbrush (30) is arranged at the bottom end of the opening (29), an extension belt fixing shaft body (31) is arranged on one side, close to the opening (29), in the extension shaft body (25), and the extension belt fixing shaft (31) is rotatably connected with a gear bidirectional motor (35), the outer side of the extension belt fixing shaft (31) is connected with an extension belt (33), extension branches (34) are uniformly arranged at the bottom of the extension belt (33), the end part of the extension branch (34) positioned on the outermost side of the extension belt (33) is connected with the movable end of the clockwork spring (28), a sliding opening matched with the extension branch (34) is arranged on the sleeve shaft (26), an inclined discharge chute (32) positioned below the extension belt fixing shaft (31) is arranged at the bottom end of one side far away from the opening (29) in the extension shaft body (25), a coil (36) is arranged at the other end of the extension shaft body (25), the coil (36) is positioned between the upper magnet ring (12) and the lower magnet ring (13), the coil (36) is rotatably connected with the gear bidirectional motor (35), a piston device (37) is arranged at the bottom end of the extension belt (14), and a metal sheet (38) is arranged at the top end of the piston device (37), the utility model discloses a refrigerator, including sealed jar body (7), base (39) inside central point puts and is equipped with constant temperature equipment (40), base (39) one side is equipped with intelligent switch button (41) and controller, the controller with intelligent switch button (41), trigger switch (27) and gear bidirectional motor (35) control connection.

2. The non-contact quantitative tea-taking sealed tea caddy according to claim 1, wherein the caddy body of the sealed caddy body (7) is made of double-layer ceramic materials, and the main body of the adjustable constant temperature chamber (8) is made of ceramic materials.

3. A non-contact sealed tea canister with a measured quantity of tea according to claim 1, wherein the guide piece (2) is of a telescopic structure, and a rack (42) is arranged on one side of the top end of the lower magnet ring (13).

4. A contactless quantitative tea-measuring sealed tea caddy according to claim 1, characterized in that the lid (9) and the double-layered caddy body (10) are connected by a sealing silicone spiral (43).

5. The non-contact sealed tea caddy with a measured quantity of tea as claimed in claim 1, wherein the inner walls of the material guiding tube (14) and the inclined discharging chute (32) are coated with a conductive smooth layer.

6. A contactless quantitative measuring tea sealed tea canister according to claim 1, characterized in that the switch solenoid valve (15) and the butterfly valve (20) are provided with displacement detectors (44) on one side, and the displacement detectors (44) are in control connection with the controller.