CN114873084B - Food nutrition enhancer storage device - Google Patents

Abstract

The invention discloses a food nutrition enhancer storage device, which comprises a barrel, wherein a cover cap is arranged on the barrel, an opening is arranged at the top of the cover cap, and a movable door plate is arranged at the position of the opening; the outer shaft penetrates through the cap, the food nutrition enhancer storage device utilizes the cooperation of the partition plate, the outer shaft, the inner shaft and the sealing sliding shovel mechanism to quantitatively transfer the nutrition enhancer below the partition plate to the upper part of the partition plate according to the edible requirement, and the upper space and the lower space of the partition plate are partitioned by the partition plate, so that the contact of the air with the nutrition enhancer in the process of taking the nutrition enhancer above the partition plate is effectively avoided, the nutrition enhancer in the process of transferring the nutrition enhancer below the partition plate to the space above the partition plate is transferred to the upper part of the partition plate, the nutrition enhancer stored below the partition plate is effectively prevented from being contacted with the air, and the property of the nutrition enhancer in the continuous use process is effectively ensured.

Description

Food nutrition enhancer storage device

Technical Field

The invention relates to the technical field of nutrient supplement storage, in particular to a food nutrient supplement storage device.

Background

Food nutrition enhancers, which are natural or within the range of natural nutrients added to foods in order to artificially increase nutrients, are one of the internationally advocated important methods for improving the nutritional status of residents, i.e., by adding one or more micronutrients to specific foods to increase the intake of these nutrients by the population, thereby correcting or preventing diseases related to micronutrient deficiency and the like.

At home, the conventional categories are divided into four major categories: i.e. minerals, vitamins, amino acids and other nutrients. In daily life, especially for water-soluble nutrition enhancers, such as powdered calcium gluconate and calcium bicarbonate for calcium supplement, etc., filling or bagging is generally performed in the continuous use process, but because the food nutrition enhancers need to be prevented from contacting with air as much as possible in the continuous use process, the filling or bagging nutrition enhancers cannot avoid air entering and exiting and contacting with the nutrition enhancers in a large area in each taking process, so that the properties of the food nutrition enhancers are easily changed to influence the use, and therefore, we propose a food nutrition enhancer storage device.

Disclosure of Invention

The present invention is directed to a food nutrition enhancer storage device, which solves the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the food nutrition enhancer storage device comprises a barrel, wherein a cap is arranged on the barrel, an opening is formed in the top of the cap, and a movable door plate is arranged at the opening position;

the outer shaft penetrates through the cap, a partition plate is arranged at one end of the outer shaft, which is positioned in the cylinder, the partition plate is in seamless abutting joint with the inner wall of the cylinder, and a penetrating through hole is formed in the partition plate;

the sealing sliding shovel mechanism is arranged at the bottom of the partition plate, a penetrating inner hole is formed in the outer shaft, an inner shaft is arranged in the inner hole, the inner shaft is connected with the sealing sliding shovel mechanism, when the through hole is not plugged, the sealing sliding shovel mechanism is utilized to convey the nutrition enhancer at the bottom of the partition plate to the upper part of the partition plate through the through hole, and the inner shaft can drive the sealing sliding shovel mechanism to plug the through hole so as to isolate the contact between the nutrition enhancer below the partition plate and air.

Preferably, the cap is screwed on the cylinder mouth of the cylinder, a penetrating screw hole is formed in the cap, the outer shaft is of a screw structure, the screw thread penetrates through the screw hole, a holding knob I is arranged at the top end of the outer shaft, the partition board is driven to rotate by rotating the outer shaft, and the sealing sliding shovel mechanism is utilized to convey the nutrition enhancer below to the upper portion of the partition board.

Preferably, the sealing sliding shovel mechanism comprises a sealing cover plate hinged to the bottom of the partition plate, the sealing cover plate covers the through hole to seal, a linkage piece is arranged between the sealing cover plate and the inner shaft, and the inner shaft drives the sealing cover plate to deflect at the hinged position of the sealing cover plate by using the linkage piece.

Preferably, the linkage piece comprises a bearing collar arranged at the bottom end of the inner shaft, a top shaft corresponding to the sealing cover plates one by one is arranged at the side edge of the bearing collar, the top shaft is made of iron and is in butt joint with the sealing cover plates, a magnet I is embedded at one side of the sealing cover plates, which is opposite to the top shaft, the top shaft is driven to rotate when the inner shaft is rotated, the top shaft is used for pushing the sealing cover plates to deflect to cover the through holes, and when the inner shaft is rotated in the opposite direction, the magnet I adsorbs the top shaft to drive the sealing cover plates to move to open along with the top shaft.

Preferably, the inner hole is a threaded hole with threads, the inner shaft is of a screw structure with threads arranged on the surface, the threads penetrate through the inner hole, a holding knob II is arranged at the top end of the inner shaft, and when the inner shaft is rotated to close the sealing cover plate by using the top shaft, the inner shaft is spirally upwards so as to drive the top shaft to longitudinally extrude the sealing cover plate.

Preferably, a flange extending towards the bottom of the cylinder is arranged on one side of the sealing cover plate away from the hinge position.

Preferably, the outer shaft comprises a fixed section I fixed with the partition board, a plurality of movable sections I are sequentially arranged at one end, far away from the partition board, of the fixed section I, the fixed section I is hinged with an adjacent movable section I, any movable section I is hinged with the adjacent movable section I, and adjacent hinged positions are respectively positioned at one side of the movable section I, namely, the movable sections I are distributed in a staggered manner in a left-right direction;

and the first fixed section, the first adjacent movable sections and the end parts of the first adjacent movable sections are respectively embedded with a second magnet and a third magnet, the opposite magnetic poles of the second magnet and the three-phase magnet are opposite, and the first holding knob is arranged at the end part of the first movable section at the most edge.

Preferably, the fixed section I, the adjacent movable sections I and the side edges of the adjacent movable sections I are respectively provided with a sinking groove, and the connecting hinges are arranged in the sinking grooves so as to enable the connecting hinges to be embedded in the outer shaft, thereby avoiding affecting the surface thread structure of the connecting hinges.

Preferably, the inner shaft comprises a second fixed section which is sleeved in the first fixed section in a sliding manner, the bottom end of the second fixed section extends to the outer side of the first fixed section, and the bearing lantern ring is arranged at the bottom end of the second fixed section;

and a plurality of second movable sections are sequentially arranged at one end of the second fixed section far away from the bearing sleeve ring, connecting pieces are arranged between the second fixed section and the second adjacent movable sections and between the second adjacent movable sections, and the inner shaft and the outer shaft are bent along the same track by the aid of the second connecting pieces.

Preferably, the connecting piece comprises a polygonal column body, wherein the second fixed section is hinged with the polygonal column body at the position, the other polygonal column bodies are respectively hinged at the end part of the second movable section below the middle of the second adjacent movable section, and the hinging positions are the same as and correspond to the hinging positions between the first fixed section and the first movable section one by one;

the end parts of the second movable sections adjacent to the polygonal column bodies are provided with polygonal grooves matched with the polygonal column bodies, and the end parts of the polygonal column bodies are movably inserted into the polygonal grooves;

and a magnet IV and a magnet V are respectively embedded between the fixed section II and the adjacent movable section II as well as between the adjacent movable sections II, and the magnetic poles of the opposite surfaces of the magnet IV and the magnet V are opposite.

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

the invention is different from the prior art, in the daily storage and taking process of the food nutrition enhancer, the nutrition enhancer below the clapboard can be quantitatively transferred to the upper part of the clapboard by utilizing the cooperation of the clapboard, the outer shaft, the inner shaft and the sealing sliding shovel mechanism, and the upper space and the lower space of the nutrition enhancer below the clapboard are separated by utilizing the clapboard, so that the air can be effectively prevented from contacting with the nutrition enhancer in a large area in the process of taking the nutrition enhancer above the clapboard, and the nutrition enhancer contacted with the space above the clapboard is transferred to the upper part of the clapboard in the process of transferring the nutrition enhancer below the clapboard, thereby effectively avoiding the contact of the nutrition enhancer stored below the clapboard with the air, and further effectively ensuring the property of the nutrition enhancer in the continuous use process.

Drawings

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

FIG. 2 is a schematic view of an opening state of a movable door panel according to the present invention;

FIG. 3 is a schematic view of the cap of FIG. 1 in an exploded condition according to the present invention;

FIG. 4 is a schematic view of the planar partial cross-section of FIG. 1 in accordance with the present invention;

FIG. 5 is a schematic view of the omitted cylinder of FIG. 2 according to the present invention;

FIG. 6 is a schematic view of the alternate orientation of FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic view of the partially exploded construction of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of an outer shaft construction of the present invention;

FIG. 9 is a schematic view of a partial plan cut-away configuration of an outer shaft of the present invention;

FIG. 10 is a schematic view of the structure of the inner shaft of the present invention;

FIG. 11 is a schematic view of the partially exploded construction of FIG. 10 in accordance with the present invention;

FIG. 12 is a schematic view of the alternate orientation of FIG. 11 in accordance with the present invention;

FIG. 13 is a schematic view of the present invention showing the cross-sectional structure of the inner shaft in partial section;

fig. 14 is a schematic overall structure of embodiment 2 of the present invention.

In the figure: 1. a cylinder; 11. capping; 12. an opening; 13. a movable door panel; 14. a partition plate; 15. a through hole; 16. a screw hole; 17. holding the first knob; 18. folding edges; 2. an outer shaft; 21. an inner bore; 22. a first fixed section; 23. a first movable section; 24. a second magnet; 25. a third magnet; 26. sinking grooves; 3. a sealing sliding shovel mechanism; 31. a sealing cover plate; 32. a linkage member; 321. a load-bearing collar; 322. a top shaft; 323. a first magnet; 4. an inner shaft; 41. holding a second knob; 42. a second fixed section; 43. a second movable section; 44. a connecting piece; 441. polygonal columns; 442. polygonal grooves; 443. a magnet IV; 444. a fifth magnet; 5. a brush ring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-13, the present invention provides a technical solution: the food nutrition enhancer storage device comprises a barrel 1, wherein the barrel 1 is used for storing food nutrition enhancers, a cover cap 11 is arranged on the barrel 1, an opening 12 is arranged at the top of the cover cap 11, a movable door plate 13 is arranged at the position of the opening 12, and the nutrition enhancers in the barrel 1 are directly poured by utilizing the design of the movable door plate 13 and the opening 12;

the outer shaft 2 is penetrated and arranged on the cap 11, a partition plate 14 is arranged at one end of the outer shaft 2 positioned in the cylinder body 1, the partition plate 14 is in seamless abutting joint with the inner wall of the cylinder body 1, and a penetrating through hole 15 is formed in the partition plate 14;

the sealing sliding shovel mechanism 3 is arranged at the bottom of the partition plate 14, a penetrating inner hole 21 is formed in the outer shaft 2, an inner shaft 4 is arranged in the inner hole 21, the inner shaft 4 is connected with the sealing sliding shovel mechanism 3, when the through hole 15 is not plugged, the sealing sliding shovel mechanism 3 is utilized to convey the nutrition enhancer at the bottom of the partition plate 14 to the upper part of the partition plate 14 through the through hole 15, and the inner shaft 4 can drive the sealing sliding shovel mechanism 3 to plug the through hole 15 so as to isolate the contact between the nutrition enhancer below the partition plate 14 and the air.

Further, the cap 11 is screwed on the cylinder opening of the cylinder 1, a threaded hole 16 is formed in the cap 11, the outer shaft 2 is in a screw structure, the threads penetrate through the threaded hole 16, a holding knob 17 is mounted on the top end of the outer shaft 2, the partition 14 is driven to rotate by rotating the outer shaft 2, the outer shaft 2 moves downwards in the threaded hole 16 in a screwed manner, and the sealing sliding shovel mechanism 3 is used for conveying the nutrition enhancer below to the upper portion of the partition 14.

For the above-mentioned characteristic seal sliding shovel mechanism 3, as a technical means, it includes the seal cover plate 31 hinged to the bottom of baffle 14, seal cover plate 31 covers and covers the through hole 15, and there is a linkage piece 32 between seal cover plate 31 and inner shaft 4, the linkage piece 32 includes the bearing collar 321 installed in the bottom of inner shaft 4, install the top shaft 322 corresponding to seal cover plate 31 one by one in bearing collar 321 side position, top shaft 322 is iron, and make contact with seal cover plate 31, and inlay one side of seal cover plate 31 facing top shaft 322 with magnet one 323, drive the rotation of top shaft 322 while rotating inner shaft 4, and top shaft 322 top moves seal cover plate 31 to deflect and cover through hole 15, and when rotating inner shaft 4 in the opposite direction, magnet one 323 absorbs top shaft 322 and drives seal cover plate 31 to move and open along with top shaft 322, and then when transferring nutrition enhancer under baffle 14, set up and rotated 4 to drive top shaft 322 and seal cover plate 31 to misplace, at this moment, utilize magnetic attraction to pull seal cover plate 31 to open, then rotate outer shaft 2, it is to need to pay attention that when top shaft 322 and seal cover plate 31 is rotated and then can't be rotated under inner shaft 14 and then rotated under baffle 14, and then can't be rotated and rotated under the baffle 14;

after the transfer and taking of the applicable amount are completed, the inner shaft 4 is independently rotated to reset, the top shaft 322 pushes the sealing cover plate 31 to block the through hole 15 so as to separate the upper space and the lower space of the partition plate 14, and then the movable door plate 13 is opened to pour the nutrition enhancer above the partition plate 14.

Further, the inner hole 21 is a threaded hole with threads, the inner shaft 4 is of a screw structure with threads on the surface, the threads penetrate through the inner hole 21, a holding knob II 41 is arranged at the top end of the inner shaft 4, when the inner shaft 4 is rotated to close the sealing cover plate 31 by using the top shaft 322, the inner shaft 4 is spirally upwards, and the top shaft 322 can be driven to longitudinally extrude the sealing cover plate 31, so that a better blocking effect is provided for the through hole 15, and air is further prevented from leaking from the upper part of the partition plate 14 to the stored nutrition enhancer below the partition plate 14.

Further, a flange 18 extending towards the bottom direction is arranged on one side of the sealing cover plate 31 away from the hinge position, and through the design of the flange 18, when the reversely rotating inner shaft 4 is reset, the nutrient supplement stored below can be stirred by the flange 18, so that the sealing cover plate is fluffy and convenient for the subsequent transfer of the sliding shovel.

For the characteristic outer shaft 2, as a technical means, the characteristic outer shaft 2 comprises a fixed section I22 fixed with the partition plate 14, wherein a plurality of movable sections I23 are sequentially arranged at one end of the fixed section I22 far away from the partition plate 14, the fixed section I22 is hinged with an adjacent movable section I23, any movable section I23 is hinged with the adjacent movable section I23, and adjacent hinged positions are respectively positioned at one side of the movable section I23, namely, distributed in a left-right staggered manner;

furthermore, the side edge positions of the fixed section I22, the adjacent movable sections I23 and the adjacent movable sections I23 are respectively provided with a sinking groove 26, and the connecting hinges are arranged in the sinking grooves 26 so as to enable the connecting hinges to be embedded in the outer shaft 2, thereby avoiding affecting the surface thread structure of the connecting hinges and further ensuring the stable spiral lifting use of the connecting hinges;

the first fixed section 22, the first adjacent movable sections 23 and the end parts of the first adjacent movable sections 23 are respectively embedded with a second magnet 24 and a third magnet 25, the opposite surfaces of the second magnet 24 and the third magnet 25 have opposite magnetic poles, and the first holding knob 17 is arranged at the end part of the first movable section 23 at the most edge;

through the design, so that the outer shaft 2 is foldable, the occupation of the whole space of the device is effectively reduced by folding the outer shaft 2, the combined outer shaft 2 which can be convenient is vertically positioned by utilizing the design of the magnet II 24 and the magnet III 25, and when the combined outer shaft is required to be used, the relative verticality of the shaft body can be ensured by directly pulling the holding knob I17, so that the spiral lifting of the shaft body is facilitated.

For the characteristic inner shaft 4, as a technical means, the device comprises a second fixed section 42 which is sleeved in the first fixed section 22 in a sliding way, the bottom end of the second fixed section 42 extends to the outer side of the first fixed section 22, and a bearing collar 321 is arranged at the bottom end of the second fixed section 42;

a plurality of second movable sections 43 are sequentially arranged at one end of the second fixed section 42 far away from the bearing collar 321, and connecting pieces 44 are arranged between the second fixed section 42 and the second adjacent movable sections 43 and between the second adjacent movable sections 43;

further, the connecting piece 44 includes a second polygonal column 441, wherein the second fixed section 42 is hinged to the second polygonal column 441 at the position, and each of the other second polygonal columns 441 is hinged to an end portion of the second movable section 43 below the second adjacent movable section 43, and the hinge positions are the same as and in one-to-one correspondence with the hinge positions between the first fixed section 22 and the first movable section 23;

the end parts of the second movable section 43 adjacent to the polygonal cylinder 441 are provided with polygonal grooves 442 matched with the polygonal cylinder 441, and the end parts of the polygonal cylinder 441 are movably inserted into the polygonal grooves 442;

a magnet four 443 and a magnet five 444 are respectively embedded between the fixed section two 42 and the adjacent movable section two 43 and between the adjacent movable section two 43, and the opposite surface magnetic poles of the magnet four 443 and the magnet five 444 are opposite;

furthermore, in practical use, the second fixed section 42 and the second movable section 43 are designed for folding the shaft body, but it should be noted that the inner shaft 4 is sleeved in the outer shaft 2, and the shaft body combination is realized through a hinge, so that the inner shaft 4 cannot be well adapted to the structure of the outer shaft 2 to synchronously fold, and at the moment, the problem that the inner shaft 4 cannot fold due to the diameter difference of the shaft body in the process of overturning and folding the inner shaft 4 and the outer shaft 2 in the same track is solved by utilizing the movement of the polygonal cylinder 441 in the polygonal groove 442, so that the stable synchronous folding of the inner shaft 4 and the outer shaft 2 is ensured, and the space occupation is reduced.

Example 2

Referring to fig. 14, the present invention provides another technical solution based on embodiment 1: for the characteristic partition 14, the brush ring 5 is arranged at the side edge of the bottom of the partition 14, and the brush ring 5 is abutted against the side edge of the barrel 1, so that the partition 14 can be cleaned in the process of transferring the lower nutrition enhancer by downward movement of the partition 14, thereby effectively avoiding continuous and stable partition use of the partition 14 due to the fact that the nutrition enhancer is remained at the barrel position and is squeezed between the partition 14 and the barrel.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A food nutrition enhancer storage device, comprising a barrel (1), characterized in that: a cap (11) is arranged on the cylinder body (1), an opening (12) is arranged at the top of the cap (11), and a movable door plate (13) is arranged at the position of the opening (12);

an outer shaft (2) is arranged on the cap (11) in a penetrating manner, a partition plate (14) is arranged at one end of the outer shaft (2) positioned in the cylinder (1), the partition plate (14) is in seamless abutting joint with the inner wall of the cylinder (1), and a penetrating through hole (15) is formed in the partition plate (14);

the sealing sliding shovel mechanism (3) is arranged at the bottom of the partition plate (14), a penetrating inner hole (21) is formed in the outer shaft (2), an inner shaft (4) is arranged in the inner hole (21), the inner shaft (4) is connected with the sealing sliding shovel mechanism (3), when the through hole (15) is not plugged, the sealing sliding shovel mechanism (3) is used for conveying a nutrition enhancer at the bottom of the partition plate (14) to the upper part of the partition plate (14) through the through hole (15), and the inner shaft (4) can drive the sealing sliding shovel mechanism (3) to plug the through hole (15) so as to prevent the nutrition enhancer below the partition plate (14) from contacting air;

the cap (11) is arranged at the position of a cylinder opening of the cylinder body (1) in a threaded manner, a penetrating screw hole (16) is formed in the cap (11), the outer shaft (2) is of a screw structure, the threads penetrate through the screw hole (16), a holding knob I (17) is arranged at the top end of the outer shaft, the outer shaft (2) is rotated to drive the partition plate (14) to rotate, and the sealing sliding shovel mechanism (3) is utilized to convey the nutrition enhancer below to the position above the partition plate (14);

the sealing sliding shovel mechanism (3) comprises a sealing cover plate (31) hinged to the bottom of the partition plate (14), the sealing cover plate (31) is covered and sealed at the through hole (15), a linkage piece (32) is arranged between the sealing cover plate (31) and the inner shaft (4), and the inner shaft (4) drives the sealing cover plate (31) to deflect at the hinged position by utilizing the linkage piece (32);

the interlocking piece (32) comprises a bearing collar (321) arranged at the bottom end of the inner shaft (4), a top shaft (322) corresponding to the sealing cover plates (31) one by one is arranged at the side edge of the bearing collar (321), the top shaft (322) is made of iron and is abutted to the sealing cover plates (31), a magnet I (323) is embedded on one side, opposite to the top shaft (322), of the sealing cover plates (31), the top shaft (322) is driven to rotate when the inner shaft (4) rotates, the top shaft (322) pushes the sealing cover plates (31) to deflect to cover the through holes (15), and when the inner shaft (4) rotates reversely, the magnet I (323) adsorbs the top shaft (322) to drive the sealing cover plates (31) to move to open along with the top shaft (322).

2. A food nutrition enhancer storage device as set forth in claim 1, wherein: the inner shaft (4) is of a threaded hole with threads, the surface of the inner shaft (4) is provided with a threaded rod structure, the threads penetrate through the inner hole (21), the top end of the inner shaft is provided with a holding knob II (41), when the inner shaft (4) is rotated to close the sealing cover plate (31) by using the top shaft (322), the inner shaft (4) is spirally upwards so as to drive the top shaft (322) to longitudinally extrude the sealing cover plate (31).

3. A food nutrition enhancer storage device as set forth in claim 2 wherein: a flange (18) extending towards the bottom direction is arranged on one side of the sealing cover plate (31) away from the hinge position.

4. A food nutrition enhancer storage device as set forth in claim 3, wherein: the outer shaft (2) comprises a first fixed section (22) fixed with the partition plate (14), a plurality of first movable sections (23) are sequentially arranged at one end, far away from the partition plate (14), of the first fixed section (22), the first fixed section (22) is hinged with a first adjacent movable section (23), any first movable section (23) is hinged with the first adjacent movable section (23), and adjacent hinged positions are respectively positioned at one side of the first movable section (23), namely, the two adjacent hinged positions are distributed in a staggered mode;

and a second magnet (24) and a third magnet (25) are respectively embedded at the end parts of the first fixed section (22) and the adjacent movable sections (23) as well as the end parts of the adjacent movable sections (23), the opposite surface magnetic poles of the second magnet (24) and the third magnet (25) are opposite, and the first holding knob (17) is arranged at the end part of the first movable section (23) at the extreme side.

5. A food nutrition enhancer storage device as set forth in claim 4, wherein: the fixed section I (22), the adjacent movable sections I (23) and the side edges of the adjacent movable sections I (23) are respectively provided with a sinking groove (26), and the connecting hinges are arranged in the sinking grooves (26) so as to enable the connecting hinges to be embedded in the outer shaft (2) and avoid affecting the surface thread structure of the connecting hinges.

6. A food nutrition enhancer storage device as set forth in claim 5, wherein: the inner shaft (4) comprises a second fixed section (42) which is sleeved in the first fixed section (22) in a sliding manner, the bottom end of the second fixed section (42) extends to the outer side of the first fixed section (22), and the bearing collar (321) is arranged at the bottom end of the second fixed section (42);

and a plurality of second movable sections (43) are sequentially arranged at one end, far away from the bearing collar (321), of the second fixed section (42), connecting pieces (44) are arranged between the second fixed section (42) and the second adjacent movable sections (43) and between the second adjacent movable sections (43), and the inner shaft (4) and the outer shaft (2) are bent in the same track by the aid of the connecting pieces (44).

7. A food nutrition enhancer storage device as set forth in claim 6, wherein: the connecting piece (44) comprises a polygonal column body (441), wherein the second fixed section (42) is hinged with the polygonal column body (441) at the position, the other polygonal column bodies (441) are respectively hinged at the end part of the second movable section (43) below the middle of the second adjacent movable section (43), and the hinging positions are the same as and correspond to the hinging positions between the first fixed section (22) and the first movable section (23) one by one;

the end parts of the movable sections II (43) adjacent to the polygonal column body (441) are provided with polygonal grooves (442) matched with the polygonal column body (441), and the end parts of the polygonal column body (441) are movably inserted into the polygonal grooves (442);

and a magnet four (443) and a magnet five (444) are respectively embedded between the fixed section two (42) and the adjacent movable section two (43) and between the adjacent movable sections two (43), and the magnetic poles of the opposite surfaces of the magnet four (443) and the magnet five (444) are opposite.

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