CN115009658A

CN115009658A - Storage device of mesenchymal stem cell external secret body

Info

Publication number: CN115009658A
Application number: CN202210426368.9A
Authority: CN
Inventors: 张驰; 葛唱; 谢晓慧
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-21
Filing date: 2022-04-21
Publication date: 2022-09-06

Abstract

The invention discloses a storage device for an exosome of mesenchymal stem cells, which relates to the technical field of exosome storage and specifically comprises an auxiliary storage frame and a connecting slide block, wherein the bottom surface of the auxiliary storage frame is annularly connected with a connecting column, the end part of the connecting column is clamped and installed with a connecting plate, and the bottom surface of the connecting plate is provided with an adjusting component for splicing the auxiliary storage frame. This storage device of outer secret body of mesenchymal stem cell, can utilize connection baffle's design to classify according to the kind of article and place, can carry out the adaptability adjustment according to what of article kind to the area of the department of placing in classification simultaneously, design through holding chamber middle part second hydraulic pressure pneumatic rod can make connection baffle top and guiding groove looks block promptly, the person of being convenient for places more article on built-in dish surface, and can need not to make the inside all articles of placing of storage device expose the outside when taking one of them article.

Description

Storage device of mesenchymal stem cell external secret body

Technical Field

The invention relates to the technical field of exosome storage, in particular to a storage device for an exosome of mesenchymal stem cells.

Background

Exosomes refer to small membrane vesicles (30-150nm) containing complex RNAs and proteins, which today refer specifically to discoidal vesicles with diameters between 40-100 nm. Many cells secrete exosomes under both normal and pathological conditions. The multi-vesicular liposome mainly comes from a multi-vesicular body formed by invagination of intracellular lysosome particles, is released into an extracellular matrix after fusion of an outer membrane and a cell membrane of the multi-vesicular body, and needs to be stored when the exosome is researched and used, so that a user can conveniently research the exosome subsequently.

The existing exosome storage device has the problem that the existing storage area cannot be synchronously buffered and protected according to the use environment when being subjected to area splicing use in the use process.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a storage device for mesenchymal stem cell exosomes, which solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a storage device for mesenchymal stem cell exosomes comprises an auxiliary storage frame and a connecting slide block, wherein the bottom surface of the auxiliary storage frame is annularly connected with a connecting column, the end part of the connecting column is clamped with a connecting plate, the bottom surface of the connecting plate is provided with an adjusting assembly for splicing the auxiliary storage frame, the adjusting assembly comprises a thickened rubber pad, a supporting rod, a connecting sleeve plate, a collecting shaft and a fixed bottom plate, the bottom of the thickened rubber pad is connected with the collecting shaft, the outer surface of the collecting shaft is rotatably provided with the connecting sleeve plate, the bottom of the connecting sleeve plate is provided with the fixed bottom plate, the supporting rod is arranged at one end, close to the supporting rod, of the outer surface of the collecting shaft, the inner surface of the fixed bottom plate is provided with an auxiliary assembly for cleaning, the middle part of the fixed bottom plate is provided with a servo motor, and the bottom surface of the servo motor is provided with a fixed plate, the servo motor is connected with a connecting disc through a rotating shaft, an electric slide rail is arranged on the outer surface of the connecting disc, which is provided with a guide rail, in a sliding manner, a connecting slide block is arranged on the inner surface of the electric slide rail in a sliding manner, and an external frame is arranged on the outer surface of the fixing bottom plate.

Further, a first hydraulic pressure gas pole is installed to the upper end of link block, and the top of first hydraulic pressure gas pole is provided with mounting plate, mounting plate's upper end mid-mounting has the connection cylinder, and the internal surface of connecting the cylinder is provided with supplementary dish of placing, supplementary internal surface of placing the dish has seted up the spacing groove.

Furthermore, a built-in connecting column is installed in the middle of the connecting column body, and a connecting sleeve is arranged on the outer surface of the built-in connecting column in a threaded mode.

Further, the top of connecting sleeve is installed and is placed the board, and places the bottom surface of board and be provided with location silica gel pad, location silica gel pad is inside to be hollow column structure.

Furthermore, place the board surface mid-mounting and have the locator card post, and locator card post and place the board and be the one-to-one distribution.

Furthermore, the outer surface of the positioning clamp column is provided with a guide groove body, a guide connection block is fixedly arranged on the outer surface of the guide groove body, and the inner diameter of the guide groove body is larger than the outer diameter of the positioning clamp column.

Furthermore, the auxiliary assembly comprises a ventilation disc, a blocking net, a cleaning brush, a mounting groove, a built-in clamping plate and a fixing rod, the blocking net is arranged in the middle of the ventilation disc, the cleaning brush is arranged on the inner surface of the blocking net, the fixing rod is arranged in the middle of one end of the surface of the cleaning brush, the built-in clamping plate is arranged on the outer surface of the fixing rod in a sliding mode, and the mounting groove is formed in the outer surface of the built-in clamping plate in a clamping mode.

Furthermore, the inner surface of the external frame is connected with an internal disc, the inner surface of the internal disc is provided with a guide groove, and the inner surface of the guide groove is slidably provided with a connecting baffle.

Further, the surface of connection baffle is provided with the ultraviolet ray disinfection lamp, and connection baffle bottom mid-mounting has the second hydraulic pressure gas pole, the bottom surface mounting of second hydraulic pressure gas pole has the connection underframe, and the middle part of connecting the underframe is provided with and holds the chamber, the inside surface mounting who holds the chamber has the heat preservation cotton, the cotton surface mounting that keeps warm places the chamber.

Furthermore, an outlet is fixedly arranged at one end of the outer surface of the external frame, and a baffle plate is slidably arranged inside the outlet.

The invention provides a storage device for mesenchymal stem cell exosomes, which has the following beneficial effects:

the exosome storage device can carry out area splicing type extension treatment on the existing storage area by utilizing the design of the auxiliary storage frame according to the storage quantity requirement in the using process, is convenient for accommodating more articles, can lead a supporting component and a protective component to carry out rotary type adjustment of the position according to the design of an adjusting component which is required by a user for use and whether the storage area is extended, is convenient for the user to use the protective component in the area splicing extension, can carry out classified placement by utilizing the design of a connecting baffle plate according to the types of the articles, can also carry out adaptive adjustment on the area of the classified placement position according to the number of the types of the articles, can lead all placed articles in the storage device not to be exposed outside when taking one of the articles, effectively avoids the problem that the external environment pollutes other placed articles, and can simultaneously clear the blocking net used outside the servo motor by utilizing the movement of the cleaning brush when taking out the articles, the linked design is convenient for the user to use.

1. The storage device of the mesenchymal stem cell external secret body is characterized in that an auxiliary storage frame and an external frame are connected through the design of clamping connection of a connecting column and a connecting plate, so that a user can conveniently splice and expand the area of the existing external frame, and when the auxiliary storage frame is connected for use, the user can rotate a collecting shaft by using the design of a connecting sleeve plate, so that a supporting rod arranged on the outer surface of the collecting shaft can be in a state vertical to the joint of the connecting plate through rotation, meanwhile, the connecting plate and the auxiliary storage frame are mutually clamped together, good stabilizing effect is achieved, the design that a thickened rubber pad on the outer surface of the collecting shaft is attached to the surface of a fixed bottom plate due to rotation can be used, the auxiliary storage frame can be prevented from being pressed to the fixed bottom plate due to the action of larger force when the auxiliary storage frame is supported, and certain protection effect is achieved, the design of the connecting sleeve plate can be reused for rotating the collecting shaft, so that the thickened rubber pad arranged on the outer surface of the collecting shaft is in a state of being perpendicular to the joint plate in a fitting mode through rotation, and the external frame is protected from the outside when the auxiliary storage frame is not required to be spliced for use;

2. the storage device of the mesenchymal stem cell external secret body can drive the linking disc to rotate through the interaction of the servo motor and the rotating shaft, so that the placing plate connected with the linking disc can be synchronously driven to adjust the position through the rotation of the linking disc, the placing plate is convenient to be positioned at the position of a material taking port when articles placed inside the placing plate are taken for use, a user can conveniently take out the materials at the material taking port through the sliding shielding plate, meanwhile, the auxiliary placing disc is arranged in parallel outside the placing plate, the connecting sleeve indirectly connected with the auxiliary placing disc is in threaded connection with the built-in connecting column, the user can conveniently rotate the connecting sleeve clockwise or anticlockwise through a pointer or the connecting sleeve, the coincidence condition of the built-in connecting column and the connecting sleeve is adjusted, the user can conveniently and flexibly control the height between the auxiliary placing disc and the placing plate, and the articles with different heights can be placed conveniently, meanwhile, the article can be limited through the design of the height between the two;

3. the storage device of the mesenchymal stem cell exosome is convenient for taking out when an article moves to be close to a material taking port through the design of the electric slide rail and the connecting slide block, so that the component connected with the connecting slide block moves along the electric slide rail, the placing plate and the positioning clamp column can be driven to synchronously move through the position movement of the connecting slide block while articles are taken out conveniently, the positioning clamp column can rotate to a guide groove body arranged in the middle of the guide connecting block through the design of a servo motor, then the fixed rod connected with the guide connecting block can be driven to slide on the surface of the built-in clamping plate through the interaction of the electric slide rail and the connecting slide block, therefore, the cleaning brush can be driven to clean the surface of the blocking net through the position movement of the fixed rod, and the problem of poor heat dissipation effect caused by dust inside the blocking net is effectively avoided;

4. the storage device of the mesenchymal stem cell exosome can be placed in a classified mode by the design of the connecting baffle plate according to the types of articles, meanwhile, the area of the classified placement position can be adaptively adjusted according to the types of the articles, namely, the top of the connecting baffle can be clamped with the guide groove through the design of the second hydraulic air rod in the middle of the accommodating cavity, so that a user can conveniently place more articles on the surface of the built-in disc, and when one article is taken, all articles in the storage device do not need to be exposed outside, and through the design of the servo motor and the rotating shaft, when the articles to be taken out are adjusted to the material taking opening in a rotating mode, the bottom of the connecting baffle is clamped with the guide groove by the aid of the design of the second hydraulic air rod, so that other article placing areas and material taking opening position areas are separated, and the problem that the other placed articles are polluted by external environment is effectively solved;

5. this storage device of mesenchymal stem cell external secret body, design through connection baffle surface ultraviolet ray disinfection lamp is convenient for carry out ultraviolet disinfection when need not using storage device and handles, simultaneously can also utilize connection baffle's design to realize placing the partition of regional area, and place the design of intracavity portion cavity column structure, the person of facilitating the use is according to placing the required ice-cube that fills of temperature, perhaps fill other heavy objects and can effectively reduce the focus when using storage device, keep storage device's stability, hold the cotton design of intracavity surface heat preservation simultaneously, effectively avoid leading to influencing the problem of second hydraulic pressure gas pole normal use because of the temperature reduction when filling the ice-cube to placing intracavity portion, can carry out the protection of certain degree to second hydraulic pressure gas pole.

Drawings

Fig. 1 is a schematic top view of an external structure of a storage device for mesenchymal stem cell exosomes according to the present invention;

fig. 2 is a schematic view of an external frame of a storage device for mesenchymal stem cell exosomes according to the present invention;

fig. 3 is a schematic view of a main view connection structure of an auxiliary storage frame of a storage device for mesenchymal stem cell exosomes according to the present invention;

fig. 4 is a schematic top view of a bottom plate of a storage device for mesenchymal stem cell exosomes according to the present invention;

fig. 5 is a schematic view of a connection structure of a placement plate of a storage device for mesenchymal stem cell exosomes according to the present invention;

fig. 6 is a schematic view of a rear view connection local structure of a built-in snap-gauge of a storage device for mesenchymal stem cell exosomes according to the present invention;

fig. 7 is a schematic view of a connection structure of a connection baffle of a storage device for mesenchymal stem cell exosomes according to the present invention.

In the figure: 1. an auxiliary storage frame; 2. connecting columns; 3. a connector tile; 4. an external frame; 5. a material taking port; 6. a shielding plate; 7. a built-in disc; 8. a splice tray; 9. a guide rail; 10. placing a plate; 11. a fixing plate; 12. a servo motor; 13. positioning the clamp column; 14. a guide groove; 15. connecting a baffle plate; 16. an adjustment assembly; 1601. thickening the rubber pad; 1602. a support bar; 1603. connecting the sleeve plate; 1604. a collection shaft; 1605. fixing the bottom plate; 17. an auxiliary component; 1701. a vent disc; 1702. a barrier net; 1703. cleaning a brush; 1704. mounting grooves; 1705. a clamping plate is arranged inside; 1706. fixing the rod; 18. positioning a silica gel pad; 19. a connecting sleeve; 20. an auxiliary placing tray; 21. a limiting groove; 22. a connecting column is arranged inside; 23. connecting the columns; 24. mounting a bottom plate; 25. a first hydraulic gas lever; 26. connecting the sliding block; 27. a guide connection block; 28. a guide groove body; 29. an ultraviolet disinfection lamp; 30. a second hydraulic gas lever; 31. connecting the bottom frame; 32. an accommodating chamber; 33. heat preservation cotton; 34. a placement chamber; 35. provided is an electric sliding rail.

Detailed Description

Referring to fig. 1 to 7, the present invention provides a technical solution: a mesenchymal stem cell exosome storage device comprises an auxiliary storage frame 1, a connecting column 2, a connecting plate 3, an external frame 4, a material taking port 5, a baffle plate 6, an internal disc 7, a connecting disc 8, a guide rail 9, a placing plate 10, a fixing plate 11, a servo motor 12, a positioning clamp column 13, a guide groove 14, a connecting baffle plate 15, an adjusting assembly 16, a thickened rubber pad 1601, a support rod 1602, a connecting sleeve plate 1603, a collecting shaft 1604, a fixing base plate 1605, an auxiliary assembly 17, a ventilation disc 1701, a blocking net 1702, a cleaning brush 1703, a mounting groove 1704, an internal clamp plate 1705, a fixing rod 1706, a positioning silica gel pad 18, a connecting sleeve 19, an auxiliary placing disc 20, a limiting groove 21, an internal connecting column 22, a connecting column 23, a mounting base plate 24, a first hydraulic air rod 25, a connecting slide block 26, a guide connecting block 27, a guide groove body 28, an ultraviolet disinfection lamp 29, a second hydraulic air rod 30, a limiting groove 21, a connecting column 22, a connecting column 8, a guide plate 9, a guide groove body, The bottom frame 31, the containing cavity 32, the heat insulation cotton 33, the placing cavity 34 and the electric slide rail 35 are connected, the connecting column 2 is connected to the bottom surface of the auxiliary storage frame 1 in an annular mode, the end portion of the connecting column 2 is clamped and provided with the connecting plate 3, the adjusting component 16 used for splicing the auxiliary storage frame 1 is arranged on the bottom surface of the connecting plate 3, the adjusting component 16 comprises a thickened rubber pad 1601, a supporting rod 1602, a connecting sleeve plate 1603, a collecting shaft 1604 and a fixed bottom plate 1605, the bottom of the thickened rubber pad 1601 is connected with the collecting shaft 1604, the connecting sleeve plate 1603 is rotatably arranged on the outer surface of the collecting shaft 1604, the fixed bottom plate 1605 is arranged at the bottom of the connecting sleeve plate 1603, the supporting rod 1602 is arranged at one end, close to the supporting rod 1602, of the outer surface of the collecting shaft 1604 is arranged on the inner surface of the fixed bottom plate 1605, the auxiliary component 17 used for cleaning is arranged on the inner surface of the fixed bottom plate 1605, the servo motor 12 is arranged on the bottom surface of the fixed bottom plate 11, the servo motor 12 is connected with an engaging disc 8 through a rotating shaft, an electric slide rail 35 is slidably mounted on the outer surface of the engaging disc 8, the inner surface of the guide rail 9 is mounted on the outer surface of the engaging disc 8, the connecting slide block 26 is slidably mounted on the inner surface of the electric slide rail 35, and the outer surface of the fixed bottom plate 1605 is provided with an external frame 4;

the operation is as follows, the auxiliary storage frame 1 and the external frame 4 are connected through the design of the clamping connection of the connecting column 2 and the connecting plate 3, the user can conveniently carry out the splicing expansion treatment of the area of the existing external frame 4, and when the auxiliary storage frame 1 is connected for use, the user can utilize the design of the connecting sleeve plate 1603 to rotate the collection shaft 1604, so that the supporting rod 1602 arranged on the outer surface of the collection shaft 1604 can be in a state vertical to the joint of the connecting plate 3 through rotation, meanwhile, the connecting plate 3 and the auxiliary storage frame 1 are mutually clamped together, the good stabilizing effect is achieved, and the design that the thickened rubber pad 1601 on the outer surface of the collection shaft 1604 is attached to the surface of the fixed bottom plate 1605 due to rotation can be utilized, the auxiliary storage frame 1 can be prevented from being pressed to the fixed bottom plate 1605 due to the action of larger force when the auxiliary storage frame 1 is supported, have certain guard action, can reuse the design of linking lagging 1603 moreover and rotate collection axle 1604 to the thickening rubber pad 1601 that collection axle 1604 was provided with can be in through rotatory in the state of laminating vertically with linking plate 3, be convenient for protect external frame 4 from the outside when need not splicing the use to supplementary storage frame 1.

As shown in fig. 2 and 5, a first hydraulic gas rod 25 is installed at the upper end of a connecting slide block 26, an installation bottom plate 24 is arranged at the top of the first hydraulic gas rod 25, a connecting cylinder 23 is installed in the middle of the upper end of the installation bottom plate 24, an auxiliary placing disc 20 is arranged on the inner surface of the connecting cylinder 23, a limiting groove 21 is formed in the inner surface of the auxiliary placing disc 20, an internal connecting column 22 is installed in the middle of the connecting cylinder 23, a connecting sleeve 19 is arranged on the outer surface of the internal connecting column 22 in a threaded manner, a placing plate 10 is installed at the top of the connecting sleeve 19, a positioning silica gel pad 18 is arranged on the bottom surface of the placing plate 10, the inside of the positioning silica gel pad 18 is of a hollow silica gel structure, a material taking port 5 is fixedly installed at one end of the outer surface of an external frame 4, and a shielding plate 6 is slidably arranged inside the material taking port 5;

the connecting disc 8 can be driven to rotate through the interaction of the servo motor 12 and the rotating shaft, so that the placing plate 10 connected with the connecting disc 8 can be synchronously driven to adjust the position through the rotation of the connecting disc 8, the placing plate 10 is positioned at the position of the material taking port 5 when the articles placed inside the placing plate 10 are taken, a user can take out the articles at the material taking port 5 through the sliding shielding plate 6, meanwhile, the auxiliary placing disc 20 is arranged in parallel outside the placing plate 10, the connecting sleeve 19 indirectly connected with the auxiliary placing disc 20 is in threaded connection with the built-in connecting column 22, the user can adjust the superposition condition of the built-in connecting column 22 and the connecting sleeve 19 by rotating the connecting sleeve 19 clockwise or anticlockwise through the pointer or the auxiliary placing disc 20, the user can flexibly control the height between the auxiliary placing disc 20 and the placing plate 10, and the articles with different heights can be placed conveniently, simultaneously can also carry on spacingly through the design of above-mentioned height between the two to article, but also can be through aerifing to location silica gel pad 18, aerify expanded size through location silica gel pad 18 and carry out spacing protection to article.

As shown in fig. 2, 3, 4 and 6, a positioning card column 13 is installed in the middle of the surface of the placing plate 10, the positioning card column 13 and the placing plate 10 are distributed in one-to-one correspondence, a guide slot body 28 is installed on the outer surface of the positioning card column 13, a guide engagement block 27 is fixedly arranged on the outer surface of the guide slot body 28, the inner diameter of the guide slot body 28 is larger than the outer diameter of the positioning card column 13, the auxiliary assembly 17 comprises a ventilation disc 1701, a blocking net 1702, a cleaning brush 1703, a mounting slot 1704, a built-in card plate 1705 and a fixing rod 1706, the blocking net 1702 is arranged in the middle of the ventilation disc 1701, the cleaning brush 1703 is installed on the inner surface of the blocking net 1702, the fixing rod 1706 is arranged in the middle of one end of the surface of the cleaning brush 1703, the built-in card plate 1705 is slidably installed on the outer surface of the fixing rod 1706, and the mounting slot 1704 is engaged with the mounting slot 1704;

through the design of the electric slide rail 35 and the connecting slide block 26, when the article moves to be close to the material taking port 5 and is taken out, the components connected with the connecting sliding block 26 move along the electric sliding rail 35, so that the placing plate 10 and the positioning clamp column 13 can be driven to synchronously move through the position movement of the connecting sliding block 26 while taking out the articles, the positioning clamp column 13 can rotate to the guide groove 28 arranged in the middle of the guide connecting block 27 through the design of the servo motor 12, the fixing rod 1706 connected to the guiding joint block 27 is then slid on the surface of the built-in card 1705 by the interaction of the electric slide rail 35 and the connecting slide 26, thereby can drive the clearance brush 1703 through the position removal of dead lever 1706 and clear up on separation net 1702 surface, effectively avoid the inside dust that appears of separation net 1702 to cause the poor problem of radiating effect.

As shown in fig. 2, the inner surface of the external frame 4 is connected with an internal tray 7, the inner surface of the internal tray 7 is provided with a guide groove 14, and the inner surface of the guide groove 14 is slidably provided with a connecting baffle 15;

can be classified and placed according to the types of the articles by utilizing the design of the connecting baffle 15, and can also be adaptively adjusted according to the number of the types of the articles, namely, the top of the connection baffle 15 can be clamped with the guide groove 14 through the design of the second hydraulic and pneumatic rod 30 in the middle of the accommodating cavity 32, so that a user can conveniently place more articles on the surface of the built-in disc 7, and when one of the articles is taken out, all the articles in the storage device are not required to be exposed to the outside, and through the design of the servo motor 12 and the rotating shaft, when can make the article that need take out rotate the adjustment to getting material mouth 5 department, utilize the design of second hydraulic pressure gas pole 30 to make 15 bottoms of connection baffle and guiding groove 14 block together, realize that other article are placed regional and get the regional separation in material mouth 5 position, effectively avoid external environment to other problem of placing article pollution.

As shown in fig. 2 and 7, the ultraviolet disinfection lamp 29 is arranged on the outer surface of the connecting baffle 15, the second hydraulic air rod 30 is arranged in the middle of the bottom of the connecting baffle 15, the connecting bottom frame 31 is arranged on the surface of the bottom of the second hydraulic air rod 30, the accommodating cavity 32 is arranged in the middle of the connecting bottom frame 31, the heat insulation cotton 33 is arranged on the inner surface of the accommodating cavity 32, and the placing cavity 34 is arranged on the outer surface of the heat insulation cotton 33;

design through connector baffle 15 surface ultraviolet ray disinfection lamp 29 is convenient for carry out ultraviolet ray disinfection when not needing to use storage device and handles, simultaneously can also utilize connector baffle 15's design to realize placing the separation of regional area, and place the design of the inside cavity column structure of chamber 34, convenient to use person is according to placing the required ice-cube of filling of temperature, perhaps fill other heavy objects and can effectively reduce the focus when using storage device, keep storage device's stability, hold the cotton 33's of chamber 32 internal surface heat preservation simultaneously design, effectively avoid leading to influencing the problem of second hydraulic pressure gas pole 30 normal use to placing chamber 34 inside when filling the ice-cube because of the temperature reduces, can carry out the protection of certain degree to second hydraulic pressure gas pole 30.

In conclusion, when the storage device for the mesenchymal stem cell exosome is used, firstly, the ultraviolet disinfection treatment is conveniently carried out when the storage device is not required to be used through the design of the ultraviolet disinfection lamp 29 on the outer surface of the connecting baffle plate 15, meanwhile, the separation of the area of the placing area can be realized through the design of the connecting baffle plate 15, and the design of the hollow structure in the cavity 34 is placed, so that a user can conveniently fill ice blocks according to the placing temperature, or fill other heavy objects to effectively reduce the gravity center when the storage device is used, the stability of the storage device is kept, meanwhile, the design of the heat insulation cotton 33 on the inner surface of the cavity 32 is accommodated, the problem that the normal use of the second hydraulic air rod 30 is influenced due to the temperature reduction when the ice blocks are filled in the cavity 34 is effectively avoided, and the auxiliary storage frame 1 is connected with the external frame 4 through the design of the clamping connection of the connecting column 2 and the connecting plate 3, convenient to use person carries out the concatenation extension processing of area to current external frame 4, and when connecting the use to supplementary storage frame 1, the usable design that links up lagging 1603 of user rotates set axle 1604, thereby bracing piece 1602 that set axle 1604's surface was provided with can be in through the rotation with linking plate 3 laminating vertically state, link up the fishplate bar 3 and supplementary mutual block together between the storage frame 1, good stabilizing action has, and usable leads to the design of the laminating of thickening rubber pad 1601 of set axle 1604 surface at PMKD 1605 surface because of the rotation, can avoid the effect of great power to lead to supplementary storage frame 1 to oppress PMKD 1605 when supporting supplementary storage frame 1, certain guard action has, and can utilize the design that links up lagging 1603 once more to rotate set axle 1604, thereby set axle 1604's surface is provided with thickening rubber pad 1601 can be in through rotatory in the state of laminating vertically with linking fishplate 3 through rotating The external storage frame 4 is protected from the outside when the auxiliary storage frame 1 is not required to be spliced for use, then the articles are placed in the placing plate 10 or the limiting groove 21 in the auxiliary placing plate 20, the auxiliary placing plate 20 is arranged in parallel outside the placing plate 10, the connecting sleeve 19 indirectly connected with the auxiliary placing plate 20 is in threaded connection with the built-in connecting column 22, a user can adjust the superposition condition of the built-in connecting column 22 and the connecting sleeve 19 by rotating the connecting sleeve 19 clockwise or anticlockwise, the user can flexibly control the height between the auxiliary placing plate 20 and the placing plate 10, the articles with different heights can be placed conveniently, meanwhile, the articles can be limited by the design of the height between the two, the positioning silica gel pad 18 can be inflated, and the articles can be limited and protected by the size of inflation of the positioning silica gel pad 18, then, through the design of the electric slide rail 35 and the connecting slide block 26, when the article is moved to be close to the material taking port 5 and taken out, the component connected with the connecting slide block 26 is moved along the electric slide rail 35, so that the article can be taken out, and simultaneously, the position of the placing plate 10 and the positioning clamp column 13 can be driven to move synchronously through the position movement of the connecting slide block 26, the positioning clamp column 13 can rotate to the guide groove 28 arranged in the middle of the guide joining block 27 through the design of the servo motor 12, then, the fixing rod 1706 connected with the guide joining block 27 can be driven to slide on the surface of the built-in clamp plate 1705 through the interaction of the electric slide rail 35 and the connecting slide block 26, so that the cleaning brush 1703 can be driven to clean the surface of the blocking net 1702 through the position movement of the fixing rod 1706, and the problem of poor heat dissipation effect caused by the dust in the blocking net 1702 is effectively avoided, last can drive through the interact of servo motor 12 and pivot and link up dish 8 and rotate to can drive in step through the rotation to linking up dish 8 and carry out the adjustment of position with linking up the board 10 of placing that dish 8 is connected, be convenient for when placing the inside article of board 10 and take, make and place board 10 and be in and get 5 positions of material mouthful, convenient to use person takes out 5 article of material mouthful through sliding shielding plate 6.

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

Claims

1. The utility model provides a storage device of outer secret body of mesenchymal stem cell, its characterized in that, includes auxiliary storage frame (1) and link block (26), auxiliary storage frame (1) bottom surface annular is connected with spliced pole (2), and spliced pole (2) tip block installs linkage plate (3), linkage plate (3) bottom surface is provided with and is used for splicing adjustment subassembly (16) of using auxiliary storage frame (1), and adjustment subassembly (16) include thickening rubber pad (1601), bracing piece (1602), linking lagging (1603), set axle (1604) and PMKD (1605), the bottom of thickening rubber pad (1601) is connected with set axle (1604), and set axle (1604) external surface rotates installs linking lagging (1603), the bottom of linking lagging (1603) is provided with PMKD (1605), support piece (1602) is installed to set axle (1604) surface near the one end of bracing piece (1602), PMKD (1605) internal surface is provided with auxiliary assembly (17) that are used for carrying out the clearance, and PMKD (1605) middle part is provided with servo motor (12), the bottom surface mounting of servo motor (12) has fixed plate (11), servo motor (12) are connected with through the pivot and link up dish (8), and the internal surface mounting of linking up dish (8) has the surface slidable mounting of guide rail (9) to have electronic slide rail (35), link block (26) slidable mounting is in electronic slide rail (35) internal surface, the surface of PMKD (1605) is provided with external frame (4).

2. The mesenchymal stem cell exosome storage device according to claim 1, wherein a first hydraulic and pneumatic rod (25) is installed at the upper end of the connecting slide block (26), a mounting bottom plate (24) is arranged at the top of the first hydraulic and pneumatic rod (25), a connecting cylinder (23) is installed in the middle of the upper end of the mounting bottom plate (24), an auxiliary placing disc (20) is arranged on the inner surface of the connecting cylinder (23), and a limiting groove (21) is formed in the inner surface of the auxiliary placing disc (20).

3. The mesenchymal stem cell exosome storage device according to claim 2, wherein a built-in connecting column (22) is installed in the middle of the connecting column (23), and a connecting sleeve (19) is arranged on the outer surface of the built-in connecting column (22) in a threaded mode.

4. The mesenchymal stem cell exosome storage device according to claim 3, wherein a placing plate (10) is installed on the top of the connecting sleeve (19), a positioning silica gel pad (18) is arranged on the bottom surface of the placing plate (10), and the inside of the positioning silica gel pad (18) is of a hollow structure.

5. The device for storing mesenchymal stem cell exosomes according to claim 1, wherein positioning clamp columns (13) are installed in the middle of the surface of the placing plate (10), and the positioning clamp columns (13) are distributed in one-to-one correspondence with the placing plate (10).

6. The mesenchymal stem cell exosome storage device according to claim 5, wherein a guide groove body (28) is installed on the outer surface of the positioning card column (13), a guide engagement block (27) is fixedly arranged on the outer surface of the guide groove body (28), and the inner diameter of the guide groove body (28) is larger than the outer diameter of the positioning card column (13).

7. The mesenchymal stem cell exosome storage device according to claim 1, wherein the auxiliary component (17) comprises a ventilation disc (1701), a blocking net (1702), a cleaning brush (1703), a mounting groove (1704), a built-in clamping plate (1705) and a fixing rod (1706), the blocking net (1702) is arranged in the middle of the ventilation disc (1701), the cleaning brush (1703) is arranged on the inner surface of the blocking net (1702), the fixing rod (1706) is arranged in the middle of one end of the surface of the cleaning brush (1703), the built-in clamping plate (1705) is slidably arranged on the outer surface of the fixing rod (1706), and the mounting groove (1704) is arranged on the outer surface of the built-in clamping plate (1705) in a clamping manner.

8. The mesenchymal stem cell exosome storage device according to claim 1, wherein an internal tray (7) is connected to the inner surface of the external frame (4), a guide groove (14) is formed in the inner surface of the internal tray (7), and a connection baffle (15) is slidably mounted on the inner surface of the guide groove (14).

9. The mesenchymal stem cell exosome storage device according to claim 8, wherein the outer surface of the connection baffle plate (15) is provided with an ultraviolet disinfection lamp (29), the middle of the bottom of the connection baffle plate (15) is provided with a second hydraulic air rod (30), the bottom surface of the second hydraulic air rod (30) is provided with a connection bottom frame (31), the middle of the connection bottom frame (31) is provided with a containing cavity (32), the inner surface of the containing cavity (32) is provided with heat preservation cotton (33), and the outer surface of the heat preservation cotton (33) is provided with a placing cavity (34).

10. The device for storing the mesenchymal stem cell exosomes according to claim 1, wherein a material taking port (5) is fixedly installed at one end of the outer surface of the external frame (4), and a shielding plate (6) is slidably arranged inside the material taking port (5).