CN114891633A

CN114891633A - Pneumatic oscillating type cell culture test tube intelligent storage device

Info

Publication number: CN114891633A
Application number: CN202210531216.5A
Authority: CN
Inventors: 王浩; 汪文娟; 杨律; 郑燕杰; 俞璐敏; 陈奎; 刘橼; 全文佳; 章万林
Original assignee: Ningbo Yinzhou No2 Hospital
Current assignee: Ningbo Yinzhou No2 Hospital
Priority date: 2022-05-16
Filing date: 2022-05-16
Publication date: 2022-08-12

Abstract

The invention discloses a pneumatic oscillation type cell culture test tube intelligent storage device, which comprises a storage box, an oscillation assembly and a taking and placing assembly, wherein the oscillation assembly and the taking and placing assembly are both positioned inside the storage box, the oscillation assembly is connected with the taking and placing assembly, the oscillation assembly comprises a ring body, the ring body is positioned inside the storage box, the outer side wall of the ring body is uniformly provided with fixing grooves, fixing tubes are arranged inside the fixing grooves, test tubes are inserted inside the fixing tubes, the inner side wall of the ring body is fixedly connected with a support, one end of the support is provided with a sleeve, the inner wall of the sleeve is fixedly connected with a rotating rod, a pneumatic rotating cylinder is arranged inside the storage box, the output end of the pneumatic rotating cylinder is fixedly connected with the bottom end of the rotating rod, the invention can conveniently and efficiently realize the independent taking and placing of the test tubes, the oscillation function of other test tubes is not influenced.

Description

Pneumatic oscillating type cell culture test tube intelligent storage device

Technical Field

The invention is applied to the background of cell culture and is named as an intelligent storage device of a test tube for pneumatic oscillation type cell culture.

Background

When carrying out experiments such as cell culture, fermentation, hybridization, biochemistry and enzyme and cell tissue, a cell culture environment is usually required to be created, and for some microbial cells or bacterial colonies with special requirements, the microbial cells or bacterial colonies need to survive and reproduce in a culture solution, and need to be oscillated, experimental objects such as cells are in a motion state in the culture solution, when the existing device is used for taking and placing test tubes, an oscillating mechanism needs to stop working, the mode can cause influence on oscillating operation of other test tubes, therefore, a pneumatic oscillating type test tube intelligent storage device for cell culture is necessary to be provided, and the effect of bringing and placing the test tubes conveniently can be achieved.

Disclosure of Invention

The invention aims to provide an intelligent storage device for a pneumatic oscillation type test tube for cell culture, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: pneumatic oscillating type cell culture is with test tube intelligence storage device contains bin, oscillation subassembly and gets and put the subassembly, the oscillation subassembly with get to put the subassembly and all be located the inside of bin, the oscillation subassembly with it connects to get the subassembly.

In one embodiment, the oscillating assembly includes the ring body, the ring body is located the inside of bin, the fixed slot has evenly been seted up to the lateral wall of ring body, the inside of fixed slot is provided with fixed pipe, the inside of fixed pipe is inserted and is equipped with the test tube, the inside wall fixedly connected with support of ring body, the one end fixedly connected with sleeve pipe of support, sheathed tube inner wall is provided with the bull stick, the internally mounted of bin has pneumatic revolving cylinder, pneumatic revolving cylinder's output with the bottom fixed connection of bull stick.

In one embodiment, the outer side wall of the test tube is fixedly connected with a limiting frame, the top of the fixed tube is provided with a limiting groove, and the limiting frame is inserted into the limiting groove.

In one embodiment, the taking and placing assembly comprises a magnetic block, a through groove is formed in one side of the storage box, the magnetic block is arranged in the through groove, a placing groove is formed in one side of the magnetic block, a supporting plate is fixedly connected to the inside of the storage box, an electric push rod is installed at the top of the supporting plate and is located under the pneumatic rotary cylinder, a piston rod of the electric push rod is fixedly connected to one side of the magnetic block, a supporting rod is fixedly connected to the inner side wall of the storage box, a bearing is fixedly connected to one end of the supporting rod, the top of the rotating rod is fixedly connected to the inner ring of the bearing, a torsion spring is fixedly connected to the bottom of the bearing, a baffle is installed at one end of the torsion spring, a telescopic block is uniformly installed at the top of the sleeve, and the telescopic block corresponds to the fixed pipe.

In one embodiment, a support seat is fixedly connected to the inner part of the placing groove.

In one embodiment, an insulation component is installed at the top of the storage box, the insulation component comprises a heater, the heater is installed on the rear surface of the storage box, a fan is fixedly installed at the top of the storage box, a pipe body is arranged inside the fan, fan blades are evenly installed on the outer side wall of the pipe body, and the top of the rotating rod is inserted into the pipe body.

In one embodiment, the top of the fan is hinged with a cover plate, the top of the storage box is fixedly connected with a spring piece, and the spring piece and the cover plate are detachably connected.

In one embodiment, a clamping groove is formed in the pipe body, a clamping block is fixedly connected to the outer side wall of the rotating rod, and the clamping block is inserted into the clamping groove.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, when the laboratory ware is placed in the storage box, the pneumatic rotary cylinder continuously drives the test tubes and the culture solution and the cells to oscillate and rotate, so that the cells are in a motion state in the culture solution, the laboratory ware can be rapidly tested when being taken out, when a worker needs to take and place the laboratory ware, the electric push rod drives the magnetic block to push out one test tube, other test tubes are not influenced to continuously complete oscillation action through the oscillation assembly, and the functionality of the device is greatly improved.

Drawings

The technical solutions and other advantages of the present application will become apparent from the following detailed description of specific embodiments of the present application when taken in conjunction with the accompanying drawings.

In the drawings:

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

FIG. 2 is a schematic illustration of an explosive structure of the present invention;

FIG. 3 is a schematic view of the oscillating assembly of the present invention;

FIG. 4 is an enlarged view of the area A in FIG. 3 according to the present invention;

FIG. 5 is an enlarged view of the area B in FIG. 3 according to the present invention;

FIG. 6 is a cross-sectional view of the storage case of the present invention;

FIG. 7 is a schematic view of the internal construction of the storage case of the present invention;

in the figure: 1. a storage tank; 2. an oscillating assembly; 21. a ring body; 22. a support; 23. a pneumatic rotary cylinder; 24. a fixed tube; 25. a test tube; 26. a limiting frame; 27. fixing grooves; 28. a sleeve; 29. a limiting groove; 291. a rotating rod; 3. a picking and placing assembly; 31. a magnetic block; 32. a through groove; 33. a placement groove; 34. a support plate; 35. an electric push rod; 36. a supporting seat; 37. a support bar; 38. a bearing; 39. a torsion spring; 391. a telescopic block; 392. a baffle plate; 4. a heat preservation assembly; 41. a heater; 42. a fan; 43. a pipe body; 44. a fan blade; 45. a card slot; 46. a cover plate; 47. a clamping block; 48. a spring plate.

Detailed Description

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Example one

Referring to fig. 1-6, the present invention provides the following technical solutions: pneumatic oscillating type cell culture is with test tube intelligence storage device, contain bin 1, oscillation assembly 2 and get and put subassembly 3 and all be located the inside of bin 1, oscillation assembly 2 with get and put subassembly 3 and be connected, the staff places the device and uses at the workplace, the laboratory ware of depositing culture solution and cell can be deposited to the inside of bin 1 or take out from the inside of bin 1 through getting and putting subassembly 3, when the laboratory ware is placed in the inside of bin 1, oscillation assembly 2 drives laboratory ware and culture solution and cell oscillation and rotation, thereby make the cell be in the motion state in the culture solution;

the oscillating assembly 2 comprises a ring body 21, the ring body 21 is positioned inside the storage box 1, fixing grooves 27 are uniformly formed in the outer side wall of the ring body 21, fixing pipes 24 are arranged inside the fixing grooves 27, test tubes 25 are inserted into the fixing pipes 24, a support 22 is fixedly connected to the inner side wall of the ring body 21, a sleeve 28 is fixedly connected to one end of the support 22, a rotating rod 291 is arranged on the inner wall of the sleeve 28, a pneumatic rotating cylinder 23 is arranged inside the storage box 1, the output end of the pneumatic rotating cylinder 23 is fixedly connected with the bottom end of the rotating rod 291, an experimental utensil is a test tube 25, the test tube 25 is fixed inside the fixing pipe 24, magnets are arranged inside the fixing grooves 27, the fixing pipes 24 and the test tubes 25 are adsorbed inside the fixing grooves 27 by the magnets, the output end of the pneumatic rotating cylinder 23 drives the rotating rod 291 to rotate, a locking mechanism is arranged between the rotating rod 291 and the sleeve 28, and the locking mechanism is in an initial state, the rotating rod 291 is connected with the sleeve 28 through a locking mechanism, so that the rotating rod 291 drives the sleeve 28 to synchronously rotate, the sleeve 28 drives the bracket 22 and the ring body 21 to rotate, the ring body 21 drives the fixing tube 24 and the test tube 25 to rotate, and the test tube 25 drives the culture solution and the cells to rotate, so that the motion states of the culture solution and the cells in the test tube 25 are kept;

the outer side wall of the test tube 25 is fixedly connected with a limiting frame 26, the top of the fixed tube 24 is provided with a limiting groove 29, the limiting frame 26 is inserted into the limiting groove 29, when the test tube 25 is placed in the fixed tube 24, the limiting frame 26 fixed on the outer side wall of the test tube 25 is placed in the limiting groove 29, and therefore the fixed tube 24 and the test tube 25 are connected and fixed;

the picking and placing assembly 3 comprises a magnet 31, a through groove 32 is formed in one side of the storage box 1, the magnet 31 is arranged in the through groove 32, a placing groove 33 is formed in one side of the magnet 31, a supporting plate 34 is fixedly connected in the storage box 1, an electric push rod 35 is arranged at the top of the supporting plate 34, the electric push rod 35 is positioned right below the pneumatic rotating cylinder 23, a piston rod of the electric push rod 35 is fixedly connected to one side of the magnet 31, a supporting rod 37 is fixedly connected to the inner side wall of the storage box 1, a bearing 38 is fixedly connected to one end of the supporting rod 37, the top of the rotating rod 291 is fixedly connected with the inner ring of the bearing 38, a torsion spring 39 is fixedly connected to the bottom of the bearing 38, a baffle 392 is arranged at one end of the torsion spring 39, telescopic blocks 391 are uniformly arranged at the top of the sleeve 28, and the telescopic blocks 391 correspond to the fixed pipe 24, a plurality of groups of taking and placing switches are arranged on the front surface of the storage box 1, and the taking and placing switches are in one-to-one correspondence with the fixed pipes 24 and the telescopic blocks 391;

when the test tube 25 needs to be taken and placed, the worker presses the taking and placing switch, the telescopic block 391 corresponding to the taking and placing switch rises, the sleeve 28 drives the telescopic block 391 to extrude the baffle 392, the control switch is installed on one side of the baffle 392 and triggers the telescopic block 391, the fixed tube 24 corresponds to the magnetic block 31 at the moment, the control switch controls the pneumatic rotating cylinder 23 to slowly rotate for a circle and controls the electric push rod 35 to start, when the electric push rod 35 is in an initial state, the piston rod is completely contracted, the electric push rod 35 drives the magnetic block 31 to move, because the pneumatic rotating cylinder 23 rotates slowly, the placing groove 33 formed on one side of the magnetic block 31 is arc-shaped, the electric push rod 35 is positioned right below the pneumatic rotating cylinder 23, when the magnetic block 31 extends, the fixed tube 24 slides into the placing groove 33, meanwhile, the piston rod of the electric push rod 35 extends completely, and drives the magnetic block 31 to push the fixed tube 24 out of the storage box 1 through the through groove 32, the retractable block 391 presses the baffle 392, the baffle 392 is stressed to continuously drive the torsion spring 39 to twist, the worker places the test tube 25 in the fixed tube 24 extending out of the storage box 1, or takes out the oscillated test tube 25 from the fixed tube 24, the electricity is automatically cut off after the pneumatic rotary cylinder 23 rotates slowly for a circle, the control switch controls the rotating rod 291 and the sleeve 28 to be separated through the locking mechanism, the elastic force of the torsion spring 39 pushes the baffle 392 and the retractable block 391 to be rapidly reset, the retractable block 391 drives the sleeve 28 and the ring body 21 to be reset, the ring body 21 is restored to the position when the fixed tube 24 is separated, the worker closes the pick-and-place switch, the pick-place switch controls the electric push rod 35 to drive the fixed tube 24 to enter the storage box 1 again, the fixed tube 24 is fixed inside the fixed groove 27 again, the corresponding retractable block 391 contracts simultaneously, the oscillating assembly 2 restores to a normal state, when the test tube 25 is picked and placed, the oscillating assembly 2 continuously rotates, so that the other test tubes 25 are kept in motion;

the locking mechanism can be composed of a telescopic rod and a limiting groove;

the inside fixedly connected with supporting seat 36 of standing groove 33, when electric putter 35 drove the magnetic path 31 and removes, magnetic path 31 drove supporting seat 36 and removes, and supporting seat 36 plays the bearing effect to fixed pipe 24 and test tube 25, avoids magnetic path 31 to drive fixed pipe 24 and test tube 25 and removes the in-process, and fixed pipe 24 and the condition that test tube 25 took place to drop.

Example two

Referring to fig. 1-6, a heat preservation assembly 4 is installed at the top of the storage box 1, the heat preservation assembly 4 includes a heater 41, the heater 41 is installed at the rear surface of the storage box 1, a fan 42 is fixedly installed at the top of the storage box 1, the fan 42 includes a tube 43, fan blades 44 are evenly installed on the outer side wall of the tube 43, the top of the rotating rod 291 is inserted into the tube 43, an air outlet of the heater 41 is communicated with the storage box 1, the heater 41 generates hot air and discharges the hot air into the storage box 1 through the air outlet, so as to increase the temperature inside the storage box 1, the temperature inside the storage box 1 is kept constant, when the oscillation assembly 2 oscillates the test tube 25 or the pick-and-place assembly 3 picks and places the test tube 25, the rotating rod 291 drives the tube 43 and the fan blades 44 to rotate, so as to disturb and disperse the hot air in the storage box 1;

the top of the fan 42 is hinged with a cover plate 46, the top of the storage box 1 is fixedly connected with a spring leaf 48, the spring leaf 48 is detachably connected with the cover plate 46, the cover plate 46 and the spring leaf 48 are matched to seal the top of the fan 42, external air is prevented from entering the storage box 1 through the fan 42, and wind force generated by rotation of the fan 42 is insufficient to blow the cover plate 46;

the inside of body 43 has been seted up draw-in groove 45, and the lateral wall fixedly connected with fixture block 47 of rotating rod 291, fixture block 47 insert locate the inside of draw-in groove 45, and when rotating rod 291 and body 43 were connected, the fixture block 47 of rotating rod 291 lateral wall inserted the inside of establishing draw-in groove 45, and when rotating rod 291 rotated, body 43 rotated synchronously.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; may be directly connected, may be internal to the two elements or may be in an interactive relationship with the two elements. The above terms are understood in the present application by those of ordinary skill in the art as appropriate.

The pneumatic oscillation type cell culture test tube intelligent storage device provided by the embodiment of the application is described in detail, a specific example is applied in the description to explain the principle and the implementation mode of the application, and the description of the embodiment is only used for helping to understand the technical scheme and the core idea of the application; those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure as defined by the appended claims.

Claims

1. Pneumatic oscillating cell culture is with test tube intelligence storage device contains bin (1), oscillation subassembly (2) and gets and put subassembly (3), its characterized in that: the vibration assembly (2) and the picking and placing assembly (3) are both located inside the storage box (1), and the vibration assembly (2) is connected with the picking and placing assembly (3).

2. The intelligent storage device of pneumatic oscillating cell culture test tubes of claim 1, wherein: oscillation assembly (2) are including ring body (21), ring body (21) are located the inside of bin (1), fixed slot (27) have evenly been seted up to the lateral wall of ring body (21), the inside of fixed slot (27) is provided with fixed pipe (24), the inside of fixed pipe (24) is inserted and is equipped with test tube (25), inside wall fixedly connected with support (22) of ring body (21), one end fixedly connected with sleeve pipe (28) of support (22), the inner wall of sleeve pipe (28) is provided with bull stick (291), the internally mounted of bin (1) has pneumatic revolving cylinder (23), the output of pneumatic revolving cylinder (23) with the bottom fixed connection of bull stick (291).

3. The pneumatic oscillation type cell culture test tube intelligent storage device of claim 2, wherein: the test tube is characterized in that a limiting frame (26) is fixedly connected to the outer side wall of the test tube (25), a limiting groove (29) is formed in the top of the fixing tube (24), and the limiting frame (26) is inserted into the limiting groove (29).

4. The pneumatic oscillation type cell culture test tube intelligent storage device of claim 3, wherein: the picking and placing component (3) comprises a magnetic block (31), a through groove (32) is formed in one side of the storage box (1), the magnetic block (31) is arranged in the through groove (32), a placing groove (33) is formed in one side of the magnetic block (31), a supporting plate (34) is fixedly connected to the inside of the storage box (1), an electric push rod (35) is installed at the top of the supporting plate (34), the electric push rod (35) is located under the pneumatic rotating cylinder (23), a piston rod of the electric push rod (35) is fixedly connected to one side of the magnetic block (31), a supporting rod (37) is fixedly connected to the inner side wall of the storage box (1), a bearing (38) is fixedly connected to one end of the supporting rod (37), the top of a rotating rod (291) is fixedly connected with the inner ring of the bearing (38), and a torsion spring (39) is fixedly connected to the bottom of the bearing (38), baffle (392) are installed to the one end of torsional spring (39), telescopic block (391) is evenly installed at the top of sleeve pipe (28), telescopic block (391) with fixed pipe (24) correspond.

5. The intelligent storage device of pneumatic oscillating cell culture test tubes of claim 4, wherein: the inside of the placing groove (33) is fixedly connected with a supporting seat (36).

6. The pneumatic oscillation type cell culture test tube intelligent storage device of claim 5, wherein: thermal insulation component (4) are installed at the top of bin (1), thermal insulation component (4) include heater (41), heater (41) install in the rear surface of bin (1), the top fixed mounting of bin (1) has fan (42), the inside of fan (42) contains body (43), flabellum (44) are evenly installed to the lateral wall of body (43), the top of bull stick (291) is inserted and is located the inside of body (43).

7. The intelligent storage device for test tubes in pneumatic oscillation type cell culture according to claim 6, wherein: the top of fan (42) articulates there is apron (46), the top fixedly connected with spring leaf (48) of storage box (1), spring leaf (48) with apron (46) can dismantle the connection.

8. The pneumatic oscillating cell culture test tube intelligent storage device of claim 6, wherein: a clamping groove (45) is formed in the tube body (43), a clamping block (47) is fixedly connected to the outer side wall of the rotating rod (291), and the clamping block (47) is inserted into the clamping groove (45).