CN114703057A

CN114703057A - Animal and plant cell large-scale culture device

Info

Publication number: CN114703057A
Application number: CN202210297976.4A
Authority: CN
Inventors: 李新建
Original assignee: Individual
Current assignee: Tang Yanwu
Priority date: 2022-03-24
Filing date: 2022-03-24
Publication date: 2022-07-05
Anticipated expiration: 2042-03-24
Also published as: CN114703057B

Abstract

The invention discloses a large-scale culture device for animal and plant cells, and belongs to the technical field of cell culture. An animal and plant cell large-scale culture device, comprising: culture room mechanism still includes: moving mechanism, control mechanism, a plurality of culture dish mechanism, bear mechanism and fixture of placing, control mechanism installs on the supporting mechanism, through setting up two semicircle rings, make two semicircle rings move in opposite directions, the culture tank in the middle of the centre gripping is rotating through control mechanism control lever, makes the rack shift up, rotates through the threaded rod, makes the loading board drive the culture tank and remove to the incubator edge, and convenient to use person observes.

Description

Animal and plant cell large-scale culture device

Technical Field

The invention belongs to the technical field of cell culture, and particularly relates to a large-scale culture device for animal and plant cells.

Background

The cell culture is an indispensable process, the cell culture is a large-scale clone of cells, the cell culture technology can be a simple single cell or a few differentiated multiple cells after a large amount of cells are cultured, which is an indispensable link of the cloning technology, a large amount of cells or metabolites thereof are obtained through the cell culture, and at the present stage, a plurality of cell culture dishes are placed in an environment-controllable space for culture by the large-scale animal and plant cell culture device.

Disclosure of Invention

The invention aims to provide a large-scale animal and plant cell culture device, which aims to solve the problem that due to the large number of culture dishes, the individual culture dishes are inconvenient to observe, take or store.

In order to achieve the purpose, the invention adopts the following technical scheme:

an animal and plant cell large-scale culture device, comprising: culture room mechanism, still include: the culture dish device comprises a moving mechanism, a control mechanism, a plurality of placing mechanisms, a plurality of culture dish mechanisms, a bearing mechanism and a clamping mechanism, wherein the moving mechanism, the control mechanism and the placing mechanisms are installed on a culture room mechanism, the culture dish mechanisms are installed on the placing mechanisms, the bearing mechanism is installed on the moving mechanism, and the clamping mechanism is installed on the bearing mechanism.

Preferably, the culture room mechanism comprises an incubator, a placing groove is formed in the incubator, sliding grooves corresponding to each other are formed in the side groove walls of the placing groove, and a plurality of positioning holes are uniformly formed in the bottom end of the sliding groove in one side.

Preferably, moving mechanism includes slider, two locating levers, and slider slidable mounting is in not seting up the spout of locating hole, and two locating levers are installed on the slider, and the top and the bottom that the slider is kept away from incubator one side all are provided with the limiting plate, and one side that the slider is close to the locating lever rotates and is provided with the threaded rod, and one side that the slider is close to the locating lever rotates and is provided with the control lever, and the anchor ring of control lever is provided with the cardboard relatively.

Preferably, control mechanism includes control block, two bull sticks, control block slidable mounting is in another spout, one side that the slider was kept away from at the control block is installed to two bull sticks, two bull sticks respectively with the threaded rod, control lever coaxial coupling, the equal coaxial carousel that is provided with in suspension end of two bull sticks, two carousels are kept away from bull stick one side and are all provided with the first commentaries on classics handle of disalignment, the control block is close to the bottom of carousel one side and has been seted up the mounting groove, be provided with first spring in the mounting groove, the bottom of first spring is provided with the locating piece that matches the locating hole, install the second on the locating piece and change the handle.

Preferably, a plurality of the even orderly installation of placement mechanism is in the standing groove, placement mechanism includes the base, and the pedestal mounting is in the standing groove bottom side, and the base top is provided with two relative semicircle boards, and the semicircle groove has all been seted up to one side that two semicircle boards are close to, and the base top all is provided with the control arc board in two semicircle board concatenation department both ends, and one side bottom that two control arc boards are close to is the cambered surface.

Preferably, a plurality of culture dish mechanism movable mounting respectively in place on the mechanism, culture dish mechanism is including fixed plectane, and fixed plectane activity match installs in the half slot, and the culture tank is installed on fixed plectane top, and transparent lid is installed on the culture tank top.

Preferably, bear the mechanism and include the loading board, loading board slidable mounting is on two locating levers, set up threaded hole on the loading board to with threaded rod threaded connection, set up the movable hole that matches the control lever on the loading board, set up the mounting hole on the loading board, the control lever is equipped with the ring gear in the movable cover of mounting hole, sets up the card hole of two cardboards of adaptation on the ring gear, slidable mounting has the rack in the mounting hole, rack and ring gear meshing.

Preferably, fixture includes the mounting panel, the mounting panel rotates the bottom of installing at the rack, mounting panel bottom both sides all are provided with the installation piece, all be provided with the slide bar between two installation pieces, the cover all slides on two slide bars and is equipped with the semicircle ring that can constitute complete control ring relatively, the bottom of two semicircle rings all is provided with the connecting rod, two connecting rod bottoms all are provided with the guide arc pole of adaptation control arc board, both ends one side that two semicircle rings are close to is provided with the connecting plate, connecting plate suspension end is provided with the square plate, the square plate bottom is provided with a plurality of second springs, a plurality of second spring bottoms are provided with the locking lever, the bottom side of locking lever suspension end is the hook plate form, the locking lever outside is provided with excites the piece, the both ends opposite side that two semicircle rings are close to is provided with the lockplate, set up the hook groove of adaptation locking lever on the lockplate.

Compared with the prior art, the invention provides a large-scale animal and plant cell culture device, which has the following beneficial effects:

(1) the sliding block is installed on the sliding groove in a sliding mode, the threaded rod and the control rod are installed on the sliding block in a rotating mode, control over related components is achieved, and the positioning rod is installed to achieve positioning of the related components.

(2) According to the invention, the control mechanism is slidably arranged in the sliding groove, the rotating rod coaxial with the threaded rod and the control rod, the rotating discs and the first rotating handle are arranged, a user can control the threaded rod and the control rod to rotate by rotating the two rotating discs, the positioning block is matched with the positioning hole, and the position can be accurately locked.

(3) The culture tank is more stably placed and can not be misplaced by installing the fixed circular plate matched with the semicircular groove.

(4) According to the invention, the guide arc rod is arranged, when the rack moves downwards and the mounting plate moves downwards, the guide arc rod is abutted against the control arc plate to enable the two semicircular rings to move oppositely to clamp the culture tank in the middle, the locking rod is clamped in the hook groove at the moment, the relative positions of the two semicircular rings are fixed, the control rod is controlled to rotate by the control mechanism to enable the rack to move upwards, the bearing plate drives the culture tank to move to the edge of the culture tank through the rotation of the threaded rod, so that a user can conveniently observe the culture tank, when the culture tank needs to be placed, the mounting plate needs to rotate slightly, the rack moves downwards at a specified position through the rotation of the threaded rod and the control rod, the arc plate is controlled to abut against the excitation block at the moment, the locking rod moves upwards and is separated from the hook groove, so that the culture tank is placed on the semicircular plates.

Drawings

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

FIG. 2 is a schematic view of the structure of a culture chamber mechanism of the present invention;

FIG. 3 is a schematic structural diagram of the moving mechanism, the carrying mechanism and the control mechanism of the present invention;

FIG. 4 is a schematic structural view of a control mechanism of the present invention;

FIG. 5 is a schematic diagram of the placement mechanism and the culture dish mechanism of the present invention;

FIG. 6 is a schematic view of the placement mechanism of the present invention;

FIG. 7 is a schematic structural view of a culture dish mechanism of the present invention;

FIG. 8 is a structural cross-sectional view of the load bearing mechanism of the present invention;

FIG. 9 is a first schematic structural diagram of the clamping mechanism of the present invention;

fig. 10 is a second schematic structural diagram of the clamping mechanism of the present invention.

The reference numbers in the figures illustrate:

10. a culture chamber mechanism; 110. an incubator; 120. a placement groove; 130. a chute; 140. positioning holes; 20. a moving mechanism; 210. a slider; 220. a limiting plate; 230. positioning a rod; 240. a threaded rod; 250. a control lever; 251. clamping a plate; 30. a control mechanism; 310. a control block; 320. a turntable; 330. a first spring; 340. positioning blocks; 350. a second rotating handle; 360. a rotating rod; 370. a first rotating handle; 40. a placement mechanism; 410. a base; 420. controlling the arc plate; 430. a semicircular plate; 440. a semicircular groove; 50. a culture dish mechanism; 510. a culture tank; 520. a transparent cover body; 530. fixing the circular plate; 60. a carrying mechanism; 610. a carrier plate; 620. a rack; 630. a toothed ring; 70. a clamping mechanism; 710. mounting a plate; 720. mounting blocks; 730. a slide bar; 740. a semicircular ring; 750. a connecting rod; 760. a guide arc rod; 770. a locking plate; 771. a hook groove; 780. a connecting plate; 781. a square plate; 782. a second spring; 783. a locking lever; 790. the block is excited.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the mechanism or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 to 10, an animal and plant cell mass culture apparatus includes: culture chamber mechanism 10, further comprising: the culture dish device comprises a moving mechanism 20, a control mechanism 30, a plurality of placing mechanisms 40, a plurality of culture dish mechanisms 50, a bearing mechanism 60 and a clamping mechanism 70, wherein the moving mechanism 20, the control mechanism 30 and the plurality of placing mechanisms 40 are installed on the culture chamber mechanism 10, the culture dish mechanisms 50 are installed on the placing mechanisms 40, the bearing mechanism 60 is installed on the moving mechanism 20, and the clamping mechanism 70 is installed on the bearing mechanism 60; by providing the carrying mechanism 60 on the moving mechanism 20 and providing the clamping mechanism 70 at the bottom end of the carrying mechanism 60, the user controls the moving mechanism 20 and the clamping mechanism 70 through the control mechanism 30 to clamp the culture dish mechanism 50.

The culture chamber mechanism 10 comprises an incubator 110, wherein a placing groove 120 is formed in the incubator 110, sliding grooves 130 corresponding to each other are formed in the side walls of the placing groove 120, and a plurality of positioning holes 140 are uniformly formed in the bottom end of the sliding groove 130 on one side; the incubator 110 is provided with related components required for cell cultivation, such as a temperature control system and a humidity system.

The moving mechanism 20 comprises a sliding block 210 and two positioning rods 230, the sliding block 210 is slidably mounted in a sliding groove 130 without a positioning hole 140, the two positioning rods 230 are mounted on the sliding block 210, limiting plates 220 are respectively arranged at the top end and the bottom end of one side of the sliding block 210, which is far away from the incubator 110, one side of the sliding block 210, which is close to the positioning rods 230, is rotatably provided with a threaded rod 240, one side of the sliding block 210, which is close to the positioning rods 230, is rotatably provided with a control rod 250, and the ring surface of the control rod 250 is relatively provided with a clamping plate 251; the slider 210 is slidably mounted on the sliding groove 130, and the threaded rod 240 and the control rod 250 are rotatably mounted on the slider 210 to control the related components, and the positioning rod 230 is mounted to position the related components.

The control mechanism 30 comprises a control block 310 and two rotating rods 360, the control block 310 is slidably mounted in the other sliding groove 130, the two rotating rods 360 are mounted on one side of the control block 310 away from the sliding block 210, the two rotating rods 360 are respectively coaxially connected with the threaded rod 240 and the control rod 250, the suspending ends of the two rotating rods 360 are coaxially provided with the rotating disc 320, one sides of the two rotating discs 320 away from the rotating rods 360 are respectively provided with a first rotating handle 370 with different axes, the bottom end of the control block 310 close to one side of the rotating disc 320 is provided with a mounting groove, a first spring 330 is arranged in the mounting groove, the bottom end of the first spring 330 is provided with a positioning block 340 matched with the positioning hole 140, and the positioning block 340 is provided with a second rotating handle 350; by slidably mounting the control mechanism 30 in the sliding slot 130 and mounting the rotating rod 360, the rotating disc 320 and the first rotating handle 370, which are coaxial with the threaded rod 240 and the control rod 250, a user can control the threaded rod 240 and the control rod 250 to rotate by rotating the two rotating discs 320, and the positioning block 340 is matched with the positioning hole 140, so that the position can be accurately locked.

The placing mechanisms 40 are uniformly and tidily arranged in the placing groove 120, each placing mechanism 40 comprises a base 410, the base 410 is arranged at the bottom side of the placing groove 120, two opposite semicircular plates 430 are arranged at the top end of the base 410, the semicircular grooves 440 are formed in the sides, close to the two semicircular plates 430, of the top end of the base 410, control arc plates 420 are arranged at the two ends of the splicing position of the two semicircular plates 430, and the bottom end of the side, close to the two control arc plates 420, of the top end of the base 410 is an arc surface; by installing two matching semicircular plates 430 and semicircular grooves 440, the culture dish mechanism 50 is placed more stably, and the two control arc plates 420 have the function of activating the clamping mechanism 70.

The culture dish mechanisms 50 are respectively and movably mounted on the placing mechanism 40, each culture dish mechanism 50 comprises a fixed circular plate 530, each fixed circular plate 530 is movably mounted in the corresponding semicircular groove 440 in a matching manner, a culture tank 510 is mounted at the top end of each fixed circular plate 530, and a transparent cover 520 is mounted at the top end of each culture tank 510; by installing the fixing circular plate 530 fitted with the semicircular groove 440, the culture tank 510 is placed more stably without dislocation.

The bearing mechanism 60 comprises a bearing plate 610, the bearing plate 610 is slidably mounted on the two positioning rods 230, a threaded hole is formed in the bearing plate 610 and is in threaded connection with the threaded rod 240, a movable hole matched with the control rod 250 is formed in the bearing plate 610, a mounting hole is formed in the bearing plate 610, a toothed ring 630 is movably sleeved in the mounting hole of the control rod 250, a clamping hole matched with the two clamping plates 251 is formed in the toothed ring 630, a rack 620 is slidably mounted in the mounting hole, and the rack 620 is meshed with the toothed ring 630; the control rod 250 is movably sleeved with the toothed ring 630, and the toothed ring 630 is meshed with the rack 620, so that the toothed ring 630 can rotate by rotating the control rod 250, and the rack 620 is controlled to move up and down.

The clamping mechanism 70 comprises a mounting plate 710, the mounting plate 710 is rotatably mounted at the bottom end of a rack 620, mounting blocks 720 are arranged on two sides of the bottom end of the mounting plate 710, a sliding rod 730 is arranged between the two mounting blocks 720, semicircular rings 740 which can relatively form a complete control ring are slidably sleeved on the two sliding rods 730, connecting rods 750 are arranged at the bottom ends of the two semicircular rings 740, guide arc rods 760 which are adaptive to the control arc plates 420 are arranged at the bottom ends of the two connecting rods 750, connecting plates 780 are arranged on one sides of two ends, which are close to the two semicircular rings 740, suspension ends of the connecting plates 780 are provided with square plates 781, a plurality of second springs 782 are arranged at the bottom ends of the square plates 781, locking rods 783 are arranged at the bottom ends of the second springs 782, the bottom sides of the suspension ends of the locking rods 783 are hook-shaped, excitation blocks are arranged on the outer sides of two ends, which are close to the two semicircular rings 790, locking plates 770 are provided with locking plates 770, and hook grooves 771 which are adaptive to the locking rods 783 are arranged on the locking plates 770; by arranging the guiding arc rod 760, when the rack 620 moves downwards and the mounting plate 710 moves downwards, the guiding arc rod 760 is abutted against the control arc plate 420, so that the two semicircular rings 740 move oppositely to clamp the middle culture tank 510, at the moment, the locking rod 783 is clamped in the hook groove 771, the relative positions of the two semicircular rings 740 are fixed, the control rod 250 is controlled by the control mechanism 30 to rotate, so that the rack 620 moves upwards, the bearing plate 610 drives the culture tank 510 to move to the edge of the culture tank 110 through the rotation of the threaded rod 240, so that a user can conveniently observe, when the culture tank 510 needs to be placed, the mounting plate 710 needs to rotate by 90 degrees, the control rod 250 rotates through the threaded rod 240, so that the rack 620 moves downwards at a specified position, at the moment, the arc plate 420 is controlled to abut against the excitation block 790, so that the locking rod 783 moves upwards and is separated from the hook groove 771, so that the culture tank 510 is placed on the semicircular plate 430.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. An animal and plant cell large-scale culture device, comprising: culture chamber mechanism (10), characterized by, still include: moving mechanism (20), control mechanism (30), a plurality of placement mechanism (40), a plurality of culture dish mechanism (50), load bearing mechanism (60) and fixture (70), moving mechanism (20), control mechanism (30) and a plurality of placement mechanism (40) are installed on cultivateing room mechanism (10), culture dish mechanism (50) is installed on placement mechanism (40), install load bearing mechanism (60) on moving mechanism (20), fixture (70) is installed on load bearing mechanism (60).

2. The device for large-scale culture of animal and plant cells according to claim 1, wherein: the culture room mechanism (10) comprises an incubator (110), a placing groove (120) is formed in the incubator (110), sliding grooves (130) corresponding to each other are formed in the side wall of the placing groove (120), and a plurality of positioning holes (140) are uniformly formed in the bottom surface of the sliding groove (130) on one side.

3. The device for large-scale culture of animal and plant cells according to claim 2, wherein: the moving mechanism (20) comprises a sliding block (210) and two positioning rods (230), the sliding block (210) is slidably mounted in a sliding groove (130) without a positioning hole (140), the two positioning rods (230) are mounted on the sliding block (210), limiting plates (220) are arranged at the top end and the bottom end of one side, away from the incubator (110), of the sliding block (210), a threaded rod (240) is rotatably arranged on one side, close to the positioning rods (230), of the sliding block (210), a control rod (250) is rotatably arranged on one side, close to the positioning rods (230), of the sliding block (210), and a clamping plate (251) is oppositely arranged on the annular surface of the control rod (250).

4. An animal and plant cell mass culture apparatus according to claim 3, wherein: control mechanism (30) are including control block (310) and two bull sticks (360), control block (310) slidable mounting is in another spout (130), install the one side of keeping away from slider (210) in control block (310) for two bull sticks (360), two bull sticks (360) respectively with threaded rod (240), control lever (250) coaxial coupling, the suspension end of two bull sticks (360) all is coaxial to be provided with carousel (320), two carousel (320) keep away from bull stick (360) one side and all are provided with the first commentaries on classics handle (370) of disalignment, control block (310) have been close to the bottom of carousel (320) one side and have been seted up the mounting groove, be provided with first spring (330) in the mounting groove, the bottom of first spring (330) is provided with locating piece (340) that match locating hole (140), install second commentaries on the locating piece (340) and change handle (350).

5. An animal and plant cell mass culture apparatus according to claim 2, wherein: a plurality of placing mechanism (40) is even neat installs in standing groove (120), placing mechanism (40) includes base (410), and base (410) are installed in standing groove (120) bottom side, and base (410) top is provided with two relative semicircle boards (430), and semicircle trough (440) have all been seted up to one side that two semicircle boards (430) are close to, and base (410) top all is provided with control arc board (420) in two semicircle board (430) concatenation department both ends, and one side bottom that two control arc boards (420) are close to is the cambered surface.

6. The device for large-scale culture of animal and plant cells according to claim 1, wherein: a plurality of culture dish mechanism (50) movable mounting respectively place on the mechanism (40), culture dish mechanism (50) are including fixed plectane (530), and fixed plectane (530) movable matching installs in semicircular groove (440), and culture tank (510) are installed on fixed plectane (530) top, and transparent lid (520) are installed on culture tank (510) top.

7. The device for large-scale culture of animal and plant cells according to claim 3, wherein: bear mechanism (60) including loading board (610), loading board (610) slidable mounting is on two locating levers (230), set up threaded hole on loading board (610), and with threaded rod (240) threaded connection, set up the movable hole that matches control lever (250) on loading board (610), the mounting hole has been seted up on loading board (610), control lever (250) are equipped with ring gear (630) in the movable cover of mounting hole, set up the card hole of two cardboard (251) of adaptation on ring gear (630), slidable mounting has rack (620) in the mounting hole, rack (620) and ring gear (630) mesh.

8. The device for large-scale culture of animal and plant cells according to claim 7, wherein: the clamping mechanism (70) comprises a mounting plate (710), the mounting plate (710) is rotatably mounted at the bottom end of a rack (620), mounting blocks (720) are arranged on two sides of the bottom end of the mounting plate (710), a sliding rod (730) is arranged between the two mounting blocks (720), two semicircular rings (740) which can relatively form a complete control ring are slidably sleeved on the two sliding rods (730), connecting rods (750) are arranged at the bottom ends of the two semicircular rings (740), guide arc rods (760) which are adaptive to the control arc plates (420) are arranged at the bottom ends of the two connecting rods (750), a connecting plate (780) is arranged at one side of two adjacent ends of the two semicircular rings (740), a square plate (781) is arranged at the suspension end of the connecting plate (780), a plurality of second springs (782) are arranged at the bottom end of the square plate (781), a locking rod (783) is arranged at the bottom end of the plurality of the second springs (782), the bottom side of the suspension end of the locking rod (783) is in a hook plate shape, an excitation block (790) is arranged on the outer side of the locking rod (783), a locking plate (770) is arranged on the other side of the two ends, close to the two semicircular rings (740), of the two semicircular rings, and a hook groove (771) matched with the locking rod (783) is formed in the locking plate (770).