CN112538420B

CN112538420B - Microorganism culture dish storage facilities for experiments

Info

Publication number: CN112538420B
Application number: CN202011452360.7A
Authority: CN
Inventors: 廖思斯
Original assignee: Hunan Bozhen Lifei Medical Technology Co ltd
Current assignee: Hunan Bozhen Lifei Medical Technology Co ltd
Priority date: 2020-12-12
Filing date: 2020-12-12
Publication date: 2023-09-05
Anticipated expiration: 2040-12-12
Also published as: CN112538420A

Abstract

The invention relates to storage equipment, in particular to storage equipment for an experimental microbial culture dish. The invention provides the experimental microorganism culture dish storage equipment which can automatically cover the culture dish, automatically invert the culture dish, reduce the mixing of mixed bacteria into culture flora and facilitate people to place and take away the culture dish. A microbial culture dish storage device for experiments, comprising: the device comprises a placing table and a sterilizing box, wherein the sterilizing box is arranged at one part of the upper side of the placing table; the pushing mechanism is arranged on one side of the placing table; the clamping mechanism is arranged on the upper side of the pushing mechanism. According to the invention, the pushing mechanism is arranged, and the air cylinder output shaft in the pushing mechanism drives the sliding block to move forwards, so that the holding plate is driven to move forwards to the outer side of the sterilizing box, and the effect of pushing the clamping mechanism to the outer side of the sterilizing box, so that people can conveniently place the culture dish is achieved; the invention achieves the effect of stabilizing the culture dish by arranging the clamping mechanism.

Description

Microorganism culture dish storage facilities for experiments

Technical Field

The invention relates to storage equipment, in particular to storage equipment for an experimental microbial culture dish.

Background

The inoculated culture dish needs to be placed in a place with a certain temperature for culturing, other mixed bacteria exist in a common environment, if the mixed bacteria are mixed into the culture dish, the mixed bacteria are unfavorable for culturing flora in the culture dish, so that people put the culture dish into a box body without the mixed bacteria, generally people put the culture dish into a common culture box, and people are required to open the box and put the culture dish into the box body, and the culture dish is troublesome.

Patent application number CN201520807791.9 discloses a culture dish storage box, and it contains the culture dish storage box, and the middle part of this culture dish storage box is provided with the baffle, the baffle on seted up several and culture dish insert complex locating hole, one side of culture dish storage box be provided with rather than covering and detaining complex top cap, offered the groove that several and locating hole correspond on this top cap, the groove on be provided with rather than covering and detaining complex sub-lid, this sub-covering has offered the catching groove that can cover and detain in culture dish upper portion border department. The invention has simple structure and convenient use, can effectively prevent the culture dish from sliding out, and can solve the problems that the culture dish is easy to be polluted by damp, broken, not easy to be carried and not stored for a long time; the taking and placing are convenient, and any one culture dish can be taken out under the condition of not interfering other culture dishes. However, the storage box still needs people to put the complete culture dish into the storage box, and more miscellaneous bacteria possibly mixed in the culture dish under the external environment, and people also need to manually invert the culture dish.

Therefore, the culture dish storage box is improved, the microorganism culture dish storage equipment for experiments is designed, the culture dish can be automatically capped, the culture dish can be automatically inverted, mixed bacteria in culture flora is reduced, and people can conveniently place and take the culture dish.

Disclosure of Invention

In order to overcome the defect that a common culture dish placing box body needs a person to place the culture dish, more other miscellaneous bacteria possibly mixed in the culture dish placing box body, the technical problem is as follows: the utility model provides a can be voluntarily seal up the culture dish, invert the culture dish voluntarily, reduce mixed fungus and mix into the culture flora, and be convenient for people place and take off the experimental microorganism culture dish storage equipment of culture dish.

The technical scheme of the invention is as follows: a microbial culture dish storage device for experiments, comprising:

the device comprises a placing table and a sterilizing box, wherein the sterilizing box is arranged at one part of the upper side of the placing table;

the pushing mechanism is arranged on one side of the placing table;

the clamping mechanism is arranged on the upper side of the pushing mechanism.

Optionally, the pushing mechanism includes:

a fixing frame is arranged on one side of the placing table;

the cylinder is arranged on the fixing frame;

the lower part of one side of the placing table is provided with a sliding block in a sliding manner;

the upper part of one side of the sliding block is connected with the lower side of the output shaft of the air cylinder, and the sliding block is provided with a containing plate.

Optionally, the clamping mechanism includes:

the first fixing rods are symmetrically arranged on two sides of the containing plate in a rotary mode;

the clamping blocks are arranged on the inner side of the first fixing rod and the two ends of the second fixing rod in a sliding mode;

the first springs are sleeved on the first fixing rod and the second fixing rod, and two ends of each first spring are respectively connected with the outer sides of the clamping blocks and holes in the containing plates;

the second fixing rod is symmetrically and rotatably arranged on the containing plate.

Optionally, the utility model also comprises a turnover mechanism, and the turnover mechanism comprises:

the upper parts of the two sides of the placing table are respectively provided with two first fixing blocks;

the first racks are arranged between the tops of the first fixing blocks on the same side;

and the first straight gear is arranged on the outer side of the first fixed rod, and the first rack is meshed with the first straight gear.

Optionally, the device also comprises a descending mechanism, wherein the descending mechanism comprises:

the bottom of the screw rod is provided with a first bearing seat;

the lower side of the screw rod is provided with a second bearing seat;

the second straight gear is arranged at the lower side of the screw rod and is positioned between the second bearing seat and the first bearing seat;

a movable frame is arranged between the upper sides of the two screw rods in a threaded manner;

three compression bars are arranged on one side of the movable frame;

and the second racks are symmetrically arranged on the upper sides of the containing plates and meshed with the second spur gears.

Optionally, the device also comprises a capping mechanism, wherein the capping mechanism comprises:

the lower part of one side of the compression bar is provided with a second fixed block;

the telescopic components are arranged on the lower sides of the compression bars;

vacuum chuck, flexible subassembly downside all is equipped with vacuum chuck.

Optionally, the device also comprises an antibacterial mechanism, and the antibacterial mechanism comprises:

a rotating shaft is rotatably arranged at one part of the upper side of the sterilizing box;

the curtain winding wheel is arranged on the rotating shaft;

the curtain winding wheel is provided with a weight block which is connected with the bacteria eliminating box in a sliding way;

the limiting pins are arranged on two sides of the weighting block;

the third fixing rod penetrates through the weighting block;

the third fixed rod is wound with a pull rope, the weighting block is connected with the pull rope, and the pull rope is connected with the sliding block.

Compared with the prior art, the invention has the following advantages: 1. according to the invention, the pushing mechanism is arranged, and the air cylinder output shaft in the pushing mechanism drives the sliding block to move forwards, so that the holding plate is driven to move forwards to the outer side of the sterilizing box, and the effect of pushing the clamping mechanism to the outer side of the sterilizing box, so that people can conveniently place the culture dish is achieved;

2. according to the invention, the clamping mechanism is arranged, and the clamping blocks in the clamping mechanism are used for positioning and clamping the culture dish, so that the effect of stabilizing the culture dish is achieved;

3. according to the invention, the turnover mechanism is arranged, the first straight gear in the turnover mechanism rotates, so that the first fixed rod is driven to rotate, and the clamping block is driven to rotate, so that the culture dish rotates to be in a state that the bottom of the culture dish is upward, and the effects of slowing down evaporation of water in the culture medium in the culture dish and facilitating taking are achieved;

4. the invention has the advantages that the descending mechanism and the sealing mechanism are arranged, so that when the culture dish enters the bacteria eliminating box, the vacuum sucker covers the cover on the bottom of the culture dish, and the effect of reducing the bacteria in the culture dish is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional perspective view of the present invention.

FIG. 3 is a schematic cross-sectional perspective view of the antibacterial removing mechanism of the present invention.

Fig. 4 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 5 is a schematic perspective view of the clamping mechanism and the turnover mechanism of the present invention.

Fig. 6 is a schematic cross-sectional perspective view of the lowering mechanism and the capping mechanism of the present invention.

Fig. 7 is a schematic perspective view of a first part of the antibacterial mechanism of the present invention.

FIG. 8 is a schematic perspective view of a second part of the antimicrobial mechanism of the present invention.

The reference symbols in the drawings: 1: placing table, 2: sterilizing box, 3: pushing mechanism, 31: fixing frame, 32: cylinder, 33: slider, 34: holding plate, 4: clamping mechanism, 41: first dead lever, 42: clamp splice, 43: first spring, 44: second dead lever, 5: turnover mechanism, 51: first fixed block, 52: first rack, 53: first straight gear, 6: lowering mechanism, 61: first bearing housing, 62: second bearing block, 63: screw, 64: second spur gear, 65: moving rack, 66: compression bar, 67: second rack, 7: capping mechanism, 71: second fixed block, 72: telescoping assembly, 73: vacuum chuck, 8: antibacterial mechanism, 81: rotating shaft, 82: curtain winding wheel, 83: weighting block, 84: stop pin, 85: third fixed lever, 86: and (5) pulling the rope.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

The utility model provides a microorganism culture dish storage facilities for experiments, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, including placing platform 1, degerming case 2, pushing mechanism 3 and clamping mechanism 4, place platform 1 upside rear portion and be equipped with degerming case 2, place platform 1 rear side and be equipped with pushing mechanism 3, pushing mechanism 3 upside is equipped with clamping mechanism 4.

When the culture dish is to be placed in the sterilizing box 2, the pushing mechanism 3 is started, the pushing mechanism 3 pushes the clamping mechanism 4 to the outside of the sterilizing box 2, people put the culture dish in the clamping mechanism 4, the pushing mechanism 3 pulls the clamping mechanism 4 back into the sterilizing box 2, and then the pushing mechanism 3 is closed.

The pushing mechanism 3 comprises a fixing frame 31, an air cylinder 32, a sliding block 33 and a containing plate 34, wherein the fixing frame 31 is arranged at the rear part of the left side of the placing table 1, the air cylinder 32 is arranged on the fixing frame 31, the sliding block 33 is arranged at the lower part of the rear side of the placing table 1, the upper part of the left side of the sliding block 33 is connected with the lower side of an output shaft of the air cylinder 32, and the containing plate 34 is arranged on the sliding block 33.

When the clamping mechanism 4 needs to be pushed out of the sterilizing box 2, the air cylinder 32 is started, the output shaft of the air cylinder 32 drives the sliding block 33 to move forwards, so that the containing plate 34 is driven to move forwards to the outside of the sterilizing box 2, people put the culture dish into the clamping mechanism 4, the output shaft of the air cylinder 32 drives the sliding block 33 to move backwards, so that the containing plate 34 is driven to move backwards for resetting, and the clamping mechanism 4 is driven to reset.

The clamping mechanism 4 comprises a first fixing rod 41, a clamping block 42, a first spring 43 and a second fixing rod 44, wherein the first fixing rod 41 is symmetrically arranged on the left side and the right side of the containing plate 34 in a rotating mode, the second fixing rod 44 is symmetrically arranged on the containing plate 34 in a rotating mode in a left-right mode, the clamping block 42 is slidably arranged on the inner side of the first fixing rod 41 and two ends of the second fixing rod 44, the first spring 43 is sleeved on the first fixing rod 41 and the second fixing rod 44, and two ends of the first spring 43 are respectively connected with the outer side of the clamping block 42 and holes in the containing plate 34.

When the containing plate 34 is positioned outside the sterilizing chamber 2, people put the culture dish into the clamping blocks 42, the clamping blocks 42 move to two sides, the first springs 43 are extruded, the clamping blocks 42 clamp the culture dish, and when people take out the culture dish, the first springs 43 are reset, and the clamping blocks 42 are reset.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 5, 6, 7 and 8, the utility model also comprises a turnover mechanism 5, a first fixed block 51, a first rack 52 and a first straight gear 53 of the turnover mechanism 5, two first fixed blocks 51 are respectively arranged at the upper parts of the left side and the right side of the placement table 1, a first rack 52 is respectively arranged between the tops of the first fixed blocks 51 at the same side, a first straight gear 53 is arranged at the outer side of the first fixed rod 41, and the first rack 52 is meshed with the first straight gear 53.

When the holding plate 34 moves backwards, the first straight gear 53 is driven to move backwards, when the first straight gear 53 moves to be meshed with the first rack 52, the first straight gear 53 is driven to rotate, so that the first fixing rod 41 is driven to rotate, the clamping block 42 is driven to rotate, the culture dish is enabled to rotate to be in a state that the bottom of the culture dish is in an upper state, when the holding plate 34 moves forwards, the first straight gear 53 is driven to move forwards, when the first straight gear 53 moves to be meshed with the first rack 52, the first straight gear 53 is driven to rotate, the first fixing rod 41 is driven to rotate, the clamping block 42 is driven to rotate, and the culture dish is enabled to rotate to be in a state that the culture dish is covered on the upper state.

The sterilizing box is characterized by further comprising a descending mechanism 6, wherein the descending mechanism 6 comprises a first bearing seat 61, a second bearing seat 62, a screw rod 63, a second spur gear 64, a movable frame 65, a pressing rod 66 and a second rack 67, the screw rod 63 is rotationally arranged on the front side of the top of the sterilizing box 2 in a bilateral symmetry manner, the second bearing seat 62 is arranged on the lower side of the screw rod 63, the first bearing seat 61 is arranged at the bottom of the screw rod 63, the second spur gear 64 is arranged on the lower side of the screw rod 63, the second spur gear 64 is arranged between the second bearing seat 62 and the first bearing seat 61, the movable frame 65 is arranged between the upper sides of the two screw rods 63 in a threaded manner, three pressing rods 66 are arranged on the front side of the movable frame 65, the second rack 67 is symmetrically arranged on the rear part of the upper side of the accommodating plate 34 in a bilateral symmetry manner, and the second rack 67 is meshed with the second spur gear 64.

When the holding plate 34 moves forward, the second rack 67 is driven to move forward, when the second rack 67 moves to be meshed with the second spur gear 64, the second spur gear 64 is driven to rotate, the screw rod 63 is driven to rotate, the moving frame 65 is driven to move upward, the pressing rod 66 is driven to move upward, when the second rack 67 moves to be meshed with and separated from the second spur gear 64, the second spur gear 64 stops rotating, the screw rod 63 stops rotating, the moving frame 65 stops moving upward, the pressing rod 66 stops moving upward, when the holding plate 34 moves backward, the second rack 67 is driven to move backward, when the second rack 67 moves to be meshed with the second spur gear 64, the second spur gear 64 is driven to rotate, the screw rod 63 is driven to rotate, the moving frame 65 is driven to move downward to reset, and the pressing rod 66 moves downward to reset.

The sealing mechanism 7 comprises a second fixing block 71, a telescopic component 72 and a vacuum chuck 73, wherein the second fixing block 71 is arranged at the lower part of the front side of the pressing rod 66, the telescopic component 72 is arranged at the lower side of the pressing rod 66, and the vacuum chuck 73 is arranged at the lower side of the telescopic component 72.

When the containing plate 34 is positioned at the outer side of the sterilization box 2, people place the cover of the culture dish at the lower side of the vacuum chuck 73, when the containing plate 34 returns to the sterilization box 2, the pressing rod 66 moves downwards to drive the second fixing block 71 to move downwards, so that the cover on the vacuum chuck 73 covers the dish opening of the culture dish, the telescopic assembly 72 is extruded, when the pressing rod 66 moves upwards to drive the second fixing block 71 to move upwards, the telescopic assembly 72 is reset, and the vacuum chuck 73 is reset.

The sterilizing box comprises a sterilizing box body, and is characterized by further comprising a sterilizing mechanism 8, wherein the sterilizing mechanism 8 comprises a rotating shaft 81, a curtain winding wheel 82, a weighting block 83, limiting pins 84, a third fixing rod 85 and a pull rope 86, the rotating shaft 81 is arranged at the front part of the upper side of the sterilizing box body 2, the curtain winding wheel 82 is arranged on the rotating shaft 81, a weighting block 83 is arranged on the curtain winding wheel 82, the weighting block 83 is connected with the sterilizing box body 2 in a sliding mode, the limiting pins 84 are arranged on two sides of the weighting block 83, the third fixing rods 85 penetrate through the weighting block 83, the pull rope 86 is wound on the third fixing rod 85, the weighting block 83 is connected with the pull rope 86, and the pull rope 86 is connected with the sliding block 33.

When the sliding block 33 moves forwards, the pull rope 86 is driven to move, the weighting block 83 is driven to move upwards, meanwhile the limiting pin 84 moves upwards, the torsion spring on the rotating shaft 81 is reset by the deformation state to drive the rotating shaft 81 to rotate, the curtain winding wheel 82 rotates to be folded, then the rotating shaft 81 stops rotating, when the sliding block 33 moves backwards, the pull rope 86 is driven to move, the weighting block 83 is driven to move downwards, meanwhile the limiting pin 84 moves downwards, the curtain winding wheel 82 is driven to move downwards by the force of the weighting block 83, the rotating shaft 81 rotates, and when the curtain winding wheel 82 covers the bacteria elimination box 2, the rotating shaft 81 stops rotating.

While the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the following claims. Accordingly, the detailed description of the disclosed embodiments is to be taken only by way of illustration and not by way of limitation, and the scope of protection is defined by the content of the claims.

Claims

1. An experimental microbial culture dish storage device, which is characterized by comprising:

a placing table (1) and a sterilizing box (2), wherein the sterilizing box (2) is arranged at one part of the upper side of the placing table (1);

a pushing mechanism (3), wherein one side of the placing table (1) is provided with the pushing mechanism (3);

the clamping mechanism (4) is arranged on the upper side of the pushing mechanism (3);

the pushing mechanism (3) comprises:

a fixing frame (31), wherein one side of the placing table (1) is provided with the fixing frame (31);

the cylinder (32) is arranged on the fixing frame (31);

a sliding block (33), wherein the sliding block (33) is arranged at the lower part of one side of the placing table (1);

the upper part of one side of the sliding block (33) is connected with the lower side of the output shaft of the air cylinder (32), and the sliding block (33) is provided with the holding plate (34);

the clamping mechanism (4) comprises:

the first fixing rods (41) are symmetrically arranged on two sides of the containing plate (34) in a rotating mode, and the first fixing rods (41) are arranged on the two sides of the containing plate in a rotating mode;

the clamping blocks (42) are arranged on the inner side of the first fixing rod (41) and the two ends of the second fixing rod (44) in a sliding mode;

the first springs (43) are sleeved on the first fixing rods (41) and the second fixing rods (44), and two ends of each first spring (43) are respectively connected with the outer sides of the clamping blocks (42) and holes in the containing plates (34);

the second fixing rod (44) is symmetrically and rotatably arranged on the containing plate (34), and the second fixing rod (44) is symmetrically and rotatably arranged on the containing plate;

the utility model also comprises a turnover mechanism (5), and the turnover mechanism (5) comprises:

the upper parts of the two sides of the placing table (1) are respectively provided with two first fixing blocks (51);

the first racks (52) are arranged between the tops of the first fixed blocks (51) on the same side;

the first straight gear (53), the first straight gear (53) is arranged on the outer side of the first fixed rod (41), and the first rack (52) is meshed with the first straight gear (53);

the device also comprises a descending mechanism (6), wherein the descending mechanism (6) comprises:

the screw rod (63) is symmetrically and rotatably arranged at the lower side of the top of the sterilizing box (2);

the bottom of the screw rod (63) is provided with the first bearing seat (61);

a second bearing seat (62), wherein the lower side of the screw rod (63) is provided with a second bearing seat (62);

the second straight gear (64), there is second straight gear (64) in the underside of the lead screw (63), the second straight gear (64) locates between bearing block (62) of the second and first bearing blocks (61);

a movable frame (65), wherein the movable frame (65) is arranged between the upper sides of the two screw rods (63) in a threaded manner;

the compression bar (66), there are three compression bars (66) on one side of the movable frame (65);

the second racks (67) are symmetrically arranged on the upper sides of the containing plates (34), and the second racks (67) are meshed with the second spur gears (64);

the utility model also comprises a capping mechanism (7), wherein the capping mechanism (7) comprises:

the second fixing blocks (71), the lower part of one side of the compression bar (66) is provided with the second fixing blocks (71);

the telescopic components (72) are arranged on the lower sides of the compression rods (66);

and vacuum chucks (73), wherein the vacuum chucks (73) are arranged on the lower sides of the telescopic assemblies (72).

2. The apparatus of claim 1, further comprising an antibacterial means (8), wherein the antibacterial means (8) comprises:

a rotating shaft (81), wherein a rotating shaft (81) is rotatably arranged at one part of the upper side of the sterilizing box (2);

a curtain winding wheel (82), wherein the rotating shaft (81) is provided with the curtain winding wheel (82);

the weight block (83) is arranged on the curtain winding wheel (82), and the weight block (83) is connected with the bacteria eliminating box (2) in a sliding manner;

the limiting pins (84) are arranged on two sides of the weighting block (83);

the third fixing rod (85) is arranged on two sides of one part of the sterilizing box (2), and the third fixing rod (85) passes through the weighting block (83);

the stay cord (86), the third dead lever (85) is gone up and is wound with stay cord (86), and weighting block (83) are connected with stay cord (86), and stay cord (86) are connected with slider (33).

3. An experimental microbial culture dish storage apparatus according to claim 2, wherein the pull rope (86) is wound around the four sides of the sterilizing box (2).