CN113355241A

CN113355241A - Synthetic biological cell culture dish

Info

Publication number: CN113355241A
Application number: CN202110821182.9A
Authority: CN
Inventors: 吴沁霞
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-20
Filing date: 2021-07-20
Publication date: 2021-09-07

Abstract

The invention discloses a synthetic biological cell culture dish, which structurally comprises a culture seat, a sealing cover and a height adjusting device.

Description

Synthetic biological cell culture dish

Technical Field

The invention relates to the technical field of biosynthesis, in particular to a synthetic biological cell culture dish.

Background

Bacteria and other microorganisms and protozoa are mostly composed of a cell, the cell culture is also called as cell cloning technology, the cell culture refers to a method for simulating in vivo environment in vitro to enable the in vivo environment to survive, grow, reproduce and maintain the main structure and function, the cell culture is usually completed in a cell culture dish, the required temperature is provided in an incubator, the height of the culture dish is adjusted through a regulating element, and when the culture experiment is carried out on biological cells, the improvement is needed:

when the experiment is cultivateed to biological cell, place biological cell on the culture dish, the experimenter is carrying out the experimentation, generally all directly places the culture dish on the workstation, because the mesa of workstation is lower for the experimenter all need bow or lie prone on the workstation, just can carefully observe the experiment to the biological cell of culture dish inside, can lead to the experimenter to appear phenomenons such as lumbar disc protrusion, psoatic strain for a long time, influences the healthy of experimenter.

Disclosure of Invention

Aiming at the defects in the prior art, the invention is realized by the following technical scheme: the utility model provides a synthetic biological cell culture dish, its structure includes culture seat, sealed lid, height adjusting device, culture seat and sealed lid pass through threaded connection, the culture seat is connected on height adjusting device.

As further optimization of the invention, the height adjusting device comprises a movable cavity, a sucker, a mounting buffer seat, clamping plates, a height adjusting piece and an anti-skid pad, wherein the clamping plates are connected to two ends of the movable cavity, one ends of the two clamping plates, far away from the movable cavity, are respectively connected with the mounting buffer seat and the anti-skid pad, the mounting buffer seat is fixedly connected with the sucker, and two height adjusting pieces fastened with the mounting buffer seat are arranged in the movable cavity.

The installation buffering seat comprises two arc steel plates, two connecting plates, a bouncing buffering piece, a connecting rod, a shell and a balance pressing block, wherein the two arc steel plates are symmetrically connected to two sides of the bouncing buffering piece, the connecting rod is arranged between the bouncing buffering piece and the arc steel plates, two ends of the bouncing buffering piece, which are far away from the arc steel plates, are in butt joint with the balance pressing block, the two balance pressing blocks are arranged in the two ends of the shell, the shell is provided with the connecting plates which are attached to the shell, the connecting plates are fixedly connected with a sucking disc, and the shell is connected to a clamping plate.

The elastic buffering piece comprises a butt joint piece, a rubber cushion, two elastic pieces, two opening and closing pieces and a folding piece, wherein the butt joint piece is attached to the rubber cushion, one end, far away from the butt joint piece, of the rubber cushion is connected with the opening and closing pieces, the two ends of the two opening and closing pieces are connected with the folding piece, the elastic pieces connected with the two opening and closing pieces are arranged inside the opening and closing pieces, a connecting rod is arranged between the butt joint piece and the arc steel plate, and the top of the butt joint piece is connected with a balance pressing block in an osculating mode.

As a further optimization of the invention, the height adjusting piece comprises a buckle joint, a gear, a rack, a contraction piece, a linkage adjusting piece and a telescopic guide piece, wherein the buckle joint is fixedly connected with the telescopic guide piece, one end of the telescopic guide piece, which is far away from the buckle joint, is connected to the linkage adjusting piece, the gear and the rack are arranged in the telescopic guide piece, the gear is meshed with the rack, the contraction piece which is attached to the rack is arranged on the rack, one end of the contraction piece, which is far away from the rack, is connected to the telescopic guide piece, and the buckle joint is buckled on the movable cavity.

The linkage adjusting piece comprises two movable gathering pieces, an installation cavity, clamping rings, telescopic external pieces, clamping heads and a traction piece, wherein the two movable gathering pieces are connected to two ends of the installation cavity, the clamping rings are arranged in the middle of the interior of the installation cavity and are matched with the telescopic external pieces, the number of the telescopic external pieces is multiple, the plurality of telescopic external pieces are fixedly connected with the clamping heads, the plurality of clamping heads are connected through the traction piece, and the installation cavity is connected with the telescopic guide piece.

As the further optimization of the invention, the movable closing piece comprises two sliding guide rods, a butt joint sliding block, two matching plates and a closing piece, wherein the two sliding guide rods are respectively inserted and embedded on the two matching plates, the two sliding guide rods are movably connected with the butt joint sliding block, the matching plates are fixed inside the closing piece, and the closing piece is connected to the installation cavity.

As a further optimization of the invention, the clamping ring comprises a plurality of clamping seats and a plurality of supporting plates, the clamping seats and the supporting plates are fixedly connected, the supporting plates are arranged in the installation cavity, and the clamping seats are matched with the telescopic external member.

As the further optimization of the invention, the supporting plates are provided with a plurality of supporting plates which are in isosceles triangle structures and are connected to form a circular ring.

Advantageous effects

The synthetic biological cell culture dish has the following beneficial effects:

1. according to the invention, the three suckers stably adsorb the culture seat and the mounting and buffering seat is used for damping the culture seat, so that an experimenter can stably experiment biological cells, the experimenter manually pulls up the clamping plate, the height adjusting piece is pulled upwards to move upwards, the movable cavity can be lifted upwards under the action of the height adjusting piece, and the height of the culture seat is effectively adjusted.

2. According to the invention, the culture seat is arranged on the connecting plate through the sucker through the arc steel plate, the connecting plate and the elastic buffering piece, and the arc steel plate and the elastic buffering piece are mutually matched with the connecting plate to play a role in buffering the culture seat, so that the stability of the culture seat experiment is effectively ensured.

3. According to the invention, the two buckle joints are tightly buckled on the two clamping plates through the buckle joints, the linkage adjusting piece and the telescopic guide piece, and the linkage adjusting piece and the telescopic guide piece are mutually matched for opening and closing adjustment, so that the height of the movable cavity is effectively adjusted, and the culture seat can be moved upwards to the experiment height suitable for workers under the action of the movable cavity.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a synthetic biological cell culture dish according to the present invention;

fig. 2 is a schematic view of the internal structure of the height adjusting device of the present invention.

Fig. 3 is a schematic view of the internal structure of the installation buffering base of the present invention.

Fig. 4 is a schematic cross-sectional view of the spring buffering member of the present invention.

Fig. 5 is a schematic view of the internal structure of the height adjusting member of the present invention.

Fig. 6 is a schematic view of the internal structure of the linkage adjusting member of the present invention.

Fig. 7 is a schematic cross-sectional structure view of the movable closing piece of the invention.

FIG. 8 is a cross-sectional view of a snap ring according to the present invention.

In the figure: a culture seat-1, a sealing cover-2, a height adjusting device-3, a movable cavity-31, a sucker-32, a mounting slow seat-33, a clamping plate-34, a height adjusting piece-35, an anti-slip pad-36, an arc steel plate-331, a connecting plate-332, a spring slow piece-333, a connecting rod-334, a shell-335, a balance pressing block-336, a butt joint piece-S1, a rubber soft pad-S2, an elastic piece-S3, an opening and closing piece-S4, a folding piece-S5, a buckle joint-351, a gear-352, a rack-353, a contraction piece-354, a linkage adjusting piece-355, a telescopic guide piece-356, a movable closing piece-T1, a mounting cavity-T2, a clamping ring-T3, a telescopic sleeve piece-T4, a clamping head-T5, a traction piece-T6, a clamping plate-34, a height adjusting piece-35, a height adjusting piece-T3526, a clamping plate and a clamping plate, a clamping plate and a clamping plate, a sliding guide rod-T11, a butt joint slide block-T12, a matching plate-T13, a folding piece-T14, a clamping seat-T31 and a supporting plate-T32.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a synthetic biological cell culture dish, its structure includes culture seat 1, sealed lid 2, height adjusting device 3, culture seat 1 passes through threaded connection with sealed lid 2, culture seat 1 connects on height adjusting device 3.

Referring to fig. 2, the height adjusting device 3 includes a movable cavity 31, a suction cup 32, a mounting buffer seat 33, two clamping plates 34, a height adjusting member 35, and an anti-slip pad 36, wherein the two ends of the movable cavity 31 are connected to the clamping plates 34, one ends of the two clamping plates 34 far away from the movable cavity 31 are respectively connected to the mounting buffer seat 33 and the anti-slip pad 36, the mounting buffer seat 33 is fixedly connected to the suction cup 32, and two height adjusting members 35 fastened to the movable cavity 31 are disposed inside the movable cavity 31.

Foretell sucking disc 32 is used for the cooperation activity chamber 31, places culture seat 1 balance on sucking disc 32, and three sucking disc 32 equidistance are connected in culture seat 1 bottom, effectively guarantee culture seat 1's balanced stability.

Referring to fig. 3, the mounting buffer seat 33 includes two arc steel plates 331, two connecting plates 332, two elastic buffer pieces 333, a linking rod 334, a housing 335, and a balance pressing block 336, the two arc steel plates 331 are symmetrically connected to two sides of the elastic buffer pieces 333, the linking rod 334 is arranged between the elastic buffer pieces 333 and the arc steel plates 331, two ends of the elastic buffer pieces 333 away from the arc steel plates 331 are matched with the balance pressing block 336, the two balance pressing blocks 336 are provided, the two balance pressing blocks 336 are symmetrically mounted on two ends inside the housing 335, the housing 335 is provided with the connecting plates 332 attached thereto, the connecting plates 332 are fixedly connected with the suction cups 32, and the housing 335 is connected to the chuck plate 34.

The arc steel plate 331 is used for matching with the elastic buffering piece 333, the elastic buffering piece 333 contracts downwards when the culture seat 1 is subjected to buffering treatment, the arc steel plate 331 is made of a thickened elastic steel plate, the arc steel plate 331 is not easy to break after being pressed, the arc steel plate 331 is ejected outwards along with the movement of the elastic buffering piece 333, and the elastic buffering piece 333 is effectively matched for buffering treatment.

Referring to fig. 4, the springing and buffering member 333 includes an abutting member S1, a rubber cushion S2, an elastic member S3, two opening and closing members S4, and a folding member S5, the abutting member S1 is attached to the rubber cushion S2, one end of the rubber cushion S2, which is far away from the abutting member S1, is connected to an opening and closing member S4, two opening and closing members S4 are provided, the two ends of the two opening and closing members S4 are both connected to the folding member S5, the elastic member S3 connected to the opening and closing member S4 is provided inside the opening and closing member S4, an engaging rod 334 is provided between the abutting member S1 and the arc steel plate 331, and the top of the abutting member S1 is engaged with the balance pressing block 336.

The folding element S5 is used for matching with the opening element S4, the opening element S4 expands towards two sides after being pressed, the folding element S5 is tightly buckled with the opening element S4, and the folding element S5 is pressed by the pressing force of the opening element S4 to contract inwards.

Example two

Referring to fig. 5, the height adjusting member 35 includes a buckle 351, a gear 352, a rack 353, a contracting member 354, a linkage adjusting member 355, and a telescopic guide 356, the buckle 351 is fixedly connected to the telescopic guide 356, an end of the telescopic guide 356 away from the buckle 351 is connected to the linkage adjusting member 355, the gear 352 and the rack 353 are disposed inside the telescopic guide 356, the gear 352 is engaged with the rack 353, the rack 353 is provided with the contracting member 354 attached thereto, an end of the contracting member 354 away from the rack 353 is connected to the telescopic guide 356, and the buckle 351 is buckled to the movable chamber 31.

The contraction part 354 is used for matching with the rack 353, and when the gear 352 is meshed with the rack 353 to roll, the contraction part 354 is made of polyethylene materials and has the expansion function of a corrugated pipe, so that the contraction part 354 can be matched with the rack 353 to perform expansion and contraction in the moving process.

Referring to fig. 6, the linkage adjusting member 355 includes two movable closing members T1, a mounting cavity T2, a snap ring T3, a telescopic sleeve member T4, a clamp head T5, and a pulling member T6, the two movable closing members T1 are connected to two ends of the mounting cavity T2, the snap ring T3 is disposed at the middle position inside the mounting cavity T2, the snap ring T3 is engaged with the telescopic sleeve member T4, the telescopic sleeve member T4 is provided with a plurality of telescopic sleeve members T4, the clamp head T5 is fixedly connected to the plurality of telescopic sleeve members T5, the mounting cavity T2 is connected to the telescopic guide member 356 through the pulling member T6.

The traction piece T6 is used for matching with the chuck T5, the chucks T5 and the traction piece T6 mutually form a circular structure, and the traction piece T6 is connected to the chucks T5 in a penetrating manner, so that when one chuck T5 moves, other chucks T5 can simultaneously move downwards under the action of the traction piece T6.

Referring to fig. 7, the movable closing member T1 includes two sliding guide rods T11, two butt sliding blocks T12, two mating plates T13, and a closing member T14, the two sliding guide rods T11 are provided, the two sliding guide rods T11 are respectively inserted and embedded in the two mating plates T13, the two sliding guide rods T11 are movably connected to the butt sliding block T12, the mating plates T13 are fixed inside the closing member T14, and the closing member T14 is connected to the mounting cavity T2.

Referring to fig. 8, the snap ring T3 includes a plurality of snap seats T31 and a plurality of support plates T32, the snap seats T31 and the support plates T32 are both fixedly connected, the snap seat T31 and the support plates T32 are fixedly connected, the support plates T32 are arranged inside the installation cavity T2, and the snap seat T31 is engaged with the telescopic sleeve T4.

Referring to fig. 8, the supporting plate T32 has a plurality of supporting plates T32, which are in an isosceles triangle structure and connected to form a circular ring.

The supporting plate T32 is used for being matched with the clamping seat T31, the clamping seat T31 is fixedly connected with the telescopic sleeve T4, the supporting plate T32 is of an isosceles triangle structure, and the supporting plate T32 has better stability and can be effectively matched with the clamping seat T31 to support and position the clamping head T5.

The working principle of the above technical solution is explained as follows:

when the invention is used, an experimenter places the movable cavity 31 on an experimental workbench, the non-slip mat 36 can be flatly attached on the experimental workbench, the two can play a certain frictional resistance, the movable cavity 31 can be stably connected on the experimental workbench, so that the movable cavity 31 can not shift when the experimenter observes biological cells, the experimenter places the culture seat 1 on the suction cups 32 vertically, the three suction cups 32 are arranged on two sides and the middle position of the bottom of the culture seat 1 at equal intervals and transversely, the experimenter presses the culture seat 1 downwards, air between the culture seat 1 and the suction cups 32 is pressed outwards to form a vacuum state, so that the culture seat 1 can be stably adsorbed on the suction cups 32, the culture seat 1 is conducted to the connecting plate 332 through the suction cups 32 after being subjected to the downward pressure of the experimenter, the connecting plate 332 then conducts the pressure to the butt joint piece S1 through the balance pressing block 336, the butting piece S1 transmits pressure to the rubber cushion S2, the rubber cushion S2 pushes the tensioning piece S4 downwards, the top of the tensioning piece S4 expands and expands towards two sides under pressure, the elastic piece S3 is connected to the tensioning piece S4, the elastic piece S3 has the elastic action of a spring, the tensioning piece S4 can be effectively restrained, the tensioning piece S4 cannot reset after being expanded to a certain limit, the overlapping piece S5 and the tensioning piece S4 are tightly buckled together, the overlapping piece S5 can be pushed by the pushing force of the tensioning piece S4 to contract and overlap inwards after being expanded, after the butting piece S1 is compressed and contracted, the two arc steel plates 331 on two sides are also bent to eject outwards, the activity limit of the arc steel plates 331 is controlled by the connecting rods 334, the phenomenon that the arc steel plates 331 are compressed excessively and broken is prevented, the effective butting piece S1 can disperse the received pressure, and the downward transmitted pressure of the culture seat 1 can be absorbed, the stability of the culture seat 1 is ensured by the mutual matching of the sucking disc 32 and the mounting buffering seat 33, so that an experimenter can stably observe biological cells on the culture seat 1;

when an experimenter observes biological cells on the culture seat 1, a worker adjusts the clamping plates 34 according to self adjustment, the clamping plates 34 are pulled upwards manually, the two buckle joints 351 are fastened on the two clamping plates 34, when the clamping plates 34 are stressed to move upwards, the telescopic guide 356 is pulled by the clamping plates 34 to extend upwards under the action of the buckle joints 351, the rack 353 moves along with the movement of the telescopic guide 356, the rack 353 is meshed with the gear 352 to perform stable upward movement adjustment, the telescopic guide 356 is adjusted in a telescopic movement manner through the cooperation of the contraction piece 354 and the rack 353, after the telescopic guide 356 is pulled to a certain limit, the installation cavity T2 moves upwards under the cooperation of the telescopic guide 356, the two closing pieces T14 are clamped at two sides of the installation cavity T2, and after the installation cavity T2 moves upwards, the closing pieces T14 expand outwards under the action of the installation cavity T2, the matching plate T13 in the matching plate T13 can drive the sliding guide rod T11 to move outwards under the action of the butt-joint sliding block T12 along with the expansion of the folding piece T14, so that the installation cavity T2 and the folding piece T14 can be opened outwards simultaneously, the chucks T5 at the upper end and the lower end in the installation cavity T2 are fixedly connected with the installation cavity T2, so that the installation cavity T2 is opened in an outwards expansion mode, the chuck T5 can move upwards along with the installation cavity T2, the pulling piece T6 is connected to the plurality of chucks T5 in a penetrating mode, when one chuck T5 moves, the other chucks T5 can drive the telescopic sleeve T4 to move outwards and open simultaneously under the action of the pulling piece T6, the tail end of the telescopic sleeve T4 is vertically inserted into the clamping seat T31, so that the two chucks can be matched together tightly, the telescopic sleeve T4 is stably supported by the triangular stability of the supporting plate T31, and the clamping seat T31 is prevented from being displaced by the pushing force of the telescopic sleeve T4, make flexible external member T4 be difficult for appearing the dislocation phenomenon along with dop T5 activity from top to bottom, make flexible external member T4 can mutually cooperate with dop T5 and open and close the activity adjustment from top to bottom, installation cavity T2 upwards extends cardboard 34 jack-up with flexible guide 356 mutually, cardboard 34 drives and cultivates seat 1 rebound, effectively adjust the height of cultivateing seat 1, highly the adjustment to adaptation staff's that will cultivate seat 1 experiment height, make the experimenter need not to bow or lie prone and observe the experiment to the biological cell of cultivateing seat 1 inside on the workstation, effectively protect experimenter's healthy.

In summary, the culture seat, the sealing cover and the height adjusting device are combined to form a new synthetic biological cell culture dish, the three suckers stably adsorb the culture seat, the buffer seat is installed to perform damping treatment on the culture seat, so that an experimenter can stably perform experiments on biological cells, the experimenter manually pulls up the clamping plate, the height adjusting piece moves upwards under the action of tensile force, the movable cavity can move upwards under the action of the height adjusting piece, and the height of the culture seat can be adjusted to the experiment height suitable for the worker.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a synthetic biological cell culture dish, its structure includes culture seat (1), sealed lid (2), height adjusting device (3), its characterized in that:

the culture seat (1) is connected with the sealing cover (2) through threads, and the culture seat (1) is connected to the height adjusting device (3);

height-adjusting device (3) are including activity chamber (31), sucking disc (32), the installation is slowed seat (33), cardboard (34), height-adjusting spare (35), slipmat (36), activity chamber (31) are connected with cardboard (34), cardboard (34) are met with installation is slowed seat (33), slipmat (36), installation is slowed seat (33) and sucking disc (32) fixed connection, activity chamber (31) and height-adjusting spare (35) looks lock joint.

2. A synthetic biological cell culture dish according to claim 1, wherein: installation is slowed seat (33) and is equipped with between bullet is slowed piece (333) and arc steel sheet (331) linking pole (334), casing (335), balanced briquetting (336) including arc steel sheet (331), connecting plate (332), bullet is slowed piece (333) and arc steel sheet (331) and is linked together with balanced briquetting (336), balanced briquetting (336) are installed on casing (335), casing (335) and connecting plate (332) laminate mutually, connecting plate (332) and sucking disc (32) fixed connection, casing (335) are connected on cardboard (34).

3. A synthetic biological cell culture dish according to claim 2, wherein: the springing buffering piece (333) comprises a butting piece (S1), a rubber cushion (S2), an elastic piece (S3), an opening-closing piece (S4) and a folding piece (S5), the butting piece (S1) is attached to the rubber cushion (S2), the rubber cushion (S2) is connected with the opening-closing piece (S4), the opening-closing piece (S4) is connected with the folding piece (S5), the opening-closing piece (S4) is connected with the elastic piece (S3), a connecting rod (334) is arranged between the butting piece (S1) and an arc steel plate (331), and the butting piece (S1) is matched with a balance pressing block (336).

4. A synthetic biological cell culture dish according to claim 1, wherein: the height adjusting piece (35) comprises a buckle connector (351), a gear (352), a rack (353), a contraction piece (354), a linkage adjusting piece (355) and a telescopic guide piece (356), the buckle connector (351) is fixedly connected with the telescopic guide piece (356), the telescopic guide piece (356) is connected to the linkage adjusting piece (355), the gear (352) and the rack (353) are arranged inside the telescopic guide piece (356), the rack (353) is attached to the contraction piece (354), the contraction piece (354) is connected to the telescopic guide piece (356), and the buckle connector (351) is buckled on the movable cavity (31).

5. A synthetic biological cell culture dish according to claim 4, wherein: piece (355) are transferred in linkage is including activity piece (T1), installation cavity (T2), snap ring (T3), flexible external member (T4), dop (T5), the piece that pulls (T6) of holding together in the activity, the activity is held together piece (T1) and is connected on installation cavity (T2), be equipped with snap ring (T3) on installation cavity (T2), snap ring (T3) and flexible external member (T4) kiss, flexible external member (T4) and dop (T5) fixed connection, dop (T5) and pull piece (T6) meet, installation cavity (T2) and flexible guide (356) meet.

6. A synthetic biological cell culture dish according to claim 5, wherein: the movable closing piece (T1) comprises a sliding guide rod (T11), a butt joint sliding block (T12), matching plates (T13) and a closing piece (T14), wherein the sliding guide rod (T11) is inserted and embedded in the two matching plates (T13), the sliding guide rod (T11) is movably connected with the butt joint sliding block (T12), the matching plates (T13) are fixed on the closing piece (T14), and the closing piece (T14) is connected to the installation cavity (T2).

7. A synthetic biological cell culture dish according to claim 5, wherein: the clamping ring (T3) comprises a clamping seat (T31) and a supporting plate (T32), the clamping seat (T31) is fixedly connected with the supporting plate (T32), the supporting plate (T32) is arranged in the installation cavity (T2), and the clamping seat (T31) is matched with the telescopic sleeve piece (T4).

8. A synthetic biological cell culture dish according to claim 7, wherein: the supporting plates (T32) are provided with a plurality of blocks, and the plurality of supporting plates (T32) are all in an isosceles triangle structure and are connected to form a circular ring.