阅读说明：本技术 一种基因工程的基因样本存储系统 (Gene sample storage system for genetic engineering ) 是由 陈佩宜 于 2021-07-20 设计创作，主要内容包括：本发明公开了一种基因工程的基因样本存储系统,其结构包括箱体、防护装置、箱盖、存放槽,本发明进行使用时,通过辅助卡件对滑轨的位置进行固定,使得放置筒可以稳定连接在腔体上,将装有基因样本的试剂管垂直放置在放置筒内部,通过限定座对试剂管进行夹持定位,试剂管在运输过程中,腔体受到抖动力会传导到滑板上,滑板受力会在滑轨的进行滑动对防护缓件进行压制,通过防护缓件对滑板受到的抖动力进行吸能缓震处理,有效保证试剂管在运输中不易发生晃动,有效对基因样本的活性,有效对基因样本进行存储。(The invention discloses a gene sample storage system for genetic engineering, which structurally comprises a box body, a protective device, a box cover and a storage groove.)

1. The utility model provides a genetic engineering's gene sample storage system, its structure includes box (1), protector (2), case lid (3), storage tank (4), its characterized in that:

the box body (1) is connected with the box cover (3) through a hinge, and the box body (1) is provided with a protective device (2) and a storage groove (4);

protector (2) is including slide rail (21), supplementary fastener (22), injecing seat (23), place a section of thick bamboo (24), cavity (25), slide (26), removal gyro wheel (27), protection and delay (28), slide rail (21) are inserted and are inlayed on cavity (25), slide rail (21) meet with supplementary fastener (22), slide rail (21) and slide (26) sliding connection, be equipped with on slide (26) and place a section of thick bamboo (24), it is identical with injecing seat (23) to place a section of thick bamboo (24), slide (26) both sides all are connected with removal gyro wheel (27), protection delay (28) is installed on cavity (25), cavity (25) are connected with storage tank (4) through box (1).

2. The genetically engineered gene sample storage system of claim 1, wherein: the limiting seat (23) comprises a connecting cushion (231), an oblique arc soft sheet (232), a protective pasting piece (233) and a supporting seat (234), the connecting cushion (231) and the oblique arc soft sheet (232) are attached to a placing barrel (24), the protective pasting piece (233) is connected with the connecting cushion (231) and the supporting seat (234), and the supporting seat (234) is fixedly connected to the placing barrel (24).

3. The genetically engineered gene sample storage system of claim 2, wherein: protection is pasted piece (233) including casing (P1), contact member (P2), through-hole (P3), play air cushion (P4), adapter sleeve (P5), be equipped with on casing (P1) and play air cushion (P4), be equipped with adapter sleeve (P5), through-hole (P3) on playing air cushion (P4), casing (P1) is laminated mutually with contact member (P2), casing (P1) both sides all are connected with linking cushion (231), casing (P1) is connected on supporting seat (234).

4. The genetically engineered gene sample storage system of claim 3, wherein: contact member (P2) is including connecting flitch (P21), adsorbing piece (P22), rubber pad (P23), fishplate bar (P24), be equipped with rubber pad (P23) on connecting flitch (P21), rubber pad (P23) and adsorbing piece (P22) are laminated mutually, it is identical with fishplate bar (P24) to connect flitch (P21), fishplate bar (P24) is laminated mutually with casing (P1).

5. The genetically engineered gene sample storage system of claim 2, wherein: the supporting seat (234) comprises a frame body (Q1), a butt rod (Q2), a telescopic sleeve piece (Q3), a pulling strip (Q4) and a fixing seat (Q5), wherein the frame body (Q1) is provided with the telescopic sleeve piece (Q3), the fixing seat (Q5) is installed on the frame body (Q1), the pulling strip (Q4) is connected with the fixing seat (Q5) and the butt rod (Q2), the butt rod (Q2) is fixedly connected to the frame body (Q1), the frame body (Q1) is connected with a shell (P1), and the frame body (Q1) is fixedly connected to the placing cylinder (24).

6. The genetically engineered gene sample storage system of claim 1, wherein: the protective buffer piece (28) comprises a buffer piece (281), an adhesive sheet (282), an elastic plate (283), a joint (284), a shock absorption elastic rod (285) and a mounting seat (286), wherein the buffer piece (281) is arranged on the joint (284), the joint (284) is connected with the elastic plate (283), the adhesive sheet (282) and the elastic plate (283) are in contact with the buffer piece (281), the joint (284) is fixed on the shock absorption elastic rod (285), the shock absorption elastic rod (285) is vertically inserted and embedded on the mounting seat (286), the adhesive sheet (282) is in contact with a sliding plate (26), and the mounting seat (286) is mounted on a cavity (25).

7. The genetically engineered gene sample storage system of claim 6, wherein: relieve pressure (281) including bounce ball (R1), steel plate (R2), energy-absorbing pad (R3), card ball (R4), activity chamber (R5), bounce ball (R1) are connected on energy-absorbing pad (R3), energy-absorbing pad (R3) laminating is on activity chamber (R5), activity chamber (R5) and card ball (R4) lock joint mutually, steel plate (R2) meet with card ball (R4), activity chamber (R5), activity chamber (R5) are established on joint (284), bounce ball (R1) contact with bonding pad (282), elastic plate (283).

8. The genetically engineered gene sample storage system of claim 7, wherein: the thick steel plate (R2) is provided with six thick steel plates, and the six thick steel plates (R2) are symmetrically connected to the clamping balls (R4) in an arc state.

Technical Field

The invention relates to the technical field of genetic engineering, in particular to a genetic sample storage system for genetic engineering.

Background

Along with the development that the biology can, people will use gene sample storage device often, and gene sample is storing whole information of processes such as race, blood type, inoculation, growth, the apoptosis of life, and sample storage device carries out storage protection to genetic gene, guarantees that survival of gene plays key effect in order to realize subsequent testing, protects gene sample through the restrictive element, when saving gene sample, the place that needs the improvement:

when saving gene sample, the staff draws in the reagent pipe to gene sample, place the reagent pipe in the storage box again, the reagent pipe is placed perpendicularly on the storage box, the reagent pipe is in the transportation, the reagent pipe can receive outside vibrational force and horizontal hunting, lead to gene sample can lose the activity because the shock, and because the length of reagent pipe is longer, make its bottom can contact and take place the friction with the bottom of storage box for a long time, lead to wearing and tearing to appear easily in the bottom of reagent pipe, can directly influence gene sample's storage.

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 genetic engineering's gene sample storage system, its structure includes box, protector, case lid, storage tank, the box passes through hinged joint with the case lid, be equipped with protector, storage tank on the box, protector passes through the box and is connected with the storage tank.

The protection device comprises two slide rails, two auxiliary clamping pieces, a limiting seat, a placing barrel, a cavity, a sliding plate, a movable roller and protection buffering pieces, wherein the two slide rails are vertically inserted and embedded in the cavity, one side of each slide rail is provided with the auxiliary clamping piece connected with the slide rail, one end, far away from the auxiliary clamping piece, of each slide rail is connected with the sliding plate in a sliding mode, the placing barrel connected with the sliding plate is arranged on the sliding plate, the limiting seat matched with the placing barrel is arranged in the placing barrel, the two sides of the bottom of the sliding plate are both connected with the movable roller, the movable roller is connected with the sliding plate in a sliding mode, the bottom of the sliding plate is provided with the three protection buffering pieces, the three protection buffering pieces are transversely installed on the cavity at equal intervals, and the cavity is connected with a storage groove through a box body.

As a further optimization of the invention, the limiting seat comprises two connecting cushions, two oblique arc flexible sheets, two protecting adhesive pieces and a supporting seat, wherein the connecting cushions and the oblique arc flexible sheets are attached to the placing cylinder, the two connecting cushions are symmetrically connected to two sides of the protecting adhesive pieces, the protecting adhesive pieces are connected to the supporting seat, and the supporting seat is fixedly connected inside the placing cylinder.

As a further optimization of the invention, the protective sticker comprises a shell, a contact element, a through hole, elastic cushions and a connecting sleeve, wherein three elastic cushions are arranged in the shell, the connecting sleeve connected with the elastic cushions is arranged in the elastic cushions, the through hole is arranged in the elastic cushions, the three elastic cushions are connected through the shell, the contact element attached with the shell is arranged at the top of the shell, the connecting cushions are connected with two sides of the shell, and the shell is connected to the supporting seat.

The contact element comprises a connecting pasting plate, adsorption sheets, rubber pads and a connecting plate, wherein a plurality of rubber pads are arranged on the connecting pasting plate, the adsorption sheets attached to the ends, far away from the connecting pasting plate, of the plurality of rubber pads are arranged on the ends, close to the connecting pasting plate, of the plurality of rubber pads, the connecting pasting plate is matched with the connecting plate, and the connecting plate is attached to the shell.

The supporting seat comprises a frame body, an abutting rod, a telescopic sleeve, a pulling strip and a fixed seat, wherein the telescopic sleeve is connected with the frame body, the fixed seat is installed in the middle of the bottom of the frame body, the pulling strip is connected to the fixed seat, one end, far away from the fixed seat, of the pulling strip is connected with the abutting rod, the abutting rod is fixedly connected to the frame body, the top of the frame body is connected with the shell, and the frame body is fixedly connected to the inside of the placing cylinder.

The protective buffering piece comprises a buffering piece, an adhesive sheet, an elastic plate, a joint, a damping elastic rod and a mounting seat, wherein the buffering piece is arranged inside the joint, the elastic plate connected with the joint is arranged on the joint, the adhesive sheet is connected to the middle position of the elastic plate, the adhesive sheet and the elastic plate are in contact with the buffering piece, the joint is fixed on the damping elastic rod, the damping elastic rod is vertically inserted and embedded on the mounting seat, the adhesive sheet is in contact with a sliding plate, and the mounting seat is mounted on a cavity.

As the further optimization of the invention, the pressure-relieving piece comprises five elastic balls, a thick steel plate, an energy-absorbing pad, a clamping ball and a movable cavity, wherein the five elastic balls are connected to the energy-absorbing pad in an equidistant arc manner, the energy-absorbing pad is attached to the movable cavity, the clamping ball which is buckled with the movable cavity is arranged at the bottom of the movable cavity, the clamping ball is connected with the thick steel plate, one end of the thick steel plate, far away from the clamping ball, is connected to the movable cavity, the movable cavity is arranged in the joint, and the elastic ball is contacted with the adhesive sheet and the elastic plate.

As the further optimization of the invention content, the thick steel plate is provided with six thick steel plates which are symmetrically connected on the clamping ball in an arc state.

Advantageous effects

The gene sample storage system of the gene engineering has the following beneficial effects:

1. according to the invention, through the combined arrangement of the slide rail, the auxiliary clamping piece, the limiting seat, the placing barrel, the cavity, the sliding plate, the movable idler wheel and the protective buffering piece, the reagent tube filled with the gene sample is vertically placed inside the placing barrel, the reagent tube is clamped and positioned through the limiting seat, the shaking force applied to the cavity of the reagent tube is transmitted to the sliding plate in the transportation process, the sliding plate is stressed to slide on the slide rail to suppress the protective buffering piece, the energy absorption buffering treatment is carried out on the shaking force applied to the sliding plate through the protective buffering piece, the reagent tube is effectively ensured not to shake in the transportation process, and the activity of the gene sample is effectively realized.

2. According to the invention, through the combined arrangement of the connection cushion, the oblique arc flexible sheet, the protection pasting piece and the supporting seat, the reagent tube vertically extends into the placing cylinder, and is guided by the oblique arc flexible sheet, so that the bottom of the reagent tube can be directly contacted with the protection pasting piece, a worker applies certain pressure to the reagent tube, the connection cushion and the protection pasting piece can be mutually matched to clamp the side wall of the bottom of the reagent tube, and the position of the reagent tube is effectively fixed.

3. According to the invention, through the combined arrangement of the pressure relief piece, the adhesive sheet, the elastic plate, the joint, the shock absorption elastic rod and the mounting seat, the slide plate can be pressed on the adhesive sheet and the elastic plate when being stressed and moved downwards, the pressure is guided to the pressure relief piece through the elastic plate, and the force applied to the pressure relief piece is dispersed to the shock absorption elastic rod through the joint, so that the pressure relief piece and the shock absorption elastic rod can be matched with each other to perform shock relief treatment on the force applied to the slide plate, and a reagent tube placed on the slide plate is effectively protected.

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 diagram of a gene sample storage system for genetic engineering according to the present invention;

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

FIG. 3 is a schematic diagram of the internal structure of the limiting seat of the present invention.

Fig. 4 is a schematic cross-sectional view of the protection patch of the present invention.

FIG. 5 is a schematic cross-sectional view of a contact according to the present invention.

FIG. 6 is a schematic view of the internal structure of the support base of the present invention.

Fig. 7 is a schematic view of the internal structure of the protective buffering member of the present invention.

FIG. 8 is a schematic cross-sectional view of a compression relief of the present invention.

In the figure: the box body 1, the protection device 2, the box cover 3, the storage groove 4, the sliding rail 21, the auxiliary clamping piece 22, the limiting seat 23, the placing cylinder 24, the cavity 25, the sliding plate 26, the moving roller 27, the protection buffering piece 28, the engaging soft cushion 231, the inclined arc soft piece 232, the protection pasting piece 233, the supporting seat 234, the shell P1, the contact piece P2, the through hole P3, the elastic cushion P4, the connecting sleeve P5, the connecting pasting plate P21, the adsorbing piece P22, the rubber pad P23, the connecting plate P24, the frame body Q1, the abutting rod Q2, the telescopic sleeve Q3, the pulling strip Q4, the fixed seat Q5, the buffering piece 281, the sticking piece 282, the elastic plate 283, the joint 284, the shock absorption elastic rod 285, the mounting seat 286, the elastic ball R1, the thick steel plate R2, the energy absorption pad R3, the ball R4 and the movable cavity R5.

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 genetic engineering's gene sample storage system, its structure includes box 1, protector 2, case lid 3, storage tank 4, box 1 passes through hinged joint with case lid 3, be equipped with protector 2, storage tank 4 on the box 1, protector 2 is connected with storage tank 4 through box 1.

Referring to fig. 2, the protection device 2 includes a slide rail 21, an auxiliary clip 22, a limiting seat 23, a placing cylinder 24, a cavity 25, a slide plate 26, a moving roller 27, and a protection buffer 28, the number of the slide rails 21 is two, the two slide rails 21 are vertically inserted and embedded in the cavity 25, one side of the slide rail 21 is provided with an auxiliary clamping piece 22 connected with the slide rail 21, one end of the slide rail 21, which is far away from the auxiliary clamping piece 22, is connected with a slide plate 26 in a sliding way, a placing barrel 24 connected with the slide plate 26 is arranged on the slide plate 26, the inner part of the placing cylinder 24 is provided with a limiting seat 23 matched with the placing cylinder, both sides of the bottom of the sliding plate 26 are connected with a movable roller 27, the movable roller 27 is slidably connected with the sliding plate 26, three protective buffering pieces 28 are arranged at the bottom of the sliding plate 26, the protective buffering pieces 28 are transversely installed on the cavity 25 at equal intervals, and the cavity 25 is connected with the storage groove 4 through the box body 1.

The auxiliary clamping pieces 22 are used for being matched with the sliding rail 21, the two auxiliary clamping pieces 22 are fixedly connected between the sliding rail 21 and the cavity 25, and the position of the sliding rail 21 is limited through the two auxiliary clamping pieces 22, so that the sliding rail 21 can be stably fixed on a use position and is matched with the sliding plate 26 to move.

Referring to fig. 3, the limiting seat 23 includes two engaging cushions 231, two inclined arc flexible sheets 232, two protecting adhesive pieces 233, and a supporting seat 234, the engaging cushions 231 and the inclined arc flexible sheets 232 are attached to the placing tube 24, the two engaging cushions 231 are symmetrically connected to two sides of the protecting adhesive pieces 233, the protecting adhesive pieces 233 are connected to the supporting seat 234, and the supporting seat 234 is fixedly connected to the inside of the placing tube 24.

The connection cushion 231 is used for being matched with the protection sticker 233, the reagent tube is vertically inserted onto the protection sticker 233, the connection cushion 231 is made of rubber materials and has certain adhesion, the connection cushion 231 can be attached to the side wall of the reagent tube in a contact mode under the effect of the protection sticker 233, and the reagent tube is effectively matched with the protection sticker 233 to limit the reagent tube.

Referring to fig. 4, the protection sticker 233 includes a housing P1, a contact P2, a through hole P3, an elastic cushion P4, and a connecting sleeve P5, three elastic cushions P4 are disposed inside the housing P1, a connecting sleeve P5 connected to the elastic cushion P4 is disposed inside the elastic cushion P4, a through hole P3 is disposed inside the elastic cushion P4, three elastic cushions P4 are connected to each other through the housing P1, a contact P2 attached to the top of the housing P1 is disposed on the top of the housing P1, two sides of the housing P1 are connected to a cushion 231, and the housing P1 is connected to the supporting base 234.

The through hole P3 is used for being matched with the spring air cushion P4, the reagent tube is vertically inserted into the contact element P2, the pressure of the contact element P2 is conducted to the three spring air cushions P4 in the shell P1, the air in the spring air cushion P4 is discharged through the through hole P3 in the compression process, and the spring air cushion P4 is downwards sunken after being discharged, so that the contact element P2 is tightly attached to the bottom of the reagent tube in a downwards sunken arc-shaped structure.

Referring to fig. 5, the contact P2 includes a connection pad P21, an absorption sheet P22, a rubber pad P23, and a connection plate P24, the connection pad P21 is provided with a plurality of rubber pads P23, one end of the plurality of rubber pads P23 away from the connection pad P21 is provided with an absorption sheet P22 attached thereto, the connection pad P21 is matched with the connection plate P24, and the connection plate P24 is attached to the housing P1.

The adsorption sheet P22 is used for matching with the rubber pad P23, the reagent tube is inserted on the connecting pasting plate P21, the bottom of the reagent tube can be directly contacted and extruded with the adsorption sheet P22, the adsorption sheet P22 can stably adsorb the reagent tube on the connecting pasting plate P21, the bottom of the reagent tube is protected through the flexibility of the rubber pad P23, and the bottom of the reagent tube is prevented from being directly contacted with the connecting pasting plate P21 to be abraded.

Referring to fig. 6, the supporting seat 234 includes a frame body Q1, an abutting rod Q2, a telescopic sleeve Q3, a pulling bar Q4, and a fixed seat Q5, the frame body Q1 is provided with a telescopic sleeve Q3 connected thereto inside, the fixed seat Q5 is installed at the middle position of the bottom of the frame body Q1, the fixed seat Q5 is connected with a pulling strip Q4, one end of the pulling strip Q4 far from the fixed seat Q5 is connected with the abutting rod Q2, the abutting rod Q2 is fixedly connected to the frame body Q1, the top of the frame body Q1 is connected with the casing P1, and the frame body Q1 is fixedly connected inside the placing cylinder 24.

The pulling strip Q4 is used for matching with the abutting rod Q2, the pulling strip Q4 is made of elastic materials, has good elasticity, is connected between the abutting rod Q2 and the fixed seat Q5, and effectively limits the movable position of the abutting rod Q2.

Example two

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a genetic engineering's gene sample storage system, its structure includes box 1, protector 2, case lid 3, storage tank 4, box 1 passes through hinged joint with case lid 3, be equipped with protector 2, storage tank 4 on the box 1, protector 2 is connected with storage tank 4 through box 1.

Referring to fig. 2, the protection device 2 includes a slide rail 21, an auxiliary clip 22, a limiting seat 23, a placing cylinder 24, a cavity 25, a slide plate 26, a moving roller 27, and a protection buffer 28, the number of the slide rails 21 is two, the two slide rails 21 are vertically inserted and embedded in the cavity 25, one side of the slide rail 21 is provided with an auxiliary clamping piece 22 connected with the slide rail 21, one end of the slide rail 21, which is far away from the auxiliary clamping piece 22, is connected with a slide plate 26 in a sliding way, a placing barrel 24 connected with the slide plate 26 is arranged on the slide plate 26, the inner part of the placing cylinder 24 is provided with a limiting seat 23 matched with the placing cylinder, both sides of the bottom of the sliding plate 26 are connected with a movable roller 27, the movable roller 27 is slidably connected with the sliding plate 26, three protective buffering pieces 28 are arranged at the bottom of the sliding plate 26, the protective buffering pieces 28 are transversely installed on the cavity 25 at equal intervals, and the cavity 25 is connected with the storage groove 4 through the box body 1.

The auxiliary clamping pieces 22 are used for being matched with the sliding rail 21, the two auxiliary clamping pieces 22 are fixedly connected between the sliding rail 21 and the cavity 25, and the position of the sliding rail 21 is limited through the two auxiliary clamping pieces 22, so that the sliding rail 21 can be stably fixed on a use position and is matched with the sliding plate 26 to move.

Referring to fig. 3, the limiting seat 23 includes two engaging cushions 231, two inclined arc flexible sheets 232, two protecting adhesive pieces 233, and a supporting seat 234, the engaging cushions 231 and the inclined arc flexible sheets 232 are attached to the placing tube 24, the two engaging cushions 231 are symmetrically connected to two sides of the protecting adhesive pieces 233, the protecting adhesive pieces 233 are connected to the supporting seat 234, and the supporting seat 234 is fixedly connected to the inside of the placing tube 24.

The connection cushion 231 is used for being matched with the protection sticker 233, the reagent tube is vertically inserted onto the protection sticker 233, the connection cushion 231 is made of rubber materials and has certain adhesion, the connection cushion 231 can be attached to the side wall of the reagent tube in a contact mode under the effect of the protection sticker 233, and the reagent tube is effectively matched with the protection sticker 233 to limit the reagent tube.

Referring to fig. 7, the protective buffer 28 includes a buffer 281, an adhesive sheet 282, an elastic plate 283, a joint 284, a shock absorbing elastic rod 285, and a mounting seat 286, the buffer 281 is disposed inside the joint 284, the joint 284 is provided with the elastic plate 283 connected thereto, the adhesive sheet 282 is connected to the middle of the elastic plate 283, the adhesive sheet 282 and the elastic plate 283 contact the buffer 281, the joint 284 is fixed on the shock absorbing elastic rod 285, the shock absorbing elastic rod 285 is vertically inserted into the mounting seat 286, the adhesive sheet 282 contacts the sliding plate 26, and the mounting seat 286 is mounted on the cavity 25.

The adhesive sheet 282 is used for matching with the elastic plate 283, the adhesive sheet 282 is flatly attached to the sliding plate 26 after being pressed downwards by the sliding plate 26, so that the force applied to the sliding plate 26 can be effectively transmitted to the elastic plate 283, the force is transmitted to the joint 284 and the shock absorption elastic rod 285 through the elastic plate 283, and the shaking force generated during transportation is dispersed through the mutual matching of the joint 284 and the shock absorption elastic rod 285.

Referring to fig. 8, the pressure relief piece 281 includes a bouncing ball R1, a thick steel plate R2, an energy absorption pad R3, a ball detent R4, and a movable cavity R5, the bouncing ball R1 has five bouncing balls, the five bouncing balls R1 are connected to the energy absorption pad R3 in an equidistant arc shape, the energy absorption pad R3 is attached to the movable cavity R5, the bottom of the movable cavity R5 is provided with the ball detent R4 fastened with the movable cavity R5, the ball detent R4 is connected with the thick steel plate R2, one end of the thick steel plate R2 far away from the ball detent R4 is connected to the movable cavity R5, the movable cavity R5 is arranged inside the joint 284, and the bouncing balls R1 is in contact with the adhesive sheet 282 and the elastic plate 283.

Referring to fig. 8, six thick steel plates R2 are provided, and the six thick steel plates R2 are symmetrically connected to the clip ball R4 in an arc shape.

The thick steel plate R2 is used for being matched with the elastic ball R1, the elastic ball R1 has good elasticity and can retract downwards under stress, the energy absorption pad R3 can disperse and absorb the force applied to the elastic ball R1, the dispersed force can be guided to the thick steel plate R2, and the thick steel plate R2 is made of thick steel, is not easy to deform after being pressed and effectively plays a role in cushioning.

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

when the invention is used, the auxiliary clamping piece 22 is fixedly connected between the slide rail 21 and the cavity 25, the position of the slide rail 21 is limited by the auxiliary clamping piece 22, so that the slide rail 21 can be stably connected to two sides of the slide plate 26, the slide plate 26 is effectively matched to fix the position of the placing barrel 24, a worker extends a reagent tube filled with a gene sample into the placing barrel 24 to be vertically placed on the protective pasting piece 233, the position of the reagent tube is guided by the inclined arc soft piece 232, so that the reagent tube can be quickly plugged on the protective pasting piece 233, the worker presses the reagent tube placed on the placing barrel 24 downwards, the reagent tube transmits the pressure to the shell P1 through the contact piece P2, the shell P1 is stressed to press the top of the frame body Q1 downwards, the frame body Q1 is used for guiding the pressure to the abutting rod Q2 and the telescopic sleeve piece Q3, the abutting rod Q2 and the telescopic sleeve piece Q3 are pressed and contracted downwards at the same time, the abutting rod Q2 is vertically pressed on the fixed seat Q5, the fixed seat Q5 effectively limits the downward moving position of the abutting rod Q2, the fixed seat Q5 and the abutting rod Q2 are restrained by the pulling strip Q4, the abutting rod Q2 is prevented from being dislocated due to resilience under the condition of no stress, the abutting rod Q2 and the fixed seat Q5 can be matched with each other to limit the moving position of the shell P1, the shell P1 is prevented from being excessively deformed due to excessive pressure, the contact P2 can effectively assist the bottom of the reagent tube, the shell P1 is pressed to transmit the pressure to the elastic cushion P4 in the three connecting sleeves P5, the gas in the elastic cushion P4 is discharged through the through hole P3 in the pressing process, the gas in the elastic cushion P4 in the middle position in the shell P1 is discharged and then is downwards sunken, so that the three elastic cushions P4 are in a bent air cushion structure, and are tightly attached to the bottom of the three elastic cushion P599 under the curved air cushion P4, the gas between the reagent tube and the adsorption sheet P22 is discharged outwards after being pressed, so that the adsorption sheet P22 can be tightly attached to the reagent tube, the position of the reagent tube is effectively fixed, the bottom of the reagent tube is wrapped by the rubber pad P23, the bottom of the reagent tube cannot be directly contacted with the connection attachment plate P21 to cause abrasion, the bottom of the effective reagent tube is protected, the side wall of the reagent tube is protected by the two auxiliary contact elements P2 connected with the pressing piece 231, the reagent tube is effectively stabilized at the middle position of the placing cylinder 24 to prevent the shaking, the abrasion of the bottom of the reagent tube due to shaking is prevented, and the gene sample can be effectively stored by the reagent tube;

when the reagent tube is transported, the box body 1 can shake due to the bumping sense during transportation, the box body 1 can transmit the shaking sense to the cavity 25, the placing cylinder 24 is stressed accordingly, the shaking force is transmitted to the sliding plate 26 after being stressed, the sliding plate 26 is stressed to drive the moving roller 27 to move up and down on the sliding rail 21, the three sticky sheets 282 are equidistantly connected to the bottom of the sliding plate 26, the sticky sheets 282 are also subjected to shaking force in the process of stressed movement of the sliding plate 26, the sticky sheets 282 transmit the shaking force to the elastic plate 283, the elastic plate 283 is arc-shaped, the shaking force is uniformly dispersed and transmitted to the five elastic balls R1, the elastic balls R1 are stressed to generate elasticity, the shaking force is transmitted to the energy absorption pad R3, partial force applied to the elastic balls R1 through the energy absorption pad R3 is transmitted to the energy absorption thick steel plate R2 without energy absorption, and the plurality of thick steel plates R2 can bend downwards at the same time after being stressed, on card ball R4 is delivered to the power that receives, card ball R4 atress can push down on activity chamber R5, disperse the power that activity chamber R5 received through joint 284 on shock attenuation elastic rod 285, fix a position the position of shock attenuation elastic rod 285 through mount pad 286, guarantee that shock attenuation elastic rod 285 can stable support in slide 26 bottom, supplementary holding down press 281 disperses the power that receives through shock attenuation elastic rod 285, make shock attenuation elastic rod 285 can effectively cooperate holding down press 281 to carry out the energy-absorbing shock-absorbing processing to the shake power that the transportation produced, the shake power that prevents the transportation production influences the inside gene sample of reagent pipe, effectively protect the reagent pipe, can effectively guarantee the activity of the inside gene sample of reagent pipe.

In summary, the invention adopts a combination of a box body, a protective device, a box cover and a storage groove to form a new gene sample storage system for genetic engineering, when a gene sample is stored, the position of a slide rail is fixed through an auxiliary clamping piece, so that a placing cylinder can be stably connected to a cavity, a reagent tube filled with the gene sample is vertically placed in the placing cylinder, the reagent tube is clamped and positioned through a limiting seat, shaking force applied to the cavity is transmitted to a sliding plate when the reagent tube is transported, the sliding plate is stressed to slide on the slide rail to press a protective buffering piece, energy absorption and buffering treatment are performed on the shaking force applied to the sliding plate through the protective buffering piece, so that the reagent tube is effectively prevented from shaking in transportation, the activity of the gene sample is effectively realized, and the gene sample is effectively stored.

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.