CN115432302A

CN115432302A - Test tube transport case with flexible clamping structure

Info

Publication number: CN115432302A
Application number: CN202211261288.9A
Authority: CN
Inventors: 吴山楠; 张亮亮; 陈文慧; 符传军
Original assignee: Haikou Customs Technical Center
Current assignee: Haikou Customs Technical Center
Priority date: 2022-10-14
Filing date: 2022-10-14
Publication date: 2022-12-06

Abstract

The invention discloses a test tube transport case with a flexible clamping structure, and relates to the technical field of medical instruments. The test tube clamp can ensure that high-speed airflow is input into the air bag through the air delivery pipe by the operation of the air blower, the air bag can expand after being filled with air, the air bag is positioned in the arranging hole, so that the test tube can be limited and clamped after the air bag expands, in addition, the air bag is of a flexible structure, if the equipment accidentally bumps in the transportation process, the test tube can extrude the air bag to move to offset the bumping force, the test tube can be effectively prevented from being rigidly contacted with the clamping piece during bumping, the test tube is damaged, and in addition, the air bag can be quickly deflated through deflation, so that the test tube can be quickly separated from the clamping piece, and the test tube taking speed is improved.

Description

Test tube transport case with flexible clamping structure

Technical Field

The invention relates to the technical field of medical instruments, in particular to a test tube transport case with a flexible clamping structure.

Background

Lymphocytes (lymphocytes) are one type of white blood cells, the least voluminous white blood cells. It is produced by lymphoid organs, mainly exists in lymphatic fluid circulating in lymphatic vessels, is an important cellular component of the immune response function of the organism, is a main executor of almost all immune functions of the lymphatic system, is a front-line 'soldier' for resisting external infection and monitoring in vivo cellular variation, the research of lymphocytes is the research of the immune system of a human body, and in the process of the research of lymphocytes, the lymphocytes are usually placed in test tubes and transported to a designated transportation place by a test tube transportation box.

In the common test tube transport box in the market, the test tube is usually in a static state in the transport process, but the activity of the lymphocytes is reduced when the test tube is in the static state for a long time, and the lymphocytes are easy to die in large quantities in the long-distance transport process.

In view of the above, a test tube transport box with a flexible clamping structure is provided by improving the existing structure and defects.

Disclosure of Invention

The present invention is directed to a test tube transport box with a flexible clamping structure, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a test tube transport case with flexible clamping structure, includes supporting seat, rotates case, centre gripping subassembly and ejection of compact subassembly, the top outside of supporting seat is provided with the box, and the top outside of box has seted up the pan feeding mouth, the outer end of pan feeding mouth is provided with sealed lid, the right part outside of box is provided with the motor, and the output of motor is connected with the axis of rotation, the outer end of axis of rotation is provided with the linkage plate, and the inboard of linkage plate is provided with the positioning shaft, rotate the case and settle in the inboard of positioning shaft, and the bottom inboard of rotating the case is provided with the balancing weight, the centre gripping subassembly settles in the rotation incasement side, and the inboard of centre gripping subassembly is connected with the test tube, the top outside of test tube is provided with the bulge, the bottom inboard of rotating the case is provided with keeps off the position subassembly, the left part outside of box is provided with the refrigeration case, and the right-hand member of refrigeration case is connected with the air outlet, ejection of compact subassembly settles in the bottom inboard of box.

Furthermore, the connection plates are distributed in an annular shape at the outer end of the rotating shaft, and six groups of connection plates are arranged.

Furthermore, the connection plate is rotatably connected with the rotating box through an adjusting shaft, and the rotating box is connected with the balancing weight in a welding mode.

Further, the centre gripping subassembly includes air-blower, gas-supply pipe, arrangement seat, arrangement hole and gasbag, the right-hand member of air-blower is connected with the gas-supply pipe, and the right-hand member of gas-supply pipe settles and have the arrangement seat, the arrangement hole has been seted up to the inboard of arrangement seat, and the arrangement hole is inside to be settled there is the gasbag.

Furthermore, the air blower is communicated with the air bag through an air conveying pipe, and the outer surface of the air bag is attached to the inner surface of the placing hole.

Further, keep off the position subassembly and include locating plate, electric push rod, baffle, first intercommunication groove, fixed plate and second intercommunication groove, the inboard of locating plate is connected with electric push rod, and the output of electric push rod is connected with the baffle, first intercommunication groove has been seted up to the inboard of baffle, the bottom outside of locating plate is connected with the fixed plate, and the second intercommunication groove has been seted up to the inboard of fixed plate.

Furthermore, the first connecting grooves are distributed on the surface of the baffle in an array shape, and the size and the number of the second connecting grooves are equal to those of the first connecting grooves.

Further, ejection of compact subassembly includes blown down tank, laminating pulley and spring holder, the laminating pulley has been seted up to the inside both sides of blown down tank, and the outer end of laminating pulley is connected with the spring holder.

Furthermore, the number and the positions of the discharge chutes are equal to those of the second communicating grooves, and the size of the discharge chutes is smaller than that of the second communicating grooves.

Further, the surface of laminating pulley is laminated with the surface of test tube mutually, and laminating pulley and spring holder elastic connection.

The invention provides a test tube transport case with a flexible clamping structure, which has the following beneficial effects: rotate the case and keep the in-process that the focus down along with the connection board is rotatory and self transposition, can produce a little centrifugal force and vibrations all the time, and centrifugal force and vibrations transmit to the inside back of test tube, enable the lymphocyte in the test tube and be in the state of rocking all the time, this can avoid the test tube to be in static state and cause the condition of inside lymphocyte coagulation to take place, the gasbag is located the inside in arrangement hole, this makes can carry out spacing centre gripping to the test tube after the gasbag inflation, in addition because of the gasbag is flexible structure, if equipment jolts in the transportation accident, the test tube can extrude the gasbag and carry out the displacement and offset the power of jolting, this can effectively avoid test tube and holder to take place rigid contact when jolting, the condition that leads to the test tube to damaging takes place.

1. The test tube clamp can ensure that high-speed airflow is input into the air bag through the air conveying pipe by the operation of the air blower, the air bag can expand after being filled with air, the air bag is positioned in the arranging hole, so that the test tube can be limited and clamped after the air bag expands, in addition, the air bag is of a flexible structure, if the equipment accidentally bumps in the transportation process, the test tube can extrude the air bag to move to offset the bumping force, the rigid contact between the test tube and the clamping piece during bumping can be effectively avoided, the test tube is damaged, in addition, when the test tube needs to be taken, the air bag can be quickly deflated through air leakage, so that the test tube can be quickly separated from the clamping piece, and the speed of taking the test tube is improved.

2. The invention can drive the connecting plate to rotate by the motor, so that the rotating box can drive the placing seat filled with test tubes to move away from the bottom end of the material inlet, and the placing seat without test tubes in the device can move to the bottom end of the material inlet.

3. In addition, the rotating box can always generate a little centrifugal force and vibration along with the rotation of the connecting plate and the downward self-positioning process, lymphocytes in the test tube can be always in a shaking state after the centrifugal force and the vibration are transmitted to the interior of the test tube, the condition that the lymphocytes in the test tube are condensed because the test tube is in a static state can be avoided, in addition, in the transportation process of the equipment, low-temperature air can enter the interior of the box body through the air outlet by working of the refrigerating box, the test tube in each mounting seat can be effectively ensured to be uniformly refrigerated by rotating the motor in the transportation process of the equipment, and the condition that the lymphocytes cannot be used because of no damage to the refrigerating effect can be avoided.

4. The electric push rod disclosed by the invention works to drive the baffle plate to displace, after the baffle plate displaces, the positions of the first communicating groove and the second communicating groove can be coincided, after the first communicating groove and the second communicating groove are coincided, the air bag leaks air, so that a test tube which loses clamping can slide out from the inside of the placing seat, and the test tube can move to the inside of the discharge groove through the positioning of the first communicating groove and the second communicating groove, after the test tube enters the inside of the discharge groove, the bottom end of the test tube can penetrate through the discharge groove to extend to the outer end of equipment, the bulge at the top end of the test tube can be limited by the laminating pulley and is clamped in the discharge groove, the bottom end of the test tube firstly extends out of the equipment, so that a worker can conveniently observe the preservation condition of lymphocytes in the test tube in the process of taking out the test tube, the classification of the test tube is convenient, in addition, after the worker confirms that the preservation condition of the lymphocytes is finished, the test tube, the bulge only needs to pull the test tube to extrude the laminating pulley to displace, the laminating pulley to realize the taking out of the test tube, the test tube can greatly improve the convenience for taking out of the test tube, in addition, the taking out mode, the worker can ensure that the other test tube groups can stably take out the test tube, and the other test tube groups can still can be prevented from being influenced by other test tube groups when the other test tube groups.

Drawings

FIG. 1 is a schematic front view of the whole structure of a test tube transport case with a flexible clamping structure according to the present invention;

FIG. 2 is a schematic structural diagram of a side view of a rotating shaft of a test tube transport case with a flexible clamping structure according to the present invention;

FIG. 3 is a schematic bottom view of a test tube transport case with a flexible clamping structure according to the present invention;

FIG. 4 is a schematic view of a clamping assembly of a test tube transport box with a flexible clamping structure according to the present invention;

FIG. 5 is an enlarged view of the test tube transport case with a flexible clamping structure shown in FIG. 1A;

FIG. 6 is an enlarged view of the test tube transport case with a flexible clamping structure shown in FIG. 1 at B;

fig. 7 is an enlarged structural schematic diagram of the test tube transport box with the flexible clamping structure in fig. 1 at C.

In the figure: 1. a supporting base; 2. a box body; 3. a feeding port; 4. a sealing cover; 5. a motor; 6. a rotating shaft; 7. a connector tile; 8. an adjusting shaft; 9. rotating the box; 10. a balancing weight; 11. a clamping assembly; 1101. a blower; 1102. a gas delivery pipe; 1103. placing a seat; 1104. placing the hole; 1105. an air bag; 12. a test tube; 13. a projection; 14. a gear component; 1401. positioning a plate; 1402. an electric push rod; 1403. a baffle plate; 1404. a first connecting groove; 1405. a fixing plate; 1406. a second communicating groove; 15. a refrigeration case; 16. an air outlet; 17. a discharging assembly; 1701. a discharge chute; 1702. fitting a pulley; 1703. a spring seat.

Detailed Description

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides a test tube transport case with flexible clamping structure, including supporting seat 1, rotate case 9, centre gripping subassembly 11 and ejection of compact subassembly 17, the top outside of supporting seat 1 is provided with box 2, and pan feeding mouth 3 has been seted up in the top outside of box 2, the outer end of pan feeding mouth 3 is provided with sealed lid 4, the right part outside of box 2 is provided with motor 5, and motor 5's output is connected with axis of rotation 6, the outer end of axis of rotation 6 is provided with linking plate 7, and the inboard of linking plate 7 is provided with transposition axle 8, it settles in the inboard of transposition axle 8 to rotate case 9, and the bottom inboard of rotating case 9 is provided with balancing weight 10, centre gripping subassembly 11 settles in rotation case 9 inboard, and the inboard of centre gripping subassembly 11 is connected with test tube 12, the top outside of test tube 12 is provided with bulge 13, the bottom inboard of rotating case 9 is provided with keeps off position subassembly 14, the left part outside of box 2 is provided with refrigeration case 15, and the right-hand member of refrigeration case 15 is connected with air outlet 16, ejection of compact subassembly 17 settles in the bottom inboard of box 2.

Referring to fig. 1 to 6, the connecting plates 7 are annularly distributed at the outer end of the rotating shaft 6, six groups of connecting plates 7 are arranged, the connecting plates 7 are rotatably connected with the rotating box 9 through the positioning shaft 8, the rotating box 9 is welded with the counterweight block 10, the clamping assembly 11 comprises a blower 1101, an air pipe 1102, a mounting seat 1103, a mounting hole 1104 and an air bag 1105, the air pipe 1102 is connected to the right end of the blower 1101, the mounting seat 1103 is arranged at the right end of the air pipe 1102, the mounting hole 1104 is arranged at the inner side of the mounting seat 1103, the air bag 1105 is arranged in the mounting hole 1104, the blower 1101 is communicated with the air bag 1105 through the air pipe 1102, the outer surface of the air bag 1105 is attached to the inner surface of the mounting hole 1104, the gear assembly 14 comprises a positioning plate 1401, an electric push rod 1402, a baffle 1403, a first connecting groove 1404, a fixing plate 1405 and a second connecting groove 1406, the inner side of the positioning plate 1401 is connected with the electric push rod 1402, the baffle 1403 is connected with the first connecting groove 1404, the outer side of the fixing plate 1401 is connected with the first connecting groove 1406, the first connecting groove 1405, the first connecting groove 1404 is connected with the baffle 1403, the baffle 1404, the connecting groove 1406, and the number of the first connecting groove 1404 is equal to the connecting groove 1404;

after the lymphocyte is loaded in the test tube 12, the feed port 3 can be exposed by opening the sealing cover 4 at the top end of the box body 2, so that the placing seat 1103 in the rotating box 9 can be exposed, after the test tube 12 is inserted into the placing hole 1104 in the placing seat 1103, the bottom end of the test tube 12 can be attached to the upper surface of the baffle 1403, so that the baffle 1403 can support the test tube 12 in an auxiliary manner, when the test tube 12 to be stored is completely placed, the high-speed airflow can be input into the air bag 1105 through the air pipe 1102 by the operation of the blower 1101, the inside of the air bag 1105 can be expanded after the air is injected, the air bag 1105 is positioned in the placing hole 1104, so that the test tube 12 can be clamped in a limiting manner after the air bag 1105 is expanded, and in addition, the air bag 1105 is of a flexible structure, if the equipment bumps accidentally during transportation, the test tube 12 can extrude the air bag 1105 to move to offset the bumping force, which can effectively avoid the rigid contact between the test tube 12 and the holder when bumping, resulting in the damage of the test tube 12, and when the test tube is required to be taken, the air bag 1105 can be deflated quickly, which makes the test tube 12 be separated from the holder quickly, thereby increasing the speed of taking the test tube 12, after the test tube 12 is completely arranged in the arranging hole 1104 inside the arranging seat 1103, the rotating shaft 6 can drive the connecting plate 7 to rotate through the work of the motor 5, which makes the rotating box 9 drive the arranging seat 1103 filled with the test tube 12 to move away from the bottom end of the material inlet 3, and makes the arranging seat 1103 which is not arranged with the test tube 12 in the device move to the bottom end of the material inlet 3, and changes different arranging seats 1103 by adopting the rotating yielding mode, which makes the worker can complete the arrangement of all test tubes 12 by only loading the test tubes 12 at the material inlet 3, this can improve the convenience of equipment operation, different arrangement seats 1103 also can be categorised into different groups automatically in addition, this makes the test tube 12 of the very big convenient different grade type of equipment ability categorised, it has balancing weight 10 to rotate the inboard arrangement in bottom of case 9, in the in-process that rotates case 9 along with linkage plate 7 carries out the rotation, it rotates case 9's rotation to drive through the setting of balancing weight 10 and positioning shaft 8, enable to rotate case 9 and keep the state that the focus faces down all the time, this can effectively guarantee the stability of arrangement of the inside test tube 12 of arrangement seat 1103, it keeps the in-process that the focus faces down along with linkage plate 7 rotation and self positioning to rotate case 9 in addition, can produce some centrifugal force and vibrations all the time, and centrifugal force and vibrations transmit to test tube 12 inside after, enable the lymphocyte in the test tube 12 to be in rocking state all the time, this can avoid test tube 12 to be in static state to cause the condition emergence of inside lymphocyte coagulation, in addition equipment is in the transportation, through refrigeration case 15 work, enable the low temperature air to pass through air outlet 16 and get into the inside to 2, through making motor 5 rotate in the equipment transportation, this can effectively guarantee that this arrangement seat carries out the even condition of refrigerating effect of avoiding the use because of this, this can not take place the unable condition of refrigerating effect because of refrigerating.

Referring to fig. 1 and 7, the discharging assembly 17 includes a discharging groove 1701, an attaching pulley 1702 and a spring seat 1703, the attaching pulley 1702 is disposed on both sides of the discharging groove 1701, the spring seat 1703 is connected to the outer end of the attaching pulley 1702, the number and the position of the discharging groove 1701 are equal to those of the second communicating groove 1406, the size of the discharging groove 1701 is smaller than that of the second communicating groove 1406, the outer surface of the attaching pulley 1702 is attached to the outer surface of the test tube 12, and the attaching pulley 1702 is elastically connected to the spring seat 1703;

the specific operation is as follows, after the device moves to the designated place, the motor 5 drives the rotation shaft 6 to work, the rotation box 9 moves to the bottom end of the box body 2, at this time, the electric push rod 1402 works to drive the baffle 1403 to displace, the baffle 1403 after displacing can make the first connecting groove 1404 coincide with the position of the second connecting groove 1406, after the first connecting groove 1404 coincides with the second connecting groove 1406, the air bag 1105 deflates, so that the test tube 12 which is not clamped can slide out from the inside of the setting seat 1103, and moves to the inside of the discharge groove 1701 through the positioning of the first connecting groove 1404 and the second connecting groove 1406, after the test tube 12 enters the inside of the discharge groove 1701, the bottom end of the test tube can pass through the discharge groove 1701 to the outer end of the device, and the bulge 13 at the top end of the test tube 12 can be limited by the attaching pulley 1702, card is in the inside of blown down tank 1701, stretch out outside the equipment earlier through the bottom that makes test tube 12, can make things convenient for the staff to observe test tube 12 interior lymphocyte's save condition earlier getting an in-process, thereby make things convenient for the classification of test tube 12, in addition after the staff confirms the save condition who accomplishes lymphocyte, only need stimulate test tube 12, make bulge 13 extrusion laminating pulley 1702, make laminating pulley 1702 extrusion spring holder 1703 carry out the displacement and can realize taking out of test tube 12, this can be very big promotion test tube 12 take out the convenience, in addition through this mode of taking out, when can guarantee that the staff takes out a set of test tube 12, all the other test tubes 12 of group still can carry out the safe saving in box 2 inside, this can avoid a set of test tube 12 processing time overlength to influence other save state of group test tube 12.

In conclusion, in the test tube transport box with the flexible clamping structure, when in use, firstly, after the lymphocyte is loaded in the test tube 12, the material inlet 3 can be exposed by opening the sealing cover 4 at the top end of the box body 2, so that the placing seat 1103 in the rotating box 9 can be exposed, after the test tube 12 is inserted into the placing hole 1104 in the placing seat 1103, the bottom end of the test tube 12 can be attached to the upper surface of the baffle 1403, and the baffle 1403 can support the test tube 12 in an auxiliary manner;

then after all the test tubes 12 which need to be stored are arranged, the blower 1101 works, high-speed airflow can be input into the air bag 1105 through the air conveying pipe 1102, the air bag 1105 can be expanded after air is injected into the air bag 1105, the air bag 1105 is positioned in the arranging hole 1104, and the air bag 1105 can limit and clamp the test tubes 12 after being expanded, besides, the air bag 1105 is of a flexible structure, if the equipment accidentally bumps in the transportation process, the test tubes 12 can extrude the air bag 1105 to shift and offset the bumping force, which can effectively avoid the situation that the test tubes 12 are damaged due to rigid contact when bumping between the test tubes 12 and clamping members, and in addition, when the test tubes are required to be taken, the air bag 1105 can be deflated quickly through deflation, so that the test tubes 12 can be separated from the clamping members quickly, and the taking speed of the test tubes 12 is increased;

after the test tubes 12 are completely arranged in the arrangement holes 1104 in the arrangement seats 1103, the motor 5 works to drive the rotating shaft 6 to rotate the connecting plate 7, so that the rotating box 9 can drive the arrangement seats 1103 filled with the test tubes 12 to move away from the bottom end of the feeding port 3, the arrangement seats 1103 which are not provided with the test tubes 12 in the device can move to the bottom end of the feeding port 3, different arrangement seats 1103 are changed in a rotating abdicating mode, so that workers can complete arrangement of all the test tubes 12 only by arranging the test tubes 12 in the feeding port 3, convenience in operation of the device can be improved, in addition, different arrangement seats 1103 can automatically classify the test tubes 12 into different groups, and the device can greatly facilitate classification of different types of test tubes 12;

then in the process that the rotating box 9 rotates along with the connecting plate 7, the rotating box 9 is driven to rotate through the arrangement of the balancing weight 10 and the positioning shaft 8, the rotating box 9 can be enabled to always keep the gravity center downward, the arrangement stability of the test tubes 12 in the arrangement seats 1103 can be effectively guaranteed, in addition, in the process that the rotating box 9 rotates along with the connecting plate 7 and self-positions to keep the gravity center downward, a certain centrifugal force and vibration can be always generated, and the lymphocyte in the test tubes 12 can be always in a shaking state after the centrifugal force and the vibration are transmitted to the interior of the test tubes 12, the phenomenon that the lymphocyte in each arrangement seat 1103 is condensed due to the fact that the test tubes 12 are in a static state can be avoided, in addition, in the transportation process of the equipment, the low-temperature air can enter the box body 2 through the air outlet 16 through the refrigeration box 15, the motor 5 can be enabled to rotate in the transportation process of the equipment, the test tubes 12 in each arrangement seat 1103 can be effectively guaranteed to be uniformly refrigerated, and the phenomenon that the lymphocyte cannot be used can reach the standard due to the fact that the refrigeration effect is not damaged;

finally, after the device moves to a designated place, the motor 5 drives the rotating shaft 6 to work, the rotating box 9 is moved to the bottommost end of the box body 2, at the moment, the electric push rod 1402 works to drive the baffle 1403 to displace, after the baffle 1403 displaces, the position of the first communicating groove 1404 and the position of the second communicating groove 1406 can coincide, after the first communicating groove 1404 and the second communicating groove 1406 coincide, the air bag 1105 deflates, so that the test tube 12 which is not clamped can slide out from the inside of the placing seat 1103 and move to the inside of the discharging groove 1701 through the positioning of the first communicating groove 1404 and the second communicating groove 1406, after the test tube 12 enters the inside of the discharging groove 1701, the bottom end of the test tube can penetrate through the discharging groove 1701 to reach the outer end of the device, and the bulge 13 at the top end of the test tube 12 can be limited by the attaching pulley 1702, card is in the inside of blown down tank 1701, stretch out outside the equipment earlier through the bottom that makes test tube 12, can make things convenient for the staff to observe test tube 12 interior lymphocyte's save condition earlier getting an in-process, thereby make things convenient for the classification of test tube 12, in addition after the staff confirms the save condition who accomplishes lymphocyte, only need stimulate test tube 12, make bulge 13 extrusion laminating pulley 1702, make laminating pulley 1702 extrusion spring holder 1703 carry out the displacement and can realize taking out of test tube 12, this can be very big promotion test tube 12 take out the convenience, in addition through this mode of taking out, when can guarantee that the staff takes out a set of test tube 12, all the other test tubes 12 of group still can carry out the safe saving in box 2 inside, this can avoid a set of test tube 12 processing time overlength to influence other save state of group test tube 12.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. A test tube transport case with a flexible clamping structure is characterized by comprising a supporting seat (1), a rotating case (9), a clamping assembly (11) and a discharging assembly (17), a box body (2) is arranged on the outer side of the top of the supporting seat (1), a feeding opening (3) is arranged on the outer side of the top of the box body (2), a sealing cover (4) is arranged at the outer end of the feeding opening (3), a motor (5) is arranged on the outer side of the right part of the box body (2), the output end of the motor (5) is connected with a rotating shaft (6), the outer end of the rotating shaft (6) is provided with a connecting plate (7), and the inner side of the connecting plate (7) is provided with an adjusting shaft (8), the rotating box (9) is arranged at the inner side of the adjusting shaft (8), and the inner side of the bottom of the rotating box (9) is provided with a balancing weight (10), the clamping component (11) is arranged at the inner side of the rotating box (9), and the inner side of the clamping component (11) is connected with a test tube (12), the outer side of the top end of the test tube (12) is provided with a convex part (13), a gear component (14) is arranged on the inner side of the bottom of the rotating box (9), a refrigeration box (15) is arranged on the outer side of the left part of the box body (2), and the right end of the refrigeration box (15) is connected with an air outlet (16), and the discharging component (17) is arranged on the inner side of the bottom of the box body (2).

2. A test tube transport box with flexible clamping structure according to claim 1, characterized in that the connection plates (7) are distributed in a ring shape at the outer end of the rotation shaft (6), and the connection plates (7) are arranged in six groups.

3. Test tube transport box with flexible clamping structure according to claim 1, characterized in that the connection plate (7) is rotatably connected with the rotating box (9) through a positioning shaft (8), and the rotating box (9) is welded with a balancing weight (10).

4. The test tube transport box with the flexible clamping structure is characterized in that the clamping assembly (11) comprises an air blower (1101), an air conveying pipe (1102), a setting seat (1103), a setting hole (1104) and an air bag (1105), the air conveying pipe (1102) is connected to the right end of the air blower (1101), the setting seat (1103) is arranged at the right end of the air conveying pipe (1102), the setting hole (1104) is formed in the inner side of the setting seat (1103), and the air bag (1105) is arranged in the setting hole (1104).

5. The test tube transport case with the flexible clamping structure is characterized in that the blower (1101) is communicated with the air bag (1105) through an air conveying pipe (1102), and the outer surface of the air bag (1105) is attached to the inner surface of the placing hole (1104).

6. The test tube transport box with the flexible clamping structure according to claim 1, characterized in that the gear component (14) comprises a positioning plate (1401), an electric push rod (1402), a baffle plate (1403), a first connecting groove (1404), a fixing plate (1405) and a second connecting groove (1406), the electric push rod (1402) is connected to the inner side of the positioning plate (1401), the baffle plate (1403) is connected to the output end of the electric push rod (1402), the first connecting groove (1404) is formed in the inner side of the baffle plate (1403), the fixing plate (1405) is connected to the outer side of the bottom of the positioning plate (1401), and the second connecting groove (1406) is formed in the inner side of the fixing plate (1405).

7. Test tube transport box with flexible clamping structure according to claim 6, characterized in that the first connecting slots (1404) are distributed in array on the surface of the baffle (1403), and the size and number of the second connecting slots (1406) are equal to those of the first connecting slots (1404).

8. The test tube transport box with the flexible clamping structure is characterized in that the discharging assembly (17) comprises a discharging groove (1701), an attaching pulley (1702) and a spring seat (1703), wherein the attaching pulley (1702) is arranged on two sides of the inside of the discharging groove (1701), and the spring seat (1703) is connected to the outer end of the attaching pulley (1702).

9. Test tube transport box with flexible clamping structure according to claim 8, characterized in that the discharge slots (1701) are equal in number and position to the second communication slots (1406) and the size of the discharge slots (1701) is smaller than the size of the second communication slots (1406).

10. Test tube transport box with flexible clamping structure according to claim 8 characterized in that the outer surface of the said joint pulley (1702) is jointed with the outer surface of the test tube (12), and the joint pulley (1702) is elastically connected with the spring seat (1703).