CN113231122B - Test tube bin for hematology - Google Patents

Abstract

The invention relates to a test tube storage box, in particular to a test tube storage box for hematology. The technical problem to be solved provides a clamping effect is better, has shock-absorbing function, prevents the broken test tube bin for hematology of test tube. The technical proposal is as follows: a test tube storage box for hematology comprises a storage box, wherein lifting mechanisms are symmetrically arranged on the inner side of the storage box; the placing mechanism is arranged on the lifting mechanism. According to the invention, through the action of the motor output shaft, the full gear, the second rotary rod and the bevel gear on the motor are driven to rotate, so that the driving wheel, the belt and the first gear are driven to rotate, the first gear rotates to drive the rack and the lifting frame to move upwards, the lifting frame is not required to be manually moved upwards, and the working efficiency of people is effectively improved.

Description

Test tube bin for hematology

Technical Field

The invention relates to a test tube storage box, in particular to a test tube storage box for hematology.

Background

The variety of test tubes is many, and is one of the most commonly used devices in the medical field, and is generally used for storing body fluids, blood, etc., and the blood is stored in the test tube after being collected, and then the test tube is moved to a laboratory for detection.

In the medical science inspection field, hold test object's blood in the test tube generally, then detect these specimens, before gathering blood, need take out the test tube from the bin, at present, traditional test tube bin is single, and difficult operation makes test tube and the contact of the test-tube rack of bin in when placing the test tube, and people carelessly rock and can make the test tube break, and the leakproofness is relatively poor, influences medical personnel's work efficiency etc..

To sum up, it is necessary to design a test tube storage box for hematology department, which has a good clamping effect and a damping function and prevents the test tube from being damaged, so as to solve the above problems.

Disclosure of Invention

In order to overcome the defect that a traditional test tube storage box is single and is not easy to operate, when a test tube is placed, a test tube is contacted with a test tube rack in the storage box, the test tube is broken due to careless shaking, the sealing performance is poor, and the technical problem to be solved is that: the utility model provides a press from both sides tight effect better, has shock-absorbing function, prevents the broken clinical laboratory of test tube with test tube bin.

The technical proposal is as follows: a test tube bin for hematology department, comprising: the inner side of the storage box is symmetrically provided with lifting mechanisms; the placing mechanism is arranged on the lifting mechanism.

Further, the elevating system includes: the first support blocks are symmetrically arranged on one side of the inside of the storage box; the inner sides of the first supporting blocks on the two sides are respectively provided with a first gear in a rotating way; the lifting frames are arranged on two sides of the inside of the storage box in a sliding manner; racks are arranged on two sides of the lifting frame and are meshed with the first gear; the first limiting block is arranged on one side inside the storage box and is connected with the lifting frame in a sliding mode.

Further, the placement mechanism comprises: the first rotating rods are symmetrically arranged at the upper side and the lower side of the inner part of the lifting frame in a rotating way; the first rotating rods are respectively provided with four placing racks at intervals; the two sides of the lifting frame are provided with four second limiting blocks vertically symmetrically; the spiral springs are symmetrically arranged between the second limiting block and the placement frame; the inner sides of the placing frames are symmetrically provided with the second supporting blocks; the rotating plate is rotatably arranged between the inner sides of the upper and lower second support blocks; torsional springs are arranged between the rotating plate and the second supporting block, and are sleeved on the rotating plate; the clamping blocks are arranged on the inner sides of the rotating plates and are rotationally connected with the placing frame; test tubes are placed between the inner sides of the clamping blocks.

Further, still including the unblock subassembly, the unblock subassembly is including: the sliding rods are symmetrically and slidably arranged on two sides of the inner part of the lifting frame, an elastic piece is connected between the sliding rods and the lifting frame, and the sliding rods are matched with the first limiting block; three pairs of first guide rods are symmetrically arranged on the upper side and the lower side of the inner part of the lifting frame; the first wedge-shaped blocks are symmetrically and slidably arranged on two sides of the lifting frame, and are in sliding fit with the sliding rod; three connecting rods are arranged on two sides of the interior of the lifting frame in a sliding mode, the connecting rods on the same side are connected with each other, and the connecting rods on the same side are connected with the sliding rods on the same side; the second wedge-shaped blocks are arranged on the first guide rod in a sliding mode, and the second wedge-shaped blocks and the first wedge-shaped blocks are matched with the placing frame; the first springs are arranged between the lifting frame and the first wedge blocks, and the first guide rods are sleeved with the first springs. Further, still include power component, power component is including: the third supporting blocks are symmetrically arranged in the middle of the inside of the storage box, and the third supporting blocks are symmetrically arranged on two sides of the inside of the storage box; the second rotating rods are arranged between the third support blocks on two sides of the middle in a rotating mode, and the second rotating rods are also arranged between the third support blocks on two sides in a rotating mode; the middle part of the second rotating rod in the middle is provided with second gears which are meshed with each other; bevel gears are arranged on two sides of the second rotary rod in the middle, bevel gears are also arranged on the inner sides of the second rotary rods on two sides, and the two bevel gears on the same side are meshed with each other; the second rotating rods on the two sides of the driving wheel are provided with the driving wheel, and the inner side of the first gear is also provided with the driving wheel in a rotating mode; the belt is wound between the driving wheels at two sides of the belt; and a motor is arranged on one side of the inside of the storage box, an all-gear is connected to an output shaft of the motor, and the all-gear on the motor is meshed with a second gear on one side.

Further, still include the switching subassembly, the switching subassembly is including: the opening and closing doors are arranged on two sides of the top of the storage box in a sliding manner; tension springs are symmetrically arranged between the opening and closing door and the storage box; the inner sides of the upper parts of the opening and closing doors are provided with locking blocks; the rotating block is rotatably arranged on one side of the upper part of the storage box; the middle of the top of the rotating block is provided with the first sliding block in a sliding manner; the second springs are symmetrically arranged between the first sliding block and the rotating block; the third wedge-shaped blocks are slidably arranged on two sides of the inside of the rotating block, the third wedge-shaped blocks are matched with the locking blocks, and the first sliding blocks are matched with the third wedge-shaped blocks; and the third springs are symmetrically arranged between the bottom of the third wedge-shaped block and the rotating block.

Further, the storage box also comprises a damping component, and the damping component is arranged at the bottom of the storage box.

Further, still include damper, damper includes: the bottom of the storage box is provided with a supporting plate; the periphery of the inner part of the supporting plate is provided with the second guide rod in a sliding manner; the top parts of the second guide rods are connected with second sliding blocks, and the second sliding blocks are connected with the storage box in a sliding mode; and the fourth springs are arranged between the second guide rod and the supporting plate, and are sleeved on the second guide rod.

The beneficial effects of the invention are as follows: 1. according to the invention, through the action of the motor output shaft, the full gear, the second rotary rod and the bevel gear on the motor are driven to rotate, so that the driving wheel, the belt and the first gear are driven to rotate, the first gear rotates to drive the rack and the lifting frame to move upwards, the lifting frame is not required to be manually moved upwards, and the working efficiency of people is effectively improved.

2. According to the invention, the opening and closing door is manually rotated in opposite directions, and is moved inwards to be closed, so that the locking piece is driven to move inwards, meanwhile, the rotating piece is rotated anticlockwise, and the third wedge-shaped piece is driven to rotate and contact with the locking piece, so that the locking piece is clamped by the third wedge-shaped piece, a test tube is conveniently stored, and the sealing property of the opening and closing door is good.

3. When rocking appears through the desktop for second slider and second guide arm constantly reciprocate, drive the bin and also reciprocate, and the fourth spring plays the absorbing effect, avoids the test tube to cause the damage owing to rocking, and the shock attenuation effect is stronger, has effectively protected the test tube.

Drawings

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

Fig. 2 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 3 is a schematic view of a first perspective structure of the placement mechanism of the present invention.

Fig. 4 is a schematic view of a second perspective structure of the placement mechanism of the present invention.

Fig. 5 is a schematic view of a third perspective structure of the placement mechanism of the present invention.

Fig. 6 is a first perspective view of an unlocking assembly according to the present invention.

Fig. 7 is a second perspective view of the unlocking assembly of the present invention.

Fig. 8 is a schematic perspective view of a power assembly according to the present invention.

Fig. 9 is a schematic view of a first perspective structure of the opening and closing assembly of the present invention.

Fig. 10 is a schematic view of a second perspective structure of the opening and closing assembly of the present invention.

Fig. 11 is a schematic perspective view of a shock absorbing assembly according to the present invention.

Part names and serial numbers in the figure: the device comprises a 1-storage box, a 2-lifting mechanism, a 20-first supporting block, a 21-first gear, a 22-lifting frame, a 23-rack, a 24-first limiting block, a 3-placing mechanism, a 30-first rotating rod, a 31-placing frame, a 32-spiral spring, a 33-second limiting block, a 34-second limiting block, a 35-rotating plate, a 36-torsion spring, a 37-clamping block, a 38-test tube, a 4-unlocking component, a 40-sliding rod, a 41-first wedge block, a 42-connecting rod, a 43-second wedge block, a 44-first guide rod, a 45-first spring, a 5-power component, a 50-third supporting rod, a 51-second rotating rod, a 52-second gear, a 53-bevel gear, a 54-driving wheel, a 55-belt, a 56-motor, a 6-opening and closing component, a 60-opening and closing door, a 61-tension spring, a 62-locking block, a 63-rotating block, a 64-first slider, a 65-second wedge block, a 66-third wedge block, a 67-third spring, a 7-first slider, a 70-supporting plate, a 71-second wedge block, a 72-shaped spring and a 72-second spring.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which currently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Example 1

The utility model provides a clinical laboratory uses test tube bin, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, including bin 1, elevating system 2 and placement machine 3, the inboard symmetry of bin 1 is equipped with elevating system 2, all is equipped with placement machine 3 on the elevating system 2.

The lifting mechanism 2 comprises a first supporting block 20, a first gear 21, lifting frames 22, racks 23 and a first limiting block 24, wherein the first supporting block 20 is symmetrically arranged on the left side and the right side of the inside of the storage box 1, the first gears 21 are respectively arranged on the inner sides of the first supporting blocks 20 on the left side and the right side, the lifting frames 22 are respectively arranged on the left side and the right side of the inside of the storage box 1 in a sliding mode, the racks 23 are respectively arranged on the front side and the rear side of the lifting frames 22, the racks 23 are respectively meshed with the first gears 21, the first limiting blocks 24 are arranged on the upper side of the inside of the storage box 1, and the first limiting blocks 24 are respectively connected with the lifting frames 22 in a sliding mode.

The placing mechanism 3 comprises a first rotating rod 30, a placing frame 31, spiral springs 32, second limiting blocks 33, second supporting blocks 34, rotating plates 35, torsion springs 36, clamping blocks 37 and test tubes 38, wherein the first rotating rod 30 is arranged on the left side and the right side of the inside of the lifting frame 22 in a vertically symmetrical mode, four placing frames 31 are arranged on the first rotating rod 30 at intervals, the four second limiting blocks 33 are arranged on the two sides of the lifting frame 22 in a vertically symmetrical mode, the spiral springs 32 are arranged between the second limiting blocks 33 and the placing frames 31 in a symmetrical mode, the second supporting blocks 34 are arranged on the front side and the rear side of the inner sides of the placing frames 31 in a symmetrical mode, the rotating plates 35 are arranged between the inner sides of the upper and the lower second supporting blocks 34 in a rotating mode, the torsion springs 36 are arranged between the rotating plates 35 and the second supporting blocks 34 in a rotating mode, the torsion springs 36 are sleeved on the rotating plates 35 in a rotating mode, the inner sides of the rotating plates 35 are provided with the clamping blocks 37 in a rotating mode, and the clamping blocks 37 are connected with the placing frames 31 in a rotating mode, and the test tubes 38 are placed between the inner sides of the clamping blocks 37.

When the device is needed to be used, people manually move the lifting frame 22 upwards, the first gear 21 rotates under the action of the rack 23, the scroll spring 32 is in a deformed state in the original state, when the lifting frame 22 moves upwards, the placing frame 31 and the test tube 38 are driven to move upwards, the placing frame 31 is not extruded by the storage box 1 any more, under the action of the scroll spring 32, the placing frame 31 and the first rotating rod 30 are driven to rotate reversely to open, then people take out or store the test tube 38, when people need to place the test tube 38 with collected blood on the placing frame 31, the test tube 38 is enabled to be in contact with the clamping block 37, the test tube 38 drives the clamping block 37 and the rotating plate 35 to rotate outwards, the torsional spring 36 takes place deformation for clamp block 37 presss from both sides tight test tube 38, when people need take out test tube 38, people manually upwards remove test tube 38, make test tube 38 break away from clamp block 37, under the effect of torsional spring 36, drive clamp block 37 and rotor plate 35 inwards rotate and reset, when need not use this equipment, people manually remove crane 22 downwards, thereby drive rack 23, rack 31 and test tube 38 and remove downwards, make rack 31 and bin 1 contact, inboard rack 31 and first stopper 24 contact, and then drive rack 31 and first rotor rod 30 inwards rotate, spiral spring 32 takes place deformation.

Example 2

On the basis of embodiment 1, as shown in fig. 6, fig. 7, fig. 8, fig. 9, fig. 10 and fig. 11, the lifting device further comprises an unlocking component 4, the unlocking component 4 comprises a sliding rod 40, a first wedge-shaped block 41, two connecting rods 42, a second wedge-shaped block 43, a first connecting rod 44 and a first spring 45, two sliding rods 40 are arranged on the left side and the right side of the inside of the lifting frame 22 in a vertically symmetrical sliding mode, an elastic piece is connected between the sliding rod 40 and the lifting frame 22, the sliding rod 40 is matched with the first limiting block 24, a first wedge-shaped block 41 is arranged on the left side and the right side of the lifting frame 22 in a vertically symmetrical sliding mode, the first wedge-shaped block 41 is matched with the sliding rod 40 in a sliding mode, three pairs of first connecting rods 44 are arranged on the left side and the right side of the inside of the lifting frame 22 in a vertically symmetrical mode, the number of each pair of first connecting rods 44 is two, three connecting rods 42 are arranged on the left side and the right side of the inside of the lifting frame 22 in a sliding mode, the connecting rods 42 on the same side are connected with the connecting rods 42 on the same side, the first connecting rods 44 are connected with the same side 40, the second wedge-shaped blocks 43 are arranged on the first connecting rods 44 in a sliding mode, the second wedge-shaped block 43 are arranged on the sliding mode, the first wedge-shaped blocks 43 and the first wedge-shaped blocks 31 are matched with the first wedge-shaped blocks 41 and the first wedge-shaped blocks 45.

When the lifting frame 22 moves upwards, the sliding rod 40, the connecting rod 42, the first wedge block 41 and the second wedge block 43 are driven to move upwards, the elastic piece on the sliding rod 40 is stretched, the sliding rod 40 is contacted with the first limiting block 24, the first limiting block 24 enables the sliding rod 40 not to continue to move upwards, in an original state, the first spring 45 is compressed, when the lifting frame 22 continues to move upwards, the connecting rod 42 does not block the first wedge block 41 and the second wedge block 43, under the action of the first spring 45, the first wedge block 41 and the second wedge block 43 are driven to move inwards to reset, the first wedge block 41 and the second wedge block 43 are not blocked the placing frame 31, under the action of reset of the scroll spring 32, the placing frame 31 is driven to rotate outwards, when the lifting frame 22 drives the placing frame 31 to move downwards, the sliding rod 40 is driven to move downwards to be separated from the first limiting block 24 after the placing frame 31 rotates inwards, under the action of the elastic piece on the sliding rod 40, the connecting rod 42 is driven to move downwards, the first wedge block 41 and the second wedge block 43 are driven to move downwards, under the action of the connecting rod 42, the first wedge block 41 and the second wedge block 43 are driven to move outwards, and the first wedge block 43 is not compressed, and the placing frame 31 is not driven to rotate.

The power assembly 5 comprises a third supporting block 50, a second rotating rod 51, a second gear 52, bevel gears 53, driving wheels 54, belts 55 and motors 56, wherein the third supporting block 50 is symmetrically arranged in the middle of the inside of the storage box 1, the third supporting block 50 is symmetrically arranged in the front and the rear of the inside of the storage box 1, the second rotating rod 51 is rotatably arranged between the third supporting blocks 50 on the front and the rear of the middle, the second rotating rod 51 is rotatably arranged between the third supporting blocks 50 on the left and the right of the storage box, the second gears 52 are arranged in the middle of the middle second rotating rod 51, the bevel gears 53 are arranged on the front and the rear of the middle second rotating rod 51, the bevel gears 53 are also arranged on the inner sides of the second rotating rods 51 on the left and the right of the storage box 1, the driving wheels 54 are also rotatably arranged on the inner sides of the first gears 21, the belts 55 are wound between the driving wheels 54 on the upper and the lower sides, the motor 56 are arranged on the right of the inside of the storage box 1, and the motor output shafts 56 are connected with all the gears 56 on the motor, and the all gears 52 are mutually meshed on the right sides of the motor.

When the lifting frame 22 needs to be moved upwards, a person starts the motor 56, and under the action of the output shaft of the motor 56, the full gear, the second gear 52, the second rotary rod 51 and the bevel gear 53 on the motor 56 are driven to rotate, the driving wheel 54, the belt 55 and the first gear 21 are driven to rotate, the first gear 21 rotates to drive the rack 23 and the lifting frame 22 to move upwards, when the lifting frame 22 needs to be moved downwards, the person reversely starts the motor 56, and then drives the second gear 52, the second rotary rod 51 and the bevel gear 53 to reversely rotate, and then drives the driving wheel 54, the belt 55 and the first gear 21 to reversely rotate, so that the rack 23 and the lifting frame 22 move downwards, and when the device is not needed, the person can manually close the motor 56.

The automatic opening and closing device is characterized by further comprising an opening and closing assembly 6, wherein the opening and closing assembly 6 comprises an opening and closing door 60, tension springs 61, locking blocks 62, rotating blocks 63, first sliding blocks 64, second springs 65, third wedge blocks 66 and third springs 67, the left side and the right side of the top of the storage box 1 are slidably provided with the opening and closing door 60, the tension springs 61 are symmetrically arranged between the opening and closing door 60 and the storage box 1, the inner side of the upper portion of the opening and closing door 60 is provided with the locking blocks 62, the rear side of the upper portion of the storage box 1 is rotatably provided with the rotating blocks 63, the middle of the top of each rotating block 63 is slidably provided with a first sliding block 64, second springs 65 are symmetrically arranged between the first sliding blocks 64 and the rotating blocks 63, the left side and the right side of the inside of each rotating block 63 are slidably provided with third wedge blocks 66, the third wedge blocks 66 are matched with the third wedge blocks 66, and the third springs 67 are symmetrically arranged between the bottom of each third wedge block 66 and the rotating blocks 63.

When the lifting frame 22 and the placing frame 31 move downwards into the storage box 1, people manually rotate the opening and closing door 60 in opposite directions, move the opening and closing door 60 inwards to drive the locking piece 62 to move inwards, the tension spring 61 deforms, meanwhile, people rotate the rotating piece 63 anticlockwise to drive the third wedge-shaped piece 66 to rotate to be in contact with the locking piece 62, the third wedge-shaped piece 66 clamps the locking piece 62, the test tube 38 is convenient to store, when the test tube 38 needs to be taken out, people manually press the first sliding block 64, the first sliding block 64 drives the third wedge-shaped piece 66 to move downwards, the third spring 67 is compressed, the third wedge-shaped piece 66 does not clamp the locking piece 62 any more, the opening and closing door 60 and the locking piece 62 are driven to move outwards under the action of the tension spring 61, then people reversely rotate the opening and closing door 60 is completely opened, people release the first sliding block 64, the third wedge-shaped piece 66 and the first sliding block 64 are driven to move upwards to reset under the action of the third spring 67, and simultaneously, the rotating piece 63 rotates automatically clockwise to be opened.

The shock-absorbing assembly 7 comprises a supporting plate 70, a second sliding block 71, a second guide rod 72 and a fourth spring 73, wherein the supporting plate 70 is arranged at the bottom of the storage box 1, the second guide rod 72 is arranged around the inside of the supporting plate 70 in a sliding mode, the top of the second guide rod 72 is connected with the second sliding block 71, the second sliding block 71 is connected with the storage box 1 in a sliding mode, the fourth spring 73 is arranged between the second guide rod 72 and the supporting plate 70, and the fourth spring 73 is sleeved on the second guide rod 72.

After people move the device to the desktop, when the desktop shakes, the second slider 71 and the second guide rod 72 continuously move up and down to drive the storage box 1 to move up and down, the fourth spring 73 plays a role in shock absorption, the test tube 38 is prevented from being damaged due to shaking, and the shock absorption effect is strong.

It will be appreciated by persons skilled in the art that the above embodiments are not intended to limit the invention in any way, and that all technical solutions obtained by means of equivalent substitutions or equivalent transformations fall within the scope of the invention.

Claims (4)

1. The utility model provides a clinical laboratory uses test tube bin which characterized in that includes:

the storage box (1), the inboard symmetry of storage box (1) is equipped with elevating system (2);

the placing mechanism (3) is arranged on the lifting mechanism (2);

the lifting mechanism (2) comprises:

the first support blocks (20) are symmetrically arranged on one side of the inside of the storage box (1);

the inner sides of the first supporting blocks (20) at two sides are respectively provided with a first gear (21) in a rotary mode;

the lifting frames (22) are arranged on two sides of the inside of the storage box (1) in a sliding manner;

the racks (23) are arranged on two sides of the lifting frame (22), and the racks (23) are meshed with the first gear (21);

the first limiting block (24) is arranged on one side of the inside of the storage box (1), and the first limiting block (24) is connected with the lifting frame (22) in a sliding mode;

the placement mechanism (3) comprises:

the first rotating rods (30) are symmetrically arranged on the two sides of the inner part of the lifting frame (22) in a rotating mode up and down, and the first rotating rods (30) are arranged on the two sides of the inner part of the lifting frame in a rotating mode;

the first rotating rods (30) are respectively provided with four placing racks (31) at intervals;

the two sides of the lifting frame (22) are symmetrically provided with four second limiting blocks (33) up and down;

the spiral springs (32) are symmetrically arranged between the second limiting block (33) and the placing frame (31);

the second supporting blocks (34) are symmetrically arranged on the inner sides of the placing frames (31);

a rotating plate (35) is rotatably arranged between the inner sides of the upper and lower second support blocks (34);

a torsion spring (36), wherein the torsion springs (36) are arranged between the rotating plate (35) and the second supporting block (34), and the torsion springs (36) are sleeved on the rotating plate (35);

the clamping blocks (37) are arranged on the inner sides of the rotating plates (35), and the clamping blocks (37) are rotationally connected with the placing frame (31);

a test tube (38), wherein the test tube (38) is arranged between the inner sides of the clamping blocks (37);

the novel lock is characterized by further comprising an unlocking component (4), wherein the unlocking component (4) comprises:

the two sides of the inside of the lifting frame (22) are symmetrically and slidably provided with the sliding rods (40), elastic pieces are connected between the sliding rods (40) and the lifting frame (22), and the sliding rods (40) are matched with the first limiting blocks (24);

three pairs of first guide rods (44) are symmetrically arranged on the upper side and the lower side of the inner part of the lifting frame (22);

the first wedge-shaped blocks (41) are symmetrically and slidably arranged on two sides of the lifting frame (22), and the first wedge-shaped blocks (41) are slidably matched with the sliding rods (40);

three connecting rods (42) are slidably arranged on two sides of the interior of the lifting frame (22), the connecting rods (42) on the same side are connected with each other, and the connecting rods (42) on the same side are connected with the sliding rods (40) on the same side;

the second wedge-shaped blocks (43) are arranged on the first guide rods (44) in a sliding mode, and the second wedge-shaped blocks (43) and the first wedge-shaped blocks (41) are matched with the placement frame (31);

the first springs (45), the second wedge blocks (43) and the first wedge blocks (41) are respectively provided with the first springs (45) between the lifting frame (22), and the first springs (45) are respectively sleeved on the first guide rods (44);

the device also comprises an opening and closing assembly (6), wherein the opening and closing assembly (6) comprises:

an opening and closing door (60), wherein the opening and closing door (60) is arranged on two sides of the top of the storage box (1) in a sliding manner;

tension springs (61) are symmetrically arranged between the opening and closing door (60) and the storage box (1);

a locking piece (62), wherein the inner side of the upper part of the opening and closing door (60) is provided with the locking piece (62);

a rotating block (63), wherein the rotating block (63) is rotatably arranged at one side of the upper part of the storage box (1);

the first sliding block (64) is arranged in the middle of the top of the rotating block (63) in a sliding manner;

the second springs (65) are symmetrically arranged between the first sliding block (64) and the rotating block (63);

the third wedge-shaped blocks (66) are arranged on two sides of the inside of the rotating block (63) in a sliding mode, the third wedge-shaped blocks (66) are matched with the locking blocks (62), and the first sliding blocks (64) are matched with the third wedge-shaped blocks (66);

and third springs (67) are symmetrically arranged between the bottom of the third wedge-shaped block (66) and the rotating block (63).

2. A test tube storage box for hematology according to claim 1, further comprising a power assembly (5), wherein the power assembly (5) comprises:

the third supporting blocks (50) are symmetrically arranged in the middle of the inside of the storage box (1), and the third supporting blocks (50) are symmetrically arranged on two sides of the inside of the storage box (1);

the second rotating rods (51) are rotatably arranged between the third supporting blocks (50) at the two sides of the middle part, and the second rotating rods (51) are rotatably arranged between the third supporting blocks (50) at the two sides;

the middle part of the second rotary rod (51) in the middle is provided with second gears (52), and the second gears (52) are meshed with each other;

bevel gears (53), wherein bevel gears (53) are arranged on two sides of the second rotary rod (51) in the middle, bevel gears (53) are also arranged on the inner sides of the second rotary rods (51) on two sides, and the two bevel gears (53) on the same side are meshed with each other;

the second rotating rods (51) at two sides are respectively provided with a driving wheel (54), and the inner sides of the first gears (21) are respectively provided with the driving wheels (54) in a rotating way;

the belt (55) is wound between the driving wheels (54) at two sides;

the motor (56) is arranged on one side of the inside of the storage box (1), the output shaft of the motor (56) is connected with an all-gear, and the all-gear on the motor (56) is meshed with the second gear (52) on one side.

3. A storage box for test tubes for hematology according to claim 2, characterized in that it further comprises a damper (7), and the damper (7) is arranged at the bottom of the storage box (1).

4. A test tube storage box for hematology applications according to claim 3, characterized in that the shock absorbing assembly (7) comprises:

a supporting plate (70), wherein the bottom of the storage box (1) is provided with the supporting plate (70);

the second guide rod (72) is arranged around the inside of the supporting plate (70) in a sliding manner, and the second guide rod (72) is arranged around the inside of the supporting plate;

the top of the second guide rod (72) is connected with the second slide block (71), and the second slide block (71) is connected with the storage box (1) in a sliding manner;

and the fourth springs (73), the fourth springs (73) are arranged between the second guide rod (72) and the supporting plate (70), and the fourth springs (73) are sleeved on the second guide rod (72).

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