CN112705286A

CN112705286A - Medical sample storage box for hospital clinical laboratory

Info

Publication number: CN112705286A
Application number: CN202011585743.1A
Authority: CN
Inventors: 陈文强
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-29
Filing date: 2020-12-29
Publication date: 2021-04-27

Abstract

A medical sample storage box for a hospital clinical laboratory belongs to the field of medical equipment. The method is characterized in that: the device comprises a retainer body, a traveling frame body, a constant temperature device, a damping device, a first working cavity and a second working cavity, wherein the retainer body is U-shaped; the inner wall of the bottom of the U-shaped retainer body is respectively provided with a connecting sleeve hole and a damping device; the inner walls of the vertical arms at the two sides of the U-shaped retainer body are oppositely provided with a left supporting wheel and a right supporting wheel; a first working cavity and a second working cavity are horizontally arranged between the vertical arms at the two sides of the U-shaped retainer body; a constant temperature device is arranged between the first working cavity and the second working cavity; a first working cavity, a constant temperature device and a second working cavity are sequentially arranged between the vertical arms at the two sides of the U-shaped retainer body along the left supporting wheel and the right supporting wheel; the fixed inserting arm is arranged on the advancing frame body; the connecting sleeve hole is internally sleeved with a fixed inserting arm. The invention ensures the safety of the sample to be tested in the processes of transferring, storing and the like through the relatively independent closed constant-temperature working cavity.

Description

Medical sample storage box for hospital clinical laboratory

Technical Field

The invention belongs to the field of medical equipment, and particularly relates to a medical sample storage box for a hospital clinical laboratory.

Background

Hospital clinical laboratories have assisted physicians in determining the condition of patients as soon as possible by detecting, assaying and analyzing various fluids in the patients' bodies. After the body fluid of a patient is detected and sampled, the existence of a transfer and storage process cannot be avoided, and in order to facilitate the process and ensure that the collected sample is not polluted in the whole process as much as possible, the inventor designs and manufactures a medical sample storage box for a hospital clinical laboratory so as to meet the faced practical problems.

Disclosure of Invention

The invention aims to solve the technical problem of providing a medical sample storage box for a hospital clinical laboratory, which ensures the safety of samples in the transferring, storing and other processes through a relatively independent closed and constant-temperature working cavity.

In order to solve the technical problems, the technical scheme of the invention is as follows: the utility model provides a medical treatment sample storage box of clinical laboratory of hospital which characterized in that: the device comprises a retainer body, a traveling frame body, a constant temperature device, a damping device, a first working cavity and a second working cavity, wherein the retainer body is U-shaped; the inner wall of the bottom of the U-shaped retainer body is respectively provided with a connecting sleeve hole and a damping device; the inner walls of the vertical arms at the two sides of the U-shaped retainer body are oppositely provided with a left supporting wheel and a right supporting wheel; a first working cavity and a second working cavity are horizontally arranged between the vertical arms at the two sides of the U-shaped retainer body; a constant temperature device is arranged between the first working cavity and the second working cavity; a first working cavity, a constant temperature device and a second working cavity are sequentially arranged between the vertical arms at the two sides of the U-shaped retainer body along the left supporting wheel and the right supporting wheel; the fixed inserting arm is arranged on the advancing frame body; the connecting sleeve hole is internally sleeved with a fixed inserting arm;

the constant temperature device comprises an operation cavity, an air outlet pipeline, an air conveying pipe, an air inlet pipeline, a condenser and a compressor, wherein a right cavity plate of the first working cavity is respectively provided with a first air inlet and a first air outlet; a second air inlet and a second air outlet are respectively arranged on the left cavity plate of the second working cavity; one end of the air outlet pipeline is connected with the first air outlet, and the other end of the air outlet pipeline is connected with the second air outlet; a first connecting air port is arranged in the middle of the air outlet pipeline; one end of the air inlet pipeline is connected with a first air inlet, and the other end of the air inlet pipeline is connected with a second air inlet; a second connecting air port is arranged in the middle of the air inlet pipeline; one end of the air conveying pipe is connected with the first connecting air port, and the other end of the air conveying pipe is connected with the second connecting air port; a surface cooler is arranged in the air outlet pipeline; a wind motor is arranged in the connecting pipe, and a fan blade is arranged on the wind motor; a condenser is arranged outside the connecting pipe; a compressor is arranged below the air inlet pipeline; an operation cavity is arranged above the air outlet pipeline, and a control circuit and a switch board are arranged in the operation cavity; the switch board and the control circuit are connected with an external power supply through a lead; the compressor, the condenser and the surface cooler are connected through a Freon pipeline;

the damping device comprises a left damping spring, a right damping spring, an upper middle magnet, a lower middle damping spring and a lower middle magnet, wherein a left spring clamping groove is formed in the bottom of the first working cavity, and a right spring clamping groove is formed in the bottom of the second working cavity; a middle spring clamping groove is arranged between the first working cavity and the second working cavity; a first connecting sleeve hole and a second connecting sleeve hole are respectively arranged on the inner wall of the bottom of the U-shaped retainer body; a damping middle clamping groove is formed in the inner wall of the bottom of the U-shaped retainer body between the first connecting sleeve hole and the second connecting sleeve hole; a damping first clamping groove is formed between the first connecting sleeve hole and the vertical arm on the left side of the U-shaped retainer body; a damping second clamping groove is formed between the second connecting sleeve hole and the right vertical arm of the U-shaped retainer body; one end of the left damping spring is connected with a left spring clamping groove, and the other end of the left damping spring is connected with a damping first clamping groove; one end of the right damping spring is connected with the right spring clamping groove, and the other end of the right damping spring is connected with the second damping clamping groove; the middle-upper magnet and the middle-lower magnet are both in a T shape; one end of the middle and upper damping spring is connected with a middle spring clamping groove, and the T-shaped vertical arm end of the middle and upper magnet penetrates through the other end of the middle and upper damping spring; one end of the middle lower damping spring is connected with the middle damping clamping groove, and the T-shaped vertical arm end of the middle lower magnet penetrates into the other end of the middle lower damping spring; the cross arm end of the middle upper magnet T-shaped and the cross arm end of the middle lower magnet T-shaped are vertically arranged opposite to the same pole;

the travelling frame body comprises a bottom plate, a left upright post, a right upright post, an upper connecting plate, a lower connecting plate, a driving post and a pedal, wherein a travelling wheel is arranged below the bottom plate, and the left upright post and the right upright post are respectively arranged on one side of the bottom plate; an upper connecting plate and a lower connecting plate are respectively arranged between the right upright columns of the left upright column from top to bottom; a first fixed inserting arm is arranged on the left upright post; a second fixed inserting arm is arranged on the right upright post; the first fixed inserting arm is sleeved in the first connecting sleeve hole; the second fixed inserting arm is sleeved in the second connecting sleeve hole; one side of the bottom plate is provided with a driving column; a plurality of movable fixing through holes are formed in the driving column in an array manner; the upper end of the driving column is provided with a holding ring, and the lower end of the driving column is provided with a pedal; the lower connecting plate is provided with a positioning fixing through hole; the positioning fixing through hole and the moving fixing through hole are sleeved with the latch post;

preferably, the first working cavity and the second working cavity are both internally provided with a platform lifting device, the platform lifting device comprises a left guy cable, a right guy cable, a left upper pulley, a left lower pulley, a right upper pulley, a right lower pulley, an inner upper pulley, a lifting driving cavity, a driving block, a cavity panel and an articulated arm, the first working cavity, the second working cavity, the third working cavity and the fourth working cavity are all cavities with openings at the upper parts, and the upper openings of the cavities are provided with cavity panels; the cavity comprises a left cavity plate, a right cavity plate, a front cavity plate, a rear cavity plate and a bottom cavity plate; a working plate is arranged above the bottom cavity plate; the inner wall of the left cavity plate is provided with a left sliding chute, and the inner wall of the right cavity plate is provided with a right sliding chute; one end of the working plate is provided with a left sliding arm, and the other end of the working plate is provided with a right sliding arm; the left sliding arm is respectively provided with a left inhaul cable and a left sliding wheel, and the right sliding arm is respectively provided with a right inhaul cable and a right sliding wheel; the left sliding wheel moves along the left sliding chute, and the right sliding wheel moves along the right sliding chute; a left upper pulley is arranged above the left cavity plate, and a left lower pulley is arranged below the left cavity plate; a right upper pulley is arranged above the right cavity plate, and a right lower pulley is arranged below the right cavity plate; a left guy cable hole, a right guy cable hole and a bottom guy cable hole are respectively arranged in the left cavity plate, the right cavity plate and the bottom cavity plate; a lifting driving cavity is arranged on the left side of the right cavity plate, and a driving block is arranged in the lifting driving cavity; an inner upper pulley is arranged above the left side of the lifting driving cavity; the left stay cable is fixed on the right side wall of the driving block by a left sliding arm sequentially passing through a left upper pulley, a left stay cable hole, a left lower pulley, a bottom stay cable hole, a right lower pulley, a right stay cable hole and a right upper pulley; the right cable is fixed on the left side wall of the driving block along the inner upper pulley by a right sliding arm; one end of the hinge arm is hinged on the cavity panel, and the other end of the hinge arm is hinged on the driving block; the bottom of the first working chamber and the bottom of the second working chamber are both provided with a counterweight chamber, and a counterweight block is arranged in the counterweight chamber.

Preferably, the first working cavity comprises a first embedded platform, a first rotary supporting arm, a second rotary supporting arm, a large supporting ring group and a small supporting ring group, a first embedded groove is arranged above the working plate in the first working cavity, and the first embedded groove is disc-shaped; a first embedded platform is arranged in the first embedded groove; a first annular groove is formed in the circle center of the first embedded groove; a first annular convex ring is arranged below the first embedded platform; the first annular convex ring is clamped in the first annular groove; a first rotary supporting arm and a second rotary supporting arm are respectively arranged on the first embedded platform; the first rotary support arm is provided with more than five groups of large support ring groups, and the second rotary support arm is provided with more than five groups of small support ring groups.

The large supporting ring group comprises an upper large ring stand column, a large ring hoop circular groove, a large ring hoop circular table, a large ring supporting arm, a large ring hoop and a large ring baffle plate, the upper end of the large ring stand column is provided with the large ring hoop circular groove, and the lower end of the large ring stand column is provided with the large ring hoop circular table; one side of the large ring upright post is provided with a large ring supporting arm; the large hoop is arranged on the large ring supporting arm; a large hoop through hole is formed in the large hoop, and a large hoop board clamping groove is formed in the opposite side of the large hoop through hole; one end of the large baffle plate is provided with a large baffle plate clamping table, and the other end of the large baffle plate is provided with a large baffle plate grab handle; one end of the large ring baffle plate provided with the large ring baffle plate clamping table penetrates through the large ring hoop through hole to be inserted into the large ring baffle plate clamping groove, and the large ring baffle plate clamping table and the large ring baffle plate clamping groove are clamped with each other; the large hoop circular table of the upper large supporting ring group is clamped into the large hoop circular groove of the lower large supporting ring group, and the large hoop circular table of the upper large supporting ring group moves in a rotating mode along the large hoop circular groove of the lower large supporting ring group.

The small supporting ring group comprises an upper small ring stand column, a small ring hoop circular groove, a small ring hoop circular table, a small ring supporting arm, a small ring hoop and a small ring baffle plate, wherein the upper end of the small ring stand column is provided with the small ring hoop circular groove, and the lower end of the small ring stand column is provided with the small ring hoop circular table; one side of the small ring upright post is provided with a small ring supporting arm; the small ring supporting arm is provided with a small ring hoop; a small hoop through hole is formed in the small hoop, and a small hoop object plate clamping groove is formed in the side, opposite to the small hoop through hole, of the small hoop; one end of the small ring baffle plate is provided with a small ring baffle plate clamping table, and the other end of the small ring baffle plate is provided with a small ring baffle plate grab handle; one end of the small ring baffle object plate, which is provided with a small ring baffle object plate clamping table, penetrates through the small ring hoop through hole to be inserted into the small ring baffle object plate clamping groove, and the small ring baffle object plate clamping table and the small ring baffle object plate clamping groove are mutually clamped; and the small ring hoop circular table of the upper small supporting ring group moves rotationally along the small ring hoop circular groove of the lower small supporting ring group.

Preferably, the second working cavity comprises a second embedded platform, a left rotating and mixing device, a right rotating and mixing device, a left rotating and mixing driving device, a right rotating and mixing driving device, a left moving arm, a right moving arm and a main sliding column, a second embedded groove is arranged above the working plate in the second working cavity, and the second embedded groove is disc-shaped; a second embedded platform is arranged in the second embedded groove; a second annular groove is formed in the circle center of the second embedded groove; a second annular convex ring is arranged below the second embedded platform; the second annular convex ring is clamped in the second annular groove; the second embedded platform is respectively provided with a left rotating and mixing device and a right rotating and mixing device; the left rotating and mixing device is provided with a left rotating and mixing driving device, and the right rotating and mixing device is provided with a right rotating and mixing driving device; a main sliding column is arranged at the center of the second embedded platform; the main sliding column is respectively provided with a second left sliding chute and a second right sliding chute; one end of the left moving arm is fixed on the left-turning mixing driving device, and the other end of the left moving arm is provided with a left moving wheel; the left moving wheel extends into the second left sliding groove and moves along the second left sliding groove; one end of the right moving arm is fixed on the right rotating and mixing driving device, and the other end of the right moving arm is provided with a right moving wheel; the right moving wheel extends into the second right chute and moves along the second right chute.

The left-turning mixing device comprises a left-turning mixing column, an upper left clamping table and a lower left clamping table, wherein the upper left clamping table, the lower left clamping table and the left moving through hole are sequentially arranged on the left-turning mixing column from top to bottom; a first roller is clamped in the upper left clamping table; a second roller is clamped in the lower left clamping table; one side of the left moving through hole is respectively provided with a left upper retaining groove, a left middle retaining groove and a left lower retaining groove.

The left-turning mixed driving device comprises a left motor moving arm, a left tension spring, a left gear plate, a left motor, a left transmission arm, an upper left driving wheel, a middle left driving wheel, a lower left driving wheel and a left driving chain, wherein the left motor moving arm is sleeved in the left moving through hole; one end of the left motor moving arm is provided with a left holding rod, and the other end of the left motor moving arm is connected with a left motor; a left boss is arranged on the left motor moving arm, a left baffle plate is sleeved between the left boss and the left holding rod, and the left baffle plate moves along the left motor moving arm; one end of the left tension spring is connected with the left boss, and the other end of the left tension spring is connected with the left stop plate; the left gear plate is provided with a left bolt which is respectively inserted into the left upper gear groove, the left middle gear groove and the left lower gear groove; the upper end surface of the left motor is provided with a left transmission arm; the left transmission arm is sequentially provided with a left upper driving wheel, a left middle driving wheel and a left lower driving wheel from top to bottom; the left driving chain is sequentially connected with a clamped left motor, a left lower driving wheel, a left middle driving wheel and a left upper driving wheel; the left motor drives the left lower driving wheel, the left middle driving wheel and the left upper driving wheel to rotate through the left driving chain; the left moving arm is fixed on the left motor; the left lower driving wheel and the left middle driving wheel respectively correspond to the second roller and respectively drive the second roller to rotate; the upper left driving wheel corresponds to the first roller and drives the first roller to rotate.

The right-turn mixing device comprises a right-turn mixing column, an upper right clamping table and a lower right clamping table, and the upper right clamping table, the lower right clamping table and the right moving through hole are sequentially arranged on the right-turn mixing column from top to bottom; a third roller is clamped in the upper right clamping table; a fourth roller is clamped in the lower right clamping table; one side of the right moving through hole is respectively provided with a right upper retaining groove, a right middle retaining groove and a right lower retaining groove.

All set up the liquid stream through-hole on first cylinder, second cylinder, third cylinder and the fourth cylinder, set up the rubber buffer on the liquid stream through-hole, set up on the rubber buffer and paste cloth.

The right rotating mixing driving device comprises a right motor moving arm, a right tension spring, a right gear plate, a right motor, a right transmission arm, a right upper driving wheel, a right middle driving wheel, a right lower driving wheel and a right driving chain, and the right motor moving arm is sleeved in the right moving through hole; one end of the right motor moving arm is provided with a right holding rod, and the other end of the right motor moving arm is connected with a right motor; a right boss is arranged on the right motor moving arm, a right baffle plate is sleeved between the right boss and the right holding rod, and the right baffle plate moves along the right motor moving arm; one end of the right tension spring is connected with the right boss, and the other end of the right tension spring is connected with the right baffle plate; the right baffle plate is provided with a right bolt which is respectively inserted into the right upper baffle groove, the right middle baffle groove and the right lower baffle groove; the upper end surface of the right motor is provided with a right transmission arm; the right transmission arm is sequentially provided with a right upper driving wheel, a right middle driving wheel and a right lower driving wheel from top to bottom; the right driving chain is connected with a right motor, a right lower driving wheel, a right middle driving wheel and a right upper driving wheel in a clamping manner in sequence; the right motor drives the right lower driving wheel, the right middle driving wheel and the right upper driving wheel to rotate through the right driving chain; the right moving arm is fixed on the right motor; the right lower driving wheel and the right middle driving wheel respectively correspond to the fourth roller, and the right lower driving wheel and the right middle driving wheel respectively drive the fourth roller to rotate; the upper right driving wheel corresponds to the third roller and drives the third roller to rotate.

Compared with the prior art, the invention has the beneficial effects that:

1. the retainer body and the advancing rack body operate in a matched mode, wherein the retainer body plays a role in bearing and opening. As the body fluid sample transfer and storage equipment, constant temperature is the basic requirement of the equipment, so a constant temperature device is added into the equipment, and the constant temperature effect of the equipment is realized by reducing the modified Freon circulating system. Simultaneously because set up constant temperature equipment on first working chamber and second working chamber, contain the components and parts that a lot of need avoided vibrations among the constant temperature equipment, for example, the compressor, the surface cooler, condenser and freon pipeline of connection etc, so set up damping device between retainer body and two working chambers, damping device is no longer through left, the right side both sides set up the shock attenuation spring respectively and realize, the framework that the homopolar magnet that more increased through the cooperation of shock attenuation spring repulsion realizes the shock attenuation as the contact surface has simultaneously been on the constant temperature equipment part between first working chamber and second working chamber, thereby the shock attenuation effect has been improved greatly, the good operation of this position above-mentioned structure has been ensured.

The support body of marcing in this equipment mainly is responsible for the removal needs of the equipment that bears on the support body, considers the staff simultaneously to the convenience of equipment when the fixed point uses, has adopted horizontal "C" type design, and the centre has been taken, floated footboard design to the shank rest of staff when long-term operation. Meanwhile, the walking frame body and the equipment body are arranged in a separated mode, so that interactive operation among multiple pieces of equipment is facilitated.

2. The working plates are arranged in the working cavities and are convenient for doctors to use, the working plates are used as transmission devices through the left and right guy cables, the working cavity surface plate is accommodated in the working cavities after being opened, the left and right guy cables are synchronously pulled to move downwards in the lifting driving cavity through the driving block, and the working plates are driven to ascend through the reversing of the left, right, upper, lower and inner pulleys, so that the whole working tool or the whole culvert working surface is lifted, and the device ensures the sealing performance and the cleanliness of the working platform when not used; on the other hand, the working tool can meet the requirements of workers conveniently and quickly when in use.

3. This patent first working chamber belong to the various disease and wait to examine the working chamber of depositing of liquid, but this working chamber is through the rotatable hoop of the different specifications of different diameters, can adapt to appliances such as test tube or beaker of different size different diameters. When the structure is used specifically, the temporary storage of liquid containing vessels needing to be detected can be greatly facilitated by rotating the large and small hoop matching baffle plates which are adjacent or spaced from each other at different angles of the upright column. The structure has the advantages of ingenious design, flexible and changeable use, wide application range and strong applicability, and is very suitable for popularization and use in actual work.

4. The second working chamber described in this patent is a premixing chamber, and when a doctor encounters detection items such as premixing or dilution in actual examination, the operation can be completed through a working table lifted by the chamber. When the working cavity is used specifically, an operator can control the opening or closing of the four rollers at will according to specific conditions. When the motor is positioned at the uppermost gear, no matter the position of the left motor or the position of the right motor, the upper left driving wheel and the upper right driving wheel respectively drive the first roller and the third roller to rotate, and simultaneously the lower left driving wheel and the lower right driving wheel respectively drive the second roller and the fourth roller to rotate; when the motor is positioned at the middle gear, only the left middle driving wheel and the right middle driving wheel respectively drive the second roller and the fourth roller to rotate; when the motor is positioned at the lowest gear, the six driving wheels of the upper left driving wheel, the upper right driving wheel, the middle left driving wheel, the middle right driving wheel and the lower left driving wheel are not in contact with the four rollers of the first roller, the second roller, the third roller and the fourth roller, and the left motor and the right motor are matched to be opened or closed in the matching states of the types, so that the four opening modes of the first roller, the fourth roller and the fourth roller are realized. The structural operation mode of the device brings convenience to the doctor to the use to the maximum extent.

Drawings

FIG. 1 is a schematic structural view of the present patent;

FIG. 2 is a cross-sectional view of the present patent;

FIG. 3 is a schematic view of the structure of the traveling frame body;

FIG. 4 is a schematic structural view of a first working chamber;

FIG. 5 is a schematic diagram of a raised state of the first working chamber;

FIG. 6 is a schematic diagram of a second working chamber;

FIG. 7 is a schematic view of the structure of the drum;

in the figure: 1. a first connecting trepan boring; 2. a first damping clamping groove; 3. a left spring clamp groove; 4. a left damping spring; 5. a holder body; 6. a first working chamber; 7. an operating chamber; 8. a second working chamber; 9. a right supporting wheel 10 and a right spring clamping groove; 11. a right damping spring; 12. a damping second clamping groove; 13. a second fixed insertion arm; 14. a second connecting trepan boring; 15. a middle lower magnet; 16. a middle lower damping spring; 17. a first fixed insertion arm; 18. an air outlet pipeline; 19. a fan blade; 20. a surface cooler; 21. a wind motor; 22. a compressor; 23. a middle and upper damping spring; 24. a middle upper magnet; 25. a grip ring; 26. a drive column; 27. a left upright post; 28. A right upright post; 29. a latch post; 30. moving the fixed through hole; 31. a pedal; 32. a base plate; 33. a sticking cloth; 34. and a rubber plug.

6.1, a left cavity plate; 6.2, a left upper pulley; 6.3, a cavity panel; 6.4, a large hoop; 6.5, a large ring hoop circular groove; 6.6, a large ring column; 6.7, a macrocyclic support arm; 6.8, a large ring hoop circular table; 6.9, a small ring upright post; 6.10, an inner upper pulley; 6.11, articulated arm; 6.12, a driving block; 6.13, right upper pulley; 6.14, lifting the driving cavity; 6.15, a right lower pulley; 6.16, a counterweight cavity; 6.17, a right slipping wheel; 6.18, a working plate; 6.19, a small hoop; 6.20, a first annular convex ring; 6.21, a first annular groove; 6.22, a first embedded platform; 6.23, a left slipping wheel; 6.24, a left lower pulley; 6.25, a right cavity plate; 6.26, a small ring hoop circular groove; 6.27, a small ring supporting arm; 6.28, a small ring hoop circular table; 6.29, a small ring baffle plate grab handle; 6. 30, a small ring baffle plate; 6.31, a small ring gear object plate clamping groove; 6.32, a small ring gear object plate clamping table;

8.1, a first roller; 8.2, clamping the platform at the upper left; 8.3, left-turning mixing column; 8.4, clamping the platform at the lower left; 8.5, clamping the platform at the lower left; 8.6, moving the through hole leftwards; 8.7, an upper left catch groove; 8.8, a left holding rod; 8.9, left tension spring; 8.10, a left bolt; 8.11, moving the arm by a left motor; 8. 12, a left lower catch basin; 8.13, a left motor; 8.14, a left driving chain; 8.15, a left lower driving wheel; 8.16, a left middle driving wheel; 8.17, an upper left driving wheel; 8.18, a left moving wheel; 8.19, a main sliding column; 8.20, a right moving wheel; 8.21, a right motor; 8.22, a lower right catch groove; 8.23, a right middle gear groove; 8.24, a right bolt; 8.25, right shift via; 8.26, a right tension spring; 8.27, a right holding rod; 8.28, right boss; 8.29, a lower right driving wheel; 8.30, a fourth roller; 8.31, right middle driving wheel; 8.32, a third drum; 8.33, clamping the platform on the right; 8.34, a right drive chain; 8.35, a right upper driving wheel;

12.1, an upper object placing rack; 12.2, a left article supporting arm; 12.3, a left annular clamping groove of the supporting arm; 12.4, a left support arm annular clamping table; 12.5, a lower object placing rack; 12.6, placing an article jack; 12.7, a right object support arm; 12.8, vent holes; 12.9, a right annular clamping groove of the supporting arm; 12.10, right support arm ring-shaped clamping table.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 and 2, a medical sample storage box for a hospital clinical laboratory comprises a holder body, a traveling holder body, a constant temperature device, a damping device, a first working chamber and a second working chamber, wherein the holder body is U-shaped; the inner wall of the bottom of the U-shaped retainer body is respectively provided with a connecting sleeve hole and a damping device; the inner walls of the vertical arms at the two sides of the U-shaped retainer body are oppositely provided with a left supporting wheel and a right supporting wheel; a first working cavity and a second working cavity are horizontally arranged between the vertical arms at the two sides of the U-shaped retainer body; a constant temperature device is arranged between the first working cavity and the second working cavity; a first working cavity, a constant temperature device and a second working cavity are sequentially arranged between the vertical arms at the two sides of the U-shaped retainer body along the left supporting wheel and the right supporting wheel; the fixed inserting arm is arranged on the advancing frame body; the connecting sleeve hole is internally sleeved with a fixed inserting arm.

When the equipment runs, the whole equipment completes the framework in a mode of inserting and combining the advancing rack body and the retainer body, wherein the advancing wheels below the advancing rack body complete the movement. The first fixed inserting arm is sleeved in the first connecting sleeve hole, and the second fixed inserting arm is sleeved in the second connecting sleeve hole, so that the connection and fixation between the two frame bodies are completed. And the first working cavity and the second working cavity are fixed by the retainer body. The body fluid to be tested in the working cavity is synchronously controlled at constant temperature by a constant temperature device clamped between the first working cavity and the second working cavity.

The constant temperature device comprises an operation cavity, an air outlet pipeline, an air conveying pipe, an air inlet pipeline, a condenser and a compressor, wherein a right cavity plate of the first working cavity is respectively provided with a first air inlet and a first air outlet; a second air inlet and a second air outlet are respectively arranged on the left cavity plate of the second working cavity; one end of the air outlet pipeline is connected with the first air outlet, and the other end of the air outlet pipeline is connected with the second air outlet; a first connecting air port is arranged in the middle of the air outlet pipeline; one end of the air inlet pipeline is connected with a first air inlet, and the other end of the air inlet pipeline is connected with a second air inlet; a second connecting air port is arranged in the middle of the air inlet pipeline; one end of the air conveying pipe is connected with the first connecting air port, and the other end of the air conveying pipe is connected with the second connecting air port; a surface cooler is arranged in the air outlet pipeline; a wind motor is arranged in the connecting pipe, and a fan blade is arranged on the wind motor; a condenser is arranged outside the connecting pipe; a compressor is arranged below the air inlet pipeline; an operation cavity is arranged above the air outlet pipeline, and a control circuit and a switch board are arranged in the operation cavity; the switch board and the control circuit are connected with an external power supply through a lead; the compressor, the condenser and the surface cooler are connected through Freon pipelines.

When the device is in operation, the first working cavity and the second working cavity are both provided with the air inlet and the air outlet, and the air in the working cavities sequentially passes through the air inlet pipeline, the air conveying pipe and the air outlet pipeline to complete air cooling, so that the constant temperature control of the temperature in the two working cavities is further realized. The air is driven by the fan blades by the wind motor in the air delivery pipe, the temperature of the air is further regulated and controlled by the surface air cooler in the air outlet pipeline, and the air after constant temperature control enters the two working chambers through the air outlet pipeline again, so that the constant temperature control of the working chambers is completed in an internal circulation mode.

The damping device comprises a left damping spring, a right damping spring, an upper middle magnet, a lower middle damping spring and a lower middle magnet, wherein a left spring clamping groove is formed in the bottom of the first working cavity, and a right spring clamping groove is formed in the bottom of the second working cavity; a middle spring clamping groove is arranged between the first working cavity and the second working cavity; a first connecting sleeve hole and a second connecting sleeve hole are respectively arranged on the inner wall of the bottom of the U-shaped retainer body; a damping middle clamping groove is formed in the inner wall of the bottom of the U-shaped retainer body between the first connecting sleeve hole and the second connecting sleeve hole; a damping first clamping groove is formed between the first connecting sleeve hole and the vertical arm on the left side of the U-shaped retainer body; a damping second clamping groove is formed between the second connecting sleeve hole and the right vertical arm of the U-shaped retainer body; one end of the left damping spring is connected with a left spring clamping groove, and the other end of the left damping spring is connected with a damping first clamping groove; one end of the right damping spring is connected with the right spring clamping groove, and the other end of the right damping spring is connected with the second damping clamping groove; the middle-upper magnet and the middle-lower magnet are both in a T shape; one end of the middle and upper damping spring is connected with a middle spring clamping groove, and the T-shaped vertical arm end of the middle and upper magnet penetrates through the other end of the middle and upper damping spring; one end of the middle lower damping spring is connected with the middle damping clamping groove, and the T-shaped vertical arm end of the middle lower magnet penetrates into the other end of the middle lower damping spring; the cross arm end of the middle upper magnet T-shaped and the cross arm end of the middle lower magnet T-shaped are vertically arranged opposite to the same pole.

When the device operates, because the constant temperature equipment has been set up in this equipment, and constant temperature equipment need avoid vibrations, so set up left spring draw-in groove and right spring draw-in groove on first working chamber and second working chamber respectively, the first draw-in groove of shock attenuation and the shock attenuation second draw-in groove that set up on the cooperation "U" type retainer body, finally carry out the shock attenuation through left shock attenuation spring and right shock attenuation spring to the equipment of top, simultaneously in order to strengthen the shock attenuation effect, well middle and upper shock attenuation spring has still been set up in the constant temperature equipment below, well middle and lower magnet, this structure is through well middle and upper shock attenuation spring and well lower shock attenuation spring as main shock attenuation setting, the rethread well middle and upper magnet carries out vice shock attenuation setting, thereby maximum reinforcing shock attenuation effect.

As shown in fig. 3, the traveling frame body comprises a bottom plate, a left upright post, a right upright post, an upper connecting plate, a lower connecting plate, a driving post and a pedal, a traveling wheel is arranged below the bottom plate, and the left upright post and the right upright post are respectively arranged on one side of the bottom plate; an upper connecting plate and a lower connecting plate are respectively arranged between the right upright columns of the left upright column from top to bottom; a first fixed inserting arm is arranged on the left upright post; a second fixed inserting arm is arranged on the right upright post; the first fixed inserting arm is sleeved in the first connecting sleeve hole; the second fixed inserting arm is sleeved in the second connecting sleeve hole; one side of the bottom plate is provided with a driving column; a plurality of movable fixing through holes are formed in the driving column in an array manner; the upper end of the driving column is provided with a holding ring, and the lower end of the driving column is provided with a pedal; the lower connecting plate is provided with a positioning fixing through hole; the positioning fixing through hole and the moving fixing through hole are sleeved with the latch post.

The support body operation of marcing carries out equipment support through left stand, right stand, then accomplishes the equipment through operating personnel manual promotion drive column and removes, when removing the back that targets in place, when the staff need long-term operation, can realize the height adjustment of footboard through adjusting the removal fixed through-hole that the location fixed through-hole corresponds the difference to relax the shank. Meanwhile, the structure can also meet different height requirements when workers with different heights push the driving arm.

As shown in fig. 5, a platform lifting device is arranged in each of the first working cavity and the second working cavity, the platform lifting device comprises a left guy cable, a right guy cable, a left upper pulley, a left lower pulley, a right upper pulley, a right lower pulley, an inner upper pulley, a lifting driving cavity, a driving block, a cavity panel and an articulated arm, the first working cavity and the second working cavity are cavities with openings at the upper parts, and the cavity panel is arranged at the opening at the upper part of the cavity; the cavity comprises a left cavity plate, a right cavity plate, a front cavity plate, a rear cavity plate and a bottom cavity plate; a working plate is arranged above the bottom cavity plate; the inner wall of the left cavity plate is provided with a left sliding chute, and the inner wall of the right cavity plate is provided with a right sliding chute; one end of the working plate is provided with a left sliding arm, and the other end of the working plate is provided with a right sliding arm; the left sliding arm is respectively provided with a left inhaul cable and a left sliding wheel, and the right sliding arm is respectively provided with a right inhaul cable and a right sliding wheel; the left sliding wheel moves along the left sliding chute, and the right sliding wheel moves along the right sliding chute; a left upper pulley is arranged above the left cavity plate, and a left lower pulley is arranged below the left cavity plate; a right upper pulley is arranged above the right cavity plate, and a right lower pulley is arranged below the right cavity plate; a left guy cable hole, a right guy cable hole and a bottom guy cable hole are respectively arranged in the left cavity plate, the right cavity plate and the bottom cavity plate; a lifting driving cavity is arranged on the left side of the right cavity plate, and a driving block is arranged in the lifting driving cavity; an inner upper pulley is arranged above the left side of the lifting driving cavity; the left stay cable is fixed on the right side wall of the driving block by a left sliding arm sequentially passing through a left upper pulley, a left stay cable hole, a left lower pulley, a bottom stay cable hole, a right lower pulley, a right stay cable hole and a right upper pulley; the right cable is fixed on the left side wall of the driving block along the inner upper pulley by a right sliding arm; one end of the hinge arm is hinged on the cavity panel, and the other end of the hinge arm is hinged on the driving block.

When the device is operated, the device has two conditions of a starting position and a working position. When the working chamber is at the initial position, the working table is placed at the bottom of the working chamber, and devices or appliances required by various works arranged on the working table are placed inside the working chamber and are sealed by the chamber panel so as to keep the cleanliness of the working devices and the appliances. When the staff need use the workstation, the staff only need open the chamber panel, through the articulated shaft, rotatory chamber panel gets the angle, pushes down along promoting the drive chamber, drives left cable and right cable by the drive block in step and rises the actuating motion to work. At the moment, the working plate is taken as a transmission device through the left and right guys, the action of accommodating the working chamber into the working chamber by opening the rear working chamber panel is realized, the left and right guys are synchronously pulled by the driving block to move downwards in the lifting driving chamber, and the working plate is driven to ascend through the reversing of the left, right, upper, lower and inner pulleys, so that the whole working table and the working platform are arranged, the working device and the working appliance are integrally lifted, the position of the working table panel is reached, and the working table is normally used.

The first working cavity and the second working cavity are internally provided with counterweight cavities, and counterweight blocks are arranged in the counterweight cavities.

The device has the effect that each working cavity is used in a rotating mode, so that the mode that the cavity panel is arranged upwards is always kept in the rotating process of each working cavity. Through the heavy light mode of setting in top in below of balancing weight utilization, alright in order to fine keep the whole gesture of working chamber in rotatory in-process unchangeable.

As shown in fig. 4, the first working chamber includes a first embedded platform, a first rotating support arm, a second rotating support arm, a large support ring group and a small support ring group, a first embedded groove is arranged above the working plate in the first working chamber, and the first embedded groove is disc-shaped; a first embedded platform is arranged in the first embedded groove; a first annular groove is formed in the circle center of the first embedded groove; a first annular convex ring is arranged below the first embedded platform; the first annular convex ring is clamped in the first annular groove; a first rotary supporting arm and a second rotary supporting arm are respectively arranged on the first embedded platform; the first rotary support arm is provided with more than five groups of large support ring groups, and the second rotary support arm is provided with more than five groups of small support ring groups.

When the first working chamber is used, the opening mode of the working chamber is the same as the described opening mode of the cavity panel, and after the first working chamber is opened, the working panel is also driven to move upwards by the downward pressing of the cavity panel, so that a worker can use a working device or an appliance in the first working chamber. The internal device of the working chamber is divided into two conditions of an initial state and a use state. In an initial state, a plurality of large hoops are vertically arranged along the large-ring upright posts, and a plurality of small hoops are vertically arranged along the small-ring upright posts; when the user needs to apply the device, the operator can freely decide to place the vessel in the large or small hoop according to the length and the diameter of the body fluid containing vessel to be detected. When the body fluid containing vessel is placed, the body fluid containing vessel is placed into the large hoop or the small hoop according to the diameter of the body fluid containing vessel, and then several groups of large supporting ring groups are selected according to the length of the body fluid containing vessel to match the length requirement of the body fluid containing vessel. Big hoop or ringlet are when rotating, have adopted two liang of modes of clamping each other to go on, clamp through adjacent big ring clamp round platform and pack into big ring clamp circular slot and ringlet clamp round platform and clamp the structure realization device of packing into ringlet clamp circular slot and clamp fixedly, simultaneously because the draw-in groove and the card platform of adoption are circular setting, so can not influence the setting and big hoop and ringlet rotate on big ring support arm and ringlet support arm. When the large supporting ring group and the small supporting ring group are used, after the large supporting ring group and the small supporting ring group are adjusted to be proper, the large ring hoop and the small ring hoop at the lowest part of the body fluid vessel to be tested are respectively inserted into the large ring hoop clamping table and the small ring hoop clamping table, and the device combination is completed. At the moment, the large hoop through hole is inserted into the large hoop, and the large hoop clamping table at one end of the large hoop is inserted into the large hoop clamping groove to clamp and fix the large hoop through hole, so that a large-size body fluid containing vessel to be detected is blocked; meanwhile, the small ring baffle plate is inserted into the small ring baffle plate clamping groove along one end of the small ring hoop through hole, the small ring baffle plate clamping table is inserted into the small ring baffle plate clamping groove to be clamped and fixed, and accordingly, the small-size body fluid containing vessel to be inspected is blocked.

As shown in fig. 6 and 7, the second working chamber includes a second embedded platform, a left rotating and mixing device, a right rotating and mixing device, a left rotating and mixing driving device, a right rotating and mixing driving device, a left moving arm, a right moving arm and a main sliding column, a second embedded groove is arranged above the working plate in the second working chamber, and the second embedded groove is disc-shaped; a second embedded platform is arranged in the second embedded groove; a second annular groove is formed in the circle center of the second embedded groove; a second annular convex ring is arranged below the second embedded platform; the second annular convex ring is clamped in the second annular groove; the second embedded platform is respectively provided with a left rotating and mixing device and a right rotating and mixing device; the left rotating and mixing device is provided with a left rotating and mixing driving device, and the right rotating and mixing device is provided with a right rotating and mixing driving device; a main sliding column is arranged at the center of the second embedded platform; the main sliding column is respectively provided with a second left sliding chute and a second right sliding chute; one end of the left moving arm is fixed on the left-turning mixing driving device, and the other end of the left moving arm is provided with a left moving wheel; the left moving wheel extends into the second left sliding groove and moves along the second left sliding groove; one end of the right moving arm is fixed on the right rotating and mixing driving device, and the other end of the right moving arm is provided with a right moving wheel; the right moving wheel extends into the second right chute and moves along the second right chute.

When the second working chamber is used, the opening mode of the working chamber is the same as the described opening mode of the cavity panel, and after the second working chamber is opened, the working panel is also driven to move upwards by the downward pressing of the cavity panel, so that a worker can use a working device or an appliance in the working chamber. When the working chamber is used, a worker firstly opens the adhesive cloth on the four rollers, further opens the rubber plug, then mixes the diluted body fluid to be detected into the corresponding rollers, further starts the left motor or the right motor, correspondingly drives the different rollers through different driving wheels, and realizes the premixing dilution of the body fluid to be detected in the four rollers. Adopt this structure to set up multiple different drive forms when the drive, at first the operating personnel hold the pole on the handheld left motor moving arm of left side or hold the pole on the right motor moving arm of right side, further keep off the position board or the right baffle through mentioning left side for left bolt or right bolt can correspond respectively and insert left upper catch groove, left middle catch groove, left lower catch groove or right upper catch groove, right middle catch groove, right lower catch groove, with this different drive mode of four cylinders of realization. An operator can conveniently complete the horizontal position adjustment of the left motor and the right motor only by adjusting the horizontal positions of the left holding rod and the right holding rod and correspondingly inserting the left bolt and the right bolt into the gear slots, so that the working relations between different left upper driving wheels, left middle driving wheels, left lower driving wheels, right upper driving wheels, right middle driving wheels, right lower driving wheels, first rollers, second rollers, third rollers and fourth rollers are changed, no matter the position of the left motor or the position of the right motor, when the position of the motor is in the uppermost gear, the left upper driving wheels and the right upper driving wheels respectively drive the first rollers and the third rollers to rotate, and simultaneously, the left lower driving wheels and the right lower driving wheels respectively drive the second rollers and the fourth rollers to rotate; when the motor is positioned at the middle gear, only the left middle driving wheel and the right middle driving wheel respectively drive the second roller and the fourth roller to rotate; when the motor is positioned at the lowest gear, the six driving wheels of the upper left driving wheel, the upper right driving wheel, the middle left driving wheel, the middle right driving wheel and the lower left driving wheel are not in contact with the four rollers of the first roller, the second roller, the third roller and the fourth roller, and the left motor and the right motor are matched to be opened or closed in the matching states of the types, so that four opening modes from one to four of the first roller to the fourth roller and the four rollers are realized.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. Any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention, without departing from the technical solution of the present invention, still belong to the protection scope of the technical solution of the present invention.

Claims

1. The utility model provides a medical treatment sample storage box of clinical laboratory of hospital which characterized in that: the device comprises a retainer body, a traveling frame body, a constant temperature device, a damping device, a first working cavity and a second working cavity, wherein the retainer body is U-shaped; the inner wall of the bottom of the U-shaped retainer body is respectively provided with a connecting sleeve hole and a damping device; the inner walls of the vertical arms at the two sides of the U-shaped retainer body are oppositely provided with a left supporting wheel and a right supporting wheel; a first working cavity and a second working cavity are horizontally arranged between the vertical arms at the two sides of the U-shaped retainer body; a constant temperature device is arranged between the first working cavity and the second working cavity; a first working cavity, a constant temperature device and a second working cavity are sequentially arranged between the vertical arms at the two sides of the U-shaped retainer body along the left supporting wheel and the right supporting wheel; the fixed inserting arm is arranged on the advancing frame body; the connecting sleeve hole is internally sleeved with a fixed inserting arm.

2. The hospital clinical laboratory medical sample storage box according to claim 1, wherein: platform lifting devices are arranged in the first working cavity and the second working cavity respectively and comprise a left pull rope, a right pull rope, a left upper pulley, a left lower pulley, a right upper pulley, a right lower pulley, an inner upper pulley, a lifting driving cavity, a driving block, a cavity panel and a hinged arm, the first working cavity, the second working cavity, the third working cavity and the fourth working cavity are cavities with openings at the upper parts, and cavity panels are arranged at the openings at the upper parts of the cavities; the cavity comprises a left cavity plate, a right cavity plate, a front cavity plate, a rear cavity plate and a bottom cavity plate; a working plate is arranged above the bottom cavity plate; the inner wall of the left cavity plate is provided with a left sliding chute, and the inner wall of the right cavity plate is provided with a right sliding chute; one end of the working plate is provided with a left sliding arm, and the other end of the working plate is provided with a right sliding arm; the left sliding arm is respectively provided with a left inhaul cable and a left sliding wheel, and the right sliding arm is respectively provided with a right inhaul cable and a right sliding wheel; the left sliding wheel moves along the left sliding chute, and the right sliding wheel moves along the right sliding chute; a left upper pulley is arranged above the left cavity plate, and a left lower pulley is arranged below the left cavity plate; a right upper pulley is arranged above the right cavity plate, and a right lower pulley is arranged below the right cavity plate; a left guy cable hole, a right guy cable hole and a bottom guy cable hole are respectively arranged in the left cavity plate, the right cavity plate and the bottom cavity plate; a lifting driving cavity is arranged on the left side of the right cavity plate, and a driving block is arranged in the lifting driving cavity; an inner upper pulley is arranged above the left side of the lifting driving cavity; the left stay cable is fixed on the right side wall of the driving block by a left sliding arm sequentially passing through a left upper pulley, a left stay cable hole, a left lower pulley, a bottom stay cable hole, a right lower pulley, a right stay cable hole and a right upper pulley; the right cable is fixed on the left side wall of the driving block along the inner upper pulley by a right sliding arm; one end of the hinge arm is hinged on the cavity panel, and the other end of the hinge arm is hinged on the driving block; the bottom of the first working chamber and the bottom of the second working chamber are both provided with a counterweight chamber, and a counterweight block is arranged in the counterweight chamber.

3. The hospital clinical laboratory medical sample storage box according to claim 2, wherein: the constant temperature device comprises an operation cavity, an air outlet pipeline, an air conveying pipe, an air inlet pipeline, a condenser and a compressor, wherein a right cavity plate of the first working cavity is respectively provided with a first air inlet and a first air outlet; a second air inlet and a second air outlet are respectively arranged on the left cavity plate of the second working cavity; one end of the air outlet pipeline is connected with the first air outlet, and the other end of the air outlet pipeline is connected with the second air outlet; a first connecting air port is arranged in the middle of the air outlet pipeline; one end of the air inlet pipeline is connected with a first air inlet, and the other end of the air inlet pipeline is connected with a second air inlet; a second connecting air port is arranged in the middle of the air inlet pipeline; one end of the air conveying pipe is connected with the first connecting air port, and the other end of the air conveying pipe is connected with the second connecting air port; a surface cooler is arranged in the air outlet pipeline; a wind motor is arranged in the connecting pipe, and a fan blade is arranged on the wind motor; a condenser is arranged outside the connecting pipe; a compressor is arranged below the air inlet pipeline; an operation cavity is arranged above the air outlet pipeline, and a control circuit and a switch board are arranged in the operation cavity; the switch board and the control circuit are connected with an external power supply through a lead; the compressor, the condenser and the surface cooler are connected through Freon pipelines.

4. The hospital clinical laboratory medical sample storage box according to claim 2, wherein: the damping device comprises a left damping spring, a right damping spring, an upper middle magnet, a lower middle damping spring and a lower middle magnet, wherein a left spring clamping groove is formed in the bottom of the first working cavity, and a right spring clamping groove is formed in the bottom of the second working cavity; a middle spring clamping groove is arranged between the first working cavity and the second working cavity; a first connecting sleeve hole and a second connecting sleeve hole are respectively arranged on the inner wall of the bottom of the U-shaped retainer body; a damping middle clamping groove is formed in the inner wall of the bottom of the U-shaped retainer body between the first connecting sleeve hole and the second connecting sleeve hole; a damping first clamping groove is formed between the first connecting sleeve hole and the vertical arm on the left side of the U-shaped retainer body; a damping second clamping groove is formed between the second connecting sleeve hole and the right vertical arm of the U-shaped retainer body; one end of the left damping spring is connected with a left spring clamping groove, and the other end of the left damping spring is connected with a damping first clamping groove; one end of the right damping spring is connected with the right spring clamping groove, and the other end of the right damping spring is connected with the second damping clamping groove; the middle-upper magnet and the middle-lower magnet are both in a T shape; one end of the middle and upper damping spring is connected with a middle spring clamping groove, and the T-shaped vertical arm end of the middle and upper magnet penetrates through the other end of the middle and upper damping spring; one end of the middle lower damping spring is connected with the middle damping clamping groove, and the T-shaped vertical arm end of the middle lower magnet penetrates into the other end of the middle lower damping spring; the cross arm end of the middle upper magnet T-shaped and the cross arm end of the middle lower magnet T-shaped are vertically arranged opposite to the same pole.

5. The hospital clinical laboratory medical sample storage box according to claim 2, wherein: the travelling frame body comprises a bottom plate, a left upright post, a right upright post, an upper connecting plate, a lower connecting plate, a driving post and a pedal, wherein a travelling wheel is arranged below the bottom plate, and the left upright post and the right upright post are respectively arranged on one side of the bottom plate; an upper connecting plate and a lower connecting plate are respectively arranged between the right upright columns of the left upright column from top to bottom; a first fixed inserting arm is arranged on the left upright post; a second fixed inserting arm is arranged on the right upright post; the first fixed inserting arm is sleeved in the first connecting sleeve hole; the second fixed inserting arm is sleeved in the second connecting sleeve hole; one side of the bottom plate is provided with a driving column; a plurality of movable fixing through holes are formed in the driving column in an array manner; the upper end of the driving column is provided with a holding ring, and the lower end of the driving column is provided with a pedal; the lower connecting plate is provided with a positioning fixing through hole; the positioning fixing through hole and the moving fixing through hole are sleeved with the latch post.

6. The hospital clinical laboratory medical sample storage box according to claim 1, wherein: the first working cavity comprises a first embedded platform, a first rotary supporting arm, a second rotary supporting arm, a large supporting ring group and a small supporting ring group, a first embedded groove is arranged above the working plate in the first working cavity, and the first embedded groove is disc-shaped; a first embedded platform is arranged in the first embedded groove; a first annular groove is formed in the circle center of the first embedded groove; a first annular convex ring is arranged below the first embedded platform; the first annular convex ring is clamped in the first annular groove; a first rotary supporting arm and a second rotary supporting arm are respectively arranged on the first embedded platform; more than five groups of large supporting ring groups are arranged on the first rotary supporting arm, and more than five groups of small supporting ring groups are arranged on the second rotary supporting arm;

the large supporting ring group comprises an upper large ring stand column, a large ring hoop circular groove, a large ring hoop circular table, a large ring supporting arm, a large ring hoop and a large ring baffle plate, the upper end of the large ring stand column is provided with the large ring hoop circular groove, and the lower end of the large ring stand column is provided with the large ring hoop circular table; one side of the large ring upright post is provided with a large ring supporting arm; the large hoop is arranged on the large ring supporting arm; a large hoop through hole is formed in the large hoop, and a large hoop board clamping groove is formed in the opposite side of the large hoop through hole; one end of the large baffle plate is provided with a large baffle plate clamping table, and the other end of the large baffle plate is provided with a large baffle plate grab handle; one end of the large ring baffle plate provided with the large ring baffle plate clamping table penetrates through the large ring hoop through hole to be inserted into the large ring baffle plate clamping groove, and the large ring baffle plate clamping table and the large ring baffle plate clamping groove are clamped with each other; the large hoop circular table of the upper large supporting ring group is clamped into the large hoop circular groove of the lower large supporting ring group, and the large hoop circular table of the upper large supporting ring group rotationally moves along the large hoop circular groove of the lower large supporting ring group;

7. The hospital clinical laboratory medical sample storage box according to claim 1, wherein: the second working cavity comprises a second embedded platform, a left rotating and mixing device, a right rotating and mixing device, a left rotating and mixing driving device, a right rotating and mixing driving device, a left moving arm, a right moving arm and a main sliding column, a second embedded groove is arranged above the working plate in the second working cavity, and the second embedded groove is disc-shaped; a second embedded platform is arranged in the second embedded groove; a second annular groove is formed in the circle center of the second embedded groove; a second annular convex ring is arranged below the second embedded platform; the second annular convex ring is clamped in the second annular groove; the second embedded platform is respectively provided with a left rotating and mixing device and a right rotating and mixing device; the left rotating and mixing device is provided with a left rotating and mixing driving device, and the right rotating and mixing device is provided with a right rotating and mixing driving device; a main sliding column is arranged at the center of the second embedded platform; the main sliding column is respectively provided with a second left sliding chute and a second right sliding chute; one end of the left moving arm is fixed on the left-turning mixing driving device, and the other end of the left moving arm is provided with a left moving wheel; the left moving wheel extends into the second left sliding groove and moves along the second left sliding groove; one end of the right moving arm is fixed on the right rotating and mixing driving device, and the other end of the right moving arm is provided with a right moving wheel; the right moving wheel extends into the second right chute and moves along the second right chute.

8. The hospital clinical laboratory medical sample storage box according to claim 7, wherein: the left-turning mixing device comprises a left-turning mixing column, an upper left clamping table and a lower left clamping table, wherein the upper left clamping table, the lower left clamping table and the left moving through hole are sequentially arranged on the left-turning mixing column from top to bottom; a first roller is clamped in the upper left clamping table; a second roller is clamped in the lower left clamping table; one side of the left moving through hole is respectively provided with a left upper retaining groove, a left middle retaining groove and a left lower retaining groove;

9. The hospital clinical laboratory medical sample storage box according to claim 7, wherein: the right-turn mixing device comprises a right-turn mixing column, an upper right clamping table and a lower right clamping table, and the upper right clamping table, the lower right clamping table and the right moving through hole are sequentially arranged on the right-turn mixing column from top to bottom; a third roller is clamped in the upper right clamping table; a fourth roller is clamped in the lower right clamping table; one side of the right moving through hole is respectively provided with a right upper retaining groove, a right middle retaining groove and a right lower retaining groove;

the first roller, the second roller, the third roller and the fourth roller are all provided with liquid flow through holes, rubber plugs are arranged on the liquid flow through holes, and sticking cloth is arranged on the rubber plugs;