CN115043079B

CN115043079B - Human anatomy is with anticorrosive save set of viscera sample

Info

Publication number: CN115043079B
Application number: CN202210866966.8A
Authority: CN
Inventors: 田郡; 郝玲; 徐红涛; 董安定; 李伟
Original assignee: Jiangsu Vocational College of Medicine
Current assignee: Jiangsu Vocational College of Medicine
Priority date: 2022-07-22
Filing date: 2022-07-22
Publication date: 2023-04-11
Anticipated expiration: 2042-07-22
Also published as: CN115043079A

Abstract

The invention discloses an anti-corrosion preservation device for visceral specimens for human anatomy, which relates to the technical field of human anatomy and comprises a supporting seat, a lifting disc and a storage assembly, wherein a preservation box is arranged on the outer side of the top of the supporting seat, the middle end of the bottom of the preservation box is connected with a first motor, the output end of the first motor is connected with a lead screw, and the outer end of the lead screw is connected with a threaded seat. When the storage box is used, after an operator inserts the tube body loaded with the viscera specimen into the placing groove, the equipment can automatically perform a series of work such as temperature reduction, centrifugal dehydration, formalin solution injection and the like on the viscera specimen, so that the operator can concentrate on specimen collection operation, and meanwhile, through a series of automatic operation of the equipment, the operating frequency of the operator can be effectively reduced, thereby greatly reducing the fatigue feeling generated by the operator and simultaneously reducing the error condition of the viscera specimen collection operation.

Description

Human anatomy is with anticorrosive save set of viscera sample

Technical Field

The invention relates to the technical field of human anatomy, in particular to a viscera specimen antiseptic storage device for human anatomy.

Background

Anatomy is a biological branch subject that relates to the structure and tissue of a living body and can be divided into animal anatomy and plant anatomy. The major branches of the anatomy are the comparative anatomy, histology and human anatomy, wherein the human anatomy is an important way to understand the physiological structure and pathological changes of the human body, and after the human body internal organs are dissected, the human anatomy usually uses formalin solution to soak and preserve tissue specimens.

Human anatomy manual dehydration and formalin solution soaking are usually required after internal organ tissue dissection, but the internal organ tissue dissection usually requires multiple parts, and the dissection chamber area is usually small, so that the number of operators involved in the dissection is usually small, which causes that the multiple parts of internal organ tissue are easy to be mixed, and the multiple parts of internal organ tissue are extracted discontinuously, which causes that the discontinuous dehydration and formalin solution soaking procedures are complicated, and the fatigue of the dissection operators is easy to be caused.

Disclosure of Invention

The invention aims to provide a viscera specimen preservation device for human anatomy, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an anticorrosive save set of viscera specimen for human anatomy, includes supporting seat, lifting disk and deposits the subassembly, the top outside of supporting seat is provided with the case of keeping, and the bottom middle-end of keeping the case is connected with first motor, the output of first motor is connected with the lead screw, and the outer end of lead screw is connected with the screw thread seat, the lifting disk is connected in the outside surface of screw thread seat, and the outer end of lifting disk is connected with the iron layer, the inboard on iron layer is connected with the roll pearl, the inboard surface of keeping the case is connected with the electro-magnet, it settles in the inboard of lifting disk to deposit the subassembly, and the inboard of depositing the subassembly is provided with test tube assembly, the access mouth has been seted up to the top left end of keeping the case, and the top middle-end of keeping the case is provided with the refrigerator, the bottom outside of refrigerator is provided with the mouth of blowing, the inside left side of supporting seat is provided with the extraction subassembly, and the inside right side of supporting seat is provided with the injection subassembly.

Furthermore, the lead screw is in threaded connection with the threaded seat, and the threaded seat is in sleeved connection with the lifting disc.

Furthermore, the lifting disc and the iron layer are integrated, and the iron layer is connected with the electromagnet in an electromagnetic adsorption mode.

Further, deposit the subassembly including depositing seat, axis of rotation, second motor, third motor, arrangement seat and arrangement groove, the outside both sides of depositing the seat are connected with the axis of rotation, and the input of axis of rotation is connected with the second motor, the bottom outside of depositing the seat is provided with the third motor, and the output of third motor is connected with the arrangement seat, the arrangement groove has been seted up to the top inboard of arrangement seat.

Furthermore, the placing seat is connected with the storage seat in a sleeved mode, and the placing grooves are distributed in the placing seat in an annular mode.

Further, the test tube subassembly includes body, rubber layer and outflow baffle, the inboard top of body is connected with the rubber layer, and the inboard middle-end of body is connected with the outflow baffle, the body is connected with the seat block of placeeing.

Further, the extraction assembly comprises an extraction needle, a suction box and a discharge pipe, wherein the bottom end of the extraction needle is connected with the suction box, and the left outer side of the suction box is connected with the discharge pipe.

Furthermore, the number and the positions of the extraction needles correspond to those of the arrangement grooves one by one, and the extraction needles are communicated with the discharge pipe through a suction box.

Furthermore, the injection assembly comprises an injection needle, an injection box and a liquid storage box, wherein the bottom end of the injection needle is connected with the injection box, and the liquid storage box is connected to the outer side of the bottom of the injection box.

Furthermore, the number and the positions of the injection needles correspond to those of the placement grooves one to one, and the liquid storage box is communicated with the injection needles through the injection box.

The invention provides an internal organ specimen anticorrosion preservation device for human anatomy, which has the following beneficial effects: whether the iron layer is sucked by the electromagnet to control the lifting disc to lift or rotate or not can enable the equipment to finish the material taking of the lifting disc only by using a single lead screw, and various operations such as position adjustment, sample classification and the like can be greatly improved, the use convenience of the equipment can be greatly improved, meanwhile, the functions can be combined, the probability of equipment failure can also be reduced, the storage box is used, after an operator inserts a tube body loaded with a viscera sample into the placing groove, the equipment can automatically cool the viscera sample, carry out centrifugal dehydration, formalin solution injection and other operations, the operator can concentrate on the sample collection operation, and meanwhile, through a series of automatic operations of the equipment, the operation frequency of the operator can be effectively reduced, the fatigue feeling generated by the operator can be greatly reduced, and meanwhile, the error condition of the viscera sample collection operation can also be reduced.

1. The electromagnet can adsorb an iron layer after being electrified, the first motor works to enable the screw rod to rotate, the screw rod can drive the screw base to rotate on the surface of the screw rod in the rotating process, the lifting disc at the outer end of the screw base is integrated with the iron layer, so that in the rotating process of the screw base driving the lifting disc, the screw base cannot rotate due to the iron layer adsorbed by the electromagnet, the lifting disc cannot rotate, the screw base can lift up and down along with the screw rod in the rotating process of the outer end of the screw rod, the lifting disc can be driven to displace together in the lifting process of the lifting disc, the storage assembly at the inner side of the lifting disc can be driven to displace towards the direction of the through hole, an operator can extract a human viscera sample and put the sample into the test tube assembly, the through opening the through hole, the placement base can be exposed, after the test tube assembly is inserted into the placement groove, the operator can complete the storage of viscera, when the operator needs to store different types of samples, the different types of the samples, the adsorption layer can be disconnected with the iron layer, the first motor drives the lifting disc to drive the lifting disc to rotate, and the screw rod to rotate, and the storage assembly to reduce the use of the sample when the operator needs to store the different types of the sample, and the sample, so that the bottom of the sample can be confused.

2. After the visceral specimens are stored, the electromagnet is electrified again, so that the electromagnet can adsorb an iron layer again, the lifting disc can be driven to move downwards when the screw rod rotates, the lifting disc can drive the test tube assembly storing the visceral specimens to enter the storage box for storage, the storage box is internally provided with a sealing structure, the probability of contact between the visceral specimens and the outside can be effectively reduced, the storage safety of the visceral specimens can be improved, in addition, the refrigerator works, the air blowing port can blow cold air into the storage box, the visceral specimens can be stored at low temperature, the lifting disc is controlled to lift or rotate by adopting whether the electromagnet sucks the iron layer, the material taking, the position adjustment, the sample classification and other works of the lifting disc can be finished by using a single screw rod, the use convenience of the equipment can be greatly improved, the functions are compounded, and the probability of failure of the equipment can also be reduced.

3. According to the invention, after an operator takes out the rubber layer and the outflow baffle plate in the tube body, the viscera specimen is placed in the tube body, the viscera specimen can slide to the bottom of the tube body, at the moment, the rubber layer and the outflow baffle plate are placed back to the original positions, so that the arrangement of the viscera specimen in the tube body can be finished, the tube body works in the arrangement process of the arrangement groove, the arrangement seat can rotate at the inner side of the storage seat, the viscera specimen in the tube body can be subjected to centrifugal operation through high-speed rotation of the arrangement seat in the storage seat, so that the moisture in the viscera specimen can be separated from the viscera specimen through centrifugation, after the centrifugation is finished, the storage seat can rotate through the rotating shaft through the work of the second motor, so that the upper position and the lower position of the storage seat can be changed, the tube body can be inverted, and after the tube body is inverted, the moisture separated from the viscera specimen can flow out through the outflow baffle plate, so that the viscera specimen can be separated from the moisture centrifugally separated.

4. After the moisture is separated, the lifting disc moves downwards continuously to enable the extraction needle to be inserted into the inner side of the rubber layer, the suction box works to enable the extraction needle to extract liquid in the tube body and discharge the liquid from the discharge tube, after the moisture is extracted, the lifting disc moves upwards and rotates to enable the tube body to be aligned to one side of the injection needle, the lifting disc moves downwards continuously to enable the injection needle to be inserted into the inner side of the rubber layer, the injection box works to enable formalin solution in the liquid storage box to be injected into the tube body through the injection needle, and the formalin solution is injected into the viscera specimen after the moisture in the viscera specimen is separated, so that the anti-corrosion effect of the viscera specimen can be improved effectively.

5. When the storage box is used, after an operator inserts the tube body loaded with the viscera specimen into the placing groove, the equipment can automatically perform a series of work such as temperature reduction, centrifugal dehydration, formalin solution injection and the like on the viscera specimen, so that the operator can concentrate on specimen collection operation, and meanwhile, through a series of automatic operation of the equipment, the operating frequency of the operator can be effectively reduced, thereby greatly reducing the fatigue feeling generated by the operator and simultaneously reducing the error condition of the viscera specimen collection operation.

Drawings

FIG. 1 is a schematic front view of the preservation apparatus for visceral specimens in human anatomy according to the present invention;

FIG. 2 is a schematic diagram of a longitudinal sectional structure of a screw seat of the preservation device for viscera specimens used in human anatomy;

FIG. 3 is an enlarged schematic view of the viscera specimen preservation device for human anatomy shown in FIG. 1 at A;

FIG. 4 is a schematic top view of the elevating plate of the preservation apparatus for viscera specimens used in human anatomy according to the present invention;

FIG. 5 is a schematic view of a storage assembly of the preservation apparatus for visceral specimens in human anatomy according to the present invention;

FIG. 6 is a schematic view of the tube assembly of the preservation device for visceral specimens in human anatomy according to the present invention;

FIG. 7 is a schematic view of an outflow baffle of the preservation apparatus for viscera specimens used in human anatomy;

fig. 8 is a schematic view of the top view of the inside of the storage box of the preservation device for preserving visceral specimens for human anatomy according to the present invention.

In the figure: 1. a supporting seat; 2. a storage box; 3. a first motor; 4. a lead screw; 5. a threaded seat; 6. a lifting plate; 7. a ferrous layer; 8. rolling the beads; 9. an electromagnet; 10. storing the assembly; 1001. a storage seat; 1002. a rotating shaft; 1003. a second motor; 1004. a third motor; 1005. placing a seat; 1006. a placing groove; 11. a cuvette assembly; 1101. a pipe body; 1102. a rubber layer; 1103. an outflow baffle; 12. an inlet; 13. a refrigerator; 14. an air blowing port; 15. an extraction assembly; 1501. extracting the needle; 1502. a suction box; 1503. a discharge pipe; 16. an injection assembly; 1601. an injection needle; 1602. an injection box; 1603. a liquid storage tank.

Detailed Description

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides an anticorrosive save set of viscera sample for human anatomy, including supporting seat 1, lifting disk 6 and deposit subassembly 10, the top outside of supporting seat 1 is provided with preserves case 2, and the bottom middle-end of preserving case 2 is connected with first motor 3, the output of first motor 3 is connected with lead screw 4, and lead screw 4's outer end is connected with screw base 5, lifting disk 6 is connected in screw base 5's outside surface, and lifting disk 6's outer end is connected with iron layer 7, iron layer 7's inboard is connected with roll pearl 8, the inboard surface of preserving case 2 is connected with electro-magnet 9, it settles in lifting disk 6's inboard to deposit subassembly 10, and the inboard of depositing subassembly 10 is provided with test tube assembly 11, the access opening 12 has been seted up to the top left end of preserving case 2, and the top middle-end of preserving case 2 is provided with refrigerator 13, the bottom outside of refrigerator 13 is provided with blowing mouth 14, the inside left side of supporting seat 1 is provided with extraction subassembly 15, and the inside right side of supporting seat 1 is provided with injection subassembly 16.

Referring to fig. 1-7, the screw rod 4 is in threaded connection with the threaded base 5, the threaded base 5 is in socket connection with the lifting tray 6, the lifting tray 6 is integrated with the iron layer 7, the iron layer 7 is in electromagnetic adsorption connection with the electromagnet 9, the storage assembly 10 includes a storage base 1001, a rotating shaft 1002, a second motor 1003, a third motor 1004, a placement base 1005 and a placement groove 1006, the rotating shaft 1002 is connected to two outer sides of the storage base 1001, the second motor 1003 is connected to an input end of the rotating shaft 1002, the third motor 1004 is arranged on an outer side of a bottom of the storage base 1001, an output end of the third motor 1004 is connected with the placement base 1005, the placement groove 1006 is arranged on an inner side of a top of the placement base 1005, the placement base 1005 is in socket connection with the storage base 1001, the placement groove 1006 is annularly distributed inside the placement base 1005, the test tube assembly 11 includes a tube body 1101, a rubber layer 1102 and an outflow baffle 1103, a top end of the tube body 1101 is connected with the outflow baffle 1103, and the tube body is in clamping connection with the placement base 1005;

the specific operation is as follows, the electromagnet 9 can adsorb the iron layer 7 after being powered on, at this time, the first motor 3 works to enable the screw rod 4 to rotate, the screw rod 4 can drive the screw seat 5 to rotate on the surface thereof in the rotating process, because the lifting disc 6 at the outer end of the screw seat 5 is integrated with the iron layer 7, in the rotating process of the screw seat 5 driving the lifting disc 6, the screw seat 6 can not rotate because of the iron layer 7 adsorbed by the electromagnet 9, and because the lifting disc 6 can not rotate, at this time, the screw seat 5 can lift up and down along with the screw rod 4 in the rotating process of the outer end of the screw rod 4, and in the lifting process of the screw seat 5, the lifting disc 6 can be driven to displace together, in this way, the storage assembly 10 at the inner side of the lifting disc 6 can displace together in the direction of the through hole 12, in the process of the iron layer 7 moving up, the rolling ball 8 can roll on the surface of the electromagnet 9, this can be very big reduce the frictional force between iron matter layer 7 and electro-magnet 9, thus make the lift of lifting disk 6 more smooth, operating personnel is extracting human viscera sample, and put the sample into test tube subassembly 11 inside, through opening logical entry 12, can make placer 1005 expose, operating personnel inserts test tube subassembly 11 inside the placer groove 1006, alright accomplish the save of viscera sample, and when operating personnel need to store different types of viscera sample, electro-magnet 9 cuts off the power supply, can with the absorption disconnection of iron matter layer 7, when first motor 3 drove lead screw 4 at this moment and rotate, screw thread seat 5 can drive lifting disk 6 and rotate together, this makes lifting disk 6 can be through rotatory different storage assembly 10 removal to the bottom of access 12, through using different types of storage assembly 10 to store different test tube subassembly 11, the condition that human viscera sample that reduction that can be very big takes place to obscure, after dirty sample storage is accomplished, switch on once more through electro-magnet 9, enable electro-magnet 9 to adsorb iron layer 7 once more, when lead screw 4 rotated this moment, can drive lifting disk 6 and move down, this makes lifting disk 6 can drive the test tube subassembly 11 that stores viscera sample and enter into the inside storage to save case 2, save case 2 inside is seal structure, this can effectively reduce the probability that viscera sample and external world contacted, this can promote the storage security of viscera sample, refrigerator 13 work in addition, can make air-blowing mouth 14 blow in air conditioning to save case 2 inside, this makes viscera sample originally can carry out cryogenic storage, and whether control lifting disk 6 through adopting electro-magnet 9 to inhale iron layer 7 and go up and down or rotate, it only uses single lead screw 4 alright accomplish lifting disk 6 get material, each item work such as position adjustment and sample classification, this can very big promotion equipment's convenience of use, simultaneously with function composition, also can reduce the probability that equipment breaks down.

Referring to fig. 1 and 8, the extraction assembly 15 includes an extraction needle 1501, a suction box 1502 and a discharge pipe 1503, the bottom end of the extraction needle 1501 is connected with the suction box 1502, the left outer side of the suction box 1502 is connected with the discharge pipe 1503, the number and the position of the extraction needle 1501 correspond to the number and the position of the placement grooves 1006 one by one, the extraction needle 1501 communicates with the discharge pipe 1503 through the suction box 1502, the injection assembly 16 includes an injection needle 1601, an injection box 1602 and a liquid storage box 1603, the bottom end of the injection needle 1601 is connected with the injection box 1602, the bottom outer side of the injection box 1602 is connected with the liquid storage box 1603, the number and the position of the injection needle 1601 correspond to the number and the position of the placement grooves 1006 one by one, and the liquid storage box 1603 communicates with the injection needle 1601 through the injection box 1602;

specifically, after the operator takes out the rubber layer 1102 and the outflow flap 1103 inside the tube 1101, the operator places the viscera specimen inside the tube 1101, the viscera specimen can slide to the bottom of the tube 1101, and at this time, the rubber layer 1102 and the outflow flap 1103 are placed back to their original positions, so that the placement of the viscera specimen inside the tube 1101 can be completed, the tube 1101 is operated by the third motor 1004 during the placement of the placement groove 1006, the placement holder 1005 can be rotated inside the storage holder 1001, the centrifugation operation of the placement holder 1005 in the storage holder 1001 can be performed at a high speed, so that the water in the viscera specimen can be separated from the viscera specimen by centrifugation, and after the centrifugation is completed, the storage holder 1001 can be rotated by the rotation shaft 1002 by the operation of the second motor 1003, so that the upper and lower positions of the storage holder 1001 can be reversed, so that the tube 1101, after the pipe 1101 is inverted, the water separated from the internal organ specimen can flow out through the outflow baffle 1103, which enables the internal organ specimen to be separated from the water centrifugally separated, after the water separation, the lifting plate 6 moves downward continuously to enable the extraction needle 1501 to be inserted into the inner side of the rubber layer 1102, at this time, the suction box 1502 operates to enable the extraction needle 1501 to extract the liquid in the pipe 1101 and discharge the liquid from the discharge pipe 1503, after the water extraction is completed, the lifting plate 6 moves upward and rotates to enable the pipe 1101 to be aligned with the injection needle 1601 side, at this time, the lifting plate 6 moves downward continuously to enable the injection needle 1601 to be inserted into the inner side of the rubber layer 1102, at this time, the injection box 1602 operates to enable the formalin solution in the liquid storage box 1603 to be injected into the pipe 1101 through the injection needle 1601, and through the formalin solution after the water separation in the internal organ specimen, the antiseptic effect of the internal organ specimen can be effectively improved, preservation case 2 is in the use, operating personnel will load the body 1101 that has viscera sample and insert to the inside back of arrangement groove 1006, equipment alright automatically to viscera sample cool down, a series of work such as centrifugal dehydration and formalin solution injection, this makes operating personnel can concentrate on the operation of sample collection, a series of automatic operation through equipment simultaneously, can effectively reduce operating personnel's operating frequency, thereby the produced tired sense of very big reduction operating personnel of ability, also can reduce the condition that viscera sample collection work took place the mistake simultaneously.

To sum up, the viscera specimen anticorrosion preservation device for human anatomy comprises an electromagnet 9, a first motor 3, a lead screw 4, a lifting disc 6 and an iron layer 7, wherein the electromagnet 9 can adsorb the iron layer 7 after being electrified, the first motor 3 can rotate the lead screw 4, the lead screw 4 can drive a threaded seat 5 to rotate on the surface of the lead screw in the rotating process, the lifting disc 6 and the iron layer 7 at the outer end of the threaded seat 5 are integrated, so that the lifting disc 6 can not rotate due to the adsorption of the iron layer 7 on the electromagnet 9 in the rotating process of the lead screw 5, the lifting disc 6 can be driven to move together in the rotating process of the threaded seat 5 at the outer end of the lead screw 4, the lifting disc 6 can be driven to move together in the lifting process, the storage assembly 10 at the inner side of the lifting disc 6 can be driven to move together towards a through hole 12, and the rolling balls 8 of the electromagnet 9 can roll on the surface of the electromagnet 9 in the upward moving process of the iron layer 7, so that the friction between the iron layer 7 and the iron layer 9 can be greatly reduced, and the lifting disc 6 can be more smooth;

then, an operator extracts a human body viscera sample, puts the sample into the inner side of the test tube assembly 11, can expose the placing seat 1005 by opening the through inlet 12, can finish the storage of the viscera sample after inserting the test tube assembly 11 into the placing groove 1006, and when the operator needs to store viscera samples of different types, the electromagnet 9 is powered off and can be disconnected from the iron layer 7, at the moment, when the first motor 3 drives the screw rod 4 to rotate, the screw seat 5 can drive the lifting disc 6 to rotate together, so that the lifting disc 6 can move different storing assemblies 10 to the bottom end of the through inlet 12 by rotating, and the confusion of the human body viscera sample can be greatly reduced by storing different test tube assemblies 11 by using different types of storing assemblies 10;

then after the storage of the internal organ specimen is finished, the electromagnet 9 is electrified again, the electromagnet 9 can adsorb the iron layer 7 again, at the moment, when the screw rod 4 rotates, the lifting disc 6 can be driven to move downwards, the lifting disc 6 can drive the test tube assembly 11 storing the internal organ specimen to enter the storage box 2 for storage, the storage box 2 is internally provided with a sealing structure, the probability of the internal organ specimen contacting with the outside can be effectively reduced, the storage safety of the internal organ specimen can be improved, in addition, the refrigerator 13 works, the air blowing port 14 can blow cold air into the storage box 2, the internal organ specimen can be stored at low temperature, and the lifting disc 6 is controlled to lift or rotate by adopting whether the electromagnet 9 sucks the iron layer 7 or not, the equipment can finish the work of taking materials, position adjustment, sample classification and the like of the lifting disc 6 by using only a single screw rod 4, the use convenience of the equipment can be greatly improved, the function is combined, and the probability of the equipment failure can also be reduced;

then, after the operator takes out the rubber layer 1102 and the outflow baffle 1103 in the tube 1101, the internal organ specimen is placed in the tube 1101, the internal organ specimen can slide to the bottom of the tube 1101, and at this time, the rubber layer 1102 and the outflow baffle 1103 are placed back to the original position, so that the placement of the internal organ specimen in the tube 1101 can be completed;

finally, after the moisture separation, the lifting plate 6 moves downwards continuously to enable the extraction needle 1501 to be inserted into the inner side of the rubber layer 1102, at this time, the suction box 1502 works to enable the extraction needle 1501 to extract the liquid in the tube body 1101 and discharge the liquid from the discharge pipe 1503, after the moisture extraction is completed, the lifting plate 6 moves upwards and rotates to enable the tube body 1101 to be aligned with one side of the injection needle 1601, at this time, the lifting plate 6 moves downwards continuously to enable the injection needle 1601 to be inserted into the inner side of the rubber layer 1102, at this time, the injection box 1602 works to enable the formalin solution in the liquid storage box 1603 to be injected into the tube body 1101 through the injection needle 1601, and after the moisture in the visceral specimens is separated, the formalin solution is injected, so that the preservative effect of the visceral specimens can be effectively improved.

Claims

1. An internal organ specimen antiseptic preservation device for human anatomy is characterized by comprising a supporting seat (1), a lifting disc (6) and a storage assembly (10), a storage box (2) is arranged on the outer side of the top of the supporting seat (1), the middle end of the bottom of the storage box (2) is connected with a first motor (3), the output end of the first motor (3) is connected with a screw rod (4), the outer end of the screw rod (4) is connected with a threaded seat (5), the lifting disc (6) is connected with the outer side surface of the threaded seat (5), the outer end of the lifting disc (6) is connected with an iron layer (7), the inner side of the iron layer (7) is connected with a rolling bead (8), the inner side surface of the storage box (2) is connected with an electromagnet (9), the storage assembly (10) is arranged at the inner side of the lifting disc (6), and the inner side of the storage component (10) is provided with a test tube component (11), the left end of the top of the storage box (2) is provided with an inlet (12), and the middle end of the top of the preservation box (2) is provided with a refrigerator (13), an air blowing port (14) is arranged at the outer side of the bottom of the refrigerator (13), an extraction component (15) is arranged at the left side in the supporting seat (1), an injection assembly (16) is arranged at the right side in the supporting seat (1);

the storage assembly (10) comprises a storage seat (1001), a rotating shaft (1002), a second motor (1003), a third motor (1004), a placing seat (1005) and a placing groove (1006), the rotating shaft (1002) is connected to two sides of the outside of the storage seat (1001), the input end of the rotating shaft (1002) is connected with the second motor (1003), the third motor (1004) is arranged on the outer side of the bottom of the storage seat (1001), the placing seat (1005) is connected to the output end of the third motor (1004), and the placing groove (1006) is formed in the inner side of the top of the placing seat (1005);

the placing seat (1005) is connected with the storage seat (1001) in a sleeved mode, and the placing grooves (1006) are distributed in the placing seat (1005) in an annular mode;

the test tube subassembly (11) includes body (1101), rubber layer (1102) and outflow baffle (1103), the inboard top of body (1101) is connected with rubber layer (1102), and the inboard middle-end of body (1101) is connected with outflow baffle (1103), body (1101) and arrangement seat (1005) block are connected.

2. The device for preserving and preserving the viscera specimen used in the human anatomy according to the claim 1, characterized in that the screw rod (4) is connected with the screw seat (5) in a threaded way, and the screw seat (5) is connected with the lifting disk (6) in a sleeved way.

3. The preservative device for human anatomical viscera specimens, according to claim 1, characterized in that the lifting plate (6) is integrated with the iron layer (7), and the iron layer (7) is connected with the electromagnet (9) in an electromagnetic adsorption manner.

4. The viscera specimen preservation device for human anatomy according to claim 1, characterized in that the extraction assembly (15) comprises an extraction needle (1501), a suction box (1502) and a discharge pipe (1503), the bottom end of the extraction needle (1501) is connected with the suction box (1502), and the left outer side of the suction box (1502) is connected with the discharge pipe (1503).

5. The device for preserving and preserving the viscera specimens of human anatomy according to the claim 4, characterized in that the number and the positions of the extraction needles (1501) correspond to those of the placement grooves (1006) one by one, and the extraction needles (1501) are communicated with the discharge pipe (1503) through the suction box (1502).

6. The viscera specimen preservation device for human anatomy according to claim 1, wherein the injection assembly (16) comprises an injection needle (1601), an injection box (1602) and a liquid storage box (1603), the injection needle (1601) is connected with the injection box (1602) at the bottom end, and the liquid storage box (1603) is connected with the outside of the bottom of the injection box (1602).

7. The device for preserving and preserving the viscera specimens used for human anatomy according to the claim 6, characterized in that the number and the positions of the injection needles (1601) correspond to those of the placing grooves (1006) one by one, and the liquid storage tank (1603) is communicated with the injection needles (1601) through the injection tank (1602).