CN113588979A

CN113588979A - External detection device for artificial insemination fertilized egg implantation

Info

Publication number: CN113588979A
Application number: CN202110957575.2A
Authority: CN
Inventors: 张颖; 陈芊
Original assignee: Wuhan University WHU
Current assignee: Wuhan University WHU
Priority date: 2021-08-18
Filing date: 2021-08-18
Publication date: 2021-11-02
Anticipated expiration: 2041-08-18
Also published as: CN113588979B

Abstract

The application relates to an external detection device for artificial insemination oosperm implantation, which comprises: a work table; a blood analyzer; the placing table is movably arranged on the workbench, and is provided with a plurality of blood sample placing tools for placing a plurality of blood samples to be detected; the driving assembly is connected with and can drive the placement table and is used for driving the plurality of blood sample placement tools on the placement table to move; and one end of the extraction component is connected with the blood analyzer, and the other end of the extraction component can extract the blood sample to be detected in the blood sample placing tool passing through the other end of the extraction component into the blood analyzer. When a large number of blood samples to be detected are required to be detected, the plurality of blood samples can be placed on the plurality of blood sample placing tools, the subsequent driving assembly can control the placing table to move, the blood samples passing through the lower portion of the extracting assembly are extracted and conveyed into the blood analyzer, automatic detection of the plurality of blood samples and recording of detection results are achieved, the working strength of operators is fully reduced, and the working efficiency is improved.

Description

External detection device for artificial insemination fertilized egg implantation

Technical Field

The application relates to the technical field of medical detection equipment, in particular to an in-vitro detection device for implantation of fertilized eggs in artificial insemination.

Background

The quality of sperms needs to be judged to reach the standard before the implantation of the fertilized eggs in the prior art, and the operation of extracting blood in a human body for inspection and the like is needed after the implantation of the fertilized eggs, wherein a plurality of blood to be detected are inspected.

In the correlation technique, the staff need examine whole blood of treating the inspection in proper order, and carry out the record, but because there are more blood samples and need examine and judge whether have the embryonated egg phenomenon of nidation, will make the overall operation too troublesome, give the work of a large amount that the staff brought, the treatment effeciency is low, awaits further improvement.

Disclosure of Invention

The embodiment of the application provides an external detection device of artificial insemination embryonated egg implantation to whether have the embryonated egg implantation phenomenon when more blood sample need examine to judge among the solution correlation technique, operating personnel detects one by one in proper order and will make the overall operation too troublesome, and work load is great, problem that the treatment effeciency is low.

In a first aspect, an in-vitro detection device for implantation of fertilized eggs in artificial insemination is provided

An artificial insemination fertilized egg implantation in-vitro detection device, comprising:

a work table;

a blood analyzer;

the placing table is movably arranged on the workbench, and is provided with a plurality of blood sample placing tools for placing a plurality of blood samples to be detected;

the driving assembly is connected with and can drive the placing table so as to drive the plurality of blood sample placing tools on the placing table to move;

and the extraction component is connected with the blood analyzer at one end, and can extract the blood sample to be detected in the blood sample placing tool passing through the extraction component below the extraction component into the blood analyzer at the other end.

In some embodiments, the blood sample placing tool is movably disposed on the placing table, and a control component is disposed on the placing table, connected to the blood sample placing tool, and used for adjusting the position of the blood sample placing tool on the placing table.

In some embodiments, the rest table is rotatably disposed on the table top, the blood sample placing tools are circumferentially arranged along the rest table at intervals, and the driving assembly is used for driving the rest table to rotate intermittently.

In some embodiments, an elastic expansion piece is connected to one side of the blood sample placing tool, and the expansion direction of the elastic expansion piece is horizontal;

the control assembly comprises a controllable connecting piece which is arranged below the blood sample placing tool and is used for connecting the rest below the blood sample placing tool and maintaining the elastic expansion piece in a stretching state.

In some embodiments, the controllable connecting member is an electromagnet disposed on the rest at equal angular intervals, and the bottom of the blood sample placing tool is disposed with a magnetically-attracted metal sheet.

In some embodiments, the extraction component comprises:

a pump;

the connecting pipeline is connected with the extraction pump, one end of the connecting pipeline is connected with the detection container in the blood sample analyzer, and the other end of the connecting pipeline is movably sleeved with an extraction needle head;

and the lifting driving piece is connected with the extraction pillow and drives the extraction needle head to repeatedly lift and extend into different blood samples to be detected in the blood sample placing tool for extraction.

In some embodiments, the lift drive comprises:

the sliding screw rod is rotatably arranged on the workbench, a sliding block is sleeved on the sliding screw rod in a threaded manner, and the sliding block is fixedly connected with the extraction needle head;

and the servo motor is arranged at the end part of the sliding screw rod to drive the sliding screw rod to rotate.

In some embodiments, the blood sample analyzer further comprises a terminal controller electrically connected to the blood sample analyzer, the extraction assembly, the driving assembly, and the control assembly.

In some embodiments, the worktable surface is provided with a storage device, the storage device is provided with a plurality of storage grooves, and the storage device is internally provided with a temperature regulating part.

In some embodiments, the stage surface is provided with a microscope.

The beneficial effect that technical scheme that this application provided brought includes:

the embodiment of the application provides an external detection device of artificial insemination embryonated egg implantation, because when needing to wait to detect the blood sample to more quantity, can place a plurality of blood samples on a plurality of blood sample placement tools, follow-up drive assembly can control the platform of shelving and move about, this device will utilize the extraction element to draw and send to the blood analyzer in to the blood sample through its below when the activity, realize automatic to the automated inspection of a plurality of blood samples and the record of testing result, fully reduce operating personnel's working strength, and the work efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic overall structure diagram provided in an embodiment of the present application;

FIG. 2 is an enlarged view of the structure of the area A in FIG. 1;

FIG. 3 is a schematic structural diagram of an extraction assembly according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a driving assembly according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a temperature adjusting member provided in the present application.

In the figure:

1. a work table; 10. mounting grooves; 100. a reinforcing bar; 11. a storage frame; 12. a limiting groove;

2. a blood analyzer;

3. a rest table; 30. a blood sample placement tool; 300. an L-shaped bracket; 301. a limiting lantern ring; 302. a test tube; 31. an elastic extensible member; 310. a spring; 32. an electromagnet; 33. magnetically attracting the metal sheet; 34. a support pillar;

4. a drive assembly;

5. an extraction component; 50. connecting a pipeline; 501. extracting the needle head; 51. a sliding screw rod; 510. a slider; 52. a servo motor;

6. a terminal controller;

7. a storage device; 70. a storage tank; 71. a temperature regulating member; 72. a storage column; 73. storing the tank; 74. a head cover;

8. and (4) a microscope.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the application provides an external detection device of artificial insemination embryonated egg implantation, which can solve the problems that in the prior art, when more blood samples need to be checked and judged whether the embryonated egg implantation occurs, an operator detects one by one in sequence to cause the whole operation to be too troublesome, the workload is large and the processing efficiency is low.

Referring to fig. 1, an in vitro detecting device for implantation of fertilized eggs in artificial insemination includes:

a work table 1;

a blood analyzer 2;

a placing table 3 movably arranged on the worktable 1 and provided with a plurality of blood sample placing tools 30 for placing a plurality of blood samples to be detected;

a driving assembly 4 connected to and driving the rest table 3 for driving the plurality of blood sample placing tools 30 on the rest table 3 to move;

an extraction assembly 5, one end of which is connected to the blood analyzer 2 and the other end of which is capable of extracting the blood sample to be tested in the blood sample placement tool 30 passing thereunder into the blood analyzer 2.

Set up like this, when need examine a great amount to wait to detect the blood sample, can place a plurality of blood samples on a plurality of blood sample placement tool 30, follow-up drive assembly 4 can control and rest platform 3 and move about, this device will utilize when the activity and draw subassembly 5 to draw the blood sample through its below and send to blood analysis appearance 2 in, realize automatic automated inspection and the record of testing result to a plurality of blood samples, fully reduce operating personnel's working strength, improved work efficiency.

Alternatively, referring to fig. 1 and 4, the blood sample placing tool 30 is movably disposed on the placing table 3, and a control component is disposed on the placing table 3, connected to the blood sample placing tool 30, and configured to adjust a position of the blood sample placing tool 30 on the placing table 3.

By means of the arrangement, the position of the blood sample placing tool 30 relative to the placing table 3 can be changed as required through the control assembly, and then after the blood analyzer 2 detects out the result of each blood sample to be detected, the position of the corresponding blood sample placing tool 30 can be changed by the control assembly for an operator to be different from the initial placing position, so that whether the detection is qualified or not can be distinguished quickly in the follow-up process, and the follow-up recording is facilitated.

Alternatively, referring to fig. 2, the rest 3 is rotatably disposed on the top surface of the worktable 1, the blood sample placing tools 30 are circumferentially spaced along the rest 3, and the driving assembly 4 is configured to drive the rest 3 to intermittently rotate.

In this embodiment, the in-vitro implantation detection device for fertilized eggs for artificial insemination comprises a workbench 1, and a placing table 3 is rotatably arranged on the workbench 1. 1 side of workstation is equipped with mounting groove 10, and mounting groove 10 is blind groove, be equipped with stiffener 100 in the mounting groove 10, and stiffener 100 is fixed with workstation 1 through the bolt, the fixed frame 11 of depositing of stiffener 100 one end, blood analyzer 2 installs in depositing frame 11, and blood analyzer 2 with deposit frame 11 in one side offset, the subassembly 5 that draws then sets up in 1 mesa of workstation. The driving assembly 4 comprises a rotating motor, the rotating motor is embedded in a groove in the top surface of the workbench 1 and is connected with a bolt in the groove in the top surface of the workbench 1, the working end of the rotating motor is connected with the placing table 3, a supporting column 34 is fixed on the top surface of the placing table 3, and the supporting column 34 is located in the middle of the placing table 3.

With the arrangement, the placing table 3 is driven to rotate quickly by the rotating motor, so that the blood sample placing tools 30 can rotate to the lower part of the extraction assembly when needed, and the blood sample placing tool is simple in structure and easy to manufacture.

Optionally, an elastic expansion piece 31 is connected to one side of the blood sample placing tool 30 described with reference to fig. 1 and 2, and the expansion direction of the elastic expansion piece 31 is horizontal;

the control assembly comprises a controllable connector of the rest table 3 disposed below the blood sample placing tool 30 for fixedly adsorbing the blood sample placing tool 30 above the controllable connector and maintaining the elastic expansion piece 31 in a stretched state.

In this embodiment, elastic expansion piece 31 be along circumferential array fixed connection in spring 310 on support column 34 surface, spring 310 one end be equipped with blood sample placing tool 30 and be connected, blood sample placing tool 30 includes L type support 300, and L type support 300 welds with spring 310 one end, one side bolted connection of L type support 300 has spacing lantern ring 301, be equipped with test tube 302 in the spacing lantern ring 301, and test tube 302 gomphosis is in spacing lantern ring 301, and test tube 302 bottom offsets with L type support 300 top surface.

With such an arrangement, the stretching length of the elastic expansion piece 31 can be quickly realized by controlling the controllable connecting piece after the detection result of the blood sample in each test tube 302 is obtained, that is, the position of the blood sample placing tool 30 is controlled, the position of the blood sample placing tool 30 is changed into the adsorption of the blood sample placing tool 30, and the control assembly can more easily realize the position of the blood sample placing tool 30 to be controlled as required.

Alternatively, referring to fig. 2, the controllable connecting member is an electromagnet 32 disposed on the rest table 3 at equal angular intervals, and the bottom of the blood sample placing tool 30 is disposed with a magnetic metal sheet 33.

In this embodiment, the electromagnets 32 are fixed on the top surface of the rest 3 in an array, the magnetic metal sheet 33 is disposed at the bottom of the L-shaped bracket 300 directly above the electromagnets 32, the magnetic metal sheet 33 is bolted to the bottom surface of the L-shaped bracket 300, and after the electromagnets 32 are turned on, the electromagnets can magnetically attract the metal plate and fix the springs 310 between the L-shaped bracket 300 and the supporting pillars 34.

With the arrangement, the position of the L-shaped bracket 300 connected with the spring 310 is controlled by the on-off of the electromagnet 32, the structure is simple, the detection result is easy to realize and quick to reflect, and an operator can effectively master the detection results of different test tubes 302.

Optionally, with reference to fig. 3, the extraction assembly 5 comprises:

a pump;

a connection pipeline 50 connected with the extraction pump, wherein one end of the connection pipeline is connected with the detection container in the blood sample analyzer, and the other end of the connection pipeline is movably sleeved with an extraction needle 501;

and the lifting driving part is connected with the extraction pillow and drives the extraction needle 501 to repeatedly lift and extend into different blood samples to be detected in the blood sample placing tool 30 for extraction.

Optionally, the lifting drive comprises:

the sliding screw rod 51 is rotatably arranged on the workbench 1, a sliding block 510 is sleeved on the sliding screw rod in a threaded manner, and the sliding block 510 is fixedly connected with the extraction needle 501;

and the servo motor 52 is arranged at the end part of the sliding screw rod 51 and is used for driving the sliding screw rod 51 to rotate.

In this embodiment, the drawing pump is disposed in the blood analyzer 2 (not shown in the figure), one end of the connection pipeline 50 is connected to the blood analyzer 2, the drawing needle 501 is movably sleeved in one end of the connection pipeline 50, and the drawing needle 501 is located right above the test tube 302, meanwhile, the lifting driving member disposed on the top surface of the workbench 1 includes a sliding screw 51, one end of the sliding screw 51 is connected to the top surface of the workbench 1 through a bearing seat by a bolt, a sliding block 510 is disposed on the surface of the sliding screw 51, the sliding block 510 is sleeved with the surface of the sliding screw 51, the sliding block 510 is movably connected to the sliding screw 51, and the drawing needle 501 is connected to a groove on the top surface of the sliding block 510 by a thread; the servo motor 52 is connected with one end of the sliding screw 51, and then can drive the sliding screw 51 to rotate after the opening, and finally drive the sliding block 510 to move up and down, namely drive the extraction needle 501 to move up and down, and cooperate with the extraction pump to realize extracting the blood sample to be detected in the test tube 302.

The arrangement is that after the sperms and the ova are combined, blood is extracted from a human body for detection in 6-7 working days, the extracted blood is put into a prepared test tube 302 and is put into a limit lantern ring 301, the limit lantern ring 301 is fixed with an L-shaped bracket 300, the L-shaped bracket 300 is fixedly connected with a support column 34 by a spring 310, an electromagnet 32 on a rest table 3 below the L-shaped bracket 300 is opened, the electromagnet 32 is abutted against a metal plate on the bottom surface of the L-shaped bracket 300, the electromagnet 32 is magnetically attracted with the metal plate, the blood is put into a storage frame 11 on the side surface of a workbench 1 by a blood analyzer 2, one end of a connecting pipeline 50 is sleeved with the working end of the blood analyzer 2, an extraction needle 501 is sleeved with the other end of the connecting pipeline 50, the extraction needle 501 is in threaded connection with a groove on the top surface of a sliding block 510, the sliding block 510 moves to drive the extraction needle 501 to move up and down, cup joint on sliding screw 51 surface through sliding block 510, servo motor 52 and sliding screw 51 top surface key joint, servo motor 52 rotates and drives sliding screw 51 and rotate, sliding block 510 then drives extraction syringe needle 501 and removes, extraction syringe needle 501 is located test tube 302 directly over, stop moving when the position that sets up is removed to extraction syringe needle 501, blood analyzer 2 extracts the blood in the test tube 302 and detects, extraction pump accessible connecting tube 50 in the blood analyzer extracts blood to the container that blood analyzer 2 contains detects, and spout the blood after detecting in the container, the staff to the spun recovery can.

Optionally, referring to fig. 1, a terminal controller 6 is further included, and is in control connection with all of the blood sample analyzer, the extraction assembly 5, the driving assembly 4 and the control assembly.

The arrangement is that the terminal controller 6 is set to automatically control the blood sample analyzer, the driving assembly 4 and the control assembly, further control the placing table 3 and the blood sample placing tool 30 to rotate as required, the extracting assembly 5 can cooperate with the intermittently rotating placing table 3 to pump the blood sample to be detected in the test tube 302 into the blood sample analyzer for detection, the blood analyzer 2 can analyze and detect the blood sample entering the blood analyzer and obtain a result, and after the detection result of the blood analyzer 2 is judged in the terminal controller 6, the terminal controller 6 controls the control assembly to realize the adjustment of the position of the blood sample placing tool 30 where the extracted test tube 302 is located, namely, the on-off of the electromagnet 32 in the embodiment is controlled, so that the blood sample which does not reach the standard can be distinguished from the blood sample which reaches the standard after the spring 310 retracts, and the purpose of automatic judgment and distinguishing is achieved, the follow-up detection personnel can conveniently recover.

Optionally, referring to fig. 4 and 5, a storage device 7 is arranged on the table top of the workbench 1, a plurality of storage slots 70 are arranged on the storage device 7, and a temperature adjusting member 71 is arranged in the storage device 7.

Optionally, referring to fig. 1, the table top of the working table 1 is provided with a microscope 8.

Wherein, 1 top surface of workstation is equipped with spacing groove 12, spacing groove 12 is blind groove, be equipped with storage device 7 in the

spacing groove

12, 1 top surface of workstation is equipped with microscope 8, and

microscope

8 and 1 top surface bolted connection of workstation. The storage device 7 includes a storage tank 73, and the storage tank 73 is fitted in the stopper groove 12, a temperature adjusting pipe as a temperature adjusting member 71 is fixed to one surface in the storage tank 73, a storage column 72 is arranged in the storage tank 73, storage grooves 70 are arranged on the surface of the storage column 72 in an array, a head cover 74 is fixed on the top surface of the storage column 72, the head cover 74 is in threaded connection with the storage tank 73, the storage device 7 and the microscope 8 are adopted, sperm with quality to be detected is put into the storage groove 70 on the surface of the storage column 72, the temperature of a temperature adjusting pipeline fixed on one surface in the storage tank 73 is adjusted through the terminal controller 6, the head cover 74 fixed on the top surface of the support column 34 and the top surface of the storage tank 73 are rotated in a threaded manner, the sperm with the quality to be detected is recovered to wait for detection, after waiting for a specified time, the head cover 74 is opened to take out a sample to be detected, whether the sample reaches the standard or not can be observed and detected by the microscope 8 connected with the top surface of the workbench 1 through bolts.

Set up like this, realized the integration of sperm quality testing and fertilized egg implantation detection, reduced the area of equipment, need not the staff and remove repeatedly, improved work efficiency.

The in-vitro detection device for implantation of fertilized eggs in artificial insemination, provided by the embodiment of the application, comprises the following steps when in use:

sp 1: sampling and collecting: selecting a donor with healthy limbs and no abnormal body, extracting 1ml of semen as a sample under the specified condition by the donor, and delivering the sample to a worker;

sp 2: and (3) quality detection: the staff keeps the temperature of the sample and recovers the sample, waits for half an hour for observation, observes whether the sample is normally liquefied, and when the sample is not obviously abnormal, puts the sample under the prepared microscope 8 for observation to judge the activity of the sample, the quantity under the microscope and the like;

sp 3: trial processing: after the detected data reach a safe value, combining sperms and ova through a professional technology to form fertilized ova, and waiting for 6-7 working days to form fertilized ova implantation;

sp 4: and (3) condition checking: after the specified time is reached, the blood of the human body is extracted, the extracted blood is detected by an instrument, and whether the detection result is qualified or not is observed.

In addition, the in vitro detection device for artificial insemination fertilized egg implantation provided by the embodiment of the application can also perform rapid fusion of sperms and eggs, and specifically comprises the following steps: the sample of sperm and ovum is drawed respectively, retrieve, the microscope 8 of the usable workstation 1 top surface of staff carries out the quality inspection to sperm and ovum respectively earlier, after guaranteeing to be correct, put into test tube 302 with sperm and ovum, test tube 302 gomphosis is in the spacing lasso of L type support 300 one side, after sealing test tube 302, through the rotational speed of adjustment rotation motor, the rotation motor rotates, rest platform 3 rotates, can make sperm and ovum in the test tube 302 fuse fast, retrieve test tube 302 and preserve, wait for corresponding time after, the staff takes out and inspects the sample in the test tube 302, if data is normal then explain normally to form the fertilized egg phenomenon of landing.

In the description of the present application, it is to be understood that the forward direction of "X" in the drawings represents the right direction, and correspondingly, the reverse direction of "X" represents the left direction; the forward direction of "Y" represents forward, and correspondingly, the reverse direction of "Y" represents rearward; the forward direction of "Z" represents the upward direction, and correspondingly, the reverse direction of "Z" represents the downward direction, and the directions or positional relationships indicated by the terms "X", "Y", "Z", etc. are based on the directions or positional relationships shown in the drawings of the specification, and are only for convenience of describing and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular direction, be constructed and operated in a particular direction, and thus should not be construed as limiting the present application. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In the description of the present application, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present application. Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

It is noted that, in the present application, relational terms such as "first" and "second", and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above description is merely exemplary of the present application and is presented to enable those skilled in the art to understand and practice the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. An artificial insemination fertilized egg implantation in-vitro detection device is characterized by comprising:

a table (1);

a blood analyzer (2);

a placing table (3) which is movably arranged on the worktable (1) and is provided with a plurality of blood sample placing tools (30) for placing a plurality of blood samples to be detected;

a driving assembly (4) connected to and driving the rest table (3) for driving the plurality of blood sample placement tools (30) on the rest table (3) into motion;

and the extraction component (5) is connected with the blood analyzer (2) at one end, and can extract the blood sample to be detected in the blood sample placing tool (30) passing through the extraction component to the blood analyzer (2) at the other end.

2. The in vitro implantation detection device for fertilized eggs fertilized by artificial insemination according to claim 1, wherein said blood sample placing tool (30) is movably disposed on said shelf (3), and a control component is disposed on said shelf (3), and is connected to said blood sample placing tool (30) for adjusting the position of said blood sample placing tool (30) on said shelf (3).

3. The in-vitro implantation detection device for fertilized eggs fertilized by artificial insemination according to claim 2, wherein the rest table (3) is rotatably arranged on the table top of the workbench (1), the blood sample placing tools (30) are arranged at intervals along the circumferential direction of the rest table (3), and the driving assembly (4) is used for driving the rest table (3) to rotate intermittently.

4. The in-vitro implanted detection device for fertilized eggs inseminated in claim 3, wherein one side of the blood sample placing tool (30) is connected with an elastic expansion piece (31), and the expansion direction of the elastic expansion piece (31) is horizontal;

the control assembly comprises a controllable connecting piece arranged below the blood sample placing tool (30) and used for connecting the placing table (3) below the controllable connecting piece and maintaining the elastic telescopic piece (31) in a stretching state.

5. The in-vitro implantation detection device for fertilized eggs for artificial insemination according to claim 4, wherein the controllable connecting piece is an electromagnet (32) arranged on the placing table (3) at equal angular intervals, and the bottom of the blood sample placing tool (30) is provided with a magnetic metal sheet (33).

6. The device for in vitro testing implantation of an artificial insemination fertilized egg according to claim 1, wherein the extraction assembly (5) comprises:

a pump;

a connecting pipeline (50) connected with the extraction pump, wherein one end of the connecting pipeline is connected with the detection container in the blood sample analyzer, and the other end of the connecting pipeline is movably sleeved with an extraction needle head (501);

and the lifting driving piece is connected with the extraction pillow and drives the extraction needle head (501) to repeatedly lift and extend into different blood samples to be detected in the blood sample placing tool (30) for extraction.

7. The apparatus for in vitro testing implantation of an artificial insemination fertilized egg according to claim 6, wherein the lifting driving member comprises:

the sliding screw rod (51) is rotatably arranged on the workbench (1), a sliding block (510) is sleeved on the sliding screw rod in a threaded manner, and the sliding block (510) is fixedly connected with the extraction needle head (501);

and the servo motor (52) is arranged at the end part of the sliding screw rod (51) and is used for driving the sliding screw rod (51) to rotate.

8. The in vitro implantation detection apparatus for fertilized eggs fertilized by artificial insemination according to claim 2, further comprising a terminal controller (6) electrically connected to said blood sample analyzer, said extraction assembly (5), said driving assembly (4) and said control assembly.

9. The in-vitro implantation detection device for fertilized eggs fertilized by artificial insemination according to claim 1, wherein a storage device (7) is arranged on the table top of the working table (1), a plurality of storage tanks (70) are arranged on the storage device (7), and a temperature adjusting part (71) is arranged in the storage device (7).

10. The device for detecting implantation of fertilized egg during artificial insemination according to claim 1, wherein a microscope (8) is fixedly arranged on the table of the working table (1).