CN114145288A - Semen full-automatic cold storage processing method and equipment - Google Patents

Abstract

The invention discloses a semen full-automatic cold storage processing method and equipment, wherein the semen full-automatic cold storage processing method comprises the following steps: and step S1, the first code scanning module scans codes of the sample bottles to obtain the target information of the sample bottles. Step S2 is to place the sample bottle in the storage tank, detect the sample bottle by the detection sensor, and associate the position information of the storage tank with the destination information of the sample bottle. Step S3, the second code scanning module scans the collection bottle and associates the destination information of the sample bottle corresponding to the position information of the accommodating slot with the collection bottle. In step S4, the pipetting mechanism pipettes the target liquid in the sample bottle into the collection bottle, and moves the collection bottle to the center of the centrifuge. And step S5, moving the centrifuged collection bottle into a tray for storage. Therefore, the semen full-automatic cold storage processing method can automatically divide the sample into a plurality of parts, and can correlate the information of each part with the information of the sample, thereby reducing the labor intensity, being simple to operate and improving the working efficiency.

Description

Semen full-automatic cold storage processing method and equipment

Technical Field

The invention relates to the technical field of biological and chemical liquid sample treatment, in particular to a semen full-automatic cold storage treatment method and equipment.

Background

When liquid samples in the fields of biology, chemistry and the like are processed, a plurality of different samples often exist, then the samples are respectively transferred and centrifuged for a plurality of times after being confirmed to be qualified, and then the samples are taken out and stored, so that the samples are stored in a plurality of parts, and the later-stage processing is respectively carried out. However, the above processing methods are mostly manual operations, which have high labor intensity, complicated operation, low efficiency, influence on the overall processing efficiency, and are prone to error and pollution, and influence on the post-processing effect.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to provide a semen full-automatic cold storage processing method and equipment, which can automatically divide a sample into a plurality of parts, can associate information of each part with information of the sample, reduce labor intensity, are simple to operate and improve working efficiency.

In order to achieve the above object, in a first aspect, the present invention provides a semen full-automatic cold storage processing method, including: and step S1, the first code scanning module scans codes of the sample bottles to obtain the target information of the sample bottles. Step S2 is to place the sample bottle in the storage tank, detect the sample bottle by the detection sensor, and associate the position information of the storage tank with the destination information of the sample bottle. Step S3, the second code scanning module scans the collection bottle and associates the destination information of the sample bottle corresponding to the position information of the accommodating slot with the collection bottle. In step S4, the pipetting mechanism pipettes the target liquid in the sample bottle into the collection bottle, and moves the collection bottle to the center of the centrifuge. And step S5, moving the centrifuged collection bottle into a tray for storage.

In one embodiment of the present invention, a step S21 is further included between the step S2 and the step S3, in which the liquid transfer mechanism extracts the target liquid in the sample bottle and injects the target liquid onto the target to confirm whether the detection of the target liquid is acceptable.

In an embodiment of the present invention, the first code scanning module and the second code scanning module are electrically connected to the controller respectively. The controller is used for correlating the position information of the containing groove with the target information of the sample bottle, and the correlated information is stored in the memory. The controller is further used for associating the target information of the sample bottles corresponding to the position information of the accommodating grooves with the collecting bottles, and the associated information is stored in the memory.

In one embodiment of the present invention, the number of the storage tanks is plural, and a thermostat is provided below the plurality of storage tanks to keep the sample bottles in the storage tanks at a constant temperature.

In one embodiment of the present invention, the detection sensors are disposed on one side of the housing slots, and the number of the detection sensors corresponds to the number of the housing slots.

In a second aspect, the present invention provides a semen full-automatic cold storage processing device, comprising: the device comprises a bottom plate, a controller, a thermostat, a plurality of detection sensors, a pipetting mechanism, a first code scanning module, a centrifuge, a collection bottle, a second code scanning module and a mechanical clamping jaw. The controller is fixed on the bottom plate. The thermostat is fixed on the bottom plate, a plurality of accommodating grooves are formed in the thermostat, and the sample bottles are placed in the accommodating grooves. And the detection sensors are respectively arranged on one side of the accommodating groove. The liquid-transfering mechanism is arranged above the thermostat. The first code scanning module is fixed on the bottom plate and located on one side of the thermostat, electrically connected with the controller and used for scanning codes of the sample bottles and acquiring target information of the sample bottles. The centrifuge is fixed on the bottom plate and is positioned on the side surface of one end of the thermostat, and the centrifuge is provided with at least one material tray. The collecting bottle is arranged on the tray. The second is swept a yard module and is fixed in on the bottom plate, and is located one side of centrifuge, and yard module and controller electric connection are swept to the second, and the second is swept a yard module and is used for sweeping the sign indicating number to the receiving flask. And the mechanical clamping jaws are fixed above the centrifugal disc and used for grabbing the material disc and placing the material disc in the centrifugal machine. Wherein, move liquid mechanism is used for moving liquid to the collection bottle with the mark liquid in the sample bottle. The detection sensor detects a sample bottle, the controller is used for correlating the position information of the containing groove with the target information of the sample bottle, and the correlated information is stored in the memory. The controller is further used for associating the target information of the sample bottles corresponding to the position information of the accommodating grooves with the collecting bottles, and the associated information is stored in the memory. Wherein, snatch the collection bottle after removing the centrifugation through mechanical clamping jaw and to the charging tray in order to save.

In an embodiment of the present invention, the liquid-transferring mechanism is further configured to extract the target liquid in the sample bottle and inject the target liquid onto the target member to confirm whether the detected target liquid is qualified.

In one embodiment of the present invention, the thermostat is used to keep the sample bottle in the receiving chamber at a constant temperature.

In one embodiment of the present invention, the number of the detection sensors corresponds to the number of the storage slots, and the detection sensors are photosensors.

Compared with the prior art, the method and the equipment for fully automatically cold-storing the semen can automatically divide the sample into a plurality of parts, and can correlate the information of each part with the information of the sample, thereby reducing the labor intensity, being simple to operate and improving the working efficiency.

Drawings

FIG. 1 is a schematic flow diagram of a semen fully-automatic cryopreservation processing method according to an embodiment of the invention;

FIG. 2 is a schematic perspective view of an apparatus for automatically cold-storing semen according to an embodiment of the present invention;

fig. 3 is another perspective view of the semen fully automatic cold storage processing device according to an embodiment of the present invention.

Description of the main reference numerals:

1-bottom plate, 2-thermostat, 3-sample bottle, 4-detection sensor, 5-pipetting mechanism, 6-first code scanning module, 7-centrifuge, 8-tray, 9-collection bottle, 10-second code scanning module, and 11-mechanical clamping jaw.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Fig. 1 is a schematic flow chart of a semen full-automatic cryopreservation processing method according to an embodiment of the invention. As shown in fig. 1, in a first aspect, a semen full-automatic cold storage processing method according to a preferred embodiment of the present invention includes: in step S1, the first code scanning module 6 scans the sample bottle 3 to obtain the destination information of the sample bottle 3. In step S2, the sample bottle 3 is placed in the storage container, the detection sensor 4 detects the sample bottle 3, and the positional information of the storage container is associated with the destination information of the sample bottle 3. In step S3, the second code scanning module 10 scans the collection bottle 9, and associates the destination information of the sample bottle 3 corresponding to the position information of the accommodating groove with the collection bottle 9. In step S4, the pipetting mechanism 5 pipettes the target liquid in the sample bottle 3 into the collection bottle 9, and moves the collection bottle 9 to the center of the centrifuge 7. Step S5, move the centrifuged collection bottle 9 into the tray 8 for storage.

In one embodiment of the present invention, a step S21 is further included between the step S2 and the step S3, in which the liquid transfer mechanism 5 extracts the target liquid in the sample bottle 3 and injects the target liquid onto the target to confirm whether the detection of the target liquid is acceptable.

In an embodiment of the present invention, the first code scanning module 6 and the second code scanning module 10 are electrically connected to the controller respectively. The controller is used for correlating the position information of the containing groove with the target information of the sample bottle 3, and the correlated information is stored in the memory. The controller is further configured to associate the target information of the sample bottle 3 corresponding to the position information of the accommodating groove with the collection bottle 9, and the associated information is stored in the memory.

In one embodiment of the present invention, the number of the storage tanks is plural, and the thermostat 2 is provided below the plural storage tanks, and the thermostat 2 keeps the sample bottles 3 in the storage tanks at a constant temperature. The detection sensors 4 are disposed at one side of the receiving slots, and the number of the detection sensors 4 corresponds to the number of the receiving slots.

In a second aspect, the present invention provides a semen full-automatic cold storage processing device, comprising: a bottom plate 1, a controller, a thermostat 2, a plurality of detection sensors 4, a pipetting mechanism 5, a first code scanning module 6, a centrifuge 7, a collection vial 9, a second code scanning module 10, and a mechanical gripper 11. The controller is fixed on the bottom plate 1. The thermostat 2 is fixed on the bottom plate 1, a plurality of accommodating grooves are formed in the thermostat 2, and the sample bottles 3 are placed in the accommodating grooves. The plurality of detection sensors 4 are respectively provided on one side of the storage tank. The pipetting mechanism 5 is provided above the thermostat 2. The first code scanning module 6 is fixed on the bottom plate 1 and located on one side of the thermostat 2, the first code scanning module 6 is electrically connected with the controller, and the first code scanning module 6 is used for scanning the sample bottle 3 to acquire the target information of the sample bottle 3. The centrifuge 7 is fixed on the bottom plate 1 and positioned on the side surface of one end of the thermostat 2, and the centrifuge 7 is provided with at least one tray 8. The collecting bottle 9 is arranged on the tray 8. The second code scanning module 10 is fixed on the bottom plate 1 and located on one side of the centrifuge 7, the second code scanning module 10 is electrically connected with the controller, and the second code scanning module 10 is used for scanning the collection bottle 9. And the mechanical clamping jaws 11 are fixed above the centrifugal disc, and the mechanical clamping jaws 11 are used for grabbing the material tray 8 and placing the material tray 8 in the centrifuge 7. Wherein the pipetting mechanism 5 is used for pipetting the target liquid in the sample bottle 3 into the collection bottle 9. The detection sensor 4 detects the sample bottle 3, the controller is used for correlating the position information of the containing groove with the target information of the sample bottle 3, and the correlated information is stored in the memory. The controller is further configured to associate the target information of the sample bottle 3 corresponding to the position information of the accommodating groove with the collection bottle 9, and the associated information is stored in the memory. Wherein the centrifuged collection bottles 9 are grabbed and moved by the mechanical clamping jaws 11 into the tray 8 for storage.

In one embodiment of the present invention, the liquid-transferring mechanism 5 is further configured to extract the target liquid in the sample bottle 3 and inject the target liquid onto the target object to confirm whether the detected target liquid is qualified.

In one embodiment of the present invention, the thermostat 2 is used to keep the sample bottle 3 in the receiving chamber at a constant temperature. The number of the detection sensors 4 corresponds to the number of the housing grooves, and the detection sensors 4 are photoelectric sensors.

In practical application, the method and the device for fully-automatic cold storage processing of semen provided by the invention have the advantages that the detection sensor 4 is arranged on one side of each containing groove, so that after the sample bottle 3 is placed in any one containing groove, the information of the sample bottle 3 can be bound with the position information of the corresponding containing groove. (each containing groove corresponds to one detection sensor 4, that is, each detection sensor 4 corresponds to one position information, and the corresponding information can be stored in a memory and can be called by a controller. when a sample bottle 3 is placed in a containing groove, the detection sensor 4 corresponding to the containing groove detects the sample bottle 3, then an instruction is sent to the controller, the controller associates and binds the sample bottle 3 with the position information corresponding to the detection sensor 4), then code scanning information of the sample bottle 3 is associated with code scanning information of a collecting bottle 9 based on the position information of the containing groove (since the sample bottle 3 is already bound with the position information corresponding to the containing groove after the sample bottle 3 is placed in the containing groove, then a liquid transferring gun (liquid transferring mechanism 5) extracts the liquid in the sample bottle 3 in any containing groove, and then injects the liquid into the collecting bottle 9, the controller can obtain the information of the sample bottle 3 corresponding to the containing groove, and then the information of the collection bottle 9 acquired by the second code scanning module 10 is related and bound so as to relate the liquid information in the sample bottle 3 into the collection bottle 9, and the related information is stored in the memory. The code scanning information of the sample bottle 3 in any one accommodating groove and the code scanning information of each divided collecting bottle 9 are associated and bound on the basis of the position information of the accommodating groove. The binding can be carried out through the existing control structures such as a controller, a processor, a PLC and the like, the association binding belongs to a software processing method, and only two kinds of information need to be associated and bound together.

Before the code scanning information of the sample bottle 3 is correlated with the code scanning information of the collection bottle 9, the liquid in the sample bottle 3 needs to be pipetted to detect whether the liquid in the sample bottle 3 is qualified. The liquid in each collection vial 9 into which the sample vial 3 is divided may be centrifuged by the centrifuge 7, and may be stored or post-processed after centrifugation. And the accepting groove sets up on thermostat 2 to can make the sample bottle 3 of accepting in the accepting groove keep the constant temperature, prevent that the sperm in the sample bottle 3 from dying, thermostat 2 is the inside insulation construction who is equipped with the warm water, is equipped with the heater strip in the warm water, can heat the warm water, and is equipped with temperature sensor in the warm water, is convenient for keep the constancy of temperature of warm water.

The processing method of the invention processes the liquid such as semen, body fluid and the like by using a processing device, wherein the processing device comprises a first code scanning module 6, a plurality of accommodating grooves for accommodating the sample bottles 3, a detection sensor 4 corresponding to the accommodating grooves and a second code scanning module 10, and the method comprises the following steps:

the method comprises the following steps: the first code scanning module 6 scans the code of the sample bottle 3 to obtain the target information of the sample bottle 3;

step two: placing a sample bottle 3 in any accommodating groove, detecting the sample bottle 3 by a detection sensor 4, and associating the position information of the accommodating groove with the target information;

step three: the second code scanning module 10 scans the code collecting bottles 9 (the first code scanning module 6 and the second code scanning module 10 are both electrically connected to the controller), and associates the destination information corresponding to the position information of the accommodating groove with the collecting bottles 9.

The target information includes the name, volume, acquisition time and other basic information of the liquid in the sample bottle 3, the sample bottle 3 can be a bottle tube with a larger volume, the cross section of the sample bottle can be circular, square or other shapes, and the like, and the target information can be set as required and is not described any more.

Further, the accommodating tank is arranged on the thermostat 2, the accommodating tank can be formed by sinking downwards from the top surface of the thermostat 2, and the side wall of the accommodating tank can be made of stainless steel materials, so that heat conduction is facilitated. Further, the kind of thermostat 2 can be selected as required, in this embodiment, thermostat 2 is including setting up the liquid in its casing, heater strip and temperature sensor, the accepting groove diapire can stretch into in the liquid, make the heat of liquid can transmit to on the lateral wall of accepting groove, thereby further transmit to on sample bottle 3, realize the heat preservation to sample bottle 3, the heater strip can heat liquid, temperature sensor can detect the temperature of liquid, be convenient for realize that liquid keeps constant temperature, prevent that the sperm in the sample bottle 3 from dying.

The plurality of receiving grooves are arranged in a matrix, the receiving grooves are preferably circular truncated cone-shaped, and the diameter of the upper end surface of each receiving groove is larger than that of the lower end surface of each receiving groove, so that the sample bottles 3 can be conveniently placed in the receiving grooves.

The detecting sensors 4 are preferably photoelectric sensors, each receiving slot corresponds to one detecting sensor 4, the detecting sensors 4 are preferably disposed on one side of the receiving slot, each detecting sensor 4 corresponds to one receiving slot, and each receiving slot corresponds to one position information, such as the first and second receiving slots … …, or the first row and the second row, etc., and the position information of each receiving slot can be calibrated according to the requirement, but the invention is not limited thereto.

After each sample bottle 3 is placed in the accommodating groove, the detection sensor 4 corresponding to the accommodating groove can detect that the sample bottle 3 is placed in the accommodating groove, so that the information obtained by scanning the code of the sample bottle 3 can be bound and associated with the position information of the accommodating groove, the position information of each accommodating groove can be bound and associated with the code scanning information of one sample bottle 3, the code scanning information of a plurality of sample bottles 3 is in one-to-one correspondence with the position information of the plurality of accommodating grooves respectively, and the sample bottles 3 can be processed simultaneously.

Before need move the liquid in the sample bottle 3 into the receiving flask 9 with liquid, need earlier sweep a yard information and sample bottle 3 sweep a yard information correlation and bind with the collection flask 9 of collecting flask 9, because a plurality of sample bottles 3 have been placed on the thermostat 2, divide into many and move the liquid into the receiving flask 9 to a plurality of sample bottles 3 on the thermostat 2 simultaneously in order to realize, can not make both sweep a yard information correlation mistake simultaneously, it sweeps a yard receiving flask 9 to need to use the second this moment to sweep a yard module 10, then sweep a yard information correlation and bind to this receiving flask 9 the yard information with sweeping of sample bottle 3 that the accepting groove position that moves the liquid corresponds, thereby can realize that the yard information of sweeping of arbitrary sample bottle 3 and receiving flask 9 sweep a yard information correlation and bind and can not make mistakes, associated information's accuracy has been guaranteed, reduce the probability that post processing takes place the mistake.

The method also comprises the following steps between the second step and the third step: the pipetting mechanism 5 extracts the target liquid in the sample bottle 3 and injects it onto the target material (slide) to confirm that the detection target liquid is acceptable.

In this step, it is necessary to detect whether the liquid in the sample bottle 3 is qualified before the liquid in the sample bottle 3 is pipetted into the collection bottle 9, in order to achieve this purpose, it is necessary to pipette the target liquid in the sample bottle 3 onto the glass slide of the material transferring mechanism through the liquid transferring mechanism 5, and then the material transferring mechanism moves out the glass slide, at this time, the worker can take the glass slide to detect whether the target liquid in the sample bottle 3 is qualified, if not, the subsequent step is not performed, and if so, the subsequent step is performed.

The material moving mechanism includes a supporting block capable of moving along a predetermined direction, the glass slide is placed on the supporting block, so that the supporting block drives the glass slide to move out of the casing of the device along the predetermined direction, and the glass slide is convenient for a worker to take.

Further, step four: the pipetting mechanism 5 pipettes the target liquid in the sample bottle 3 into the collection bottle 9, and then moves the collection bottle 9 into the centrifuge 7 for centrifugation.

After code scanning information of the sample bottle 3 is associated and bound with code scanning information of the collecting bottle 9, the liquid in the sample bottle 3 is extracted by the liquid transferring mechanism 5 and then injected into the corresponding collecting bottle 9, so that the purpose of liquid transferring is realized, and the liquid transferring mechanism 5 belongs to the prior art and is not described herein any more.

After the aforesaid moves liquid, the receiving flask 9 after moving the liquid is got to the clamping jaw clamp of arm, and places receiving flask 9 in centrifuge 7 centrifugation, realizes carrying out the purpose of centrifugation to receiving flask 9 after moving the liquid, and wherein arm, clamping jaw, centrifuge 7 etc. belong to prior art, no longer describe herein.

Further, step five: the centrifuged collection vial 9 is moved into the tray 8 for storage.

In the step, the centrifuged collection bottles 9 on the centrifuge 7 are clamped into the tray 8 by the clamping jaws on the mechanical arm and then stored, so that the centrifuged collection bottles 9 can be conveniently collected.

The processing equipment comprises a first code scanning structure for scanning the code of the sample bottle 3, a thermostat 2 and a second code scanning structure for scanning the code of the collecting bottle 9, wherein an accommodating groove for accommodating the sample bottle 3 is formed in the thermostat 2, and the thermostat 2 further comprises a detection sensor 4 which is positioned on one side of the accommodating groove and is used for detecting whether the sample bottle 3 is positioned in the accommodating groove or not, so that the code scanning information of the second code scanning structure is related to the target information obtained by the first code scanning structure corresponding to the position information of the accommodating groove.

The detection sensor 4 is preferably a photoelectric sensor for detecting whether the sample bottle 3 is placed in the storage tank.

Further, the thermostat 2 comprises a shell, liquid contained in the shell and a heating wire, and the heater is connected with a power supply to heat the liquid in the shell.

Further, the processing apparatus further comprises a pipetting mechanism 5 for pipetting the liquid in the sample vial 3. The liquid transfer is carried out by a special liquid transfer gun which is matched with the x-y axis guide rail to move, and the liquid transfer mechanism 5 is in the prior art, so the details are not repeated.

Further, the processing equipment also comprises a material moving mechanism. Move material mechanism including the supporting shoe that can follow the predetermined direction and remove for the supporting shoe can shift out the equipment casing, and the person of facilitating the use takes, in this embodiment, move material mechanism still include along the predetermined direction extend and with supporting shoe threaded connection's lead screw, make the lead screw can drive the supporting shoe and remove along the predetermined direction when rotatory, the one end and the motor of lead screw are connected, make the motor can drive the lead screw rotatory, and then the drive supporting shoe removes along the predetermined direction.

Further, the processing device further comprises a centrifugal device, the centrifugal device is a common centrifugal machine 7 in the market, which belongs to the prior art and is not described herein again.

Further, the processing apparatus comprises a tray 8 at one side of the centrifuge for receiving the collection vials 9. One or more charging trays 8 may be provided, and in this embodiment, four charging trays 8 are arranged together.

Further, the processing apparatus comprises a movable mechanical gripper 11, movable along the x-y axis, mainly controlled by a controller or a processing chip or the like. The mechanical jaw 11 belongs to the prior art and will not be described in detail herein.

In a word, the semen full-automatic cold storage processing method and the device can automatically divide the sample into a plurality of parts, and can correlate the information of each part with the information of the sample, thereby reducing the labor intensity, being simple to operate and improving the working efficiency.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (9)

1. A semen full-automatic cold storage processing method is characterized by comprising the following steps:

step S1, the first code scanning module scans codes of the sample bottles to obtain the target information of the sample bottles;

step S2, placing the sample bottle in the containing groove, detecting the sample bottle by the detecting sensor, and correlating the position information of the containing groove with the target information of the sample bottle;

step S3, the second code scanning module scans codes of the collection bottles and associates the target information of the sample bottles corresponding to the position information of the containing grooves with the collection bottles;

step S4, the liquid transferring mechanism transfers the target liquid in the sample bottle to the collecting bottle, and the collecting bottle is moved to the center of the centrifuge;

and step S5, moving the centrifuged collection bottle into a tray for storage.

2. The method for automatically preserving semen as claimed in claim 1, further comprising a step S21 between the steps S2 and S3, wherein the pipetting mechanism withdraws the target liquid from the sample bottle and injects the target liquid onto the target object to confirm whether the target liquid is qualified.

3. The semen full-automatic cold-storage processing method according to claim 1, wherein the first code scanning module and the second code scanning module are electrically connected to a controller respectively;

the controller is used for correlating the position information of the accommodating groove with the target information of the sample bottle, and the correlated information is stored in the memory;

the controller is further used for associating the target information of the sample bottles corresponding to the position information of the accommodating grooves with the collecting bottles, and the associated information is stored in the memory.

4. The method for automatically cold-storing semen according to claim 1, wherein the number of the receiving grooves is plural, and a thermostat is disposed below the plural receiving grooves and is used for keeping the temperature of the sample bottles in the receiving grooves constant.

5. The method for automatically performing cold storage on semen according to claim 1, wherein the detecting sensors are disposed at one side of the receiving slots, and the number of the detecting sensors corresponds to the number of the receiving slots.

6. The utility model provides a full-automatic cold storage treatment facility of seminal fluid which characterized in that includes:

a base plate;

the controller is fixed on the bottom plate;

the thermostat is fixed on the bottom plate, a plurality of accommodating grooves are formed in the thermostat, and the sample bottles are placed in the accommodating grooves;

a plurality of detection sensors respectively arranged at one side of the accommodating groove;

the liquid transfer mechanism is arranged above the thermostat;

the first code scanning module is fixed on the bottom plate and located on one side of the thermostat, the first code scanning module is electrically connected with the controller, and the first code scanning module is used for scanning codes of the sample bottles and acquiring target information of the sample bottles;

the centrifugal machine is fixed on the bottom plate and positioned on the side surface of one end of the thermostat, and at least one material tray is arranged on the centrifugal machine;

the collecting bottle is arranged on the material tray;

the second code scanning module is fixed on the bottom plate and located on one side of the centrifuge, the second code scanning module is electrically connected with the controller, and the second code scanning module is used for scanning codes of the collection bottles; and

the mechanical clamping jaw is fixed above the centrifugal disc and used for grabbing the material disc and placing the material disc in the centrifugal machine;

wherein the pipetting mechanism is used for pipetting the target liquid in the sample bottle into the collection bottle;

the detection sensor detects a sample bottle, the controller is used for correlating the position information of the accommodating groove with the target information of the sample bottle, and the correlated information is stored in a memory;

the controller is further used for associating the target information of the sample bottle corresponding to the position information of the accommodating groove with the collecting bottle, and the associated information is stored in the memory;

and the mechanical clamping jaws grab and move the centrifuged collection bottles to a material tray for storage.

7. The apparatus for automatically cryopreserving semen according to claim 6, wherein the pipetting mechanism is further configured to aspirate the target fluid from the sample vial and inject the target fluid onto a target member to confirm whether the target fluid is acceptable for testing.

8. The apparatus of claim 6, wherein the thermostat is configured to maintain a constant temperature of the sample vial within the receptacle.

9. The apparatus for processing the full-automatic cold storage of semen according to claim 6, wherein the number of the detection sensors corresponds to the number of the receiving slots, and the detection sensors are photoelectric sensors.

Images