CN113398810A

CN113398810A - Novel full-automatic sample mixing and subpackaging integrated device

Info

Publication number: CN113398810A
Application number: CN202110675914.8A
Authority: CN
Inventors: 江素华; 张正绵; 林典梁; 李慧玲; 林榕
Original assignee: Fujian Maternal And Child Care Service Centre
Current assignee: Fujian Maternal And Child Care Service Centre
Priority date: 2021-06-18
Filing date: 2021-06-18
Publication date: 2021-09-17
Anticipated expiration: 2041-06-18
Also published as: CN113398810B

Abstract

The invention relates to the technical field of medical instruments, and provides a novel full-automatic sample mixing and subpackaging integrated device which comprises a mixing chamber and a subpackaging chamber, wherein a first circulating conveyor belt and a second circulating conveyor belt are respectively arranged in the mixing chamber and the subpackaging chamber, a sample test tube is arranged on the first circulating conveyor belt, a freezing tube is arranged on the second circulating conveyor belt, a transverse moving mechanism is arranged between the first circulating conveyor belt and the second circulating conveyor belt, a suction mixing device is arranged on the transverse moving mechanism, an electric heating sealing instrument is arranged at the top of the far end of the second circulating conveyor belt, a rotary table is arranged on the side face of the far end of the second circulating conveyor belt, a plurality of jaws are arranged on the outer diameter surface of the rotary table, clamps are arranged at the jaws, and a control host is also arranged in the mixing chamber. The invention effectively solves the problem of low semen sample subpackaging efficiency, well avoids the direct contact between technicians and samples, and simultaneously avoids the cross contamination among samples in the manual operation process.

Description

Novel full-automatic sample mixing and subpackaging integrated device

Technical Field

The invention relates to the technical field of medical instruments, in particular to a novel full-automatic sample mixing and subpackaging integrated device.

Background

In recent years, the prevalence rate of male infertility in the world has increased remarkably, and the roles played by the domestic reproductive center and sperm bank have become more and more remarkable. Many centers and sperm banks often need to store the semen sample collected for a short time or a long time, and at present, a plurality of technicians need to be arranged in a laboratory to process and subpackage the semen sample, including liquefaction, blending and subpackaging of semen, so that the efficiency is low, the technicians can be in direct contact with the semen sample because the semen sample possibly contains dangerous infectious pathogens such as human immunodeficiency virus, hepatitis virus, herpes simplex virus and the like, the probability of accidental infection exists, and meanwhile, the risk of cross contamination and the like also exists in the sample subpackaging process.

Therefore, how to solve the above problems becomes a focus of research by those skilled in the art.

Disclosure of Invention

The invention aims to provide a novel full-automatic sample blending and subpackaging integrated device to solve the problem of the prior art.

The embodiment of the invention is realized by the following technical scheme:

a novel full-automatic sample mixing and subpackaging integrated device comprises a mixing chamber and a subpackaging chamber which are mutually communicated, wherein a first circulating conveyor belt and a second circulating conveyor belt are respectively arranged in the mixing chamber and the subpackaging chamber, a sample test tube for storing a semen sample is arranged on the first circulating conveyor belt, a rubber pipe sleeve is arranged on the second circulating conveyor belt, a freezing tube is arranged in the rubber pipe sleeve, a taking-out notch convenient for taking out the freezing tube is arranged on the side wall of the rubber pipe sleeve, a transverse moving mechanism is arranged at one end of the first circulating conveyor belt adjacent to the second circulating conveyor belt, a suction mixing device which moves between the first circulating conveyor belt and the second circulating conveyor belt is arranged on the transverse moving mechanism, the suction mixing device comprises a first motor, a first electric telescopic rod and a pipe barrel, and a handle part is arranged at the output end of the first motor, the electric heating sealing device comprises a handle part, a pipe barrel, a first electric telescopic rod, a piston, a second electric telescopic rod, a telescopic section, a plurality of pressure relief step holes, a first spring, a soft plug, a rotary table and a sealing device, wherein the handle part is fixedly connected with the tail end of the pipe barrel, the handle part is provided with an installation cavity, the first electric telescopic rod is arranged in the installation cavity and comprises a fixed length section and a telescopic section, the fixed length section is fixedly connected with the rear end wall of the pipe barrel, the telescopic section extends into the pipe barrel and is fixedly connected with the piston arranged in the pipe barrel, the outer wall of the handle part is also provided with an ozone generator, the ozone generator extends to the inner side of the tail end of the pipe barrel through an air duct, the piston is provided with a plurality of pressure relief step holes, the pressure relief step holes are internally provided with first springs, the first springs are connected with the soft plugs for plugging the pressure relief step holes, the top of one end, far away from the first circulating conveyor belt, of the second circulating conveyor belt is provided with the electric heating sealing device capable of moving up and down, the side face of one end, the second circulating conveyor belt, far away from the first circulating conveyor belt, the rotary table is provided with the rotary table, the rotary table is controlled by a second motor to rotate and can rotate to the outer side of the split charging chamber, a plurality of jaws are arranged on the outer diameter surface of the rotary table, and clamps are arranged at the jaws;

the mixing chamber is also internally provided with a control host which is used for controlling the working states of the first circulating conveyor belt, the second circulating conveyor belt, the transverse moving mechanism, the suction mixing device and the rotary table.

Further, sideslip mechanism includes T type slide rail, third motor, screw shaft and T type slide, T type slide sets up in T type slide rail, the screw shaft sets up along T type slide rail, T type slide threaded connection be in the screw shaft is epaxial, the output of third motor passes through shaft coupling and screw shaft connection, the bottom of T type slide is provided with second electric telescopic handle, second electric telescopic handle is connected with the suction mixing device.

Further, be provided with the bar code on the sample test tube, the entrance of mixing chamber is provided with the bar code scanner that is used for scanning the bar code.

Furthermore, the clamp comprises a first clamp arm and a second clamp arm which are mutually crossed and hinged, a clamp mouth used for clamping the frozen pipe is arranged at one end of the first clamp arm and one end of the second clamp arm, and a second spring is arranged between the other end of the first clamp arm and the other end of the second clamp arm.

Further, the indoor printer that is used for printing the two-dimensional code on freezing the pipe that is provided with of partial shipment, printer connection control host computer.

Furthermore, the outer diameter surface of the pipe barrel is wrapped by a heating jacket, a heating wire is arranged in the heating jacket, and a power supply device for supplying power to the heating jacket and a temperature sensor for monitoring the temperature value of the heating jacket are arranged on the side wall of the handle part.

Furthermore, the heating sleeve is provided with a strip-shaped notch groove which is exposed out of the side wall of the pipe barrel, and the outer wall of the pipe barrel corresponding to the strip-shaped notch groove is provided with scale marks.

Furthermore, an ultraviolet lamp tube and an air purification device are arranged in the blending chamber and the split charging chamber.

Furthermore, soft rubber pads are arranged on the inner wall surface of the jaw and the inner wall surface of the jaw.

The technical scheme of the embodiment of the invention at least has the following advantages and beneficial effects:

according to the invention, the semen sample can be automatically mixed and then subpackaged, so that the problem of low semen sample subpackaging efficiency is effectively improved, direct contact between technicians and the sample is well avoided, and cross contamination among samples in the manual operation process is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a novel full-automatic sample blending and subpackaging integrated device provided in embodiment 1 of the present invention;

FIG. 2 is a cross-sectional view taken along A-A of FIG. 1;

FIG. 3 is a schematic view of the structure of the turntable;

FIG. 4 is a schematic structural view of a suction mixer;

FIG. 5 is a partial cross-sectional view of the suction mixer

Fig. 6 is an enlarged view at B in fig. 5.

Icon: 1-a mixing chamber, 2-a dispensing chamber, 3-a first circulating conveyor belt, 4-a second circulating conveyor belt, 5-a sample test tube, 6-a rubber tube sleeve, 7-a freezing tube, 8-a taking-out notch, 9-a code scanner, 10-a printer, 11-a T-shaped slide rail, 12-a third motor, 13-a screw shaft, 14-a T-shaped slide seat, 15-a suction mixing device, 1501-a first motor, 1502-a first electric telescopic rod, 1503-a tube barrel, 1504-a handle part, 1505-a piston, 1506-a pressure-relief stepped hole, 1507-a first spring, 1508-a cork, 1509-a heating sleeve, 1510-a heating wire, 1511-a power supply device, 1512-a temperature sensor, 1513-an ozone generator, 1514-a scale line, 16-electric heating sealing instrument, 17-second electric telescopic rod, 18-third electric telescopic rod, 19-rotary table, 20-second motor, 21-jaw, 22-clamp, 2201-first clamp arm, 2202-second clamp arm, 2203-clamp mouth, 2204-clamping part, 2205-second spring and 23-control host.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. 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 invention.

Example 1

Referring to fig. 1 to 6, this embodiment provides a novel full-automatic sample mixing and partial shipment integrated device, including mixing chamber 1 and partial shipment chamber 2 that communicate each other, mixing chamber 1 is equipped with the sample entry, and the sample entry is provided with bar code reader 9, and partial shipment chamber 2 is provided with the sample export, is provided with first endless conveyor 3 and second endless conveyor 4 in mixing chamber 1 and the partial shipment chamber 2 respectively, and first endless conveyor 3 gets into mixing chamber 1 from the sample entry in, is provided with the sample test tube 5 that is used for depositing the semen sample on the first endless conveyor 3, is provided with the bar code on the sample test tube 5, and every sample test tube 5 passes through from the sample entry, can be swept the information on the code recognition bar code by bar code reader 9. The rubber pipe sleeve 6 is fixedly arranged on the second circulating conveyor belt 4, the rubber pipe sleeve 7 is arranged in the rubber pipe sleeve 6, the side wall of the rubber pipe sleeve 6 is provided with a taking-out notch 8 along the long axis direction of the rubber pipe sleeve, so that the rubber pipe sleeve 7 can be conveniently taken out from the taking-out notch 8, a printer 10 is arranged at the starting position of the second circulating conveyor belt 4, and two-dimensional codes for storing sample information can be printed on each freezing pipe 7.

First endless conveyor 3 and the adjacent one end of second endless conveyor 4 are provided with sideslip mechanism, sideslip mechanism includes T type slide rail 11, third motor 12, screw shaft 13 and T type slide 14, and T type guide rail fixed mounting is in mixing room 1 and partial shipment room 2's top, T type slide 14 sets up in T type slide rail 11, can only follow T type slide rail 11 reciprocating motion and unable rotation, screw shaft 13 sets up along T type slide rail 11 and rotatable, T type slide 14 threaded connection is in on the screw shaft 13, the output of third motor 12 passes through the shaft coupling and is connected with screw shaft 13, the bottom of T type slide 14 is provided with second electric telescopic handle 17, second electric telescopic handle 17 is connected with suction mixing device 15, just positive and negative rotation through third motor 12 like this alright drive suction mixing device 15 through T type slide 14 and control reciprocating conveyor 13 along screw shaft 13 between first endless conveyor 3 and second endless conveyor 4 Move, simultaneously, drive through second electric telescopic handle 17 and aspirate mixing device 15 up-and-down motion and be close to and/or keep away from sample test tube 5 and cryopreserving pipe 7.

The suction and blending device 15 comprises a first motor 1501, a first electric telescopic rod 1502 and a transparent tube 1503, wherein the output end of the first motor 1501 is provided with a handle portion 1504, and the handle portion 1504 is fixedly connected with the tail end of the tube 1503. The front end of the tube barrel 1503 is provided with a tube suction head, the handle portion 1504 is provided with a mounting cavity, the first electric telescopic rod 1502 is arranged in the mounting cavity, the first electric telescopic rod 1502 comprises a fixed length section and a telescopic section, the rear end wall of the tube barrel 1503 is provided with a round hole, the fixed length section is inserted into the round hole in an interference manner, the telescopic section extends into the tube barrel 1503 and is fixedly connected with a piston 1505 arranged in the tube barrel 1503, and a little gap is reserved between the piston 1505 and the bottom of the tube barrel 1503. The piston 1505 can be driven to move by the first electric telescopic rod 1502, and semen suction and sampling are completed. The first electric telescopic rod 1502 further comprises a start button, a length adjusting button and a speed adjusting button, the telescopic distance of the electric telescopic rod is controlled through the length adjusting button, so that the moving distance of the piston 1505 in the tube 1503 can be controlled, the sampling volume is controlled, and meanwhile, the running speed of the electric telescopic rod can be controlled through the speed adjusting button, and the pumping speed is controlled. The handle portion 1504 is provided with an open-sided panel at a position corresponding to the mounting cavity, and the corresponding button can be operated by opening the open-sided panel. The handle portion 1504 is also provided with an ozone generator 1513, the ozone generator 1513 extends to the inner side of the end of the tube 1503 through the air duct, a plurality of pressure relief stepped holes 1506 are formed in the piston 1505, a first spring 1507 is disposed in the pressure relief stepped holes 1506, a soft plug 1508 for blocking the pressure relief stepped hole 1506 is connected to the first spring 1507, therefore, the piston 1505 can be driven to move by the extension and contraction of the first electric telescopic rod 1502, the semen sample can be sucked, the first motor 1501 can drive the tube 1503 to rotate through the handle portion 1504, so as to achieve the purpose of uniformly mixing the semen sample, the ozone generator 1513 applies high-pressure ozone to the tube 1503 after the semen sample is sucked, the soft plug 1508 in the pressure relief stepped hole 1506 of the piston 1505 is expanded by the pressure of the ozone, so that the whole barrel 1503 is sterilized by the ozone, and the cross contamination is avoided.

In a further embodiment, the heating jacket 1509 wraps the outer diameter surface of the tube 1503, a heating wire 1510 is arranged in the heating jacket 1509, the right side wall of the handle portion 1504 is provided with a power supply 1511 for supplying power to the heating jacket 1509, semen temperature can be kept constant by the heating jacket 1509, and the right side wall of the handle portion 1504 is further provided with a temperature sensor 1512 for monitoring the temperature value of the heating jacket 1509, so as to adjust the heating temperature of the heating jacket 1509. Meanwhile, the heating jacket 1509 is provided with a strip-shaped notch groove exposing the side wall of the tube 1503, and the outer wall of the tube 1503 corresponding to the strip-shaped notch groove is provided with a scale mark 1514, so that the volume of semen suction can be accurately mastered through the scale mark 1514.

The top of the second circulating conveyor belt 4 far away from the first circulating conveyor belt 3 is provided with an electrothermal sealing instrument 16, the electrothermal sealing instrument 16 is fixed at the top of the subpackaging chamber 2 through a third electric telescopic rod 18, the electrothermal sealing instrument 16 moves up and down under the action of the third electric telescopic rod 18 to seal the orifice of the cryopreservation tube 7, the side of the second circulating conveyor belt 4 far away from the first circulating conveyor belt 3 is provided with a turntable 19, the turntable 19 is controlled by a second motor 20 to rotate and can rotate to the outer side of the subpackaging chamber 2 from a sample outlet, the outer diameter surface of the turntable 19 is provided with a plurality of jaws 21, a clamp 22 is arranged at the jaws 21, the clamp 22 comprises a first clamp arm 2201 and a second clamp arm 2202 which are mutually crossed and are hinged through a pivot, the pivot is fixed on the upper surface of the turntable 19, one end of the first clamp arm 2201 and one end of the second clamp arm 2202 are provided with clamp nozzles 2203 for clamping the cryopreservation tube 7, the clamp mouth 2203 is opened, the clamp mouth 2203 has an annular clamp 2204 for fixing the cryopreservation tube 7, and a second spring 2205 is provided between the other ends of the first clamp arm 2201 and the second clamp arm 2202. Therefore, when the freezing tube 7 moves to the side of the rotary table 19 along with the second circulating conveyor belt 4, the freezing tube 7 is gradually embedded into the jaw 21, the jaw 2203 is expanded to enter the clamping part 2204 in the process of moving to the jaw 21, and after the rotary table 19 rotates slowly, the freezing tube 7 is taken out from the taking-out notch 8 of the rubber tube sleeve 6 and is taken out and preserved by a worker when the rotating to the sample outlet. In order to protect the freezing tube 7 and ensure that the freezing tube 7 is stably clamped and does not fall off, soft rubber pads are arranged on the inner wall surface of the jaw 21 and the inner wall surface of the jaw 2203.

In addition, still be provided with the main control system 23 in the blending chamber 1, the main control system 23 is used for controlling the operating condition of first endless conveyor 3, second endless conveyor 4, first motor 1501, second motor 20, third motor 12, first electric telescopic handle 1502, second electric telescopic handle 17, third electric telescopic handle 18 and printer 10. And the mixing chamber 1 and the split charging chamber 2 are also internally provided with an ultraviolet lamp tube and an air purification device, so that the safety of the device can be effectively improved, and the purification effect is enhanced.

Known from the above, the novel full-automatic sample mixing and partial shipment integrated device that this embodiment provided, its working process is:

firstly, a sample test tube 5 containing a semen sample is placed on a first circulating conveyor belt 3, when the sample test tube 5 passes through a code scanner 9, the code scanner 9 scans a bar code on the sample test tube 5 and transmits information to a control host 23, the control host 23 controls a printer 10 to print a two-dimensional code with the sample information on a cryopreservation tube 7, the sample test tube 5 enters a blending chamber 1 from a sample inlet, when the sample test tube 5 moves to the lower part of a suction and shaking device, the first circulating conveyor belt 3 stops working, a second electric telescopic rod 17 drives a suction and blending device 15 to move downwards, a first electric telescopic rod 1502 drives a piston 1505 to move upwards, so that a tube 1503 sucks the semen sample from the sample test tube 5, after suction is finished, the suction and blending device 15 is lifted by the second electric telescopic rod 17, then a first motor rotates to shake the sample, the first circulating conveyor belt 3 continues to work, and at the moment, the third motor 12 is started to drive the screw shaft 13 to rotate, so that the suction and mixing device 15 moves towards one side of the second circulating conveyor belt 4 to the position above the cryopreservation pipe 7 on which the two-dimensional code is just printed;

then the second electric telescopic rod 17 drives the suction and mixing device 15 to move downwards, the first electric telescopic rod 1502 drives the piston 1505 to move downwards to extrude the sample into the cryopreservation tube 7, then after the suction and mixing device 15 is lifted up, the second circulating conveyor belt 4 moves to drive the cryopreservation tube 7 to move below the electric heating sealing instrument 16, at the moment, the second circulating conveyor belt stops moving, the third electric telescopic rod 18 drives the electric heating sealing instrument 16 to move downwards to seal the cryopreservation tube 7, and after the sealing treatment is finished, the third electric telescopic rod 18 moves upwards to lift the electric heating sealing instrument 16 and allow the second circulating conveyor belt 4 to continue to move;

finally, when the freezing tube 7 on the second circulating conveyor belt 4 gradually approaches the rotary table 19, the freezing tube 7 is gradually pressed into the jaw 21 and the embedded nozzle is expanded, after the freezing tube 7 completely moves in the clamping part 2204, the rotary table 19 rotates to take the freezing tube 7 out of the taking notch 8 and rotate to the sample outlet, and the worker can take the freezing tube 7 away for preservation, and the process is circulated.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a novel full-automatic sample mixing and partial shipment integrated device which characterized in that: the device comprises a mixing chamber and a sub-packaging chamber which are communicated with each other, wherein a first circulating conveyor belt and a second circulating conveyor belt are respectively arranged in the mixing chamber and the sub-packaging chamber, a sample test tube for storing a semen sample is arranged on the first circulating conveyor belt, a rubber pipe sleeve is arranged on the second circulating conveyor belt, a freezing tube is arranged in the rubber pipe sleeve, a taking-out notch convenient for the freezing tube to take out is arranged on the side wall of the rubber pipe sleeve, a transverse moving mechanism is arranged at one end of the first circulating conveyor belt adjacent to the second circulating conveyor belt, a suction mixing device which comes and goes between the first circulating conveyor belt and the second circulating conveyor belt is arranged on the transverse moving mechanism, the suction mixing device comprises a first motor, a first electric telescopic rod and a pipe barrel, a handle part is arranged at the output end of the first motor, and the handle part is fixedly connected with the end of the pipe barrel, the handle part is provided with the installation cavity, first electric telescopic handle sets up in the installation cavity, and first electric telescopic handle is including deciding long section and flexible section, decide the rear end wall fixed connection of long section and bobbin, flexible section extend to in the bobbin, and with set up the piston fixed connection in the bobbin, still be provided with ozone generator on the outer wall of handle part, ozone generator passes through the air duct and extends to the terminal inboard of bobbin, be provided with a plurality of pressure release step holes on the piston, be provided with first spring in the pressure release step hole, first spring coupling has the cork that is used for the shutoff pressure release step hole, the top that first circulating conveyer belt one end was kept away from to the second circulating conveyer belt is provided with the electric heat that can up-and-down move and seals the appearance, and the side that first circulating conveyer belt one end was kept away from to the second circulating conveyer belt is provided with the revolving stage, and the revolving stage is controlled by the second motor and is rotatory, The rotary table can rotate to the outer side of the split charging chamber, a plurality of jaws are arranged on the outer diameter surface of the rotary table, and clamps are arranged at the jaws;

2. The novel full-automatic sample mixing and subpackaging integrated device according to claim 1, which is characterized in that: the transverse moving mechanism comprises a T-shaped sliding rail, a third motor, a screw shaft and a T-shaped sliding seat, the T-shaped sliding seat is arranged in the T-shaped sliding rail, the screw shaft is arranged along the T-shaped sliding rail, the T-shaped sliding seat is in threaded connection with the screw shaft, the output end of the third motor is connected with the screw shaft through a coupler, a second electric telescopic rod is arranged at the bottom of the T-shaped sliding seat, and the second electric telescopic rod is connected with a suction mixing device.

3. The novel full-automatic sample mixing and subpackaging integrated device according to claim 1, which is characterized in that: the sample test tube is provided with a bar code, and a bar code scanner for scanning the bar code is arranged at the inlet of the mixing chamber.

4. The novel full-automatic sample mixing and subpackaging integrated device according to claim 1, which is characterized in that: the clamp comprises a first clamp arm and a second clamp arm which are mutually crossed and hinged, a clamp mouth used for clamping the frozen tube is arranged at one end of the first clamp arm and one end of the second clamp arm, and a second spring is arranged between the other end of the first clamp arm and the other end of the second clamp arm.

5. The novel full-automatic sample mixing and subpackaging integrated device according to claim 1, which is characterized in that: the indoor printer that is used for printing the two-dimensional code on freezing the pipe that is provided with of partial shipment, printer connection control host computer.

6. The novel full-automatic sample mixing and subpackaging integrated device according to claim 1, which is characterized in that: the outer diameter surface of the pipe barrel is wrapped by a heating sleeve, a heating wire is arranged in the heating sleeve, and a power supply device for supplying power to the heating sleeve and a temperature sensor for monitoring the temperature value of the heating sleeve are arranged on the side wall of the handle part.

7. The novel full-automatic sample mixing and subpackaging integrated device according to claim 6, characterized in that: the heating sleeve is provided with a strip-shaped notch groove which is exposed out of the side wall of the pipe barrel, and the outer wall of the pipe barrel corresponding to the strip-shaped notch groove is provided with scale marks.

8. The novel full-automatic sample mixing and subpackaging integrated device according to claim 1, which is characterized in that: the blending chamber and the split charging chamber are also internally provided with an ultraviolet lamp tube and an air purification device.

9. The novel full-automatic sample mixing and subpackaging integrated device according to claim 1, which is characterized in that: soft rubber pads are arranged on the inner wall surface of the jaw and the inner wall surface of the jaw mouth.