CN112834765A - Full-automatic immunoblotting appearance - Google Patents

Abstract

The application relates to a full-automatic immunoblotting instrument, which comprises a protective shell, and further comprises a material injection unit, a reaction unit and a control unit, wherein the material injection unit is respectively used for conveying a reagent to the reaction unit or discharging the reagent in the reaction unit; the reaction unit comprises a reaction chamber, and reagents in the reaction unit react or are combined in the reaction chamber; the control unit is electrically connected with the material injection unit and the reaction unit and is used for controlling the working states of the material injection unit and the reaction unit; the material injection unit, the reaction unit and the control unit are fixedly connected with the protective shell. The method and the device have the effects of reducing the test risk of the tester, reducing the test difficulty of the tester and improving the working quality of the tester.

Description

Full-automatic immunoblotting appearance

Technical Field

The application relates to the field of biological substance detecting instruments, in particular to a full-automatic immunoblotting instrument.

Background

At present, the immunoblotting method is a very common protein analysis method, and utilizes the binding property of antigen and antibody to make quantitative, qualitative or semi-quantitative analysis of protein.

However, the immunoblotting method is complicated in testing process, and not only requires the tester to accurately mix and separate the reagents for many times, but also requires the tester to spend a lot of time stirring the reagents until the reagents are uniformly mixed, and wait for the reagents to react sufficiently. In addition, many antigens are infectious or toxic to test agents, increasing the risk of infection by the antigen or inhalation of toxic agents when the test person is manually operated in an exposed state for an extended period of time.

In view of the above-mentioned related art, the inventors consider that there are drawbacks that the manual operation is complicated and the accuracy is not easily improved.

Disclosure of Invention

In order to make experimental convenient more, safe and accurate, this application provides a full-automatic immunity trace appearance, has convenience, security and accuracy nature.

The application provides a full-automatic immunoblotting appearance adopts following technical scheme:

the full-automatic immunoblotting instrument comprises a protective shell, and further comprises a material injection unit, a reaction unit and a control unit, wherein the material injection unit is respectively used for conveying a reagent to the reaction unit or discharging the reagent in the reaction unit;

the reaction unit comprises a reaction chamber, and reagents in the reaction unit react or combine in the reaction chamber;

the control unit is electrically connected with the material injection unit and the reaction unit and is used for controlling the working states of the material injection unit and the reaction unit;

the material injection unit, the reaction unit and the control unit are fixedly connected with the protective shell.

Through adopting above-mentioned technical scheme, the experimenter accessible control unit control annotates the material unit and carries out addition and the emission of reaction reagent to reagent fully reacts in the accessible control unit control reaction unit, has promoted experimental convenience and accuracy, meanwhile, has reduced operating time and with the contact of reagent, has reduced the risk of infecting virus, bacterium and being infected with the toxic reagent, has avoided manual operation's danger and difficulty.

Preferably, the material injection unit comprises a liquid guide channel and a pumping mechanism, the liquid guide channel comprises a feeding port and a material injection terminal, the liquid guide channel communicates the reagent bottle, the pumping mechanism and the reaction unit through the feeding port and the material injection terminal, the feeding port communicates with the reagent bottle, the feeding terminal communicates with the reaction unit, and the pumping mechanism transmits the reagent in the reagent bottle to the reaction unit through the liquid guide channel or extracts the reagent in the reaction unit.

Through adopting above-mentioned technical scheme, reagent can be directly through pumping mechanism guide send to reaction unit and react after communicating with the pay-off mouth, need not artificially empty reagent, is difficult for inclining to leak or spill to external environment in to be infected with to the tester's health, or in spreading into tester's mouth nose.

Preferably, the pumping mechanism comprises a plurality of peristaltic pumps controlled to be connected to the control unit, rollers are connected to the peristaltic pumps in a rotating mode, the liquid guide channel comprises an elastic hose, the pumping mechanism extrudes the elastic hose through rotating the rollers to enable the elastic hose to creep so as to control the flow of liquid, the pumping mechanism controls the flowing direction of the liquid in the liquid guide channel through controlling the rotating direction of the rollers, the pumping mechanism is electrically connected with the control unit, and the control unit controls the rotating direction of the rollers.

By adopting the technical scheme, the liquid guide channel can guide liquid in two directions, and the reagent guide in the whole test process can be finished by the cooperation of the liquid guide channel and the peristaltic pump and automatically controlled by the control unit without manual operation.

Preferably, the pumping mechanism controls the liquid flow in the liquid guide channel through the rotation angle of the roller, the pumping mechanism is electrically connected with the control unit, and the control unit controls the rotation angle of the roller.

Through adopting above-mentioned technical scheme, the dosage of the steerable reagent circulation of pumping mechanism to handing over by the control unit automatic control, more accurate and simple in the regulation and control.

Preferably, the reaction unit includes bearing platform and reaction chamber, the bearing platform is used for accepting the reaction chamber, the reaction chamber includes test ware and encapsulation lid, the encapsulation lid is used for the encapsulation test ware, be equipped with the intercommunication on the encapsulation lid annotate the material terminal with the space of test ware.

Through adopting above-mentioned technical scheme, annotate the liquid in material terminal and the test dish and can circulate to because the cover of encapsulation lid is established, can reduce reagent and sputter to external environment or through the risk of circulation of air to external environment, can reduce antigens such as virus, bacterium or toxic reagent and be infected with to the testing personnel, lead to testing personnel's health safety to receive the infringement.

Preferably, the reaction unit includes a mixing device, the mixing device includes a vibration connecting rod, an eccentric shaft and a motor, the bearing table is rotatably connected to the protective housing, the bearing table is rotatably connected to one end of the vibration connecting rod, the other end of the vibration connecting rod is rotatably connected to the eccentric shaft, the vibration connecting rod is configured to vibrate the bearing table, the motor is configured to drive the eccentric shaft to rotate around the axis, and the motor is electrically connected to the control unit.

By adopting the technical scheme, the reagent in the reaction chamber can be fully mixed by the mixing device without manual operation and automatically controlled by the control unit, so that the reaction chamber is simpler and the risk of reagent dumping in the reaction chamber is reduced.

Preferably, the reaction unit comprises a cooling component fixedly connected with the reaction chamber and the receiving platform, the cooling component is used for cooling the reaction chamber, the cooling component is electrically connected with the control unit, and the control unit controls the working state of the cooling component.

By adopting the technical scheme, the situation that the actual temperature is higher than the proper test temperature can be avoided, and the automatic control of the control unit is realized, so that the operation is convenient and fast.

Preferably, the cooling assembly includes a refrigerator, a cooling liquid, a cooling conduit and a liquid guiding pump, the cooling conduit is sequentially communicated with the refrigerator and the liquid guiding pump to form a closed loop, the cooling liquid flows through the cooling conduit, the refrigerator is configured to reduce the temperature of the cooling liquid, the cooling conduit is configured to reduce the temperature of the reaction chamber, the liquid guiding pump controls the flow rate of the cooling liquid, the cooling assembly is electrically connected to the control unit, and the control unit controls the operating state of the cooling assembly.

Through adopting above-mentioned technical scheme, the temperature of coolant liquid can be controlled through the refrigerator, and the controller automatic control is handed over to the refrigerator to the cooling strength of cooling module can be handed over by controller control, adjusts more accurately.

Preferably, the cooling assembly comprises a heat-conducting plate, the heat-conducting plate is arranged on the bearing table, the position of the heat-conducting plate corresponds to the reaction chamber, and the heat-conducting plate is used for transferring the temperature between the reaction chamber and the cooling pipe.

Through adopting above-mentioned technical scheme, cooling conduit can be quick exchange temperature through heat-conducting plate and reaction chamber to the cooling effect is better.

Preferably, the material injection terminal comprises a liquid dropping pipe, a cleaning pipe and a residue discharge pipe, the pumping mechanism comprises a first peristaltic pump, a second peristaltic pump and a third peristaltic pump, one end of the liquid dropping pipe is communicated with the reagent bottle through a feeding port, the other end of the liquid dropping pipe is communicated with the test dish, and the first peristaltic pump is used for dropping the reagent in the reagent bottle into the test dish;

one end of the cleaning pipe is communicated with external clean water through a feeding port, the other end of the cleaning pipe is communicated with the test dish, and the second peristaltic pump is used for injecting the clean water into the test dish;

one end of the residue discharge pipe is communicated with an external storage bottle through a feeding port, the other end of the residue discharge pipe is communicated with the test dish, and the third peristaltic pump is used for sucking out the residue liquid in the test dish.

Through adopting above-mentioned technical scheme, annotate the material unit and not only can drop into the required reagent of test in to the test ware through the dropping liquid pipe, can also wash the test ware through the scavenge pipe to discharge surplus liquid through the row of remaining pipe.

Preferably, the control unit comprises a controller and an interaction panel, the interaction panel is electrically connected with the controller, and the controller is used for executing data transmitted by the interaction panel.

By adopting the technical scheme, the operation of the control unit can be changed under different conditions through the interaction panel, and the compatibility and operability of the equipment are improved.

Preferably, the interactive panel is provided with a feeding type option, a feeding dosage option, a water injection switch option, a waste discharge switch option, a vibration option of the bearing table, a temperature control option and a time setting option of the feeding port.

Through adopting above-mentioned technical scheme, the experimental multiple experimental link of tester can be through mutual panel control, and is accurate convenient, when promoting work efficiency, has still promoted experimental accuracy.

Preferably, the interactive panel comprises a touch display screen.

By adopting the technical scheme, the controller can be simply adjusted through the touch display screen, so that each link in the test can be more simply and conveniently controlled, each link element of the whole test can be set through a small-sized screen, and the control is simpler and more convenient compared with the control of a basic knob or a switch.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the risk of the test personnel being infected by toxic reagents or bacteria and viruses can be reduced.

2. The test flow and the result of the immunoblotting are more accurate.

3. The process of the immunoblotting test is simpler and more convenient.

Drawings

FIG. 1 is a front view of a fully automatic immunoblotter in an embodiment of the present application.

Fig. 2 is a schematic view of the inside of a protective shell of a full-automatic immunoblotting instrument in an embodiment of the present application.

Figure 3 is a schematic diagram of the cooling assembly of a fully automated immunoblotter in an embodiment of the present application.

Reference numerals: 1. a protective shell; 11. a carrying tank; 12. a display slot; 13. a feeding gate; 14. a hook; 2. a material injection unit; 21. a feed port; 22. a material injection terminal; 221. a dropping tube; 222. cleaning the tube; 223. a residue discharge pipe; 23. a pumping mechanism; 231. a first peristaltic pump; 232. a second peristaltic pump; 233. a third peristaltic pump; 3. a reaction chamber; 31 test dish; 32. a package cover; 4. a receiving table; 41. a heat conducting plate; 5. a mixing device; 51. a vibration link; 52. an eccentric shaft; 53. a motor; 6. a cooling assembly; 61. a refrigerator; 62. a cooling conduit; 63. a liquid guiding pump; 7. a control unit; 71. a controller; 72. an interactive panel; 8. a reaction unit.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a full-automatic immunoblotting appearance.

Referring to fig. 1, the full-automatic immunoblotting instrument includes a protective housing 1, an injection unit 2, a reaction unit 8 and a control unit, wherein the bottom surface of the protective housing 1 is smoothly arranged and placed on a horizontal ground. Annotate material unit 2, reaction unit 8 and the control unit 7 interconnect and with protective housing 1 fixed connection, the operating condition of the controllable material unit of annotating of control unit 7 and reaction unit 8.

Referring to fig. 1 and 2, the reaction unit 8 includes a receiving platform 4, a reaction chamber 3, a cooling assembly 6 and a mixing unit 5, the receiving platform 4 is a rectangular platform and is disposed on the upper surface of the protection casing 1 and rotatably connected to the protection casing 1. The receiving table 4 is used for receiving four reaction chambers 3, each reaction chamber 3 comprises a test dish 31 and a packaging cover 32, and the test dish 31 is rectangular. All cover on every experimental ware 31 and be equipped with experimental ware 31 shape and size assorted encapsulation lid 32, the rectangle space has been seted up at the middle part of encapsulation lid 32 for the feeding and the ejection of compact of experimental ware 31, encapsulation lid 32 can be dismantled through the buckle with experimental ware 31 and be connected.

Annotate material unit 2 and include pay-off mouth 21, annotate material terminal 22, pumping mechanism 23 and infusion tube, one side of protective housing is equipped with pay-off door 13, and pay-off door 13 is articulated with the main part of protective housing 1, and the internal surface of pay-off door 13 is equipped with pumping mechanism 23, and pumping mechanism 23 includes first peristaltic pump 231, second peristaltic pump 232 and third peristaltic pump 233, and the peristaltic pump is the cylinder. The first peristaltic pump 231, the second peristaltic pump 232 and the third peristaltic pump 233 are fixedly connected with the inner surface of the feeding door 13. The injection terminal includes a dropping pipe 221, a cleaning pipe 222 and a discharging pipe 223. The infusion pipeline comprises a plurality of soft elastic conduits, and is divided into two sections, one section is communicated with the feeding port 21 and the pumping mechanism 23, and the other section is communicated with the material injection terminal 22 and the pumping mechanism 23. The feeding port 21 is used for communicating with the water tank and the waste discharge tank in addition to the reagent bottle. Correspondingly, the dropping tube 221 is communicated with the reagent bottle and is guided by the first peristaltic pump 231 to send the reagent, and the cleaning tube 222 is communicated with the water tank and is guided by the second peristaltic pump 232 to send the clean water; a residue discharge line 223 communicates with the storage bottle and is directed by a third peristaltic pump 233.

The mixing device 5 comprises a vibration connecting rod 51, an eccentric shaft 52 and a motor 53, a rectangular hole is formed in the middle of the protective shell 1 in a projection mode of the bearing table 4, the vibration connecting rod 51 is connected with the bearing table 4 and the eccentric shaft 52 through the rectangular hole respectively, one end of the vibration connecting rod 51 is rotatably connected with the bearing table 4, and a device for enabling the vibration connecting rod 51 to be rotatably connected with the bearing table 4 and a device for enabling the bearing table 4 to be rotatably connected with the protective shell 1 are identical in structure and angle. The eccentric shaft 52 and the motor 53 are arranged in the protective shell 1, the axis of the eccentric shaft 52 is fixedly connected with the cam of the motor 53, the eccentric shaft 52 rotates around the axis through the motor 53, and one end of the vibration connecting rod 51, which is far away from the bearing table 4, is arranged at the end part, which is far away from the axis, of the eccentric shaft 52 and is rotatably connected with the eccentric shaft 52.

The feeding door 13 and one end, close to the ground, of the side surface, corresponding to the feeding door 13, of the protective shell 1 are both provided with a rectangular carrying groove 11, and the carrying grooves 11 are used for facilitating a user to move an instrument. The end of the feeding door 13 far away from the ground is provided with four lifting hooks 14, the lifting hooks 14 are arranged in parallel, the vertical ends of the lifting hooks 14 are fixedly connected with the outer surface of the feeding door 13, and the hook parts of the lifting hooks 14 are higher than the upper surface of the protective shell 1. The hook 14 can be conveniently used to hang and organize infusion tubing when connecting the feed port 21 to the vessel.

Referring to fig. 3, the cooling assembly 6 includes a refrigerator 61, a cooling liquid, a cooling conduit 62 and a liquid guiding pump 63, the cooling conduit 62 is a closed hose made of a heat conductive material, and the cooling conduit 62 is hermetically connected to the refrigerator 61 and the liquid guiding pump 63 to form a closed loop. The cooling liquid circulates in the cooling conduit, the liquid guide pump 63 is used for driving the flowing state of the cooling liquid in the cooling conduit 62, the refrigerator 61 is used for cooling the cooling liquid, and the refrigerating temperature of the refrigerator 61 can be controlled by a unit with a calculating function. The receiving table 4 is provided with a heat conducting plate 41 having a heat conducting function, and the position of the heat conducting plate 41 corresponds to the position of the reaction chamber 3, wherein the position can also directly correspond to the position of the test cuvette 31. One surface of the heat conducting plate 41 is abutted against the reaction chamber 3, the other surface of the heat conducting plate 41 is abutted against the cooling conduit 62, the refrigerator 61 is arranged in the protective shell 1, the liquid guide pump 63 is arranged on the surface of the protective shell 1, the refrigerator 61 and the liquid guide pump 63 are electrically connected with the control unit 7, and the control unit 7 controls the working operation of the cooling assembly 6 through preset data.

Referring to fig. 1 and 2, the control unit 7 includes a controller 71 and an interactive panel 72, a display slot 12 is formed on a surface of the protective case 1, and the display slot 12 is a rectangular groove and is formed on an inclined surface of the protective case 1. An interactive panel is fixedly connected to the display slot 12, the interactive panel 72 is a touch display screen, and the interactive panel 72 is electrically connected to the controller 71. The controller 71 is located inside the protective casing 2, and the controller 71 is electrically connected to the pumping mechanism 23 of the injection unit 2, the refrigerator 61 of the cooling assembly 6, the liquid guiding pump 63, and the motor 53 of the mixing device 5. The controller 71 may automatically store and execute preset instructions through preset working time, injection type, injection dosage, cooling temperature, vibration amplitude, and waste discharge or cleaning of the interactive panel 72.

The implementation principle of the embodiment of the application is as follows: fill into reagent bottle with required reagent, and communicate reagent bottle and the pay-off mouth 21 of annotating material unit 2, set for the reagent kind of dropping liquid on the touch display screen, reagent dosage, dropping liquid time and dropping liquid order, mixing arrangement 5's vibration initial time, vibration duration, vibration number of times and vibration intensity, cooling module 6's cooling initial time, cooling duration, cooling operation number of times and cooling intensity, waste discharge and abluent time and number of times, start full-automatic immunity mark appearance.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (13)

1. The utility model provides a full-automatic immune mark appearance, includes protective housing (1), its characterized in that: the device is characterized by further comprising an injection unit (2), a reaction unit (8) and a control unit (7), wherein the injection unit (2) is respectively used for conveying a reagent to the reaction unit (8) or discharging the reagent in the reaction unit (8);

the reaction unit (8) comprises a reaction chamber (3), and the reagent in the reaction unit (8) reacts or is combined in the reaction chamber (3);

the control unit (7) is electrically connected with the material injection unit (2) and the reaction unit (8) and is used for controlling the working states of the material injection unit (2) and the reaction unit (8);

the material injection unit (2), the reaction unit (8) and the control unit (7) are fixedly connected with the protective shell (1).

2. The full-automatic immunoblotting instrument of claim 1, wherein: the material injection unit (2) comprises a liquid guide channel and a pumping mechanism (23), the liquid guide channel comprises a feeding port (21) and a material injection terminal (22), the liquid guide channel is used for communicating a reagent bottle, the pumping mechanism (23) and the reaction unit (8) through the feeding port (21) and the material injection terminal (22), the feeding port (21) is communicated with the reagent bottle, the feeding terminal (22) is communicated with the reaction unit (8), and the pumping mechanism (23) is used for transmitting a reagent in the reagent bottle to the reaction unit (8) or pumping out the reagent in the reaction unit (8) through the liquid guide channel.

3. The full-automatic immunoblotting instrument of claim 2, wherein: pumping mechanism (23) include a plurality of controlled connection in the peristaltic pump of control unit (7), the peristaltic pump internal rotation is connected with the gyro wheel, it includes elastic hose to lead the liquid passageway, pumping mechanism (23) are through rotating the gyro wheel extrusion elastic hose makes the elastic hose wriggle with the flow of control liquid, pumping mechanism (23) are through control the rotation direction control of gyro wheel liquid flow direction in leading the liquid passageway, pumping mechanism (23) with control unit (7) electricity is connected, control unit (7) control the rotation direction of gyro wheel.

4. The full-automatic immunoblotting instrument of claim 3, wherein: the pumping mechanism (23) controls the liquid flow in the liquid guide channel through the rotation angle of the roller, the pumping mechanism (23) is electrically connected with the control unit (7), and the control unit (7) controls the rotation angle of the roller.

5. The full-automatic immunoblotting instrument of claim 2, wherein: reaction unit (8) are including bearing platform (4) and reaction chamber (3), bearing platform (4) are used for accepting reaction chamber (3), reaction chamber (3) are including test ware (31) and encapsulation lid (32), encapsulation lid (32) are used for the encapsulation test ware (31), be equipped with the intercommunication on encapsulation lid (32) annotate material terminal (22) with the space of test ware (31).

6. The full-automatic immunoblotting instrument of claim 5, wherein: the reaction unit (8) comprises a mixing device (5), the mixing device (5) comprises a vibration connecting rod (51), an eccentric shaft (52) and a motor (53), the bearing table (4) is rotatably connected with the protective shell (1), the bearing table (4) is rotatably connected with one end of the vibration connecting rod (51), the other end of the vibration connecting rod (51) is rotatably connected with the eccentric shaft (52), the vibration connecting rod (51) is used for vibrating the bearing table (4), the motor (53) is used for driving the eccentric shaft (52) to rotate around the axis, and the motor (53) is electrically connected with the control unit (7).

7. The full-automatic immunoblotting instrument of claim 1, wherein: reaction unit (8) include with reaction chamber (3) reach take over platform (4) fixed connection's cooling module (6), cooling module (6) are used for reaction chamber (3) cooling, cooling module (6) with control unit (7) electricity is connected, control unit (7) control the operating condition of cooling module (6).

8. The full-automatic immunoblotting instrument of claim 7, wherein: the cooling assembly (6) comprises a refrigerator (61), a cooling liquid, a cooling conduit (62) and a liquid guiding pump (63), the cooling conduit (62) is sequentially communicated with the refrigerator (61) and the liquid guiding pump (63) to form a closed loop, the cooling liquid flows in the cooling conduit (62), the refrigerator (61) is used for reducing the temperature of the cooling liquid, the cooling conduit (62) is used for reducing the temperature of the reaction chamber (3), the liquid guiding pump (63) is used for controlling the flowing speed of the cooling liquid, the cooling assembly (6) is electrically connected with the control unit (7), and the control unit (7) is used for controlling the working state of the cooling assembly (6).

9. The full-automatic immunoblotting instrument of claim 8, wherein: cooling unit (6) include heat-conducting plate (41), heat-conducting plate (41) set up in on the take-up table (4), the position of heat-conducting plate (41) with reaction chamber (3) are corresponding, heat-conducting plate (41) are used for transmitting reaction chamber (3) and the temperature between cooling pipe (62).

10. The full-automatic immunoblotting instrument of claim 2, wherein: the material injection terminal (22) comprises a liquid dropping pipe (221), a cleaning pipe (222) and a residue discharge pipe (223), the pumping mechanism (23) comprises a first peristaltic pump (231), a second peristaltic pump (232) and a third peristaltic pump (233), one end of the liquid dropping pipe (221) is communicated with the reagent bottle through a feeding port (21), the other end of the liquid dropping pipe is communicated with the test dish (31), and the first peristaltic pump (231) is used for dropping the reagent in the reagent bottle into the test dish (31);

one end of the cleaning pipe (222) is communicated with external clean water through a feeding port (21), the other end of the cleaning pipe is communicated with the test dish (31), and the second peristaltic pump (232) is used for injecting the clean water into the test dish (31);

one end of the residue discharge pipe (223) is communicated with an external storage bottle through a feeding port (21), the other end of the residue discharge pipe is communicated with the test dish (31), and the third peristaltic pump (233) is used for sucking out residue liquid in the test dish (31).

11. The full-automatic immunoblotting instrument of claim 1, wherein: the control unit (7) comprises a controller (71) and an interaction panel (72), wherein the interaction panel (72) is electrically connected with the controller (71), and the controller (71) is used for executing data transmitted by the interaction panel (72).

12. The full-automatic immunoblotting instrument of claim 11, wherein: the interactive panel (72) is provided with a feeding type option, a feeding dosage option, a water injection switch option, a waste discharge switch option, a vibration option, a temperature control option and a time setting option of the feeding port (21), and a vibration option, a temperature control option and a time setting option of the receiving platform (4).

13. The full-automatic immunoblotting instrument of claim 11, wherein: the interaction panel (72) comprises a touch display screen.

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