CN114152738B - Immunoblotting instrument - Google Patents

Abstract

The invention discloses an immunity tracing instrument, which comprises an equipment body, wherein the equipment body comprises a shell, a reagent tube storage area, a refrigeration assembly, a reaction mechanism and a liquid adding assembly are arranged in the shell, the reagent tube storage area is communicated with a refrigeration disc in the refrigeration assembly, the refrigeration disc is divided into a plurality of refrigeration areas, the refrigeration disc is communicated with a liquid mixing groove, each refrigeration area is communicated with the liquid mixing groove, a swing assembly is arranged in the reaction mechanism and can swing the tray, a spring connected to the bottom of the tray can counteract a part of swing force to prevent reagent solution in the tray from splashing out when swinging, the liquid mixing groove is communicated with a liquid adding device arranged on the liquid adding assembly, a driving motor in the liquid adding assembly rotates a screw rod to enable a liquid adding rod on a screw block to move left and right, and the liquid adding device is fixed on the liquid adding rod to add liquid to different trays, the operation is convenient, the accounting can improve the test precision, and the risk that the tester is infected with virus or is poisoned at the operator can be reduced.

Description

Immunoblotting instrument

Technical Field

The invention relates to the field of biological test equipment, in particular to an immunoblotting instrument.

Background

The immunoblotting method is a commonly used protein analysis method, and is used for performing quantitative, qualitative or semi-quantitative analysis on protein, however, the test flow of the immunoblotting method is very complicated, so that not only is a tester required to perform multiple times of accurate mixing and separation on reagents, but also a lot of time is required for the tester to stir and mix the reagents uniformly, and in addition, many reagents have greater or lesser infectivity or toxicity, and when the tester is in the environment for a long time, the tester is easy to infect or poison, so that the physical health of the tester is damaged.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an immunoblotting instrument.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the utility model provides an immunity mark appearance, includes the equipment body, the equipment body includes the shell, be provided with reagent pipe storage area, refrigeration subassembly, reaction mechanism and liquid feeding subassembly in the shell, reagent pipe storage area is fixed to be set up on the upper portion of one side in the shell, and the fixed interior bottom surface that sets up the shell of refrigeration subassembly, and is located the below that reagent pipe storage area, and the liquid feeding subassembly sets up the opposite side in the shell, and it is relative with reagent pipe storage area, and reaction mechanism sets up and deposits between district and the liquid feeding subassembly at reagent pipe, the last fixedly connected with of refrigeration subassembly mixes the cistern, and the shell top is located reagent pipe storage area one side and is provided with the control screen.

Preferably, a reagent tube is fixedly arranged in the reagent tube storage area, a first pipette pump is arranged in the reagent tube, and the first pipette pump is connected with a pipette.

Preferably, the refrigeration subassembly includes semiconductor cooler, refrigeration dish, exhaust duct cooling tube and fan, the fixed interior bottom surface that sets up at the shell of semiconductor cooler, and be located the reagent pipe and deposit the district below, the refrigeration dish is fixed in the one side that the district was deposited to the reagent pipe, and the pipette extends to in the refrigeration dish, is connected with the electric wire between refrigeration dish and the semiconductor cooler, exhaust duct one end is fixed on the lateral wall of semiconductor cooler one end, and the other end is fixed on the inside wall of shell, and the cooling tube setting is in the exhaust duct, and one end fixed connection semiconductor cooler, and the fan is fixed the one end that is close to the shell lateral wall in the exhaust duct.

Preferably, more than 1 partition plate is fixedly arranged in the refrigeration disc, and the partition plates divide the refrigeration disc into a plurality of different refrigeration areas.

Preferably, reaction mechanism includes base frame, swing subassembly and tray, set up the holding chamber in the base frame, the opening with holding chamber intercommunication is seted up at the base frame top, and the swing subassembly sets up at the holding intracavity, and the quantity of tray is 2, sets up side by side in the top of base frame, 2 equal fixedly connected with spring between the four corners of tray and the base frame, and 2 one sides that the tray is close are all fixed and are provided with the connecting block, and 2 connecting blocks all rotate with the swing subassembly to be connected.

Preferably, the swing subassembly includes servo motor, dwang, tray, trace and eccentric cam, the one end of dwang and servo motor's the coaxial fixed connection of output, the other end fixed connection eccentric cam of dwang, the tray is fixed between eccentric cam and servo motor, and with dwang swivelling joint, the one end and the eccentric cam swivelling joint of trace, the other end passes the connecting block rotation on opening and the 2 trays and is connected.

Preferably, the liquid feeding subassembly includes driving motor, screw rod, spiral shell piece, fixing base, liquid feeding rod and spout, driving motor is fixed to be set up in the shell bottom surface, the coaxial fixed connection of screw rod one end and driving motor's output, spiral shell piece and screw rod threaded connection, screw rod and fixing base swivelling joint, the fixed interior bottom surface that sets up at the shell of fixing base, and be located one side of driving motor output, the liquid feeding rod is fixed to be set up at the top of spiral shell piece, the fixed setting of spout is on the inside wall of shell, be provided with the pulley in the spout, the liquid feeding rod passes through pulley and spout sliding connection.

Preferably, the fixed liquid filler that is provided with in top of liquid feeding pole, the vertical baffle that is equipped with in the liquid filler, the baffle separates into two independent liquid areas that hold in with the liquid filler, and one of them holds the liquid area and passes through the fixed second imbibition pump that sets up in the muddy cistern bottom of pipe, and another holds the liquid area and sets up the inlet on the shell lateral wall through the pipe intercommunication, and fixed mounting has the adapter in the inlet, adapter and pipe intercommunication, and it has the visor to lie in that the inlet articulates outward on the lateral wall of shell.

Preferably, the top of the shell is positioned above the reagent storage area and is hinged with a sealing cover, the bottom of the shell is positioned above the reaction structure and the liquid feeding assembly and is hinged with an upper cover, and a heat dissipation port is formed in the position, located on one side wall of the shell, of the fan.

Preferably, the first liquid suction pump, the semiconductor refrigerator, the second liquid suction pump, the servo motor and the driving motor are electrically connected with the control screen.

The invention has the beneficial effects that:

1. according to the immunoblotting instrument provided by the invention, all test procedures are tested in the shell, the shell is relatively closed, the infectivity and toxicity carried by a reagent are not easy to leak, and the risk of infection or poisoning of a tester is reduced.

2. According to the immunoblotting instrument provided by the invention, the refrigeration disc is provided with a plurality of refrigeration areas, a first liquid suction pump and a liquid suction pipe are arranged in each reagent pipe, different reagents can be put into different refrigeration areas to be cooled according to requirements, the cooled reagents enter the liquid mixing groove to be mixed, the mixed reagent solution is sent into the liquid adding device by the second liquid suction pump, and the liquid adding device is used for adding the solution into 2 trays respectively to react, so that the test accuracy is improved.

3. According to the immune track printer provided by the invention, the servo motor drives the rotating rod, the rotating rod drives the eccentric cam, and the eccentric cam drives the linkage rod, so that the linkage rod shakes 2 trays, a spring at the bottom of each tray can offset part of shaking force, the trays are more stable during shaking, and reagents in the trays are not easy to spill out of the trays; when the multifunctional electronic lock is used, an operator only needs to operate through the control screen, and the multifunctional electronic lock is convenient and quick.

4. According to the immune track printer provided by the invention, the driving motor rotates the screw rod, the screw block moves left and right along the screw rod, the liquid adding rod moves left and right along the screw block, liquid can be respectively added to 2 trays, two liquid containing areas are arranged in the liquid adding device, a normal temperature reagent can be fed into the liquid adding device through the liquid inlet when needed, liquid can be added without opening the upper cover, the test environment and the temperature in the device are kept, and the test accuracy is favorably improved.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is an internal structural view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a cross-sectional view taken along A-A in FIG. 3;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 6 is a cross-sectional view taken along C-C of FIG. 3;

FIG. 7 is a cross-sectional view taken along line D-D of FIG. 3;

FIG. 8 is a cross-sectional view taken along line E-E of FIG. 3;

fig. 9 is a sectional view taken along F-F in fig. 3.

In the figure, 1-equipment body, 2-shell, 3-reagent tube storage area, 31-reagent tube, 32-first liquid suction pump, 33-liquid suction tube, 4-refrigeration component, 41-semiconductor refrigerator, 42-refrigeration disk, 421-division plate, 422-refrigeration area, 43-exhaust duct, 44-radiating pipe, 45-fan, 5-reaction mechanism, 51-bottom table, 511-containing cavity, 512-opening, 52-swing component, 521-servo motor, 522-connecting rod, 523-supporting block, 524-linkage rod, 525-eccentric cam, 53-supporting disc, 531-fixed block, 6-liquid adding component, 61-driving motor, 62-screw rod, 63-screw block, 64-fixed seat, 65-liquid adding rod, 66-sliding chute, 7-electric wire, 8-spring, 9-pulley, 10-liquid filler, 101-clapboard, 102-liquid containing area, 11-conduit, 12-liquid mixing tank, 13-second liquid suction pump, 14-liquid inlet, 141-adapter, 15-protective cover, 16-sealing cover, 17-control screen, 18-upper cover and 19-heat dissipation opening.

Detailed Description

In order that those skilled in the art will better understand the technical solution of the present invention, the following detailed description of the present invention is provided in conjunction with the accompanying drawings and embodiments.

As shown in fig. 1-9, an immunoblotting instrument comprises an equipment body 1, the equipment body 1 comprises a shell 2, a reagent tube storage area 3, a refrigerating assembly 4, a reaction mechanism 5 and a liquid adding assembly 6 are arranged in the shell 2, and a control screen 17 is arranged on one side of the top of the shell 2, which is located on the reagent tube storage area 3.

The reagent tube storage area 3 is fixedly arranged on the upper portion of the inner wall of one side in the shell 2, 4-6 reagent tubes 31 are fixedly arranged in the reagent tube storage area 3, a first liquid suction pump 32 and a liquid suction pipe 33 are arranged in each reagent tube 31, and the liquid suction pipe 33 is fixedly connected with the first liquid suction pump 32.

The refrigerating assembly 4 comprises a semiconductor refrigerator 41, a refrigerating disc 42, an exhaust duct 43, a radiating pipe 44 and a fan 45, the semiconductor refrigerator 41 is fixedly arranged on the inner bottom surface of the shell 2 and is positioned below the reagent tube storage area 3, the refrigerating disc 42 is fixed on the side wall of the reagent tube storage area 3, 3-5 partition plates 421 are fixedly arranged in the refrigerating disc 42, the partition plates 421 divide the interior of the refrigerating disc 42 into 4-6 refrigerating areas 422, the pipette 33 in each reagent tube 31 respectively extends into the corresponding refrigerating areas 422, the bottom of the refrigerating disc 42 and one end of the semiconductor refrigerator 41 are connected with an electric wire 7, the bottom plate of the refrigerating disc 42 is a metal plate, one end of the exhaust duct 43 is fixedly connected with the other end of the semiconductor refrigerator 41, the other end of the exhaust duct 43 is fixedly connected with the inner side wall of the shell 2, the radiating pipe 44 is spiral and can absorb more heat generated by the semiconductor refrigerator 41, the heat pipe 44 is disposed in the exhaust duct 43, and one end of the heat pipe is fixedly connected to the semiconductor refrigerator 41, and the fan is fixedly installed at one end of the exhaust duct 43 close to the inner side wall of the housing 2, so that when the refrigerator is used, the semiconductor refrigerator 41 is powered on to lower the temperature of the cooling plate 42, the heat generated during the cooling is absorbed by the heat pipe 44, and the fan 45 blows out the heat absorbed by the heat pipe.

The side wall of the refrigeration disc 42 is fixed with a liquid mixing groove 12, all refrigeration areas 422 in the refrigeration disc 42 are communicated with the liquid mixing groove 12, the interior of the liquid mixing groove 12 inclines from two ends to the middle from high to low, the bottom of the liquid mixing groove 12 is fixed with a second liquid suction pump 13 communicated with the liquid mixing groove 12, and the liquid suction pump 13 is connected with a conduit 11.

Reaction mechanism 5 includes base frame 51, swing subassembly 52 and 2 trays 53, base frame 51 fixed mounting has seted up holding chamber 511 in the inner bottom surface of shell 2 in the base frame 51, the opening 512 with holding chamber 511 intercommunication is seted up at base frame 51 top, swing subassembly 52 sets up in holding chamber 511, 2 tray 53 all set up in base frame 51 top, the equal fixedly connected with in four corners of 2 trays sets up the spring 8 at base frame 51 top, 2 one side that individual tray 53 bottom is close all fixedly is provided with connection piece 531, connection piece 531 and swing subassembly 52 swivelling joint.

The swing component 52 comprises a servo motor 521, a connecting rod 522, a support block 523, an interlocking rod 524 and an eccentric cam 525, the servo motor 521 is fixedly installed on the inner bottom surface of the housing 2 and is located at one end of the accommodating cavity 511, one end of the connecting rod 522 is coaxially and fixedly connected with the output end of the servo motor 521, the other end of the connecting rod is fixedly connected with the eccentric cam 525, the support block 523 is fixedly arranged on the inner bottom surface of the housing 2 and is located between the eccentric cam 525 and the servo motor 521, the support block 523 is rotatably connected with the connecting rod 522, one end of the interlocking rod 524 is rotatably connected with the eccentric cam 525, the other end of the interlocking rod 524 penetrates through the opening 511 to extend to the fixed block 531, a pin shaft is fixedly connected between the two fixed blocks 531, and the interlocking rod 524 is rotatably connected with the pin shaft.

The liquid adding assembly 6 comprises a driving motor 61, a screw 62, a screw block 63, a fixed seat 64, a liquid adding rod 65 and a sliding groove 66, wherein the driving motor 61 and the fixed seat 64 are fixedly arranged on the inner bottom surface of the shell 2, the fixed seat 64 is positioned on one side of the output end of the driving motor 61, the screw 62 is rotatably connected with the fixed seat 64, one end of the screw 62 is coaxially and fixedly connected with the output end of the driving motor 61, the screw block 63 is in threaded connection with the screw, the liquid adding rod 65 is fixed at the top of the screw block 63, the sliding groove 66 is fixed on the inner side wall of the shell 2 and positioned above the screw 62, a pulley 9 is arranged in the sliding groove 66, and the liquid adding rod 65 is in sliding connection with the sliding groove 66 through the pulley 9; the top of the liquid adding rod 65 is fixedly connected with a liquid adding device 10, a partition plate 101 is vertically arranged inside the liquid adding device 10, the partition plate 101 divides the inside of the liquid adding device 10 into two independent liquid containing areas 102, one of the liquid containing areas 102 is communicated with the liquid mixing tank 12 through a guide pipe 11 on the second liquid suction pump 13, the other liquid containing area 102 is also connected with a guide pipe 11, the other end of the guide pipe 11 is connected with a liquid inlet 14 formed in the inner side wall of the shell 2, an adapter 141 is installed in the liquid inlet 14, and a protective cover 15 is hinged outside the liquid inlet 14 on the outer side wall of the shell 2.

The top that 2 tops of shell are located reagent pipe and deposit district 3 articulates there is sealed lid 16, sealed lid 16 can prevent that infectivity and toxicity can send out infection testing personnel in the reagent, 2 tops of shell are located 5 tops of reaction mechanism and articulate there is upper cover 18, upper cover 18 can maintain test regional environment and temperature, be favorable to improving experimental accurate nature, it has seted up thermovent 19 to lie in fan 45 department on the lateral wall of shell 2, thermovent 19 is favorable to in time discharging shell 2 with the heat that semiconductor cooler 41 during operation produced.

The first liquid suction pumps 32, the semiconductor refrigerator 41, the second liquid suction pumps 13, the servo motor 521 and the driving motor 61 are all electrically connected with the control panel 17, wherein the number of the first liquid suction pumps 32 is more than one, and the control panel 17 can respectively control each first liquid suction pump 32 to work independently.

The working principle of the invention is as follows:

1. when the device is used, an operator starts the semiconductor refrigerator 41 through the control screen 17, the semiconductor refrigerator 41 works to reduce the temperature of the bottom plate of the refrigerating disc 42, then the operator starts the first liquid suction pump 32 through the control screen 17 according to requirements, the first liquid suction pump 32 sends a reagent in the reagent pipe 31 to the refrigerating area 422 of the refrigerating disc 42 through the liquid suction pipe 33 for refrigeration, and the operator can start one or more first liquid suction pumps 32 according to test requirements.

2. The refrigerated reagent can enter the liquid mixing tank 12 from the refrigerating area 422, and when a plurality of refrigerating areas 422 contain reagents, due to the structure that the two ends of the inner bottom surface of the liquid mixing tank 12 are higher than the middle part, a plurality of parts of reagents are mixed when entering the liquid mixing tank 12 and flowing into the middle part from the two ends.

3. The mixed reagent solution is sent into one of the liquid containing areas 102 of the liquid adding device 10 through the second liquid suction pump 13 through the guide pipe 11, the operator starts the driving motor 61 through the control screen 17, the screw 62 rotates to drive the screw block 63 to move left and right, the liquid adding rod 65 moves along with the screw block 63, and the liquid adding device 10 adds liquid to 2 trays 53 respectively.

4. After adding reagent solution in 2 tray 53, operating personnel starts servo motor 521, and servo motor 521 drive dwang 522 is taken care of to private, and dwang 522 drives eccentric cam 525, thereby eccentric cam 525 drives trace 524 and rocks 2 tray 53, and the spring 8 of tray 53 bottom connection can offset partly power of shaking, makes reagent solution avoid spilling from tray 53 when the stirring.

5. The heat generated by the operation of the semiconductor cooler 41 is absorbed by the heat pipe 44, the heat pipe 44 radiates the heat into the exhaust duct 43, and the fan 45 sends the heat out of the casing 2 from the exhaust duct 43.

Claims (5)

1. The utility model provides an immunoblotting appearance, includes equipment body (1), its characterized in that: the equipment body (1) comprises a shell (2), a reagent tube storage area (3), a refrigeration assembly (4), a reaction mechanism (5) and a liquid adding assembly (6) are arranged in the shell (2), the reagent tube storage area (3) is fixedly arranged on the upper portion of one side in the shell (2), the refrigeration assembly (4) is fixedly arranged on the inner bottom surface of the shell (2) and is located below the reagent tube storage area (3), the liquid adding assembly (6) is arranged on the other side in the shell (2) and is opposite to the reagent tube storage area (3), the reaction mechanism (5) is arranged between the reagent tube storage area (3) and the liquid adding assembly (6), a liquid mixing groove (12) is fixedly connected to the refrigeration assembly (4), and a control screen (17) is arranged on one side, located on the reagent tube storage area (3), of the top of the shell (2);

a reagent tube (31) is fixedly arranged in the reagent tube storage area (3), a first liquid suction pump (32) is arranged in the reagent tube (31), and a liquid suction pipe (33) is connected to the first liquid suction pump (32);

the refrigerating assembly (4) comprises a semiconductor refrigerator (41), a refrigerating disc (42), an exhaust duct (43), a radiating pipe (44) and a fan (45), the semiconductor refrigerator (41) is fixedly arranged on the inner bottom surface of the shell (2), and is positioned below the reagent tube storage area (3), the refrigerating disc (42) is fixed at one side of the reagent tube storage area (3), the pipette (33) extends into the refrigerating disc (42), an electric wire (7) is connected between the refrigerating disc (42) and the semiconductor refrigerator (41), one end of the exhaust duct (43) is fixed on the side wall of one end of the semiconductor refrigerator (41), the other end is fixed on the inner side wall of the shell (2), the radiating pipe (44) is arranged in the exhaust duct (43), one end of the fan (45) is fixedly connected with the semiconductor refrigerator (41), and the fan is fixed at one end, close to the side wall of the shell (2), in the exhaust duct (43);

more than 1 partition plate (421) is fixedly arranged in the refrigerating disc (42), and the refrigerating disc (42) is divided into a plurality of different refrigerating areas (422) by the partition plates (421);

the reaction mechanism (5) comprises a bottom platform (51), a swing assembly (52) and trays (53), wherein a containing cavity (511) is formed in the bottom platform (51), an opening (512) communicated with the containing cavity (511) is formed in the top of the bottom platform (51), the swing assembly (52) is arranged in the containing cavity (511), the number of the trays (53) is 2, the trays are arranged above the bottom platform (51) in parallel, springs (8) are fixedly connected between four corners of the 2 trays (53) and the bottom platform, connecting blocks (531) are fixedly arranged on one side, close to the 2 trays (53), of each tray, and the 2 connecting blocks (531) are rotatably connected with the swing assembly (52);

swing subassembly (52) include servo motor (521), dwang (522), tray (523), trace (524) and eccentric cam (525), the one end of dwang (522) and the coaxial fixed connection of output of servo motor (521), the other end fixed connection eccentric cam (525) of dwang (522), tray (523) are fixed between eccentric cam (525) and servo motor (521), and with dwang (522) swivelling joint, the one end and the eccentric cam (525) swivelling joint of trace (524), the other end passes opening (512) and connecting block (531) on 2 tray (53) and rotates and be connected.

2. An immunoblotter according to claim 1 wherein: liquid feeding subassembly (6) are including driving motor (61), screw rod (62), spiral shell piece (63), fixing base (64), liquid feeding pole (65) and spout (66), driving motor (61) is fixed to be set up in shell (2) bottom surface, the coaxial fixed connection of output of screw rod (62) one end and driving motor (61), spiral shell piece (63) and screw rod (62) threaded connection, screw rod (62) and fixing base (64) swivelling joint, fixing base (64) are fixed to be set up the interior bottom surface in shell (2), and lie in one side of driving motor (61) output, liquid feeding pole (65) are fixed to be set up at the top of spiral shell piece (63), spout (66) are fixed to be set up on the inside wall of shell (2), be provided with pulley (9) in spout (66), liquid feeding pole (65) are through pulley (9) and spout (66) sliding connection.

3. An immunoblotter according to claim 2 wherein: the liquid adding device is characterized in that a liquid adding device (10) is fixedly arranged at the top of the liquid adding rod (65), a partition plate (101) is vertically arranged in the liquid adding device (10), the liquid adding device (10) is divided into two independent liquid containing areas (102) by the partition plate (101), one of the liquid containing areas (102) is fixedly arranged on a second liquid suction pump (13) at the bottom of the liquid mixing tank (12) through a guide pipe (11), the other liquid containing area (102) is communicated with a liquid inlet (14) formed in the side wall of the shell (2) through the guide pipe (11), an adapter (141) is fixedly arranged in the liquid inlet (14), the adapter (141) is communicated with the guide pipe (11), and a protective cover (15) is hinged outside the liquid inlet (14) on the outer side wall of the shell (2).

4. An immunoblotter according to claim 1 wherein: the top of the shell (2) is positioned above the reagent tube storage area (3) and is hinged with a sealing cover (16), the bottom of the shell (2) is positioned above the reaction mechanism (5) and the liquid feeding assembly (6) and is hinged with an upper cover (18), and a heat dissipation opening (19) is formed in the position, positioned on one side wall of the shell (2), of the fan (45).

5. An immunoblotter according to any of claims 1-4 wherein: the first liquid suction pump (32), the semiconductor refrigerator (41), the second liquid suction pump (13), the servo motor (521) and the driving motor (61) are all electrically connected with the control screen (17).

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