CN216144823U - Sample transmission mechanism of blood specific protein analyzer - Google Patents

Abstract

The utility model relates to the technical field of specific protein analyzers, in particular to a sample transmission mechanism of a blood specific protein analyzer, which comprises a base; a transmission platform is arranged on the base; the transmission platform comprises a first longitudinal transmission area, a second longitudinal transmission area and a transverse transmission area; the base is provided with a longitudinal transmission mechanism, a transverse transmission mechanism and a pushing mechanism; the pushing-out mechanism is used for pushing the sample of the second longitudinal transmission area; a first photoelectric switch and a second photoelectric switch are respectively arranged at two ends of the transverse transmission area of the base; the base is provided with a bar code recognizer in the transverse transmission area. According to the utility model, the automatic sample feeding and discharging of the blood specific protein analyzer is completed by arranging the first longitudinal transmission area, the second longitudinal transmission area, the transverse transmission area, the longitudinal transmission mechanism, the transverse transmission mechanism and the pushing mechanism.

Description

Sample transmission mechanism of blood specific protein analyzer

Technical Field

The utility model relates to the technical field of specific protein analyzers, in particular to a sample transmission mechanism of a blood specific protein analyzer.

Background

The specific protein measuring module is a modular detection device equipped on the blood analyzer, and is used for assisting the blood analyzer to realize the analysis and detection functions of specific proteins such as C-reactive protein (CRP), Serum Amyloid A (SAA) and the like.

And present specific protein analysis appearance needs the inspection personnel to place the test tube one by one on the material district of getting of analysis appearance, waits for the analysis appearance to absorb the sample in the test tube one by one after, inspection personnel could take off the test tube, then puts into next test tube, and this a series of operations all need artifical the completion, occupy the inspection personnel a large amount of time, and efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to overcoming the above-mentioned shortcomings of the prior art, and providing a sample transport mechanism for a blood specific protein analyzer.

The purpose of the utility model is realized by the following technical scheme: a sample transmission mechanism of a blood specific protein analyzer comprises a base; a transmission platform is arranged on the base; the transmission platform comprises a first longitudinal transmission area, a second longitudinal transmission area and a transverse transmission area; the transverse transmission area is arranged between the first longitudinal transmission area and the second longitudinal transmission area;

the base is provided with a longitudinal transmission mechanism, a transverse transmission mechanism and a pushing mechanism; the longitudinal conveying mechanism is used for conveying the samples of the first longitudinal conveying area to the transverse conveying area; the transverse conveying mechanism is used for conveying the samples in the transverse conveying area to the second longitudinal conveying area; the pushing-out mechanism is used for pushing the sample of the second longitudinal transmission area;

a first photoelectric switch and a second photoelectric switch are respectively arranged at two ends of the transverse transmission area of the base; the base is provided with a bar code recognizer in the transverse transmission area.

The utility model is further provided that the first longitudinal transport zone is provided with a longitudinal slot; the longitudinal transmission mechanism comprises a first push block movably arranged in the longitudinal groove, a first push rod connected with the first push block and a longitudinal driving assembly used for driving the first push rod to move.

The utility model is further provided that the longitudinal driving assembly comprises a first motor arranged on the base, a first conveyor belt connected with the output end of the first motor, and a first connecting block arranged on the first conveyor belt; the first connecting block is connected with the first push rod.

The utility model is further provided that the transverse transport zone is provided with a transverse slot; the transverse transmission mechanism comprises a second push block movably arranged in the transverse groove, a push seat movably arranged on the base and a transverse driving assembly for driving the first push rod to move;

the second push block is rotatably arranged on the push seat; the pushing seat is provided with a limiting block used for abutting against the second pushing block; the pushing seat is provided with a return spring for returning the second pushing block.

The utility model is further provided that the transverse driving assembly comprises a second motor arranged on the base, a second conveyor belt connected with the output end of the second motor and a second connecting block arranged on the second conveyor belt; the second connecting block is connected with the pushing seat.

The utility model is further provided that the base is provided with a column; the first photoelectric switch, the second photoelectric switch and the bar code recognizer are all arranged on the stand column; the stand is equipped with the groove of stepping down that is used for stepping down for bar code identification ware.

The utility model is further arranged that the second longitudinal transfer zone is provided with a push groove; the pushing mechanism comprises a third pushing block movably arranged in the pushing groove, a second pushing rod movably arranged on the base and a pushing driving assembly used for driving the second pushing rod to move.

The utility model is further provided that the push-out driving component comprises a third motor arranged on the base, a third conveyor belt connected with the output end of the third motor and a third connecting block arranged on the third conveyor belt; and the third connecting block is connected with the second push rod.

The utility model is further provided that the second longitudinal transmission zone is provided with a contact switch.

The utility model has the beneficial effects that: according to the utility model, the automatic sample feeding and discharging of the blood specific protein analyzer is completed by arranging the first longitudinal transmission area, the second longitudinal transmission area, the transverse transmission area, the longitudinal transmission mechanism, the transverse transmission mechanism and the pushing mechanism.

Drawings

The utility model is further described with the aid of the accompanying drawings, in which, however, the embodiments do not constitute any limitation to the utility model, and for a person skilled in the art, further drawings can be derived from the following drawings without inventive effort.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of the present invention after hiding the transmission platform;

FIG. 3 is a schematic view of the lateral transfer mechanism of the present invention;

wherein: 1. a base; 11. a column; 12. a yielding groove; 2. a transport platform; 21. a first longitudinal transport zone; 22. a second longitudinal transport zone; 23. a transverse transport zone; 31. a first photoelectric switch; 32. a second photoelectric switch; 33. a bar code identifier; 41. a longitudinal slot; 42. a first push block; 43. a first push rod; 44. a first motor; 45. a first conveyor belt; 46. a first connection block; 51. a transverse slot; 52. a second push block; 53. a pushing seat; 54. a limiting block; 55. a return spring; 56. a second motor; 57. a second conveyor belt; 58. a second connecting block; 61. a push groove; 62. a third push block; 63. a second push rod; 64. A third motor; 65. a third conveyor belt; 66. a third connecting block; 7. a contact switch.

Detailed Description

The utility model is further described with reference to the following examples.

As can be seen from fig. 1 to 3, the sample transfer mechanism of the blood specific protein analyzer of the present embodiment includes a base 1; a transmission platform 2 is arranged on the base 1; the transport platform 2 comprises a first longitudinal transport zone 21, a second longitudinal transport zone 22 and a transverse transport zone 23; the transverse transfer zone 23 is arranged between the first longitudinal transfer zone 21 and the second longitudinal transfer zone 22;

the base 1 is provided with a longitudinal transmission mechanism, a transverse transmission mechanism and a pushing mechanism; the longitudinal transport mechanism is used for transporting the sample of the first longitudinal transport zone 21 to the transverse transport zone 23; the transverse conveying mechanism is used for conveying the samples of the transverse conveying area 23 to the second longitudinal conveying area 22; the pushing-out mechanism is used for pushing the sample of the second longitudinal transmission area 22;

the base 1 is provided with a first photoelectric switch 31 and a second photoelectric switch 32 at two ends of the transverse transmission area 23 respectively; the base 1 is provided with a bar code identifier 33 in the transverse transport zone 23.

Specifically, the sample transport mechanism of the blood-specific protein analyzer according to the present embodiment first places the sample in the first longitudinal transport zone 21, the longitudinal transport mechanism then moves the sample to the lateral transport zone 23, the lateral transport mechanism moves the sample, after passing through the first photoelectric switch 31 and the second photoelectric switch 32, the first photoelectric switch 31 and the second photoelectric switch 32 have the function of precise positioning, and the transverse transmission mechanism stops working, so that the sample stays at the center of the transverse transmission area 23, and then the bar code recognizer 33 recognizes the bar code on the sample, the blood specific protein analyzer samples the sample, the transverse transmission mechanism works again after the sampling is finished, the sample is moved to the second longitudinal transmission area 22, and the pushing mechanism sends out the sample, so that the sample automatic loading and unloading of the blood specific protein analyzer are finished.

In the sample transport mechanism of the blood specific protein analyzer according to this embodiment, the first longitudinal transport region 21 is provided with a longitudinal groove 41; the longitudinal transmission mechanism comprises a first push block 42 movably arranged in the longitudinal groove 41, a first push rod 43 connected with the first push block 42, and a longitudinal driving assembly for driving the first push rod 43 to move.

In the sample transport mechanism of the blood specific protein analyzer of this embodiment, the longitudinal driving assembly includes a first motor 44 disposed on the base 1, a first conveyor belt 45 connected to an output end of the first motor 44, and a first connecting block 46 disposed on the first conveyor belt; the first connecting block 46 is connected to the first push rod 43.

Specifically, when the sample needs to be pushed in the first longitudinal transport area 21, the first motor 44 is started, the first motor 44 drives the first transport belt to work, and the first transport belt sequentially passes through the first connecting block 46 and the first push rod 43 and then drives the first push block 42 to move, so that the first push block 42 pushes the sample to move to the transverse transport area 23 while moving in the longitudinal groove 41.

In the sample transport mechanism of the blood specific protein analyzer according to this embodiment, the lateral transport region 23 is provided with a lateral groove 51; the transverse transmission mechanism comprises a second push block 52 movably arranged in the transverse groove 51, a push seat 53 movably arranged on the base 1 and a transverse driving component for driving the first push rod 43 to move;

the second pushing block 52 is rotatably arranged on the pushing seat 53; the pushing seat 53 is provided with a limiting block 54 which is used for abutting against the second pushing block 52; the push seat 53 is provided with a return spring 55 for returning the second push block 52.

In the sample transport mechanism of the blood specific protein analyzer according to this embodiment, the lateral driving assembly includes a second motor 56 disposed on the base 1, a second conveyor belt 57 connected to an output end of the second motor 56, and a second connecting block 58 disposed on the second conveyor belt; the second connecting block 58 is connected to the push seat 53.

Specifically, when a sample needs to be pushed in the transverse transmission area 23, the second motor 56 is started, the second motor 56 drives the second conveyor belt to work, the second conveyor belt sequentially passes through the second connecting block 58 and the pushing seat 53 and then drives the second pushing block 52 to move, due to the action of the limiting block 54, the second pushing block 52 pushes the sample to move towards the second longitudinal transmission area 22 while moving in the transverse groove 51, and when the motor works in the reverse direction, the second pushing block 52 is rotatably arranged on the pushing seat 53, so that the sample does not block the second pushing block 52 from resetting.

So that the first pusher 42 pushes the sample towards the lateral transport zone 23 while moving in the longitudinal groove 41.

In the sample transport mechanism of the blood specific protein analyzer according to this embodiment, the base 1 is provided with the upright post 11; the first photoelectric switch 31, the second photoelectric switch 32 and the bar code recognizer 33 are all arranged on the upright post 11; the upright post 11 is provided with an abdicating groove 12 for abdicating the bar code recognizer 33. Through the arrangement, the structure of the sample transmission mechanism of the blood specific protein analyzer is more stable.

In the sample transport mechanism of the blood specific protein analyzer according to this embodiment, the second longitudinal transport region 22 is provided with a pushing groove 61; the pushing mechanism comprises a third pushing block 62 movably arranged in the pushing groove 61, a second pushing rod 63 movably arranged on the base 1, and a pushing driving component for driving the second pushing rod 63 to move.

In the sample transport mechanism of the blood specific protein analyzer according to this embodiment, the pushing-out driving assembly includes a third motor 64 disposed on the base 1, a third conveyor belt 65 connected to an output end of the third motor 64, and a third connecting block 66 disposed on the third conveyor belt; the third connecting block 66 is connected with the second push rod 63.

Specifically, when the sample needs to be pushed in the second longitudinal transport region 22, the third motor 64 is started, the third motor 64 drives the third conveyor belt to work, and the third conveyor belt drives the third pushing block 62 to move after passing through the third connecting block 66 and the second pushing rod 63 in sequence, so that the third pushing block 62 pushes the sample to move while moving in the pushing groove 61.

In the sample transfer mechanism of the blood specific protein analyzer according to the present embodiment, the second longitudinal transfer section 22 is provided with a contact switch 7. The above arrangement enables the movement distance of the sample to be limited.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (9)

1. A sample transmission mechanism of a blood specific protein analyzer is characterized in that: comprises a base (1); a transmission platform (2) is arranged on the base (1); the transfer platform (2) comprises a first longitudinal transfer zone (21), a second longitudinal transfer zone (22) and a transverse transfer zone (23); the transverse transmission zone (23) is arranged between the first longitudinal transmission zone (21) and the second longitudinal transmission zone (22);

the base (1) is provided with a longitudinal transmission mechanism, a transverse transmission mechanism and a pushing mechanism; the longitudinal transport mechanism is used for transporting the sample of the first longitudinal transport zone (21) to the transverse transport zone (23); the transverse conveying mechanism is used for conveying the samples of the transverse conveying area (23) to the second longitudinal conveying area (22); the pushing-out mechanism is used for pushing the sample of the second longitudinal transmission area (22);

a first photoelectric switch (31) and a second photoelectric switch (32) are respectively arranged at two ends of the transverse transmission area (23) of the base (1); the base (1) is provided with a bar code identifier (33) in the transverse transmission area (23).

2. The sample transport mechanism for a blood specific protein analyzer according to claim 1, wherein: the first longitudinal transfer zone (21) is provided with a longitudinal slot (41); the longitudinal transmission mechanism comprises a first push block (42) movably arranged in the longitudinal groove (41), a first push rod (43) connected with the first push block (42), and a longitudinal driving assembly used for driving the first push rod (43) to move.

3. The sample transport mechanism for a blood specific protein analyzer according to claim 2, wherein: the longitudinal driving assembly comprises a first motor (44) arranged on the base (1), a first conveying belt (45) connected with the output end of the first motor (44) and a first connecting block (46) arranged on the first conveying belt; the first connecting block (46) is connected with a first push rod (43).

4. The sample transport mechanism for a blood specific protein analyzer according to claim 1, wherein: the transverse conveying area (23) is provided with a transverse groove (51); the transverse transmission mechanism comprises a second push block (52) movably arranged in a transverse groove (51), a push seat (53) movably arranged on the base (1) and a transverse driving component for driving the first push rod (43) to move;

the second push block (52) is rotatably arranged on the push seat (53); the pushing seat (53) is provided with a limiting block (54) which is used for abutting against the second pushing block (52); the pushing seat (53) is provided with a return spring (55) for returning the second pushing block (52).

5. The sample transport mechanism for a blood specific protein analyzer according to claim 4, wherein: the transverse driving assembly comprises a second motor (56) arranged on the base (1), a second conveyor belt (57) connected with the output end of the second motor (56) and a second connecting block (58) arranged on the second conveyor belt; the second connecting block (58) is connected with the pushing seat (53).

6. The sample transport mechanism for a blood specific protein analyzer according to claim 1, wherein: the base (1) is provided with a stand column (11); the first photoelectric switch (31), the second photoelectric switch (32) and the bar code recognizer (33) are arranged on the upright post (11); the upright post (11) is provided with an abdicating groove (12) for abdicating the bar code recognizer (33).

7. The sample transport mechanism for a blood specific protein analyzer according to claim 1, wherein: the second longitudinal transmission area (22) is provided with a pushing groove (61); the pushing mechanism comprises a third pushing block (62) movably arranged in the pushing groove (61), a second pushing rod (63) movably arranged on the base (1) and a pushing driving assembly used for driving the second pushing rod (63) to move.

8. The sample transport mechanism for a blood specific protein analyzer according to claim 7, wherein: the pushing-out driving assembly comprises a third motor (64) arranged on the base (1), a third conveyor belt (65) connected with the output end of the third motor (64) and a third connecting block (66) arranged on the third conveyor belt; the third connecting block (66) is connected with the second push rod (63).

9. The sample transport mechanism for a blood specific protein analyzer according to claim 1, wherein: the second longitudinal transmission zone (22) is provided with a contact switch (7).

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