CN-224231788-U - Sample loading assembly and sample analysis device

Abstract

The utility model provides a sample loading assembly and a sample analysis device, wherein the sample loading assembly comprises a sample storage table, an automatic storage bin, a manual storage bin, a transmission mechanism and a first transfer mechanism, wherein the sample storage table is provided with an automatic storage area and a manual storage area, the automatic storage bin is arranged in the automatic storage area and is used for placing a first sample rack, the manual storage bin is arranged in the manual storage area and is used for placing a second sample rack, the transmission mechanism is provided with a transmission track used for transmitting the first sample rack and the second sample rack to the sample analysis assembly, and the first transfer mechanism is movably arranged on the sample storage table and can be used for transporting the first sample rack from the automatic storage bin to the transmission track and transporting the second sample rack from the manual storage bin to the transmission track. The technical scheme of the utility model can effectively solve the problem that the sample analysis device for automatic feeding in the related technology is difficult to rapidly realize rapid sample feeding of special samples such as emergency samples, calibration products, quality control products and the like.

Inventors

• ZHU LIANG
• WANG QINGBIN
• ZUO JIZHOU
• LIU KUN
• YANG XIWU

Assignees

• 深圳市新产业生物医学工程股份有限公司

Dates

Publication Date

20260512

Application Date

20250429

Claims (10)

1. 1. A sample loading assembly, comprising: a sample storage stage (10) having an automatic storage area (11) and a manual storage area (12); An automated storage bin (20) disposed within the automated storage area (11), the automated storage bin (20) for holding a first sample rack (201); A manual storage bin (30) disposed within the manual storage area (12), the manual storage bin (30) for placing a second sample rack (301); A transport mechanism having a transport track for transporting the first sample rack (201) and the second sample rack (301) to a sample analysis assembly; A first transfer mechanism (40) movably disposed on the sample storage stage (10) and capable of transporting the first sample rack (201) from the automated storage bin (20) to the transfer track and transporting the second sample rack (301) from the manual storage bin (30) to the transfer track.
2. 2. Sample loading assembly according to claim 1, wherein the automatic storage area (11) and the manual storage area (12) are arranged adjacent in a first direction (a), the first transfer means (40) being arranged movable along the first direction (a), the automatic storage area (11) and the manual storage area (12) being located on one side of the first transfer means (40) in a second direction (b), the transport means being located on the other side of the first transfer means (40) in the second direction (b), wherein the second direction (b) is perpendicular to the first direction (a).
3. 3. The sample loading assembly of claim 2, wherein the sample loading assembly comprises a sample cartridge, The automated storage library (20) comprises a plurality of first slots (21) arranged along the first direction (a), each first slot (21) extending along the second direction (b) and being adapted to receive one of the first sample holders (201), and/or, The manual magazine (30) comprises a plurality of second slots (31) arranged along the first direction (a), each second slot (31) extending along the second direction (b) and being adapted to receive one of the second sample holders (301).
4. 4. A sample loading assembly according to any one of claims 1 to 3, wherein the manual magazine (30) is slidably disposed on the sample storage stage (10) and has a loading position projecting from the sample storage stage (10) and a storage position fully retracted into the sample storage stage (10).
5. 5. Sample loading assembly according to claim 1 or 2, wherein the automated storage bin (20) comprises a bottom plate (22), a baffle (23) at one end of the bottom plate (22) and a plurality of separation plates (24) arranged on the bottom plate (22), a first end of the plurality of separation plates (24) being connected to the baffle (23), a second end of the plurality of separation plates (24) being a free end, a first slot (21) for placing one of the first sample holders (201) being formed between two adjacent separation plates (24).
6. 6. Sample loading assembly according to claim 5, wherein at least one of the two adjacent separation plates (24) is provided with an abutment mechanism (25), the abutment mechanism (25) comprising an elastic member (251) and a rolling abutment member (252), the rolling abutment member (252) being rotatably arranged along a vertical axis, the elastic member (251) exerting an elastic force towards the first sample holder (201) against the rolling abutment member (252).
7. 7. The sample loading assembly of claim 5, wherein the sample loading assembly comprises a sample cartridge, The upper end of at least one of the two adjacent separation plates (24) is provided with a blocking edge (26), the blocking edge (26) is in stop fit with the upper surface of the first sample frame (201), and/or, The first transfer mechanism (40) can extend to the lower side of the first sample frame (201) and can be in plug-in fit with the first sample frame (201), and an avoidance gap (221) for the first transfer mechanism (40) to extend in is formed in the bottom plate (22) corresponding to each first slot (21).
8. 8. A sample loading assembly according to any one of claims 1 to 3, further comprising a second transfer mechanism (50) arranged above the automated storage area (11), the second transfer mechanism (50) being capable of inserting a sample tube (1) on an automated transport assembly onto the first sample rack (201).
9. 9. A sample loading assembly according to any one of claims 1 to 3, wherein the sample storage stage (10) further has a temporary storage area (13), a temporary storage bin (60) being provided in the temporary storage area (13), the temporary storage bin (60) being used for placing the first sample rack (201) or the second sample rack (301) of information to be confirmed.
10. 10. A sample analysis device comprising an automated transport assembly, a sample loading assembly and a sample analysis assembly, wherein the sample loading assembly is disposed between the automated transport assembly and the sample analysis assembly, the sample loading assembly being the sample loading assembly of any one of claims 1 to 9.

Description

Sample loading assembly and sample analysis device Technical Field The utility model relates to the field of medical instruments, in particular to a sample loading assembly and a sample analysis device. Background In the related art, the sample analyzer and the assembly line are spliced together, so that the sample is transmitted between the assembly line and the sample analyzer, automatic feeding is realized, and the working intensity of operators is reduced. However, in the above-mentioned combined device, the sample analyzer can only process the samples from the single tube carrier on the pipeline, and when there is an emergency sample or quality control and calibration are performed, it is difficult to quickly transfer the samples to the sample analyzer due to poor flexibility of the pipeline transmission. Disclosure of utility model The utility model mainly aims to provide a sample loading assembly and a sample analysis device, which are used for solving the problem that the sample analysis device for automatic feeding in the related technology is difficult to quickly realize quick sample loading of special samples such as emergency samples, calibration products, quality control products and the like. In order to achieve the above object, according to one aspect of the present utility model, there is provided a sample loading assembly including a sample storage stage having an automatic storage area and a manual storage area, an automatic storage bin provided in the automatic storage area for placing a first sample rack, a manual storage bin provided in the manual storage area for placing a second sample rack, a transport mechanism having a transport rail for transporting the first sample rack and the second sample rack to a sample analysis assembly, and a first transfer mechanism movably provided on the sample storage stage and capable of transporting the first sample rack from the automatic storage bin to the transport rail and transporting the second sample rack from the manual storage bin to the transport rail. Further, the automatic storage area and the manual storage area are adjacently arranged in the first direction, the first transfer mechanism is movably arranged in the first direction, the automatic storage area and the manual storage area are located on one side of the first transfer mechanism in the second direction, and the transmission mechanism is located on the other side of the first transfer mechanism in the second direction, wherein the second direction is perpendicular to the first direction. Further, the automated storage facility comprises a plurality of first sockets arranged in a first direction, each first socket extending in a second direction and being adapted to receive one first sample rack, and/or the manual storage facility comprises a plurality of second sockets arranged in a first direction, each second socket extending in a second direction and being adapted to receive one second sample rack. Further, a manual magazine is slidably disposed on the sample storage stage and has a loading position extending from the sample storage stage and a storage position fully retracted into the sample storage stage. Further, the automatic storage bin comprises a bottom plate, a baffle plate positioned at one end of the bottom plate and a plurality of separation plates arranged on the bottom plate, wherein first ends of the separation plates are connected with the baffle plate, second ends of the separation plates are free ends, and a first slot for placing a first sample rack is formed between two adjacent separation plates. Further, an abutting mechanism is arranged on at least one of the two adjacent partition plates, the abutting mechanism comprises an elastic piece and a rolling abutting piece, the rolling abutting piece is rotatably arranged along the vertical axis, and the elastic piece applies elastic force towards the first sample rack to the rolling abutting piece. Further, a blocking edge is arranged at the upper end of at least one of the two adjacent partition plates and matched with the upper surface of the first sample frame in a blocking way, and/or the first transfer mechanism can extend to the lower side of the first sample frame and can be in plug-in connection with the first sample frame, and an avoidance gap for the first transfer mechanism to extend in is formed in the bottom plate corresponding to each first slot. Further, the sample loading assembly further includes a second transfer mechanism disposed above the automated storage area, the second transfer mechanism being capable of inserting a sample tube on the automated transport assembly onto the first sample rack. Further, the sample storage table is further provided with a temporary storage area, and a temporary storage bin is arranged in the temporary storage area and used for placing a first sample frame or a second sample frame of information to be confirmed. According to another aspect of the present