CN116588619B

CN116588619B - Sterile transfer device for cell detection

Info

Publication number: CN116588619B
Application number: CN202310872278.7A
Authority: CN
Inventors: 丁海雷; 成玉萍; 赵慧娟; 梅娟
Original assignee: Jiangsu Beike Biotechnology Co ltd
Current assignee: Jiangsu Beike Biotechnology Co ltd
Priority date: 2023-07-17
Filing date: 2023-07-17
Publication date: 2023-09-15
Anticipated expiration: 2043-07-17
Also published as: CN116588619A

Abstract

The invention discloses a sterile transfer device for cell detection, which is applied to the technical field of cell detection and comprises a transfer channel, wherein the transfer channel is arranged in a wall body, ports of the transfer channel are communicated with connecting windows, the transfer channel is communicated with different rooms through the connecting windows, two lower transfer rails and two upper transfer rails are symmetrically arranged in the transfer channel and the connecting windows respectively, the transfer channel is connected with an upper laboratory room and a lower laboratory room through the connecting windows, then a cell sample is placed in the connecting windows and is conveyed through the transfer rails in the transfer channel, and the conveying positions are changed through the change rails, so that the upper room and the lower room can be automatically transferred to the required room, the transfer time of the cell sample can be reduced, the sample is prevented from being polluted, the cell sample is fast and convenient, and the working efficiency is improved.

Description

Sterile transfer device for cell detection

Technical Field

The invention relates to the technical field of cell detection, in particular to a sterile transmission device for cell detection.

Background

The sample needs to be collected in the collection chamber, culture processing is carried out in the cell workstation to the sample needs to be transferred to the cell workstation from the collection chamber and cultivates, and the cleanliness factor requirement of the collection chamber is higher, and the room cleanliness factor requirement of the cell workstation deposit is also higher, but sample transfer process cleanliness factor can't be guaranteed. The sample transfer device is an auxiliary device for transferring the transfer box or the transfer tank from the outside to the inside, and is mainly used for transferring samples between clean areas, clean areas and unclean areas or areas with different temperature difference environments, so that the door opening times are reduced, and the indoor pollution is reduced to the minimum. The current sample transfer apparatus is mainly equipped with the through-hole in the wall body, and transfer apparatus establishes wherein, and both sides all have the mechanism that opens the door, and outdoor people accessible is opened the door and is put into the device with the sample, then indoor personnel accessible door is opened and is got the sample, avoids the environmental pollution to laboratory inside.

Currently, chinese invention, publication No. CN113462563B, discloses a sterile delivery system based on communication of a cell workstation with a collection chamber, comprising: the transfer bin body is used for transferring samples; the scanner is used for scanning the sample height to obtain a sample height H; a conveyor belt that transfers the sample by rotating the conveyor belt; the image collector is used for collecting sample images; the track is used for completing real-time acquisition of the sample image by the image acquisition device through the track; the mass sensor is arranged below the conveyor belt and is abutted against the transmission bin gate to detect the sample mass M; the motor is used for providing power for the conveyor belt; the adjusting valve is used for adjusting the speed of the conveyor belt; the transmission bin gate is used for isolating the inside of the transmission bin from the outside of the transmission bin; the sealing strip is tightly connected with the transmission bin door when the transmission bin door is closed so as to seal the transmission bin; thereby can reduce transfer time, avoid the sample to be polluted, it is quick convenient, improve work efficiency, moreover, can also reduce the fluctuation of sample in the transmission process, improve the stability of sample.

In summary, in the above-described prior art, although the transfer of the sample from the inside to the outside or between the sample chambers is satisfied, the following problems are also involved;

the cell sample can be transferred between the rooms adjacent to each other and located on the same layer, the cell sample cannot be transferred to the room on the upper layer or the room on the lower layer, and because the cell sample in the room on the same layer is easy to transfer, the elevator or the stairs are required to be taken in the room on the upper layer or the room on the lower layer, so that the cell sample is exposed outside for a longer time, the risk of damaging the sample is larger, meanwhile, the upper layer and the lower layer are more troublesome to transfer, the residence time of personnel is longer outside, more bacteria are easy to carry into the laboratory, and the environmental pollution of the laboratory is more serious.

In order to solve the above-mentioned problems, we propose a sterile transfer device for cell detection.

Disclosure of Invention

The invention aims to provide a sterile transfer device for cell detection, which has the advantages of automatically transferring a cell sample in an upper room and a lower room and further improving the efficiency and stability of transferring the cell sample.

The technical aim of the invention is realized by the following technical scheme: the utility model provides a cell detects with aseptic transfer device, includes the transfer passage, the transfer passage is installed inside the wall body, the port of transfer passage all communicates and is had the connecting window, the transfer passage communicates with different rooms through connecting window, the inside symmetry of transfer passage and connecting window is provided with two lower transfer tracks and two upper transfer tracks respectively, the inside of transfer passage is provided with and connects the transfer track, the top and the bottom symmetry of transfer passage inner chamber are provided with two and are connected transfer tracks and two lower transfer tracks and two upper transfer track butt joint diversion tracks, the connecting rod with diversion track cooperation use is all installed to the top and the bottom of transfer passage inner chamber, two transfer tracks and two upper transfer tracks and the inside equal sliding connection of connection transfer tracks have the support bull stick that is connected with the transfer passage rotation, the second motor with support bull stick fixed connection, the output fixedly connected with first gear of second motor, first gear and one side are connected with the second rack and pinion and two lower transfer tracks and two rings, the magnetic sleeve is equipped with the magnetic sleeve is placed to the magnetic sleeve between the magnetic sleeve and is equipped with the magnetic sleeve and is placed to the magnetic sleeve and is equipped with the magnetic sleeve and is placed between the magnetic sleeve and is fixed with the magnetic sleeve and is placed.

By adopting the technical scheme, the transfer channel is connected with the laboratory rooms on the upper layer and the lower layer through the connecting window, then the cell sample is placed into the connecting window and is conveyed through the transfer track in the transfer channel, and the conveying position is changed through the turning track, so that the cell sample can be automatically transferred to the rooms on the upper layer and the lower layer, and the cell sample can be transferred to the needed rooms as required, the cell sample transferring time is shortened, the sample is prevented from being polluted, the speed and the convenience are improved, and the working efficiency is improved; through the weight-increasing block, the magnetic lantern ring rotates on the surface of the magnetic lantern ring through the rolling of the magnetic balls, so that the cell sample inside the sample placing box is kept vertical after rotating, meanwhile, the sample placing box cannot swing and shake when rotating through the magnetic contact between the magnetic lantern ring and the magnetic balls, the integrity of the cell sample inside the sample placing box is guaranteed, the efficiency and the stability of the cell sample during transfer are further improved, and the fluctuation of the sample in the transfer process is reduced.

The invention is further provided with: and a limit stop block which is in sliding connection with the turning track is arranged in the connecting rod.

By adopting the technical scheme, the bending of the turning track can be limited and fixed by installing the limit stop.

The invention is further provided with: the top joint of box is placed to sample has the encapsulation apron.

By adopting the technical scheme, the cell sample in the sample placement box is sealed and protected.

The invention is further provided with: the displacement rack is made of plastic materials and has tortuosity.

By adopting the technical scheme, the displacement rack can be bent when moving into the direction-changing track, so that normal movement is performed.

The invention is further provided with: an ultraviolet lamp plate is arranged at the top of the inner cavity of the connecting window.

By adopting the technical scheme, the surface of the container for storing the cell sample can be sterilized.

The invention is further provided with: one end of the connecting window, which is far away from the transmission channel, is hinged with a window opening and closing door, and a sealing strip is arranged between the window opening and closing door and the connecting window.

By adopting the technical scheme, the sealing performance of the inside of the connecting window is improved, and the entry of external air is reduced.

The invention is further provided with: the bottom of the inner cavity of the connecting window is provided with a cold air nozzle, and the other end of the cold air nozzle is communicated with an air conditioner cold air pipeline.

By adopting the technical scheme, the low temperature in the transmission channel and the connecting window is kept, so that the activity of the cell sample in transmission is kept.

The invention is further provided with: and a split screen plate matched with the cold air nozzle is arranged in the connecting window.

By adopting the technical scheme, the uniformity of cooling entering is improved.

The invention is further provided with: and an observation window is arranged in the opening and closing window door.

By adopting the technical scheme, whether the cell sample in the connecting window is sent or not can be conveniently observed.

In summary, the invention has the following beneficial effects:

according to the invention, the transfer channel is connected with the laboratory rooms on the upper layer and the lower layer through the connecting window, then the cell sample is placed in the connecting window and is conveyed through the transfer track in the transfer channel, and the conveying position is changed through the turning track, so that the cell sample can be automatically transferred to the rooms on the upper layer and the lower layer, and the cell sample can be transferred to the required rooms according to the requirement, the transfer time of the cell sample is shortened, the sample is prevented from being polluted, the cell sample is rapid and convenient, and the working efficiency is improved;

according to the invention, through the weight increasing block, the magnetic lantern ring rotates on the surface of the magnetic lantern ring through the rolling of the magnetic balls, so that the cell sample in the sample placing box is kept vertical after rotating, and meanwhile, through the magnetic contact between the magnetic lantern ring and the magnetic balls, the sample placing box cannot swing and shake during rotation, so that the integrity of the cell sample in the sample placing box is ensured, the efficiency and stability of the cell sample during transmission are further improved, and the fluctuation of the sample during transmission is reduced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a cross-sectional view of the structure of the present invention;

FIG. 3 is a side partial structural cross-sectional view of the present invention;

FIG. 4 is an enlarged view of the point A of FIG. 2 in accordance with the present invention;

fig. 5 is an enlarged view of point B in fig. 2 according to the present invention.

Reference numerals: 1. a transfer passage; 2. a connection window; 3. a lower transfer rail; 4. an upper transfer rail; 5. connecting the transfer rail; 6. a diversion rail; 7. a first motor; 8. a displacement rack; 9. supporting a rotating rod; 10. a second motor; 11. a first gear; 12. a second gear; 13. a sample placement box; 14. weight increasing blocks; 15. a magnetic collar; 16. a magnetic collar; 17. magnetic balls; 18. a connecting rod; 19. a limit stop; 20. packaging the cover plate; 21. opening and closing a window door; 22. a sealing strip; 23. a cold air nozzle; 24. a split screen; 25. an ultraviolet lamp plate; 26. and a viewing window.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

referring to figures 1, 2, 3, 4 and 5, a sterile transfer device for cell detection comprises a transfer channel 1, wherein the transfer channel 1 is arranged in a wall body, ports of the transfer channel 1 are communicated with connecting windows 2, the transfer channel 1 is communicated with different rooms through the connecting windows 2, two lower transfer rails 3 and two upper transfer rails 4 are symmetrically arranged in the transfer channel 1 and the connecting windows 2 respectively, a connecting transfer rail 5 is arranged in the transfer channel 1, two diversion rails 6 which are in butt joint with the connecting transfer rails 5, the two lower transfer rails 3 and the two upper transfer rails 4 are symmetrically arranged at the top and the bottom of an inner cavity of the transfer channel 1, a first motor 7 is arranged at the top and the bottom of the inner cavity of the transfer channel 1, a connecting rod 18 which is matched with the diversion rails 6 is arranged at the output end of the first motor 7, the two lower transfer rails 3, the two upper transfer rails 4, the two turning rails 6 and the two connecting transfer rails 5 are respectively and slidably connected with a support rotating rod 9 which is rotationally connected with the transfer channel 1, a second motor 10 which is fixedly connected with the support rotating rod 9 is arranged on one side of the transfer channel 1, a first gear 11 is fixedly connected with the output end of the second motor 10, a second gear 12 which is fixedly connected with the support rotating rod 9 is meshed with one side of the first gear 11, displacement racks 8 are respectively meshed with the two lower transfer rails 3, a magnetic collar 15 is fixedly connected between the two displacement racks 8, a magnetic collar 16 is sleeved on the surface of the magnetic collar 15, a magnetic ball 17 is in rolling connection between the magnetic collar 15 and the magnetic collar 16, a sample placing box 13 is arranged at the top of the magnetic collar 16, and a weight increasing block 14 is arranged at the bottom of the sample placing box 13; the transfer channel 1 is connected with the laboratory rooms on the upper layer and the lower layer through the connecting window 2, then the cell sample is placed into the connecting window 2 and is transferred through the transfer rail in the transfer channel 1, and the transfer position is changed through the turning rail, so that the cell sample can be automatically transferred to the rooms on the upper layer and the lower layer, and the cell sample can be transferred to the needed rooms according to the needs, the transfer time of the cell sample is shortened, the sample is prevented from being polluted, the cell sample is quick and convenient, and the working efficiency is improved; through the weight-increasing block 14, the magnetic collar 16 rotates on the surface of the magnetic collar 15 through the rolling of the magnetic balls 17, so that the cell sample inside the sample placing box 13 is kept vertical after rotating, meanwhile, the sample placing box 13 cannot swing and shake during rotation through the magnetic contact between the magnetic collar 15 and the magnetic collar 16 and the magnetic balls 17, so that the integrity of the cell sample inside is ensured, the efficiency and stability of the cell sample during transmission are further improved, and the fluctuation of the sample during transmission is reduced.

Referring to fig. 2 and 5, a limit stop 19 slidably connected to the direction-changing rail 6 is installed in the connecting rod 18, and the meandering of the direction-changing rail 6 can be fixed by installing the limit stop 19.

Referring to fig. 3 and 4, the top of the sample placement box 13 is clamped with a packaging cover plate 20, so as to seal and protect the cell sample inside the sample placement box 13.

Referring to fig. 3 and 4, the displacement rack 8 is made of plastic material and has a meandering property, so that the displacement rack 8 can be bent when moving into the direction-changing rail 6, thereby performing normal movement.

Referring to fig. 2, an ultraviolet lamp plate 25 is installed at the top of the inner cavity of the connection window 2 to sterilize the surface of the container storing the cell samples.

Referring to fig. 1 and 2, a door 21 is hinged at one end of the connection window 2 far from the transmission channel 1, and a sealing strip 22 is installed between the door 21 and the connection window 2, so that the tightness of the interior of the connection window 2 is improved, and the entry of external air is reduced.

Referring to fig. 2, a cold air nozzle 23 is installed at the bottom of the inner cavity of the connection window 2, and the other end of the cold air nozzle 23 is communicated with an air conditioner cold air duct to maintain the low temperature inside the transfer channel 1 and the connection window 2, thereby maintaining the activity of the cell sample during transfer.

Referring to fig. 2, a split screen 24 used in cooperation with the cool air spouts 23 is installed inside the connection window 2 to improve the uniformity of the cooling inlet.

Referring to fig. 1, a viewing window 26 is installed inside the opening and closing window door 21 to facilitate the observation of whether or not a cell sample is sent inside the connection window 2.

The working principle is briefly described: the cell sample to be transferred is placed in the test tube or the culture vessel by opening the connecting window 2 at one end of the bottom or the top, then the test tube or the culture vessel is placed in the sample placing box 13 and covered, then the second motor 10 is started to drive the supporting rotary rod 9 to rotate in the transfer channel 1, simultaneously the supporting rotary rod 9 is meshed through the first gear 11 and the second gear 12 to enable the two lower transfer rails 3, the two upper transfer rails 4, the two turning rails 6 and the connecting transfer rail 5 to move in opposite directions, so that the displacement rack 8 can be driven to move between the two lower transfer rails 3 or the two upper transfer rails 4, the cell sample in the sample placing box 13 is driven to enter the transfer channel 1, then the first motor 7 is started to drive the connecting rod 18 to rotate, the direction-changing track 6 is rotated to the two lower transmission tracks 3 or the two upper transmission tracks 4 for butt joint, so that the displacement rack 8 can be conveyed into the direction-changing track 6 through the two lower transmission tracks 3 or the two upper transmission tracks 4 after being bent, then the magnetic collar 16 rotates on the surface of the magnetic collar 15 through the rolling of the magnetic balls 17 through the balance weight of the weight-increasing block 14, so that the cell sample in the sample placing box 13 is kept vertical after rotating, meanwhile, the sample placing box 13 cannot swing and shake during rotating through the magnetic contact between the magnetic collar 15 and the magnetic collar 16 and the magnetic balls 17, so that the integrity of the cell sample in the interior is ensured, finally the displacement rack 8 is conveyed upwards or downwards through the connecting transmission track 5, and is conveyed into the direction-changing track 6 after being bent again through the guiding and conveying of the direction-changing track 6, so that the displacement rack 8 and the cell sample are fed into the lower transfer rail 3 and the upper transfer rail 4, and fed into the other end connecting window 2.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Claims

1. The utility model provides a sterile transfer device for cell detection, includes transfer passage (1), its characterized in that, transfer passage (1) installs inside the wall body, the port of transfer passage (1) all communicates and has connection window (2), transfer passage (1) communicates with different rooms through connection window (2), the inside symmetry of transfer passage (1) and connection window (2) is provided with two lower transfer tracks (3) and two upper transfer tracks (4) respectively, the inside of transfer passage (1) is provided with and connects transfer track (5), the top and the bottom symmetry of transfer passage (1) inner chamber are provided with two and connect transfer track (5) and two diversion tracks (6) of transfer track (3) and two upper transfer tracks (4) butt joints down, first motor (7) are all installed at the top and the bottom of transfer passage (1) inner chamber, connecting rod (18) that cooperate with diversion tracks (6) are used are installed to the output of first motor (7), two transfer track (3) and two down transfer track (4) and two diversion tracks (4) are connected with transfer track (9) and two inside slip support track (1) and transfer track (9) of being connected, the utility model discloses a sample storage box, including transfer passageway (1), including support bull stick (9) and transfer passageway (1), second motor (10) with support bull stick (9) fixed connection is installed to one side of transfer passageway (1), the output fixedly connected with first gear (11) of second motor (10), one side meshing of first gear (11) has second gear (12) with support bull stick (9) fixed connection, two the inside of lower transfer track (3) is all meshed with displacement rack (8), two fixedly connected with magnetic collar (15) between displacement rack (8), the surface cover of magnetic collar (15) is equipped with magnetic collar (16), roll connection has magnetic ball (17) between magnetic collar (15) and magnetic collar (16), sample storage box (13) are installed at the top of magnetic collar (16), weight (14) are installed to the bottom of sample storage box (13).

2. A sterile transfer device for cell detection according to claim 1, characterized in that the connecting rod (18) is internally fitted with a limit stop (19) slidingly connected to the redirecting track (6).

3. The sterile transfer device for cell detection according to claim 1, wherein the top of the sample placement cassette (13) is clamped with a packaging cover plate (20).

4. The sterile transfer device for cell detection according to claim 1, wherein the displacement rack (8) is made of plastic material and has a meandering shape.

5. The sterile transfer device for cell detection according to claim 1, wherein an ultraviolet lamp plate (25) is mounted on top of the inner cavity of the connection window (2).

6. The sterile transmission device for cell detection according to claim 1, wherein a door (21) is hinged at one end of the connection window (2) far away from the transmission channel (1), and a sealing strip (22) is installed between the door (21) and the connection window (2).

7. The sterile transmission device for cell detection according to claim 1, wherein a cold air nozzle (23) is installed at the bottom of the inner cavity of the connecting window (2), and the other end of the cold air nozzle (23) is communicated with an air conditioner cold air pipeline.

8. The sterile transfer device for cell detection according to claim 7, wherein the inside of the connection window (2) is provided with a split screen (24) which is used in cooperation with the cold air nozzle (23).

9. The sterile transfer device for cell detection according to claim 6, wherein an observation window (26) is installed inside the opening/closing window (21).