CN214486930U - Non-contact laboratory reagent transfer channel - Google Patents

Abstract

The utility model relates to a contactless laboratory reagent transfer passage belongs to the experimental facilities field. The reagent delivery channel of the non-contact laboratory is divided into a first isolation area and a second isolation area by the non-contact laboratory; the transmission channel comprises a channel body, wherein the channel body is provided with two opening parts, and the two opening parts are respectively provided with a first self-locking door and a second self-locking door; the channel body is used for communicating the first isolation region and the second isolation region; the channel body is provided with a movable reagent placing box; the reagent placing box reciprocates along the extending direction in the channel. The utility model provides a contactless laboratory reagent transfer passage is settled between isolation region one and isolation region two, carries out the infection in the artifical transmission is avoided in sample automatic transmission. Can disinfect to the test piece in transportation process, avoid the secondary pollution of pollution area to pure district.

Description

Non-contact laboratory reagent transfer channel

Technical Field

The utility model relates to a contactless laboratory reagent transfer passage belongs to the experimental facilities field.

Background

At present, a non-contact laboratory reagent transfer channel is mainly used for transferring and transporting a laboratory, an isolation area, the isolation area and an external article, the company develops the product and is mainly applied to sample collection of a mobile laboratory and sample transmission work among the isolation rooms, and the whole sample transfer process is provided with a sterilized, safe and stable transmission reagent sample due to the particularity of a closed clean room on the working environment. The automatic transmission function is not provided, and the reagent box is basically placed in the channel manually; the sample is easily damaged during the transfer process and does not have modern industrial features.

SUMMERY OF THE UTILITY MODEL

The utility model provides a contactless laboratory reagent transfer passage to the aforesaid not enough.

The utility model adopts the following technical scheme:

the reagent transfer channel of the non-contact laboratory of the utility model is divided into a first isolation area and a second isolation area; the transmission channel comprises a channel body, wherein the channel body is provided with two opening parts, and the two opening parts are respectively provided with a first self-locking door and a second self-locking door; the channel body is used for communicating the first isolation region and the second isolation region; the channel body is provided with a movable reagent placing box; the reagent placing box reciprocates along the extending direction in the channel.

The reagent placing box of the non-contact laboratory reagent transfer channel of the utility model is driven to move by the driving device at the bottom end of the channel body; the driving device comprises a lower push rod cavity, an electric push rod, a push rod supporting block, an upper magnet mounting seat, an upper permanent magnet, a lower permanent magnet and a lower permanent magnet mounting seat; a lower push rod cavity is arranged below the channel body, and a push rod supporting block for supporting the electric push rod is arranged in the push rod cavity; the reagent storage box is characterized in that a lower permanent magnet mounting seat is assembled at the driving end of the electric push rod, a lower permanent magnet is arranged in the lower permanent magnet mounting seat, an upper magnet mounting seat is arranged at the bottom end of the reagent storage box, an upper permanent magnet is arranged in the upper magnet mounting seat, and the upper permanent magnet and the lower permanent magnet are arranged oppositely.

Contactless laboratory reagent transfer passage, the top of lower push rod cavity be equipped with along the unanimous slip track of passageway body extending direction, reagent place the box and arrange in on the slip track.

Contactless laboratory reagent transfer passage, this internal top of passageway be equipped with the ultraviolet ray lamp of killing.

Advantageous effects

The utility model provides a contactless laboratory reagent transfer passage is settled between isolation region one and isolation region two, carries out the infection in the artifical transmission is avoided in sample automatic transmission.

The utility model provides a contactless laboratory reagent transfer passage can disinfect to the test piece in transportation process, avoids polluting the secondary pollution of district to pure district.

The utility model provides a contactless laboratory reagent transmission passageway, transmission adopt sealed permanent magnet actuation transmission, fine solution the sealed problem of transmission, promoted the reliability of transmission.

Drawings

Fig. 1 is a schematic layout of the present invention;

FIG. 2 is a schematic diagram of the cross-sectional structure of the transfer channel of the present invention;

FIG. 3 is a schematic diagram of the structure A-A of FIG. 2;

FIG. 4 is an enlarged view of the structure at B in FIG. 2;

FIG. 5 is a schematic view of the space placement state of the present invention;

in the figure: 1. a first channel self-locking door; 2. a channel body 3, an ultraviolet sterilizing lamp; 4. a second channel self-locking door; 5. a sliding track; 6. a lower push rod cavity; 7. an electric push rod; 8. a push rod supporting block; 9. a reagent holding box; 10. an upper magnet mounting seat; 11. an upper permanent magnet; 12. a lower permanent magnet; 13. and a lower permanent magnet mounting seat.

Detailed Description

In order to make the purpose and technical solution of the embodiments of the present invention clearer, the following description will clearly and completely describe the technical solution of the embodiments of the present invention by combining the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

As shown in fig. 1: a non-contact laboratory reagent delivery channel is characterized in that a non-contact laboratory is divided into a first isolation area and a second isolation area; the transmission channel comprises a channel body 2, wherein the channel body 2 is provided with two opening parts, and the two opening parts are respectively provided with a first self-locking door 1 and a second self-locking door 4; the channel body 2 is used for communicating the first isolation region and the second isolation region; the channel body 2 is provided with a movable reagent placing box 9; the reagent placing cassette 9 reciprocates in the direction in which the passage extends.

As shown in fig. 2: the reagent placing box 9 is driven to move by a driving device at the bottom end of the channel body 2; the driving device comprises a lower push rod cavity 6, an electric push rod 7, a push rod supporting block 8, a sliding track 9, an upper magnet mounting seat 10, an upper permanent magnet 11, a lower permanent magnet 12 and a lower permanent magnet mounting seat 13; a lower push rod cavity 6 is arranged below the channel body 2, and a push rod supporting block 8 for supporting an electric push rod 7 is arranged in the push rod cavity 6; the driving end of the electric push rod 7 is provided with a lower permanent magnet installation seat 10, a lower permanent magnet 12 is arranged in the lower permanent magnet installation seat 10, the bottom end of the reagent placing box 9 is provided with an upper permanent magnet installation seat 10, an upper permanent magnet 11 is arranged in the upper permanent magnet installation seat 10, and the upper permanent magnet 11 and the lower permanent magnet 12 are arranged oppositely. The top of lower push rod cavity 6 is equipped with along the unanimous slip track 5 of passageway body extending direction, and the box is placed in to the reagent. The top in the channel body 2 is provided with an ultraviolet sterilizing lamp 3.

The utility model is positioned in the first isolation area or the second isolation area; after a worker at one side of the displacement transmission channel presses a starting button at one side, a door at one side of the channel is automatically opened; a reagent kit induction device is arranged at one end of each door of the channel, if the reagent kit is not positioned at the door opening side at the moment, an electric push rod arranged in a push rod cavity below the channel starts to work, the lower push rod cavity is connected with the channel body in a dustproof sealing mode, a connecting surface is in soft sealing through silica gel, and a fastening piece is a stainless steel bolt; the electric push rod drives the lower permanent magnet seat and the lower permanent magnet to do reciprocating motion back and forth, at the moment, the upper permanent magnet installation seat and the reagent placing box which are positioned above the body move together according to the inherent attraction characteristic of the magnet, the reagent box is arranged on the sliding track in the channel body, can move back and forth smoothly, and is arranged on the sliding track in the channel, so that the stability and reliability of the transmission of the reagent box during the reciprocating motion back and forth are mainly guaranteed;

when the reagent box runs to the required side, an infrared detection sensing device is arranged at a fixed point at one end of the door opening side to remind a lower electric push rod to stop running, at the moment, a worker at the door opening side can conveniently place the transmitted sample reagent in the reagent box and press a start button again, at the moment, the door opening side is opened, and the door is automatically closed; the lower electric push rod is started to run to the opposite side, and when the lower electric push rod runs to the other end; the infrared detection device on the other side works, and when the reagent placing box is detected, the electric push rod stops running; simultaneously triggering a reminding device to inform the personnel of the local side that the detection sample is at the local side; the worker at the side presses the starting button at the moment, and the door at the side is automatically opened; the worker takes out the transferred reagent sample, presses the start button door of the worker side again to automatically close, and a complete action is finished at the moment.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. A non-contact laboratory reagent delivery channel is characterized in that a non-contact laboratory is divided into a first isolation area and a second isolation area; the method is characterized in that: the transmission channel comprises a channel body, wherein the channel body is provided with two opening parts, and the two opening parts are respectively provided with a first self-locking door and a second self-locking door; the channel body is used for communicating the first isolation region and the second isolation region; the channel body is provided with a movable reagent placing box; the reagent placing box reciprocates along the extending direction in the channel.

2. The contactless laboratory reagent transfer channel of claim 1, wherein: the reagent placing box is driven to move by a driving device at the bottom end of the channel body; the driving device comprises a lower push rod cavity, an electric push rod, a push rod supporting block, an upper magnet mounting seat, an upper permanent magnet, a lower permanent magnet and a lower permanent magnet mounting seat; a lower push rod cavity is arranged below the channel body, and a push rod supporting block for supporting the electric push rod is arranged in the push rod cavity; the reagent storage box is characterized in that a lower permanent magnet mounting seat is assembled at the driving end of the electric push rod, a lower permanent magnet is arranged in the lower permanent magnet mounting seat, an upper magnet mounting seat is arranged at the bottom end of the reagent storage box, an upper permanent magnet is arranged in the upper magnet mounting seat, and the upper permanent magnet and the lower permanent magnet are arranged oppositely.

3. The contactless laboratory reagent transfer channel of claim 2, wherein: the top of lower push rod cavity be equipped with along the unanimous slip track of passageway body extending direction, the reagent place the box and arrange in on the slip track.

4. The contactless laboratory reagent transfer channel of claim 1, wherein: the top in the channel body is provided with an ultraviolet sterilizing lamp.

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