CN112607193A - Biological tissue sample tube packing box and packing device - Google Patents

Abstract

The invention discloses a biological tissue sample tube packing box and a packing device. The key points of the technical scheme are as follows: the biological tissue sample tube packing box comprises a cylindrical box body and a box cover, wherein an annular partition plate is arranged in the box body, a first butt joint structure is arranged at the bottom of the box body, a cavity in the box body is divided into a central cavity and an annular cavity by the annular partition plate, and the annular cavity is divided into a plurality of compartments by partition plates; the packaging device comprises the biological tissue sample tube packaging box adopting the technical scheme, and further comprises a sample inlet, a slide rail and a driving mechanism, wherein an opening at the bottom end of the sample inlet is in smooth transition connection with the slide rail; the slide rail comprises two parallel slide bars; the driving mechanism comprises a second butt joint structure matched with the first butt joint structure, and when the biological tissue sample tube packing box rotates, each compartment sequentially passes through the position right below the end part of the sliding rod.

Description

Biological tissue sample tube packing box and packing device

Technical Field

The invention relates to the field of medical instruments, in particular to a biological tissue sample tube packing box and a packing device.

Background

Biological tissue samples include human organ tissues, whole blood, plasma, serum, biological fluids or processed biological samples (DNA, RNA, protein, etc.), and hospitals or research institutions perform examinations, diagnoses, medical research, and establishment of biological sample libraries by collecting biological tissue samples, and the like, and require standardized collection, handling, and storage of biological tissue samples.

Since the location where the biological tissue sample is collected is not fixed, it is necessary to take the biological tissue sample (for example, school, physical examination in company, etc.) outside in addition to the collection in the hospital. When the patient goes out for collective sampling, the number of the objects to be sampled is large, and the types of the biological tissue samples are various, so that a plurality of sample tubes/sample bottles for collecting the biological samples need to be adopted, and after the collection is completed, the biological tissue samples need to be packed and temporarily stored, and then transported to a hospital or a research institution. At present, the collection of biological samples mainly adopts a manual centralized collection mode, and an operator directly takes a sampling tube/bottle to put into a collection box for temporary storage and then intensively sends the sampling tube/bottle to a hospital or a research institution.

However, the conventional biological tissue sample collection method has the following disadvantages:

1. when manual collection, each biological tissue sample tube needs to be directly taken, then the grid grooves in the collection box are aligned and placed, when the quantity and the types of the biological tissue samples needing to be collected are more, the labor intensity of operators can be greatly increased, the collection time is prolonged, the error probability can be increased, and the biological tissue samples are disordered.

2. The multiple biological tissue samples are collected together in a concentrated manner, are easy to classify and disorder, are difficult to classify and summarize a great number of samples, are not beneficial to finding target samples in the later period, do not have perfect isolation measures between adjacent sample tubes, are easy to generate cross contamination, lead to scrapping of the multiple biological tissue samples, need to be collected again, consume manpower and material resources, and increase the pain of a collected person.

Therefore, how to conveniently collect and arrange the biological tissue sample tubes and store each sample in an isolated manner becomes an urgent problem to be solved in the field of medical instruments.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a biological tissue sample tube packing box and a packing device, wherein the packing box can orderly collect and store a plurality of biological tissue sample tubes in an isolated manner, and an operator can complete automatic packing and collection by only putting the sample tubes into a funnel-shaped sample inlet through the packing device, so that the labor intensity of the operator is reduced, and cross contamination can be avoided.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a biological tissue sample tube packing box, includes box body and lid, the box body is cylindrical, is equipped with annular partition plate in the box body, and the box body bottom is equipped with first butt joint structure, annular partition plate divide into the inside cavity of box body the central cavity that is used for placing the refrigerant and the annular cavity that is used for placing biological tissue sample tube, be equipped with a plurality of division boards in the annular cavity, a plurality of divisions board circumference equidistance are arranged and are separated into a plurality of compartments with the annular cavity.

Preferably, the upper end part of the partition plate is provided with an elastic sealing batten; and a pressing plate used for pressing the sealing pressing strip is arranged on the lower surface of the box cover.

Preferably, be equipped with the chucking structure between box body and the lid, the chucking structure includes draw-in groove and fixture block, and draw-in groove and fixture block are located box body upper end edge and lid lower limb department respectively.

Preferably, the bottom of the compartment is provided with a buffer structure.

The invention also discloses a packing device, which comprises the biological tissue sample tube packing box adopting any one of the technical schemes, and also comprises a sample inlet, a slide rail and a driving mechanism for driving the biological tissue sample tube packing box to rotate, wherein the sample inlet is funnel-shaped, and an opening at the bottom end of the sample inlet is in smooth transition connection with the slide rail; the slide rail is obliquely arranged and comprises two parallel slide bars, and the distance between the two slide bars is greater than the diameter of the tube body of the biological tissue sample tube and less than the diameter of the tube cap; the driving mechanism comprises a motor, a transmission structure and a rotating wheel, and a second butt joint structure matched with the first butt joint structure is arranged on the rotating wheel. The annular chamber is located the slide rail below, and when biological tissue sample pipe packing box was rotatory, every compartment in the annular chamber passes through the slide bar tip in proper order under.

Preferably, the ends of the two sliding rods of the sliding rail are connected with each other to form a whole, and the ends of the sliding rods are externally provided with a channel for sliding the biological tissue sample tube.

Preferably, a vibration motor for driving the slide bar to vibrate is arranged on the slide rail.

Preferably, the first butt joint structure is a cross groove, the second butt joint structure is a cross protruding rod, and the cross protruding rod can be embedded into the cross groove without a gap.

Preferably, a sensor is arranged at the joint of the bottom opening of the sample inlet and the sliding rod, the sensor is coupled with the driving mechanism, and the sensor is further connected with a counter.

Preferably, the periphery of slide rail still is equipped with disinfection mechanism, disinfection mechanism includes the annular frame that the pipeline formed, the annular frame is around slide rail a week, and the inboard of annular frame is equipped with a plurality of atomizer.

Compared with the prior art, the biological tissue sample tube packing box and the packing device adopting the technical scheme have the following beneficial effects:

firstly, by adopting the biological tissue sample tube packing box, the same person or the same kind of biological tissue samples can be collected in the same packing box, the sample tubes are separately placed in different compartments of the annular chamber, and each compartment is completely isolated by the sealing pressing strip, so that cross contamination can be effectively avoided, various biological tissue samples can be classified, information confusion is prevented, and the subsequent searching of each sample is facilitated.

By adopting the biological tissue sample tube packing box, ice cubes, liquid nitrogen or other refrigerants can be added into the central cavity, so that the annular cavity is always in a low-temperature state, the phenomenon that microorganisms in the biological tissue sample are too high in activity and rapidly deteriorate is avoided, and the temporary storage of the biological tissue sample is facilitated.

By adopting the packing device, an operator only needs to throw the biological tissue sample tube into the funnel-shaped sample inlet, the sample tube can automatically slide to the upper part of the annular cavity of the packing box through the slide rail and then fall into the compartment of the annular cavity, and the distance between the two slide bars of the slide rail is larger than the tube body diameter of the sample tube and smaller than the tube cap diameter, so that the tube cap can be automatically changed into the way that the tube cap is arranged on the upper part and the tube body is arranged on the lower part no matter how the sample tube enters the slide rail, the sample tube is ensured to enter the compartment of the packing box in a vertical way, the packing process is simple and convenient, and the time is saved.

By adopting the packing device, the sensor is arranged at the joint of the bottom opening of the sample inlet and the sliding rail, so that the packed sample tubes can be counted; in addition, the sensor can transmit a signal for actuating mechanism after the sample tube passes through for the packing box rotates certain angle, makes next compartment aim at the slide rail end, waits for the sample tube to fall into.

And fifthly, by adopting the packing device, the slide rail is provided with the vibration motor, and the vibration motor drives the slide rail to vibrate at high frequency so as to prevent the sample tube from being clamped on the slide rail.

By adopting the packaging device, the periphery of the sliding rail is also provided with the disinfection mechanism which surrounds the sliding rail for a circle, so that each sample tube passing through the sliding rail can be disinfected by 360 degrees, and the sample tube is further prevented from being polluted.

Drawings

Fig. 1 is a schematic structural diagram of a packing box for biological tissue sample tubes according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of the partition plate in this embodiment.

Fig. 3 is a schematic view of the fastening manner of the box cover and the box body in this embodiment.

Fig. 4 is a plan view of the cartridge in this embodiment.

Fig. 5 is a schematic structural diagram of an embodiment of the packaging apparatus of the present invention.

Fig. 6 is a partially enlarged schematic view of the slide rail in the present embodiment.

Fig. 7 is a schematic structural diagram of the driving mechanism in this embodiment.

Fig. 8 is a schematic structural diagram of the sterilization mechanism in the present embodiment.

Fig. 9 is a circuit connection diagram of the present embodiment.

Reference numerals: 1. a box body; 10. an annular partition plate; 11. a cross groove; 12. a central chamber; 13. an annular chamber; 130. a partition plate; 1301. sealing and pressing strips; 131. a compartment; 14. a card slot; 15. a clamping block; 16. a buffer structure; 2. a box cover; 20. pressing a plate; 3. a sample inlet; 4. a slide rail; 40. a slide bar; 41. a channel; 42. a vibration motor; 5. a drive mechanism; 50. a motor; 51. a transmission structure; 52. a rotating wheel; 520. a cross-shaped convex rod; 6. a sterilizing mechanism; 60. an atomizing spray head; 7. an inductor; 8. a counter.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

The packing box for the biological tissue sample tubes comprises a box body 1 and a box cover 2, wherein the box body 1 is cylindrical, an annular partition plate 10 is arranged in the box body 1, a first butt joint structure is arranged at the bottom of the box body 1 and is a cross groove 11, the internal cavity of the box body 1 is divided into a central cavity 12 for placing a refrigerant and an annular cavity 13 for placing the biological tissue sample tubes by the annular partition plate 10, a plurality of partition plates 130 are arranged in the annular cavity 13, and the annular cavity 13 is divided into a plurality of compartments 131 by the plurality of partition plates 130 in an equidistant arrangement mode.

An elastic sealing pressing strip 1301 is arranged at the upper end of the partition plate 130; the lower surface of the box cover 2 is provided with a pressing plate 20 for pressing on the sealing pressing strip 1301.

Be equipped with the chucking structure between box body 1 and lid 2, chucking structure includes three draw-in groove 14 and three fixture block 15, and 1 upper end edge outer wall of box body and 2 lower limb inside walls of lid are located respectively to draw-in groove 14 and fixture block 15, and three draw-in groove 14 is arranged in 1 upper end edge circumference equidistance of box body, and three fixture block 15 lid 2 lower limb circumference equidistance is arranged.

The bottom of compartment 131 is equipped with buffer structure 16, and buffer structure 16 is for having elastic rubber pad or silica gel pad, can provide certain cushioning effect for the sample tube that falls into compartment 131, prevents that the sample tube from damaging because of the impact force is too big.

As shown in fig. 5 to 9, the packaging device includes the biological tissue sample tube packaging box, and further includes a sample inlet 3, a slide rail 4, a driving mechanism 5 and a sterilizing mechanism 6, wherein the sample inlet 3 is funnel-shaped, an upper end opening of the sample inlet 3 is larger, a bottom end opening diameter of the sample inlet 3 is slightly larger than a diameter of a tube cap of the biological tissue sample tube, an upper end opening of the sample inlet 3 faces directly above, a bottom end opening of the sample inlet 3 faces obliquely below, and a bottom end opening of the sample inlet 3 is in smooth transition connection with the slide rail 4.

Slide rail 4 slope sets up, slide rail 4's the degree of slope is unanimous with the bottom opening of sample import 3, slide rail 4 includes two parallel arrangement's slide bar 40, distance between two slide bars 40 is greater than the pipe shaft diameter of biological tissue sample pipe and is less than the pipe cap diameter, the lower tip interconnect of two slide bars 40 of slide rail 4 forms integratively, the lower tip of slide bar 40 is outer including forming the passageway 41 that is used for biological tissue sample pipe landing, the lower extreme edge of slide rail 4 is equipped with the vibrating motor 42 that is used for driving slide bar 40 vibration, vibrating motor 42 drives the vibration of slide rail 4 high-frequency in order to prevent sample pipe card on slide rail 4.

As shown in fig. 7, the driving mechanism 5 includes a motor 50, a transmission structure 51 and a rotating wheel 52, a second butt joint structure for matching with the cross groove 11 is provided on the rotating wheel 52, the second butt joint structure is a cross protruding rod 520, the cross protruding rod 520 can be embedded into the cross groove 11 at the bottom of the biological tissue sample tube packing box without leaving a gap, the annular chamber 13 is located below the sliding rail 4, the motor 50 drives the rotating wheel 52 to rotate so as to drive the biological tissue sample tube packing box to rotate, and when the biological tissue sample tube packing box rotates, each compartment 131 in the annular chamber 13 sequentially passes through the end of the sliding rod 40 directly below.

An inductor 7 is arranged at the connection position of the bottom opening of the sample inlet 3 and the sliding rod 40, the inductor 7 is coupled with the driving mechanism 5, the inductor 7 is also connected with a counter 8, and the counter 8 can count the packed sample tubes; the sensor 7 transmits a signal to the driving mechanism 5 after the sample tube passes through, so that the packing box rotates by a certain angle, and the next compartment 131 is aligned with the end of the slide rail 4 to wait for the sample tube to fall.

As shown in fig. 8, the periphery of the slide rail 4 is further provided with a sterilizing mechanism 6, the sterilizing mechanism 6 comprises an annular frame formed by a pipeline, the annular frame surrounds the slide rail 4 for a circle, the inner side of the annular frame is provided with a plurality of atomizing nozzles 60, each sample tube passing through the slide rail 4 can be sterilized by 360 degrees, and the sample tube is further prevented from being polluted.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit of the invention, and these should be considered to be within the scope of the invention.

Claims (10)

1. The utility model provides a biological tissue sample tube packing box which characterized in that: including box body (1) and lid (2), box body (1) is cylindrical, is equipped with annular partition plate (10) in box body (1), and box body (1) bottom is equipped with first butt joint structure, annular partition plate (10) divide into central cavity (12) that are used for placing the refrigerant and annular cavity (13) that are used for placing biological tissue sample pipe with box body (1) inside cavity, be equipped with a plurality of division boards (130) in annular cavity (13), a plurality of compartments (131) are separated into with annular cavity (13) to a plurality of division board (130) circumference equidistance arrangements.

2. The biological tissue sample tube packing box of claim 1, wherein: an elastic sealing batten (1301) is arranged at the upper end of the partition plate (130); the lower surface of the box cover (2) is provided with a pressing plate (20) used for pressing the sealing pressing strip (1301).

3. The biological tissue sample tube packing box of claim 1, wherein: be equipped with clamping structure between box body (1) and lid (2), clamping structure includes draw-in groove (14) and fixture block (15), and draw-in groove (14) and fixture block (15) are located box body (1) upper end edge and lid (2) lower limb department respectively.

4. The biological tissue sample tube packing box of claim 1, wherein: the bottom of the compartment (131) is provided with a buffer structure (16).

5. A biological tissue sample tube packing apparatus, comprising the biological tissue sample tube packing box of any one of the above 1-4, characterized in that: also comprises a sample inlet (3), a slide rail (4) and a driving mechanism (5) for driving the biological tissue sample tube packing box to rotate,

-the sample inlet (3) is funnel-shaped, and the bottom opening of the sample inlet (3) is in smooth transition connection with the slide rail (4);

-the slide rail (4) is arranged obliquely, the slide rail (4) comprises two parallel slide bars (40), and the distance between the two slide bars (40) is larger than the tube body diameter of the biological tissue sample tube and smaller than the tube cap diameter;

the driving mechanism (5) comprises a motor (50), a transmission structure (51) and a rotating wheel (52), and a second butt joint structure matched with the first butt joint structure is arranged on the rotating wheel (52).

-said annular chamber (13) is located below the sliding track (4), each compartment (131) in the annular chamber (13) passing in turn directly below the end of the sliding bar (40) when the biological tissue sample tube packing box is rotated.

6. The packaging apparatus of claim 5, wherein: the end parts of two slide bars (40) of the slide rail (4) are connected with each other to form a whole, and the end parts of the slide bars (40) are externally provided with a channel (41) for sliding the biological tissue sample tube.

7. The packaging apparatus for biological tissue sample tubes according to claim 5 or 6, wherein: and a vibration motor (42) for driving the sliding rod (40) to vibrate is arranged on the sliding rail (4).

8. The packaging apparatus of claim 5, wherein: the first butt joint structure is a cross groove (11), the second butt joint structure is a cross convex rod (520), and the cross convex rod (520) can be embedded into the cross groove (11) without a gap.

9. The packaging apparatus of claim 5, wherein: an inductor (7) is arranged at the joint of the bottom opening of the sample inlet (3) and the sliding rod (40), the inductor (7) is coupled with the driving mechanism (5), and the inductor (7) is further connected with a counter (8).

10. The packaging apparatus of claim 5, wherein: the periphery of slide rail (4) still is equipped with disinfection mechanism (6), disinfection mechanism (6) are including the annular frame of pipeline formation, the annular frame is around slide rail (4) a week, and the inboard of annular frame is equipped with a plurality of atomizer (60).

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