CN113373030A

CN113373030A - Nucleic acid detection sample storage device with self-destruction function

Info

Publication number: CN113373030A
Application number: CN202110466663.2A
Authority: CN
Inventors: 任楚宇
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-28
Filing date: 2021-04-28
Publication date: 2021-09-10

Abstract

The invention discloses a nucleic acid detection sample storage device with a self-destruction function, which belongs to the field of detection sample storage devices, and is characterized in that after nucleic acid detection is finished and virus samples can be inactivated, a sealing cover is twisted to break sealing wax, so that the sealing cover can drive a self-destruction rod to continuously move downwards until a communication cavity and a side through hole on the self-destruction rod are communicated with a partition plate and a storage chamber, at the moment, self-destruction liquid stored in the self-destruction chamber can enter the storage chamber through the side through hole and the communication cavity by turning over or reversing the storage tube, virus in the storage chamber is inactivated, and the inactivated storage tube becomes medical waste which needs to be recovered by professionals, even if the storage tube is damaged, the accident of large-scale spread of the virus is not easy to happen.

Description

Nucleic acid detection sample storage device with self-destruction function

Technical Field

The invention relates to the field of detection sample storage devices, in particular to a nucleic acid detection sample storage device with a self-destruction function.

Background

The substance for nucleic acid detection is a nucleic acid of a virus. The nucleic acid detection is to find out whether the respiratory tract specimen, blood or feces of the patient have the nucleic acid of the virus invaded from the outside to determine whether the patient is infected by the new coronavirus. Therefore, once the nucleic acid is detected to be positive, the virus in the patient can be proved to exist, and the new coronavirus can propagate in a respiratory tract system after infecting the human body, so that whether the human body is infected with the virus can be judged by detecting the virus nucleic acid in sputum and nasopharyngeal swab, and the nucleic acid detection positive can be used as a new standard for diagnosing the infection of the novel coronavirus.

After medical personnel have gathered patient's respiratory track sample, generally can save in sealed glass container to follow-up centralized monitoring carries out, traditional glass container can accomplish the task of the storage and the transportation of above-mentioned respiratory track sample to a certain extent, but in case glass container takes place to damage in storage and transportation and becomes extremely easily to cause virus sample to leak and spread, simultaneously, normally used glass container also can become medical waste after the detection finishes, these waste products also easily cause virus sample's leakage and spread in case the processing error appears.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a nucleic acid detection sample storage device with a self-destruction function, which can realize self-destruction operation in a storage tube for storage after virus sample detection is finished, can inactivate the virus sample in the storage tube, and is not easy to leak and spread the virus sample in the waste treatment process.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A nucleic acid detection sample storage device with a self-destruction function comprises a storage tube, wherein the upper end and the lower end of the storage tube are fixedly connected with an upper wing edge and a lower wing edge respectively, the upper wing edge is in an open shape, the lower wing edge is in a closed shape, the inner wall of the storage tube is fixedly connected with a separation plate matched with the storage tube, the separation plate divides the inner space of the storage tube into a storage chamber and a self-destruction chamber, a virus sample is stored in the storage chamber, self-destruction liquid is stored in the self-destruction chamber, the self-destruction liquid is preferably dilute hydrochloric acid, the storage chamber is positioned above the self-destruction chamber, a sealing cover matched with the storage tube is connected with the upper wing edge in a threaded manner, a thread groove matched with the sealing cover is formed in the upper wing edge in a chiseled manner, the length of the thread groove is 2.5 sealing covers, sealing wax is arranged in one end, close to the storage tube, of the upper end of the sealing cover is chiseled with an invisible handle, and a self-destruction rod is fixedly connected with the lower end of the sealing cover, self-destruction pole is located the apotheca, the one end excavation that sealed lid was kept away from to self-destruction pole has the intercommunication chamber, excavation has a pair of side position through-hole on the lateral wall in intercommunication chamber, two side position through-holes are located the upper and lower both ends in intercommunication chamber respectively, excavation has the connecting hole with self-destruction pole assorted on the division board, fixedly connected with and self assorted branch membrane in the connecting hole, can realize after the detection of virus sample, carry out the self-destruction operation in the storage tube to the usefulness of storage, carry out the inactivation processing to the virus sample in the storage tube, be difficult for the in-process of waste product processing the leakage and the diffusion of virus sample appear.

Further, the outside cover of storage pipe is equipped with self assorted protection gum cover, the both ends of protection gum cover respectively with last wing limit and lower wing limit fixed connection, the space between protection gum cover and the storage pipe forms the protection chamber, even the storage pipe appears damaging at the in-process of storage virus sample, is difficult for causing the virus to leak.

Furthermore, a reinforcing net matched with the protective rubber sleeve is embedded in the protective rubber sleeve, the reinforcing net is formed by weaving a plurality of high-toughness elastic materials, the overall strength of the protective rubber sleeve is increased, the protective rubber sleeve is not prone to tearing, and the protective effect of the protective rubber sleeve is not prone to being influenced.

Further, the inner wall of storage pipe is dug and is had a pair of prefabricated groove, and two prefabricated grooves are located the one end that the storage pipe is close to last wing limit and lower wing limit respectively, fall from the eminence when the storage pipe, when producing great impact, can appear the fracture along the direction of two prefabricated grooves for virus sample and the self-destruction liquid of storage in locker room and the self-destruction room leak, and mix and carry out the self-destruction work, are difficult for causing the virus to leak.

Furthermore, the protection fibre cluster of fixedly connected with is served to one that the protection gum cover is close to the protection chamber, and the protection fibre cluster includes a plurality of elastic fiber, and the protection fibre cluster forms the protective layer to the protection gum cover for the piece that produces when the storage tube breaks is difficult for fish tail protection gum cover, is difficult for causing the protection gum cover to damage and forms the crack, is difficult for causing the virus sample to leak.

Further, a plurality of elastic fiber all are three-dimensional heliciform, and a plurality of elastic fiber entangle the overlap joint each other and be in the same place, increase the clastic protective effect of protection fibre cluster to the storage tube fracture production.

Furthermore, a plurality of elastic fibers are all hollow structures, so that the elasticity of the elastic fibers is increased, and the protection effect of protecting the fiber clusters is increased.

Furthermore, a plurality of elastic fiber run through the protection gum cover and with reinforceing net fixed connection near the one end of protection gum cover, a plurality of elastic fiber crisscross distribution in the protection gum cover increases the joint strength between protection gum cover and the elastic fiber for elastic fiber is difficult for droing, further increases the intensity of protection gum cover simultaneously, makes the protection gum cover difficult for tearing.

Furthermore, be connected with the zip fastener between protection gum cover and last wing limit and the lower wing limit, all realize high-speed joint and change through the zip fastener between protection gum cover and last wing limit and the lower wing limit for protection gum cover and reinforcement net become optional additional member, and the measurement personnel can choose for use and install according to the detection needs of reality.

Furthermore, the zipper is sealed by brushing wax after being sealed, so that the sealing performance of the connection between the protective rubber sleeve and the upper wing edge and the lower wing edge is improved.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

in the normal working process of the scheme, the virus sample is stored in the storage chamber, after the nucleic acid detection is finished and the virus sample has no detection requirement, when the inactivation treatment can be carried out, the sealing cover is twisted by increasing the force to destroy the sealing wax, so that the sealing cover can drive the self-destruction rod to continuously move downwards, the self-destruction rod can puncture the separation membrane, the communication cavity and the side through hole on the self-destruction rod can communicate the separation plate and the storage chamber, at the moment, the self-destruction liquid stored in the self-destruction chamber can enter the storage chamber through the side through hole and the communication cavity by turning over or reversing the storage tube, the virus in the storage chamber is inactivated, the inactivated storage tube becomes medical waste, the professional is required to carry out the recovery treatment, because the virus sample stored in the storage chamber is subjected to the inactivation treatment, even in the recovery process, the storage tube is damaged, the stored sample in the storage tube is leaked, and the accident of large-scale virus diffusion is not easy to happen.

The virus sample detection device can realize self-destruction operation in the storage tube for storage after virus sample detection is finished, inactivate the virus sample in the storage tube, and is not easy to leak and diffuse the virus sample in the waste treatment process.

Meanwhile, the overall safety performance of the storage tube is improved through the optional structures such as the protective rubber sleeve and the protective fiber cluster, so that the storage tube can be used in more service environments.

Drawings

FIG. 1 is a schematic view showing the structure of a nucleic acid detecting sample storage apparatus according to the present invention;

FIG. 2 is a front sectional view of the nucleic acid detecting sample storage device of the present invention in normal use;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic view of the structure at B in FIG. 2;

FIG. 5 is a front sectional view of the nucleic acid detecting sample storage device of the present invention when it is self-destructed;

fig. 6 is a schematic structural diagram at C in fig. 5.

The reference numbers in the figures illustrate:

the device comprises a storage tube 1, an upper wing edge 2, a lower wing edge 3, a partition plate 4, a storage chamber 5, a self-destruction chamber 6, a prefabricated groove 7, a sealing cover 8, an invisible handle 9, a self-destruction rod 10, a communication cavity 11, a through hole at the side position 12, a connecting hole 13, a separation film 14, a protective rubber sleeve 15, a protective cavity 16, a reinforcing net 17 and a fiber cluster protective layer 18.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the connection can be direct connection or indirect connection through an intermediate medium, and can be communication inside the model adapting element. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-4, a nucleic acid detecting sample storage device with self-destruction function comprises a storage tube 1, wherein the upper end and the lower end of the storage tube 1 are fixedly connected with an upper wing edge 2 and a lower wing edge 3 respectively, the upper wing edge 2 is open, the lower wing edge 3 is closed, the inner wall of the storage tube 1 is fixedly connected with a partition plate 4 matched with the storage tube 1, the internal space of the storage tube 1 is divided into a storage chamber 5 and a self-destruction chamber 6 by the partition plate 4, a virus sample is stored in the storage chamber 5, a self-destruction liquid is stored in the self-destruction chamber 6, the self-destruction liquid is preferably dilute hydrochloric acid, the storage chamber 5 is positioned above the self-destruction chamber 6, a sealing cover 8 matched with the self-destruction chamber is connected with the upper wing edge 2 through a thread groove matched with the sealing cover 8 is arranged in the upper wing edge 2, the length of the thread groove is 2.5 thicknesses of the sealing cover 8, and a sealing wax is arranged in one end of the thread groove, which is positioned close to the storage tube 1, of the upper wing edge 2, only reserve the thread groove of a sealed lid 8 thickness in the seal groove and can supply sealed lid 8 free rotation, the upper end of sealed lid 8 is cut and is chiseled there is stealthy handle 9, the lower extreme fixedly connected with self-destruction pole 10 of sealed lid 8, self-destruction pole 10 is located locker room 5, the one end that sealed lid 8 was kept away from to self-destruction pole 10 is cut and is had intercommunication chamber 11, it has a pair of side position through-hole 12 to cut on the lateral wall of intercommunication chamber 11, two side position through-holes 12 are located the upper and lower both ends of intercommunication chamber 11 respectively, division board 4 is last cut and is had and self-destruction pole 10 assorted connecting hole 13, fixedly connected with and self assorted divider film 14 in the connecting hole 13.

In the normal working process of the scheme, please refer to fig. 1-2, at this time, the virus sample is stored in the storage chamber 5, the detection personnel can open the sealing cover 8 in a special sterile detection laboratory, then take out a part of the virus sample stored in the storage chamber 5 for detection, and then close the storage chamber 5 again by using the sealing cover 8, because the thread groove on the upper wing edge 2 is closed by the sealing wax, the sealing cover 8 stops with a large resistance when rotating to the sealing wax, and after the nucleic acid detection is finished and the virus sample is not detected, when the inactivation treatment can be carried out, the sealing cover 8 is twisted with a large force to break the sealing wax, so that the sealing cover 8 can drive the self-destruction rod 10 to continuously move downwards, at this time, please refer to fig. 5-6, one end of the self-destruction rod 10 far away from the sealing cover 8 can pierce the separation membrane 14, and the intercommunication chamber 11 and the side position through-hole 12 on the self-destruction pole 10 then can communicate division board 4 and locker room 5, can realize passing through side position through-hole 12 and intercommunication chamber 11 entering locker room 5 with the self-destruction liquid of depositing in the self-destruction room 6 through turning on one's side or reversing the storage pipe 1 this moment, the virus in to locker room 5 carries out the inactivation processing, and storage pipe 1 after carrying out the inactivation becomes medical waste, need the professional to carry out recovery processing, because the virus sample of depositing has passed through the inactivation processing in locker room 5, even at the in-process of retrieving, damage appears in storage pipe 1, the sample of the storage in storage pipe 1 appears leaking, the accident of the extensive diffusion of virus also is difficult to take place.

Can realize carrying out the self-destruction operation in the storage tube 1 of the usefulness of storage after the virus sample detection, carry out the inactivation treatment to the virus sample in the storage tube 1, be difficult for appearing the leakage and the diffusion of virus sample at the in-process of waste product processing.

Referring to fig. 1-3, a protective rubber sleeve 15 matched with the storage tube 1 is sleeved on the outer side of the storage tube 1, two ends of the protective rubber sleeve 15 are fixedly connected with an upper wing edge 2 and a lower wing edge 3 respectively, a protective cavity 16 is formed in a space between the protective rubber sleeve 15 and the storage tube 1, even if the storage tube 1 is damaged in the process of storing a virus sample, viruses are not easy to leak out, a reinforcing net 17 matched with the storage tube is embedded in the protective rubber sleeve 15, the reinforcing net 17 is woven by a plurality of high-toughness elastic materials, the overall strength of the protective rubber sleeve 15 is increased, the protective rubber sleeve 15 is not easy to tear, the protective effect of the protective rubber sleeve 15 is not easy to influence, a pair of prefabricated grooves 7 are chiseled on the inner wall of the storage tube 1, the two prefabricated grooves 7 are respectively located at one end of the storage tube 1 close to the upper wing edge 2 and the lower wing edge 3, when the storage tube 1 falls from a high place to generate a large impact, the self-destruction protective sleeve can break along the direction of the two prefabricated grooves 7, so that virus samples and self-destruction liquid stored in the storage chamber 5 and the self-destruction chamber 6 leak out and are mixed to carry out self-destruction work, viruses are not prone to leak out, a protective fiber cluster 18 is fixedly connected to one end, close to the protective cavity 16, of the protective rubber sleeve 15, the protective fiber cluster 18 comprises a plurality of elastic fibers, the protective fiber cluster 18 forms a protective layer for the protective rubber sleeve 15, fragments generated when the storage tube 1 breaks are not prone to scratching the protective rubber sleeve 15, the protective rubber sleeve 15 is not prone to damaging to form cracks, viruses are not prone to leak out, the elastic fibers are all in a three-dimensional spiral shape, the elastic fibers are mutually entangled and overlapped, the protective effect of the fragments generated when the storage tube 1 breaks by the protective fiber cluster 18 is increased, the elastic fibers are all in a hollow structure, the elasticity of the elastic fibers is increased, and the protective effect of the protective fiber cluster 18 is increased, one end of the elastic fibers close to the protective rubber sleeve 15 penetrates through the protective rubber sleeve 15 and is fixedly connected with the reinforcing net 17, the elastic fibers are distributed in the protective rubber sleeve 15 in a staggered mode, the connection strength between the protective rubber sleeve 15 and the elastic fibers is increased, the elastic fibers are not prone to falling off, meanwhile, the strength of the protective rubber sleeve 15 is further increased, and the protective rubber sleeve 15 is not prone to tearing.

The protection gum cover 15 and the last flange 2 and be connected with the zip fastener down between the flange 3, all realize high-speed joint and change through the zip fastener between protection gum cover 15 and last flange 2 and the lower flange 3 for protection gum cover 15 becomes optional additional member with strengthening the net 17, and the measurement personnel can choose for use and install according to the detection needs of reality, and the zip fastener is sealed in wax brushing after sealed, increases the leakproofness of being connected between protection gum cover 15 and last flange 2 and the lower flange 3.

In the normal working process of the scheme, the virus sample is stored in the storage chamber 5, after the nucleic acid detection is finished and the virus sample has no detection requirement, when the inactivation treatment can be carried out, the sealing cover 8 is twisted by increasing the force to destroy the sealing wax, so that the sealing cover 8 can drive the self-destruction rod 10 to continuously move downwards, the self-destruction rod 10 can puncture the separation membrane 14, the communication cavity 11 and the side through hole 12 on the self-destruction rod 10 can be communicated with the separation plate 4 and the storage chamber 5, at the moment, the self-destruction liquid stored in the self-destruction chamber 6 can enter the storage chamber 5 through the side through hole 12 and the communication cavity 11 by turning the storage tube 1 upside down or reversely, the virus in the storage chamber 5 is inactivated, the inactivated storage tube 1 becomes medical waste, the recovery treatment needs to be carried out by a professional, and the virus sample stored in the storage chamber 5 is inactivated, even at the in-process of retrieving, damage appears in the storage tube 1, the sample of the storage in the storage tube 1 appears leaking, the accident of the extensive diffusion of virus also is difficult to take place, can realize after the virus sample detects, carry out the self-destruction operation in the storage tube 1 of the usefulness of storage, carry out the inactivation processing to the virus sample in the storage tube 1, the leakage and the diffusion of virus sample are difficult to appear in the in-process of waste product processing, increase the holistic security performance of storage tube 1 through optional structures such as protection gum cover 15 and protection fibre cluster 18 simultaneously, make storage tube 1 can deal with more service environment.

The above are merely preferred embodiments of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. A nucleic acid detecting sample storage device with a self-destruction function, comprising a storage tube (1), characterized in that: the upper end and the lower end of the storage tube (1) are respectively fixedly connected with an upper wing edge (2) and a lower wing edge (3), the upper wing edge (2) is in an open shape, the lower wing edge (3) is in a closed shape, the inner wall of the storage tube (1) is fixedly connected with a separation plate (4) matched with the storage tube, the separation plate (4) divides the inner space of the storage tube (1) into a storage chamber (5) and a self-destruction chamber (6), a virus sample is stored in the storage chamber (5), self-destruction liquid is stored in the self-destruction chamber (6), the self-destruction liquid is preferably dilute hydrochloric acid, the storage chamber (5) is positioned above the self-destruction chamber (6), the upper wing edge (2) is internally connected with a sealing cover (8) matched with the self-destruction chamber, a thread groove matched with the sealing cover (8) is formed in the upper wing edge (2), the length of the thread groove is the thickness of 2.5 sealing covers (8), and sealing wax is arranged in one end, close to the storage tube (1), of the upper wing edge (2), the upper end of sealed lid (8) is opened and is dug stealthy handle (9), the lower extreme fixedly connected with self-destruction pole (10) of sealed lid (8), self-destruction pole (10) are located locker room (5), the one end of keeping away from sealed lid (8) of self-destruction pole (10) is opened and is dug and has intercommunication chamber (11), it has a pair of side position through-hole (12) to dig on the lateral wall of intercommunication chamber (11), two side position through-holes (12) are located the upper and lower both ends of intercommunication chamber (11) respectively, division board (4) are gone up to open and are dug and have with self-destruction pole (10) assorted connecting hole (13), fixedly connected with and self assorted divider film (14) in connecting hole (13).

2. A nucleic acid detecting sample storage device having a self-destruction function according to claim 1, characterized in that: the outer side of the storage tube (1) is sleeved with a protective rubber sleeve (15) matched with the storage tube, two ends of the protective rubber sleeve (15) are fixedly connected with the upper wing edge (2) and the lower wing edge (3) respectively, and a protective cavity (16) is formed in a space between the protective rubber sleeve (15) and the storage tube (1).

3. A nucleic acid detecting sample storage device having a self-destruction function according to claim 2, characterized in that: a reinforcing net (17) matched with the protective rubber sleeve (15) is embedded in the protective rubber sleeve, and the reinforcing net (17) is formed by weaving a plurality of high-toughness elastic materials.

4. A nucleic acid detecting sample storage device having a self-destruction function according to claim 1, characterized in that: the inner wall of the storage tube (1) is provided with a pair of prefabricated grooves (7), and the two prefabricated grooves (7) are respectively positioned at one end of the storage tube (1) close to the upper wing edge (2) and the lower wing edge (3).

5. A nucleic acid detecting sample storage device having a self-destruction function according to claim 2, characterized in that: one end of the protective rubber sleeve (15) close to the protective cavity (16) is fixedly connected with a protective fiber cluster (18), and the protective fiber cluster (18) comprises a plurality of elastic fibers.

6. A nucleic acid detecting sample storage device having a self-destruction function according to claim 5, characterized in that: a plurality of elastic fibers all are three-dimensional heliciform, and a plurality of elastic fibers entangle the overlap joint each other and are in the same place.

7. A nucleic acid detecting sample storage device having a self-destruction function according to claim 5, characterized in that: the elastic fibers are all of hollow structures.

8. A nucleic acid detecting sample storage device having a self-destruction function according to claim 5, characterized in that: one end of the elastic fibers close to the protective rubber sleeve (15) penetrates through the protective rubber sleeve (15) and is fixedly connected with the reinforcing net (17), and the elastic fibers are distributed in the protective rubber sleeve (15) in a staggered mode.

9. A nucleic acid detecting sample storage device having a self-destruction function according to claim 2, characterized in that: the zipper is connected between the protective rubber sleeve (15) and the upper wing edge (2) and between the protective rubber sleeve (15) and the lower wing edge (3), and the protective rubber sleeve (15) and the upper wing edge (2) and between the protective rubber sleeve and the lower wing edge (3) are both connected and replaced quickly through the zipper.

10. A nucleic acid detecting sample storage device having a self-destruction function according to claim 9, characterized in that: the zipper is sealed by brushing wax after sealing.