CN116298296B - Hepatitis virus antibody detection kit - Google Patents

Abstract

The application discloses a hepatitis virus antibody detection kit, which relates to the technical field of detection equipment and comprises an external packing box, a rectangular packing bag and a detection reagent body; the detection reagent body comprises a suction pipe, a cylindrical bag, a unidirectional sealing core, a bottom pipe, a positioning block, a containing bag, test paper and an outer covering bag; the suction pipe is fixed at one end of the cylindrical bag; a spreading cone is fixed on the inner wall of the bottom pipe; a positioning block is fixed at one end of the bottom tube, which is far away from the cylindrical bag, and a bag opening of the accommodating bag is fixed on the positioning block; the test paper is positioned in the accommodating bag and fixed on the positioning block; the outer covering bag is covered with a cylindrical bag and fixed on the first extension pipe and the bottom pipe, and two magnetic soft plates are symmetrically arranged on the side wall; the technical effects of convenience in use, simplicity in operation in test and high test efficiency of the hepatitis virus antibody detection kit are achieved.

Description

Hepatitis virus antibody detection kit

Technical Field

The application relates to the technical field of detection equipment, in particular to a hepatitis virus antibody detection kit.

Background

Viral hepatitis A, abbreviated as hepatitis A, is an infectious disease caused by Hepatitis A Virus (HAV) and mainly caused by liver inflammatory lesions, and is mainly transmitted through the faeces-oral route, clinically manifested by fatigue, anorexia, hepatomegaly and abnormal liver function. When the hepatitis virus antibody detection kit is used for detection, detection test paper is required to be taken out of a sealing cylinder and placed on a horizontal workbench, two samples are sucked out by using a capillary to drop, detection is performed on the detection test paper, and diluent is dropped after all blood (samples) are immersed.

When testing a plurality of samples, a tester needs to manually operate to add reagents to the test paper one by one, and the time required for one operation is long, so that the detection efficiency is not improved; moreover, the test paper is generally packaged in the packaging bag one by one, the packaging bag is required to be detached one by one before use, the test paper is taken out one by one and placed on a table top, a reagent box or other planes outside the reagent box, and after the reagent is dripped, the test result is waited, so that the whole process is complex and inconvenient.

Disclosure of Invention

The embodiment of the application solves the technical problems of complex use process, poor convenience and low testing efficiency of the hepatitis virus antibody detection kit in the prior art by providing the hepatitis virus antibody detection kit, and realizes the technical effects of convenient use, simple operation during testing and high testing efficiency of the hepatitis virus antibody detection kit.

The embodiment of the application provides a hepatitis virus antibody detection kit, which comprises an external packing box, rectangular packing bags and a detection reagent body;

the detection reagent body comprises a suction pipe, a cylindrical bag, a unidirectional sealing core, a bottom pipe, a positioning block, a containing bag, test paper and an outer covering bag;

one end of the cylindrical bag is provided with a top input port, the other end of the cylindrical bag is provided with a bottom output port, and a first extension pipe and a second extension pipe are respectively arranged on the top input port and the bottom output port;

the suction pipe is fixed at one end of the cylindrical bag;

the unidirectional closing core is positioned at one end of the second extension tube away from the cylindrical bladder; the second extension pipe is fixed on the bottom pipe in a mode of inserting the bottom pipe;

a spreading cone is fixed on the inner wall of the bottom pipe; when the second extension pipe is inserted into the bottom pipe, the expanding cone is inserted into the unidirectional closed core and expands the unidirectional closed core;

a positioning block is fixed at one end of the bottom tube, which is far away from the cylindrical bag, and a bag opening of the accommodating bag is fixed on the positioning block; the test paper is positioned in the accommodating bag and fixed on the positioning block;

the outer covering bag is covered with a cylindrical bag and fixed on the first extension pipe and the bottom pipe, and two magnetic soft plates are symmetrically arranged on the side wall; the magnetic force soft board is a rectangular board, and the material is rubber magnetism.

Further, the structure of the unidirectional sealing core is the same as that of the sewer deodorizing filter core.

Further, the combination of the two magnetic force soft plates is in a spindle shape, and two ends of the magnetic force soft plates are respectively fixed on the first extension pipe and the bottom pipe.

Further, the outer covering bag comprises a top plate, a bottom plate and a soft side plate;

the top plate and the bottom plate are hard plates and are respectively fixed on the first extension pipe and the bottom pipe;

the soft side plates are films or soft plates, the number of the soft side plates is four, the soft side plates are in pairs, one group of soft side plates is elliptical, the other group of soft side plates is an arc plate, and the soft side plates in the same group are symmetrically arranged and have the same structure;

the magnetic soft board is fixed on the two arc-shaped soft side boards and is tightly attached to the soft side boards;

one end of the magnetic force soft board is fixed on the top board, and the other end is fixed on the bottom board.

Preferably, an output hole is arranged at a position, close to the top, of the side wall of the outer packaging box, and the output hole is normally closed by an adhesive tape;

an output pipe is fixed on the output hole, is a hard straight pipe and is used for guiding the rectangular packaging bag to pass through and outputting from the output hole;

the output pipe is positioned in the outer packaging box, and all the rectangular packaging bags are connected together end to end and stacked in the outer packaging box;

the rectangular packaging bag can be gradually rounded in the process of being pulled out, and a user tears the rectangular packaging bag along the easy-to-tear opening when the rectangular packaging bag exposes the output hole for 3 to 4 cm, and then the detection reagent body can be taken out from the opening of the rectangular packaging bag easily and then tested.

Preferably, all rectangular packages are connected end to end and are placed in a roll inside the outer box.

Preferably, all rectangular packaging bags in the outer packaging box are connected end to form a strip-shaped belt body, and one side of the strip-shaped belt body is fixed with a fixed connecting rope; when the rectangular packaging bag is used, the single rectangular packaging bag is not separated from the whole strip-shaped belt body after the rectangular packaging bag is torn.

Preferably, the top of the outer packing box is densely covered with a fixing adhesive tape, the fixing adhesive tape is double-sided adhesive tape, and a top film is adhered to the top of the outer packing box.

Preferably, the rectangular packaging bag is a transparent bag body, an extension port is arranged on the side surface of the rectangular packaging bag, the extension port is a through hole, and the rectangular packaging bag is normally closed by a sealing patch;

the sealing patch is a soft film with a double-sided adhesive tape on one surface; the detection reagent body is not taken out from the rectangular packaging bag when in use;

when the reagent is required to be sucked, the sealing patch is only required to be torn to expose the extension opening, then the suction pipe of the detection reagent body extends out of the extension opening, the whole detection reagent body is packaged into a rectangular packaging bag after the reagent is sucked, the magnetic force soft board is pinched to inject diluent into the test paper, and finally the test paper is placed on the platform to wait for a result.

Preferably, an auxiliary testing device is also matched;

rectangular packaging bags and connecting films in the outer packaging box are alternately spliced into a strip-shaped belt body;

the length of the connecting film is equal to the length of the rectangular packaging bags, and the number of the connecting film is greater than or equal to the number of the rectangular packaging bags;

the connecting film is a film sheet body and plays a role in connecting the rectangular packaging bags;

the rectangular packaging bag is made of transparent materials;

the auxiliary testing device comprises a supporting frame, a folding storage bin, a conveying assembly and an output assembly;

the support frame is of a frame structure and plays a role in supporting the folding storage bin, the conveying assembly and the output assembly;

the folding storage bin is of a hollow quadrangular shape which is longitudinally arranged and is provided with an opening at the bottom, an input port is arranged on the side wall at a position close to the top, and an output port is arranged on the side wall at a position close to the bottom; the input port and the output port are respectively positioned on two opposite side walls of the folding storage bin;

a photographing storage assembly is fixed on the side wall of the folding storage bin;

the side wall of the folding storage bin is provided with an adsorption magnet group;

the adsorption magnet group consists of a plurality of strip-shaped magnets which are arranged on two side walls of the folding storage bin, wherein the two side walls are not provided with an input port and an output port, and the two side walls are transversely arranged and are arranged in a row; a row of strip-shaped magnets are positioned on two side walls of the folding storage bin, which are not provided with an input port and an output port; the strip-shaped magnets are transversely arranged;

the conveying assembly is fixed on the support frame, is arranged close to the input port of the folding storage bin and is used for conveying rectangular packaging bags into the input port and comprises a conveying belt assembly and an extrusion assembly;

the conveying belt assembly is of a conveying belt structure; an adsorption magnetic plate is positioned between two cylindrical wheels of the conveying belt assembly;

the extrusion assemblies are positioned at two sides of the conveyor belt assembly, are the combination of two abutting plates and an abutting plate driving assembly, and move towards the magnetic force soft plate under the driving of the abutting plate driving assembly to simulate the extrusion of a human hand to the magnetic force soft plate;

the output assembly is located under the folding storage bin, has the same structure as the conveying belt assembly, and is used for adsorbing and dragging the rectangular packaging bag to pass through the lower portion of the photographing storage assembly.

One or more technical solutions provided in the embodiments of the present application at least have the following technical effects or advantages:

the hepatitis virus antibody detection kit comprises an external packing box, a rectangular packing bag and a detection reagent body, wherein the detection reagent body is utilized to automatically suck a reagent into and convey the reagent to test paper, and the detection reagent body is utilized as a container of a diluent, and after the reagent is immersed into the test paper, the diluent is discharged and conveyed to the test paper; the technical problems of complex use process, poor convenience and low testing efficiency of the hepatitis virus antibody detection kit in the prior art are effectively solved, and the technical effects of convenience in use, simplicity in operation in testing and high testing efficiency of the hepatitis virus antibody detection kit are further realized.

Drawings

FIG. 1 is a schematic diagram showing the structure of a detection reagent body of a hepatitis virus antibody detection kit of the present application;

FIG. 2 is a schematic diagram showing the partial structure of a detection reagent body of the hepatitis virus antibody detection kit of the present application;

FIG. 3 is a schematic diagram showing the positional relationship between the cylindrical sac and the suction tube of the hepatitis virus antibody detection kit of the present application;

FIG. 4 is a schematic diagram of the structure of the outer envelope of the hepatitis virus antibody detection kit of the present application;

FIG. 5 is a schematic view of the overall structure of the outer package of the hepatitis virus antibody test kit of the present application;

FIG. 6 is a cross-sectional view of the output tube of the hepatitis virus antibody test kit of the present application taken along the plane A;

FIG. 7 is a sectional view of the output tube of the hepatitis virus antibody test kit of the present application taken along the plane B;

FIG. 8 is a schematic diagram of a rectangular package of the hepatitis virus antibody detection kit of the present application;

FIG. 9 is a schematic diagram showing the positional relationship of rectangular packaging bags of the hepatitis virus antibody detection kit of the present application;

FIG. 10 is a schematic diagram of a rectangular package and a closed patch of the hepatitis virus antibody detection kit of the present application;

FIG. 11 is a schematic diagram of the rotating plate and the outer packing box of the hepatitis virus antibody detection kit of the present application;

FIG. 12 is a schematic diagram showing the structure of the external packaging box of the hepatitis virus antibody detection kit according to the present application after the top film is torn;

FIG. 13 is a schematic diagram showing the state of tearing the top film of the outer package of the hepatitis virus antibody detection kit of the present application;

FIG. 14 is a schematic diagram showing the positional relationship between a rectangular package bag and a closure patch of a hepatitis virus antibody detection kit according to the present application;

FIG. 15 is a schematic structural diagram of an auxiliary test device of the hepatitis virus antibody detection kit of the present application;

FIG. 16 is a schematic diagram showing the structure of a folding storage compartment of the hepatitis virus antibody detection kit of the present application;

FIG. 17 is a schematic diagram of the combined strip of the hepatitis virus antibody detection kit of the present application;

FIG. 18 is a schematic diagram showing the deformation state of the combined strip in the folding storage bin of the hepatitis virus antibody detection kit of the present application.

In the figure:

the outer packaging box 100, the output pipe 110, the central shaft 120, the rotating plate 130, the box top 140, the fixed adhesive tape 150 and the top film 160;

rectangular packaging bag 200, fixed connecting rope 210, easy-tearing port 220, extending port 230, sealing patch 240 and connecting film 250;

the detection reagent body 300, the suction tube 310, the cylindrical bag 320, the top input port 321, the bottom output port 322, the unidirectional closed core 330, the bottom tube 340, the spreading cone 341, the positioning block 350, the containing bag 360, the test paper 370, the outer cover bag 380, the top plate 381, the bottom plate 382, the soft side plate 383 and the magnetic soft plate 384;

auxiliary test device 400, support frame 410, folding storage bin 420, input port 421, output port 422, photographing storage assembly 423, attracting magnet set 424, conveying assembly 430, conveying belt assembly 440, attracting magnet plate 450, pressing assembly 460, abutting plate 461, abutting plate driving assembly 462, and output assembly 470.

Detailed Description

In order that the application may be readily understood, a more complete description of the application will be rendered by reference to the appended drawings; the preferred embodiments of the present application are illustrated in the drawings, however, the present application may be embodied in many different forms and is not limited to the embodiments described herein; rather, these embodiments are provided so that this disclosure will be thorough and complete.

It should be noted that the terms "vertical", "horizontal", "upper", "lower", "left", "right", and the like are used herein for illustrative purposes only and do not represent the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Please refer to fig. 1, which is a schematic diagram of the structure of the detection reagent body of the hepatitis virus antibody detection kit of the present application; the present application provides a hepatitis virus antibody detection kit comprising an outer packing box 100, a rectangular packing bag 200 and a detection reagent body 300, wherein the detection reagent body 300 is utilized to automatically suck and convey a reagent to a test paper 370, and the detection reagent body 300 is utilized as a container of a diluent, and after the reagent is immersed in the test paper 370, the diluent is discharged and conveyed to the test paper 370; the technical effects of convenience in use, simplicity in operation in test and high test efficiency of the hepatitis virus antibody detection kit are achieved.

Example 1

As shown in fig. 1 to 5, the hepatitis virus antibody detection kit of the present application includes an outer packing box 100, a rectangular packing bag 200, and a detection reagent body 300.

The outer package 100 is a rectangular box body, and serves to store the rectangular package 200 and the detection reagent 300 therein.

The rectangular packaging bag 200 is a packaging bag for the detection reagent body 300, and is rectangular as a whole, and plays a role in storing the detection reagent body 300.

The detection reagent body 300 is used for sucking and detecting a sample and comprises a sucking pipe 310, a cylindrical bag 320, a unidirectional closed core 330, a bottom pipe 340, a positioning block 350, a containing bag 360, test paper 370 and an outer covering bag 380;

the cylindrical bag 320 is integrally cylindrical, made of polyolefin thermoplastic elastomer, polyvinyl chloride or polypropylene, one end of the cylindrical bag 320 is provided with a top input port 321, the other end of the cylindrical bag is provided with a bottom output port 322, a first extension pipe and a second extension pipe are respectively arranged on the cylindrical bag 320, the first extension pipe and the second extension pipe are hard pipe bodies, and the length of the first extension pipe and the second extension pipe is less than 1 cm;

the suction pipe 310 is a hard pipe and is fixed at one end of the cylindrical bag 320; the suction pipe 310 communicates with the inside of the cylindrical bag 320 through a top input port 321;

the unidirectional sealing core 330 is positioned at one end of the second extension pipe far away from the cylindrical bag 320, has the same structure as the sewer deodorizing filter core, and plays a role of a unidirectional valve to ensure unidirectional liquid delivery from the cylindrical bag 320 to the bottom pipe 340;

the bottom pipe 340 is a hard pipe body, and the second extension pipe is fixed on the bottom pipe 340 by inserting the bottom pipe 340; the length of the second extension pipe inserted into the bottom pipe 340 is less than 0.5 cm;

a spreading cone 341 is fixed on the inner wall of the bottom tube 340, the spreading cone 341 is a conical, pyramid-shaped or triangle-shaped sheet body, the axis of the spreading cone 341 coincides with the axis of the bottom tube 340, and a through hole is arranged on the spreading cone 341; when the second extension pipe is inserted into the bottom pipe 340, the spreading cone 341 is inserted into the unidirectional closed core 330 and spreads the unidirectional closed core 330, so that the second extension pipe and the bottom pipe 340 are kept in a conductive state;

a positioning block 350 is fixed at one end of the bottom tube 340 far away from the cylindrical bag 320, and the positioning block 350 plays a role of fixing the accommodating bag 360; the accommodating bag 360 is a flat strip transparent bag body, and a bag opening is fixed on the positioning block 350;

the test paper 370 is located inside the accommodating bag 360 and fixed on the positioning block 350;

the outer covering bag 380 is wrapped with a cylindrical bag 320, and is a cylinder with a longitudinal section similar to an ellipse; the outer covering bag 380 is made of polyolefin thermoplastic elastomer, polyvinyl chloride or polypropylene; the outer covering bladder 380 is fixed to the first extension tube and the bottom tube 340; two magnetic force soft plates 384 are symmetrically arranged on the side wall of the outer covering bag 380, and the magnetic force soft plates 384 are rectangular plates and are made of rubber magnets; when the user presses the outer cover bag 380 toward the cylindrical bag 320 without touching the magnetic force soft plate 384, the cylindrical bag 320 is flattened; when the user presses the outer covering bag 380 toward the cylindrical bag 320 by pressing the magnetic force soft plate 384, the second extension pipe is pulled out from the bottom pipe 340, the spreading cone 341 is pulled out from the unidirectional closing core 330, and the unidirectional closing core 330 functions as a unidirectional valve.

When the hepatitis virus antibody detection kit of the embodiment of the application is actually used, the steps are as follows in sequence:

1. taking one of the rectangular package bags 200 out of the outer package box 100;

2. taking out the detection reagent body 300 in the rectangular package 200 from the rectangular package 200;

3. pinching the outer envelope 380 causes the columnar bag 320 to collapse (pinching the outer envelope 380 in this step does not contact the magnetically soft plate 384); extending the aspiration tube 310 into the reagent, releasing the squeeze of the cylindrical bladder 320, and the reagent is aspirated into the cylindrical bladder 320 under the influence of negative pressure; the outer covering bag 380 is pinched for the second time, so that the reagent flows into the test paper 370;

4. pinching and extruding the magnetic force soft plate 384 to extrude the outer covering bag 380 towards the cylindrical bag 320, pulling out the second extension pipe from the bottom pipe 340, and pulling out the expanding cone 341 from the unidirectional closing core 330; the magnetic force flexible plates 384 are mutually adsorbed to enable the diluent to flow into the test paper 370;

5. put on the platform to wait for the result.

Further, the combination of the two magnetic force flexible plates 384 is approximately spindle-shaped, and both ends of the magnetic force flexible plates 384 are respectively fixed to the first extension pipe and the bottom pipe 340.

Further, the outer bag 380 includes a top plate 381, a bottom plate 382 and a soft side plate 383; the top plate 381 and the bottom plate 382 are hard plates and are respectively fixed on the first extension pipe and the bottom pipe 340; the soft side plates 383 are thin films or soft plates, the number of the soft side plates is four, the soft side plates are in pairs, one group of soft side plates 383 is elliptical, the other group of soft side plates are arc-shaped plates, and the soft side plates 383 in the same group are symmetrically arranged and have the same structure; the magnetic force soft board 384 is fixed on the two arc-shaped soft side boards 383 and is tightly attached to the soft side boards 383; one end of the magnetic force soft board 384 is fixed on the top plate 381, and the other end is fixed on the bottom plate 382.

Further, the rectangular package bag 200 is provided with a tearing opening 220, and the tearing opening 220 plays a role of being convenient for a user to tear the rectangular package bag 200.

Preferably, as shown in fig. 5, in order to further facilitate the use of the hepatitis virus antibody detection kit of the present application in a hospital or the like, the detection process is facilitated; an output hole is formed in the position, close to the top, of the side wall of the outer packaging box 100, and is normally closed by an adhesive tape; an output pipe 110 is fixed on the output hole, and the output pipe 110 is a hard straight pipe for guiding the rectangular packaging bag 200 to pass through and output from the output hole; the output pipe 110 is positioned inside the outer packing box 100, and all the rectangular packing bags 200 are connected end to end and stacked inside the outer packing box 100; the longitudinal section of the output tube 110 near the center of the outer package 100 is shaped like an ellipse (as shown in position B of fig. 5), and the longitudinal section near one side of the outer package 100 is shaped like a perfect circle (as shown in position a of fig. 5); in actual use, as shown in fig. 6 and 7, the rectangular package 200 is gradually rounded in the process of being drawn out, and a user tears the rectangular package 200 along the easy-to-tear port 220 when the rectangular package 200 is exposed 3 to 4 cm from the output hole, and then easily removes the test reagent body 300 from the opening of the rectangular package 200 for testing.

Preferably, all of the rectangular packages 200 are joined end-to-end and placed in a roll inside the outer box 100.

Preferably, as shown in fig. 11, the outer package 100 is provided with a central shaft 120, the central shaft 120 penetrates through the outer package 100, and is rotatably connected to the outer package 100, at least 9 central shafts 120 are located inside the outer package 100, one end of each central shaft 120 is fixed with a rotating plate 130, and the rotating plate 130 is located outside the outer package 100; all rectangular packaging bags 200 in the outer packaging box 100 are connected end to form a strip-shaped strip body, one end of the strip-shaped strip body is fixed on the central shaft 120, and the other end extends into the output pipe 110; in use, a user can withdraw the rectangular package 200 from the output tube 110, and can also retrieve the unused rectangular package 200 back into the outer packing box 100 by rotating the rotating plate 130.

Preferably, as shown in fig. 8, all the rectangular packaging bags 200 in the outer packaging box 100 are connected end to form an elongated strip body, one side of the elongated strip body is fixed with a fixed connection rope 210, and the material of the fixed connection rope 210 is preferably nylon; in use, the individual rectangular packages 200 do not separate from the entire strip after tearing the rectangular packages 200 (the rectangular packages 200 are still connected together by the fixed connecting strings 210); after the whole box of detection reagent is used, the waste can be uniformly recovered into the outer packing box 100 by rotating the rotating plate 130 and then intensively processed.

Preferably, as shown in fig. 12 and 13, considering that the test strip 370 after reagent suction needs to be horizontally placed, waiting for more than 15 minutes to obtain a result; in order to facilitate the placement of the detection reagent body 300, the top 140 of the outer packaging box 100 is densely covered with a fixing adhesive tape 150, the fixing adhesive tape 150 is double faced adhesive tape, and the top 140 is also adhered with a top film 160; when in use, the top film 160 is removed to expose the fixing adhesive tape 150, and the detection reagent body 300 can be adhered on the box top 140 after the reagent is sucked, so as to avoid scattering and damage to the detection reagent body 300 caused by influence of various factors (such as being bumped to the ground, scattered or falling caused by blowing up by wind).

Preferably, the top film 160 is also densely covered with a double sided adhesive tape, so that the top film 160 is not completely uncovered and one end of the top film 160 far away from the outer packaging box 100 is stuck to other articles during use, which can expand the area where the detection reagent body 300 can be placed.

As shown in fig. 9 and 10, in order to reduce the pollution of the test process to the laboratory bench, and further reduce the labor intensity of medical staff during the test and the complexity of collecting waste materials; preferably, the rectangular packaging bag 200 is a transparent bag body, the side surface of the rectangular packaging bag is provided with an extension port 230, the extension port 230 is a through hole, and the rectangular packaging bag is normally closed by a closing patch 240; the sealing patch 240 is a film with double faced adhesive tape on one surface; the test reagent body 300 is not taken out of the rectangular package 200 when in use (and the rectangular package 200 does not need to be torn apart); when the reagent is required to be sucked, the sealing patch 240 is only required to be torn to expose the extension port 230, then the suction pipe 310 of the detection reagent body 300 extends out of the extension port 230, the whole detection reagent body 300 is packaged back into the rectangular packaging bag 200 after the reagent is sucked, the magnetic force flexible plate 384 is pinched to inject diluent into the test paper 370, and finally the test paper is placed on a platform to wait for a result.

Preferably, as shown in fig. 9, the enclosed patch 240 is a rectangular sheet.

Preferably, as shown in fig. 14, the sealing patch 240 is an elongated strip, and one sealing patch 240 seals the outlet 230 of all the rectangular packages 200 in one outer package 100.

The technical scheme provided by the embodiment of the application at least has the following technical effects or advantages:

the technical problems of complex use process, poor convenience and low testing efficiency of the hepatitis virus antibody detection kit in the prior art are solved, and the technical effects of convenience in use, simplicity in operation in testing and high testing efficiency of the hepatitis virus antibody detection kit are realized.

Example two

In order to further improve the convenience of using the hepatitis virus antibody detection kit in places (medium and large scale) such as hospitals (avoid influencing the test efficiency and the test accuracy due to the scattering of the detection reagent body 300), the embodiment of the application is to match the auxiliary test device 400 with the hepatitis virus antibody detection kit, and to optimize the structure of the rectangular packaging bag 200 to a certain extent, the auxiliary test device 400 is used for carrying out the auxiliary test, specifically:

as shown in fig. 15 to 18, the rectangular package bag 200 and the connecting film 250 in the outer package box 100 are alternately spliced to form an elongated strip; the length of the connection film 250 is equal to the length of the rectangular packing bag 200, and the number is greater than or equal to the number of the rectangular packing bags 200; the connecting film 250 is a film sheet and plays a role in connecting the rectangular packaging bag 200;

the rectangular packaging bag 200 is made of transparent materials;

the auxiliary test device 400 includes a support frame 410, a folding storage bin 420, a transport assembly 430, and an output assembly 470;

the support frame 410 is of a frame structure, and supports the folding storage bin 420, the conveying assembly 430 and the output assembly 470;

the folding storage bin 420 is a hollow quadrangular column with a longitudinally arranged bottom and an opening, an input port 421 is arranged on the side wall near the top, and an output port 422 is arranged on the side wall near the bottom; the input 421 and output 422 are located on opposite sidewalls of the folding bin 420, respectively; a photographing storage assembly 423 is fixed on the side wall of the folding storage bin 420, and the photographing storage assembly 423 includes a camera for photographing and storing the result displayed by the detection reagent body 300; the camera of the photographing storage assembly 423 is directed toward the output assembly 470; the side wall of the folding storage bin 420 is provided with an adsorption magnet group 424; the attracting magnet set 424 is composed of a plurality of strip magnets, which are arranged on two side walls of the folding storage bin 420, which are not provided with an input port 421 and an output port 422, and are transversely arranged in a row;

the long-strip-shaped magnet plays a role of relieving the overlapping pressure between the rectangular packaging bags 200 through the self magnetic force (the magnetic force soft plate 384 is attracted by the attraction magnet group 424, and the downward pressure of the rectangular packaging bag 200 due to the influence of the dead weight is counteracted by the magnetic force for a large part, so that the rectangular packaging bag 200 positioned at the bottom layer of the folding storage bin 420 cannot bear excessive pressure from the rectangular packaging bag 200 above the folding storage bin, and is easily attracted and dragged by the output assembly 470);

the conveying assembly 430 is fixed on the support frame 410, and is disposed near the input port 421 of the folding storage bin 420, for conveying the rectangular package 200 into the input port 421; the conveyor assembly 430 includes a conveyor belt assembly 440 and a squeeze assembly 460; the conveyor belt assembly 440 is a conveyor belt structure; an attracting magnetic plate 450 is positioned between the two cylindrical wheels of the conveyor belt assembly 440; the magnetic plate 450 is a plate-shaped magnet and plays a role of adsorbing the rectangular package 200 (adsorbing the detection reagent body 300); the pressing assemblies 460 are positioned at two sides of the conveyor belt assembly 440, and are a combination of two abutting plates 461 and an abutting plate driving assembly 462, the abutting plate driving assembly 462 is preferably an electric telescopic rod structure, the two abutting plates 461 move towards the magnetic force soft plate 384 under the driving of the abutting plate driving assembly 462, and the magnetic force soft plate 384 is pressed by a simulated human hand;

the output assembly 470 is located directly under the folding storage bin 420, and has the same structure as the conveyor belt assembly 440, and is used for adsorbing and dragging the rectangular package 200 to pass under the photographing storage assembly 423.

The auxiliary test device 400 is actually used: after the rectangular packaging bag 200 is taken out from the outer packaging box 100, firstly, the reagent is sucked, then, the diluent is added on the conveying component 430, the waiting result is stacked in the folding storage bin 420, and finally, the waiting result is dragged to the lower part of the photographing storage component 423 by the output component 470 to keep the result.

Preferably, an image processing module is arranged in the photographing storage assembly 423, so that the test paper result can be automatically identified, processed and read automatically, and the test efficiency and accuracy are improved; the specific steps of automatic identification are as follows: obtaining a test paper picture: obtaining a picture of the rectangular packaging bag 200 by using a camera, a scanner and other equipment; image processing: preprocessing the rectangular packaging bag 200 picture, such as removing noise, adjusting contrast, cutting the picture, and the like; dividing regions: carrying out region segmentation on the processed picture; extracting color information: extracting color information of the color bar area, and comparing the color information with a preset color standard to determine a color value; analysis results: according to the color of the test paper 370 and the reference standard, automatically judging whether the detection result meets the standard; outputting a result: and outputting the test result and displaying the test result on a screen.

The above description is only of the preferred embodiments of the present application and is not intended to limit the present application, but various modifications and variations can be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (7)

1. A hepatitis virus antibody detection kit, characterized in that: comprises an outer packing box (100), a rectangular packing bag (200) and a detection reagent body (300);

the detection reagent body (300) comprises a suction pipe (310), a cylindrical bag (320), a unidirectional sealing core (330), a bottom pipe (340), a positioning block (350), a containing bag (360), test paper (370) and an outer covering bag (380);

one end of the cylindrical bag (320) is provided with a top input port (321), the other end of the cylindrical bag is provided with a bottom output port (322), and a first extension pipe and a second extension pipe are respectively arranged on the cylindrical bag and the bottom output port;

the suction pipe (310) is fixed at one end of the cylindrical bag (320);

the unidirectional closure core (330) is positioned at an end of the second extension tube remote from the cylindrical bladder (320); the second extension pipe is fixed on the bottom pipe (340) by inserting the bottom pipe (340);

a spreading cone (341) is fixed on the inner wall of the bottom pipe (340); when the second extension pipe is inserted into the bottom pipe (340), the expanding cone (341) is inserted into the unidirectional closing core (330) and expands the unidirectional closing core (330);

a positioning block (350) is fixed at one end of the bottom tube (340) far away from the cylindrical bag (320), and a bag opening of the accommodating bag (360) is fixed on the positioning block (350); the test paper (370) is positioned inside the accommodating bag (360) and is fixed on the positioning block (350);

the outer covering bag (380) is covered with a cylindrical bag (320) and fixed on the first extension pipe and the bottom pipe (340), and two magnetic soft plates (384) are symmetrically arranged on the side wall; the magnetic force soft board (384) is a rectangular board and is made of rubber magnet; the rectangular packaging bag (200) is a transparent bag body, an extension opening (230) is arranged on the side face of the rectangular packaging bag, the extension opening (230) is a through hole, and the rectangular packaging bag is normally closed by a closing patch (240);

the sealing patch (240) is a soft sheet with a double-sided adhesive tape on one surface; the detection reagent body (300) is not taken out from the rectangular packaging bag (200) when in use;

when the reagent is required to be sucked, only the sealing patch (240) is required to be torn to expose the extension port (230), then the suction pipe (310) of the detection reagent body (300) extends out of the extension port (230), the whole detection reagent body (300) is arranged back into the rectangular packaging bag (200) after the reagent is sucked, the magnetic force soft plate (384) is pinched to inject diluent into the test paper (370), and finally the test paper is placed on a platform to wait for a result;

an auxiliary testing device (400) is also matched;

the rectangular packaging bag (200) and the connecting film (250) in the outer packaging box (100) are spliced alternately to form a strip-shaped belt body;

the length of the connecting film (250) is equal to the length of the rectangular packaging bags (200), and the number of the connecting film is greater than or equal to the number of the rectangular packaging bags (200);

the connecting film (250) is a film body and plays a role in connecting the rectangular packaging bag (200);

the rectangular packaging bag (200) is made of transparent materials;

the auxiliary test device (400) comprises a support frame (410), a folding storage bin (420), a conveying assembly (430) and an output assembly (470);

the support frame (410) is of a frame structure, and supports the folding storage bin (420), the conveying assembly (430) and the output assembly (470);

the folding storage bin (420) is of a hollow quadrangular shape which is longitudinally arranged and is provided with an opening at the bottom, an input port (421) is arranged on the side wall at a position close to the top, and an output port (422) is arranged on the side wall at a position close to the bottom; the input port (421) and the output port (422) are respectively positioned on two opposite side walls of the folding storage bin (420);

a photographing storage assembly (423) is fixed on the side wall of the folding storage bin (420);

the side wall of the folding storage bin (420) is provided with an adsorption magnet group (424);

the adsorption magnet group (424) consists of a plurality of strip magnets; the strip-shaped magnets are arranged on two side walls of the folding storage bin (420), which are not provided with an input port (421) and an output port (422), and are transversely arranged and arranged in a row;

the conveying assembly (430) is fixed on the support frame (410), is arranged close to an input port (421) of the folding storage bin (420) and is used for conveying rectangular packaging bags (200) into the input port (421), and comprises a conveying belt assembly (440) and a squeezing assembly (460);

the conveyor belt assembly (440) is a conveyor belt structure; an adsorption magnetic plate (450) is positioned between the two cylindrical wheels of the conveying belt assembly (440);

the extrusion assemblies (460) are positioned at two sides of the conveyor belt assembly (440) and are a combination of two abutting plates (461) and an abutting plate driving assembly (462), the two abutting plates (461) move towards the magnetic force soft plate (384) under the driving of the abutting plate driving assembly (462), and the magnetic force soft plate (384) is extruded by the simulated human hand;

the output assembly (470) is located under the folding storage bin (420), has the same structure as the conveying belt assembly (440), and is used for adsorbing and dragging the rectangular packaging bag (200) to pass under the photographing storage assembly (423).

2. The hepatitis virus antibody detection kit of claim 1, wherein: the combination of the two magnetic force soft plates (384) is in a spindle shape, and two ends of the magnetic force soft plates (384) are respectively fixed on the first extension pipe and the bottom pipe (340).

3. The hepatitis virus antibody detection kit of claim 1, wherein: the outer covering bag (380) comprises a top plate (381), a bottom plate (382) and a soft side plate (383);

the top plate (381) and the bottom plate (382) are hard plates and are respectively fixed on the first extension pipe and the bottom pipe (340);

the soft side plates (383) are thin films or soft plates, the number of the soft side plates is four, the soft side plates are in pairs, one group of soft side plates (383) is elliptical, the other group of soft side plates is an arc plate, and the soft side plates (383) in the same group are symmetrically arranged and have the same structure;

the magnetic force soft board (384) is fixed on the two arc-shaped soft side boards (383) and is tightly attached to the soft side boards (383);

one end of the magnetic force soft board (384) is fixed on the top board (381), and the other end is fixed on the bottom board (382).

4. A hepatitis virus antibody detection kit as claimed in any one of claims 1 to 3, wherein: an output hole is formed in the position, close to the top, of the side wall of the outer packaging box (100), and is normally closed by an adhesive tape;

an output pipe (110) is fixed on the output hole, and the output pipe (110) is a hard straight pipe and is used for guiding the rectangular packaging bag (200) to pass through and output from the output hole;

the output pipe (110) is positioned inside the outer packaging box (100), and all the rectangular packaging bags (200) are connected end to end and stacked inside the outer packaging box (100);

the rectangular packaging bag (200) can be gradually rounded in the process of being pulled out, a user tears the rectangular packaging bag (200) along the easy-to-tear opening (220) when the rectangular packaging bag (200) is exposed out of the output hole by 3-4 cm, and then the detection reagent body (300) can be easily taken out from the opening of the rectangular packaging bag (200) for testing.

5. The hepatitis virus antibody detection kit of claim 4, wherein: all rectangular packages (200) are joined end to end and placed in a roll inside the outer box (100).

6. The hepatitis virus antibody detection kit of claim 4, wherein: all rectangular packaging bags (200) in the outer packaging box (100) are connected end to form a strip-shaped belt body, and one side of the strip-shaped belt body is fixedly provided with a fixed connecting rope (210); in use, the individual rectangular packages (200) do not separate from the entire strip after the rectangular packages (200) are torn apart.

7. A hepatitis virus antibody detection kit as claimed in any one of claims 1 to 3, wherein: the top (140) of the outer packing box (100) is densely provided with a fixed adhesive tape (150), the fixed adhesive tape (150) is double-sided adhesive tape, and the top (140) is also stuck with a top film (160).