CN210079534U - Reaction cup integrating packaging and uniformly mixing - Google Patents

Abstract

The utility model discloses a reaction cup integrating packaging and mixing, wherein a sealing washer is arranged at the bottom of a connecting cup body of a lower reaction cup body, an upper reaction cup body is inserted into the connecting cup body through an outer cup cylinder, a lower end ring sleeve opening of a double-layer sleeve structure is laminated with the sealing washer, so that the liquid in a first cavity and a second cavity is packaged, and meanwhile, a cup body connector is connected to a frame connector; the reaction bowl cover passes through a section of thick bamboo in the cover lower extreme inserts, inject the process at the reaction bowl cover, sample liquid release in making sample liquid straw through the extruded article that sets up including a glass section of thick bamboo, the bowl cover connects simultaneously and realizes being connected with the frame connection head, connect at the bowl cover and realize the connection process with the frame connection head, the bowl cover connects and makes cup connection head and frame connection head separation through the extrusion, thereby make first cavity and second cavity opened, and then realize the sample liquid straw, the liquid medicine in first cavity and the second cavity flows into and detects the reaction tank and mix.

Description

Reaction cup integrating packaging and uniformly mixing

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to integrative reaction cup of collection encapsulation and mixing.

Background

The existing manual biochemical analysis operation flow comprises the following steps: medical personnel absorb the ration with the pipette with reagent A, B respectively and add to the reaction cup, absorb quantitative sample simultaneously and add to reagent A, B, and manual mixing or put into mixing mechanism and after the mixing, put into biochemical analysis appearance and carry out data detection.

The biochemical analysis can be widely applied to the fields of medicine, food, environment, medical clinic and the like, particularly, the biochemical analysis is quite widely applied to the medical clinic field and is an indispensable detection instrument for hospital inspection work. The most common biochemical instruments adopt the principle of double reagents (R1 and R2) and double reactions, and perform detection and analysis by a colorimetric method. Usually, three microsyringes are used to perform sample taking, sample adding, and R1 reagent and R2 reagent adding respectively. Quantitatively adding a sample of a detected person into a reaction cup, quantitatively sucking the R1 reagent and the R2 reagent by a syringe, injecting the mixture into the reaction cup, stirring and uniformly mixing the mixture, measuring the mixture by a colorimetric method, and repeating the steps. Because all used reaction cups, sample adding needles, reagent adding needles and stirring rods need to be cleaned before next sample detection, the existing reaction cups have complex functions and structures, high manufacturing cost and no open reagents, the consumption cost of detection items is increased, and the detection items are difficult to accept by users; the transportation and storage of the plastic container require special distribution due to low temperature, and the large volume of the plastic container increases the difficulty of storage and transportation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art not enough promptly, provide an integrative reaction cup of collection encapsulation and mixing, solve to the biochemical analysis of specific protein, the quantitative absorption of reagent and the problem of the operation of mixing.

The utility model discloses a following technical scheme realizes:

a reaction cup integrating packaging and uniform mixing comprises a lower reaction cup body, an upper reaction cup body and a reaction cup cover, wherein the upper part of the lower reaction cup body is a connecting cup body, a detection reaction tank is arranged in the middle of the bottom of the connecting cup body, and a plurality of cup body connectors are arranged around the outer opening at the upper end of the connecting cup body;

the upper reaction cup body comprises a double-layer sleeve structure consisting of an inner cup cylinder and an outer cup cylinder, the upper end ring sleeve opening of the double-layer sleeve structure is closed, the lower end ring sleeve opening of the double-layer sleeve structure is opened, a partition plate is arranged in the middle of the double-layer sleeve structure to divide the ring sleeve into a first cavity and a second cavity, and a frame connector is arranged at the outer opening of the upper end of the outer cup cylinder; the reaction cup cover comprises a cylinder cover, a sample liquid suction pipe is arranged in the cylinder cover, and a cup cover joint is arranged at the upper end of the cylinder cover; a sealing washer is arranged at the bottom of the connecting cup body of the lower reaction cup body, the upper reaction cup body is inserted into the connecting cup body through the outer cup barrel, the lower end ring sleeve of the double-layer sleeve structure is attached to the sealing washer, so that the liquid in the first cavity and the liquid in the second cavity are encapsulated, and meanwhile, the cup body connector is connected to the frame connector; the reaction bowl cover passes through a section of thick bamboo in the cover lower extreme inserts, inject the process at the reaction bowl cover, sample liquid release in making sample liquid straw through the extruded article that sets up including a glass section of thick bamboo, the bowl cover connects simultaneously and realizes being connected with the frame connection head, connect at the bowl cover and realize the connection process with the frame connection head, the bowl cover connects and makes cup connection head and frame connection head separation through the extrusion, thereby make first cavity and second cavity opened, and then realize the sample liquid straw, the liquid medicine in first cavity and the second cavity flows into and detects the reaction tank and mix.

Furthermore, the detection reaction tank is of a long-strip transparent structure.

Furthermore, the cup body connector comprises a right-angle piece and a lower cup body hanging buckle, the right-angle piece is buckled on the outer wall of the connecting cup body, the lower end of the lower cup body hanging buckle is connected to the vertical edge of the right-angle piece, and the upper end of the lower cup body hanging buckle is hung on the frame connector to realize the connection of the lower reaction cup body and the upper reaction cup body.

Further, the bowl cover connects for the right angle structure, is equipped with the wedge piece that makes lower cup hang to detain and the separation of frame attach head in right angle structure side bottom to hang the extrusion of detaining through the wedge piece to lower cup, make lower reaction cup and last reaction cup separate, be equipped with the bowl cover in right angle structure side bottom and hang and detain, the bowl cover is hung to detain and is realized the reaction bowl cover and go up the reaction cup and be connected through hanging the knot on frame attach head.

Furthermore, the frame connector is of a square frame structure, the middle parts of four frame edges are respectively connected to the outer wall of the barrel cover, a hanging and buckling table is arranged on the frame connector at a position corresponding to the hanging and buckling of the lower cup body, and the hanging and buckling of the upper end part of the hanging and buckling of the lower cup body can be hung on the hanging and buckling table, so that the connection of the lower reaction cup body and the upper reaction cup body is realized; the hanging buckle platform is also arranged at the position, corresponding to the cup cover hanging buckle, of the frame connecting head, and the hanging buckle at the lower end part of the cup cover hanging buckle can be hung on the hanging buckle platform, so that the reaction cup cover and the upper reaction cup body are connected.

Furthermore, the bottom end of the frame connector is provided with an upper cup hanging buckle, the end part of the upper cup hanging buckle can be hung on the right-angle piece, and when the lower reaction cup body is separated from the upper reaction cup body, the lower reaction cup body can be prevented from falling off through the upper cup hanging buckle.

Furthermore, the sample liquid suction pipe comprises a rubber sleeve and a suction pipe, the upper end of the suction pipe is connected to the rubber sleeve, and the sample liquid is sucked or extruded through the suction pipe by extruding the rubber sleeve.

Further, the extruded piece is the ring cover structure, and the ring cover is connected through the connecting plate and is fixed including a glass section of thick bamboo middle part, at reaction bowl cover and last reaction cup connection process, and the straw inserts from interior glass section of thick bamboo and passes the extruded piece and get into the detection reaction tank, presses reaction bowl cover and last reaction cup connection process, and the rubber sleeve of sample liquid straw makes sample liquid mix in the detection reaction tank through extruded piece extrusion.

The utility model discloses a following another technical scheme realizes:

a mixing method of a reaction cup integrating encapsulation and mixing, comprising the following steps:

the reagent encapsulation comprises the steps of inverting an upper reaction cup body, adding corresponding reagents into a first cavity and a second cavity respectively, sleeving the upper reaction cup body with a lower reaction cup body, inserting the upper reaction cup body into a connecting cup body through an outer cup barrel, and attaching a lower end ring sleeve opening of a double-layer sleeve structure to a sealing washer to encapsulate the reagents in the first cavity and the second cavity, wherein a cup body connector is connected to a frame connector; then the reaction cup body and the upper reaction cup body are erected, and the reaction cup body and the upper reaction cup body filled with the reagent can enter an incubator to be heated and incubated.

Further, the method also comprises the following steps: reagent mixing, the reaction bowl cover passes through a section of thick bamboo of section of thick bamboo in the section of thick bamboo lower extreme inserts, inject the process at the reaction bowl cover, sample liquid release in messenger's sample liquid straw through the extruded article that sets up in the section of thick bamboo of including, the bowl cover connects and frame connection head realization is connected simultaneously, connect at the bowl cover and realize the joining process with frame connection head, the bowl cover connects and makes cup connection head and frame connection head separation through the extrusion, thereby make first cavity and second cavity opened, the reagent of encapsulation flows into the detection reaction tank in first cavity and the second cavity, and then realize the sample liquid straw, the liquid medicine in first cavity and the second cavity flows into the detection reaction tank and mixes.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

the utility model relates to a collect integrative reaction cup of encapsulation and mixing, the reaction cup has integrateed the encapsulation reagent function. The medical staff is simplified to open the whole reagent bottle, and the reagent bottle is not opened or closed during testing, so that the use performance of the reagent is influenced. The reaction cup integrates the reagent bearing and mixing functions of the reaction cup, and simplifies the operation of adding the sample and the reagent by medical staff respectively.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic view of the split structure of a reaction cup of the present invention, which integrates packaging and mixing;

FIG. 2 is a schematic view of the combined state of the reaction cup of the present invention, which integrates the functions of packaging and mixing;

FIG. 3 is a schematic view of the cross-sectional structure of a reaction cup of the present invention integrating packaging and mixing;

FIG. 4 is a schematic view of the cross-sectional structure of a reaction cup of the present invention integrating packaging and mixing;

reference numbers and corresponding part names in the drawings:

1-lower reaction cup, 2-upper reaction cup, 3-reaction cup cover, 4-connection cup, 5-detection reaction pool, 6-cup connector, 7-inner cup, 8-outer cup, 9-clapboard, 10-first chamber, 11-second chamber, 12-frame connector, 13-barrel cover, 14-sample liquid sucker, 15-cup cover connector, 16-sealing washer, 17-extrusion piece, 18-right angle piece, 19-lower cup hanging buckle, 20-wedge head block, 21-cup cover hanging buckle, 22-upper cup hanging buckle, 23-rubber sleeve, and 24-sucker.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example 1

As shown in fig. 1-4, the utility model relates to a reaction cup integrating packaging and mixing, which comprises a lower reaction cup body 1, an upper reaction cup body 2 and a reaction cup cover 3, wherein the upper part of the lower reaction cup body 1 is a connecting cup body 4, a detection reaction tank 5 is arranged in the middle of the bottom of the connecting cup body 4, and a plurality of cup body connectors 6 are arranged around the outer opening at the upper end of the connecting cup body 4; the upper reaction cup body 2 comprises a double-layer sleeve structure consisting of an inner cup barrel 7 and an outer cup barrel 8, the upper end ring sleeve opening of the double-layer sleeve structure is sealed, the lower end ring sleeve opening of the double-layer sleeve structure is opened, a partition plate 9 is arranged in the middle of the double-layer sleeve structure to divide the ring sleeve into a first cavity 10 and a second cavity 11, and a frame connector 12 is arranged at the upper end outer opening of the outer cup barrel 8.

The reaction cup cover 3 comprises a cylinder cover 13, a sample liquid suction pipe 14 is arranged in the cylinder cover 13, and a cup cover joint 15 is arranged at the upper end of the cylinder cover 13;

a sealing washer 16 is arranged at the bottom of a connecting cup body 4 of a lower reaction cup body 1, an upper reaction cup body 2 is inserted into the connecting cup body 4 through an outer cup cylinder 8, a lower end ring sleeve opening of a double-layer sleeve structure is attached to the sealing washer 16, so that liquid in a first cavity 10 and a second cavity 11 is packaged, and meanwhile, a cup body connector 6 is connected onto a frame connector 12.

Reaction bowl cover 3 inserts interior cup section of thick bamboo 7 through cover 13 lower extreme, inject the process at reaction bowl cover 3, sample liquid release in making sample liquid straw 14 through the extruded article 17 that sets up in interior cup section of thick bamboo 7, simultaneously the bowl cover connects 15 and frame connector 12 and realizes being connected, connect 15 and frame connector 12 realization connected process at the bowl cover, bowl cover connects 15 and makes cup connector 6 and frame connector 12 separation through the extrusion, thereby make first cavity 10 and second cavity 11 opened, and then realize sample liquid straw 14, the liquid medicine inflow in first cavity 10 and the second cavity 11 detects reaction tank 5 and mixes.

The detection reaction tank 5 is of a long-strip transparent structure. The transparent structure is convenient for observing the mixed reaction condition of the reagent.

The cup body connector 6 comprises a right-angle piece 18 and a lower cup body hanging buckle 19, the right-angle piece 18 is buckled on the outer wall of the connecting cup body 4, the lower end of the lower cup body hanging buckle 19 is connected to the vertical edge of the right-angle piece 18, and the upper end of the lower cup body hanging buckle 19 is hung on the frame connector 12 to realize the connection of the lower reaction cup body 1 and the upper reaction cup body 2.

The cup cover connector 15 is of a right-angle structure, a wedge block 20 enabling the lower cup body hanging buckle 19 to be separated from the frame connector 12 is arranged at the bottom end of one side edge of the right-angle structure, the lower cup body hanging buckle 19 is extruded through the wedge block 20, the lower reaction cup body 1 is separated from the upper reaction cup body 2, a cup cover hanging buckle 21 is arranged at the bottom end of one side edge of the right-angle structure, and the cup cover hanging buckle 21 is connected with the upper reaction cup body 2 through the hanging buckle on the frame connector 12.

The frame connector 12 is of a square frame structure, the middle parts of four frame edges are respectively connected to the outer wall of the cylinder cover 13, four corners of the square frame structure are empty from the outer wall of the cylinder cover 13, the lower cup body hanging buckle 19 and the cup cover hanging buckle 21 are hung at four angular positions of the square frame structure, a hanging buckle table is arranged on the frame connector 12 corresponding to the lower cup body hanging buckle 19, a hanging buckle at the upper end part of the lower cup body hanging buckle 19 can be hung on the hanging buckle table, and the connection of the lower reaction cup body 1 and the upper reaction cup body 2 is realized; a hanging and buckling platform is also arranged at the position, corresponding to the cup cover hanging and buckling 21, on the frame connector 12, and a hanging and buckling at the lower end part of the cup cover hanging and buckling 21 can be hung on the hanging and buckling platform, so that the reaction cup cover 3 is connected with the upper reaction cup body 2.

An upper cup hanging buckle 22 is arranged at the bottom end of the frame connector 12, the end part of the upper cup hanging buckle 22 can be hung on the right-angle piece 18, and when the lower reaction cup 1 is separated from the upper reaction cup 2, the lower reaction cup 1 can be prevented from falling off through the upper cup hanging buckle 22.

The sample liquid suction pipe 14 comprises a rubber sleeve 23 and a suction pipe 24, the upper end of the suction pipe 24 is connected to the rubber sleeve 23, sample liquid is extruded out through the suction pipe 24 by squeezing the rubber sleeve 23, and a quantitative sample is sucked in through the capillary action of the sample pipe. The rubber sleeve is not required to be extruded, and the rubber sleeve is required to be extruded during extrusion.

The extruded piece 17 is the ring cover structure, and the ring cover is connected through the connecting plate and is fixed at the middle part of cup section of thick bamboo 7 including, at reaction bowl cover 3 with last reaction cup 2 connection process, the straw from interior cup section of thick bamboo 7 insert and pass extruded piece 17 entering detection reaction tank 5, pressing reaction bowl cover 3 and last reaction cup 2 connection process, the rubber sleeve of sample liquid straw 14 makes the sample liquid mix in the detection reaction tank 5 through extruded piece 17 extrusion.

This technique has designed reaction bowl cover 3, and its inside has drum cavity (cover 13), and inside is equipped with rubber sleeve 23, is equipped with straw 24 in the rubber sleeve 23, and this three part is installed on last reaction cup 2, and it has two cavitys to go up reaction cup 2 inside, and first cavity 10 and second cavity 11 are used for partial shipment reagent R1 and R2, go up reaction cup 2 bottom and have a seal ring 16 that silica gel made, are used for the reagent of two cavitys of sealing. The sealing washer 16 is adhered on the bottom of the lower reaction cup body 1, and the bottom of the lower reaction cup body 1 is provided with a strip transparent detection pool.

In use, sampling: the medical staff takes out the whole cup body matched with the item to be measured, presses the elastic buckles (the cup cover hanging buckle 21) at the two sides of the upper cover and takes out the reaction cup cover 3. A suction pipe 24 in the reaction cup cover 3 extends below the liquid level of the sample to be detected. The pipette 24 will aspirate a measured amount of sample fluid at atmospheric pressure.

Sample adding: according to the test project needs, the cup remaining part can get into the incubator and heat and incubate behind the separation reaction bowl cover 3, the reaction bowl cover 3 that will absorb the sample is put back the cup (lower reaction bowl 1, go up reaction bowl 2) normal position, medical personnel press from both sides at the platform position that the cup stretches out with forefinger and middle finger (frame connector 12 downside is close to the position), the thumb continues to press reaction bowl cover 3, reaction bowl cover 3 can promote down reaction bowl 1 and seal ring 16 and slide downwards, thereby make seal ring 16 and the lower extreme ring mouth separation of double-deck sleeve structure, reagent R1 in two inside cavities of double-deck sleeve structure begins to contact with R2 and flows into the rectangular detection pond of reaction bowl 1 bottom down.

The reaction cup cover 3 continues to move downwards, the rubber sleeve 23 contacts with a limiting plate (an extrusion piece 17) on the inner side of the inner cup barrel 7 and begins to extrude the rubber sleeve 23, at the moment, the bottom end of the suction pipe 24 extends into the detection pool of the lower reaction cup body 1 and is positioned at the liquid level of the R1 reagent and the R2 reagent, the reaction cup cover 3 continues to move downwards, and the sample in the suction pipe 24 flows into the detection pool of the lower reaction cup body 1 due to the extrusion of the rubber sleeve 23. The contact of three liquids is realized. The medical staff realizes the even mixing of sample, reagent R1, reagent R2 through shaking whole cup manually. The uniformly mixed cup body can be put into a matched biochemical analyzer for data analysis. Thereby obtaining the data of the item to be measured.

The utility model relates to a collect integrative reaction cup of encapsulation and mixing, the reaction cup has integrateed the encapsulation reagent function. The medical staff is simplified to open the whole reagent bottle, and the reagent bottle is not opened or closed during testing, so that the use performance of the reagent is influenced. The reaction cup integrates the reagent bearing and mixing functions of the reaction cup, and simplifies the operation of adding the sample and the reagent by medical staff respectively.

Example 2

As shown in fig. 1-4, the utility model relates to a reaction cup mixing method integrating encapsulation and mixing, which comprises the following steps:

reagent encapsulation, namely inverting the upper reaction cup body 2, adding corresponding reagents into the first chamber 10 and the second chamber 11 respectively, sleeving the upper reaction cup body 2 with the lower reaction cup body 1, inserting the upper reaction cup body 2 into the connecting cup body 4 through the outer cup cylinder 8, and attaching a lower end ring sleeve opening of a double-layer sleeve structure to a sealing washer 16 so that the reagents in the first chamber 10 and the second chamber 11 are encapsulated, and connecting the cup body connector 6 to the frame connector 12; then the reaction cup body 1 and the upper reaction cup body 2 are erected, and the reaction cup body 1 and the upper reaction cup body 2 filled with the reagent can enter an incubator for heating and incubation.

Further comprising the steps of: reagent mixing, reaction bowl cover 3 inserts interior glass section of thick bamboo 7 through cover 13 lower extreme, insert the process at reaction bowl cover 3, sample liquid release in making sample liquid straw 14 through the extruded piece 17 that sets up in interior glass section of thick bamboo 7, simultaneously bowl cover joint 15 realizes being connected with frame connection head 12, realize the joining process at bowl cover joint 15 and frame connection head 12, bowl cover joint 15 makes cup connection head 6 and frame connection head 12 separation through the extrusion, thereby make first cavity 10 and second cavity 11 opened, the reagent of encapsulation flows in detection reaction tank 5 in first cavity 10 and the second cavity 11, and then realize sample liquid straw 14, the liquid medicine in first cavity 10 and the second cavity 11 flows in detection reaction tank 5 and mixes.

The utility model relates to a reaction cup mixing method integrating encapsulation and mixing, which integrates the function of encapsulating reagents. The medical staff is simplified to open the whole reagent bottle, and the reagent bottle is not opened or closed during testing, so that the use performance of the reagent is influenced. The reaction cup integrates the reagent bearing and mixing functions of the reaction cup, and simplifies the operation of adding the sample and the reagent by medical staff respectively.

In use, sampling: the medical staff takes out the whole cup body matched with the item to be measured, presses the elastic buckles (the cup cover hanging buckle 21) at the two sides of the upper cover and takes out the reaction cup cover 3. A suction pipe 24 in the reaction cup cover 3 extends below the liquid level of the sample to be detected. The pipette 24 will aspirate a measured amount of sample fluid at atmospheric pressure.

Sample adding: according to the test project needs, the cup remaining part can get into the incubator and heat and incubate behind the separation reaction bowl cover 3, the reaction bowl cover 3 that will absorb the sample is put back the cup (lower reaction bowl 1, go up reaction bowl 2) normal position, medical personnel press from both sides at the platform position that the cup stretches out with forefinger and middle finger (frame connector 12 downside is close to the position), the thumb continues to press reaction bowl cover 3, reaction bowl cover 3 can promote down reaction bowl 1 and seal ring 16 and slide downwards, thereby make seal ring 16 and the lower extreme ring mouth separation of double-deck sleeve structure, reagent R1 in two inside cavities of double-deck sleeve structure begins to contact with R2 and flows into the rectangular detection pond of reaction bowl 1 bottom down.

The reaction cup cover 3 continues to move downwards, the rubber sleeve 23 contacts with a limiting plate (an extrusion piece 17) on the inner side of the inner cup barrel 7 and begins to extrude the rubber sleeve 23, at the moment, the bottom end of the suction pipe 24 extends into the detection pool of the lower reaction cup body 1 and is positioned at the liquid level of the R1 reagent and the R2 reagent, the reaction cup cover 3 continues to move downwards, and the sample in the suction pipe 24 flows into the detection pool of the lower reaction cup body 1 due to the extrusion of the rubber sleeve 23. The contact of three liquids is realized. The medical staff realizes the even mixing of sample, reagent R1, reagent R2 through shaking whole cup manually. The uniformly mixed cup body can be put into a matched biochemical analyzer for data analysis. Thereby obtaining the data of the item to be measured.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. The utility model provides a collect encapsulation and integrative reaction cup of mixing, includes reaction cup (1), goes up reaction cup (2) and reaction bowl cover (3) down, its characterized in that:

the upper part of the lower reaction cup body (1) is provided with a connecting cup body (4), the middle part of the bottom of the connecting cup body (4) is provided with a detection reaction pool (5), and the outer opening at the upper end of the connecting cup body (4) is provided with a plurality of cup body connectors (6) in a surrounding way;

the upper reaction cup body (2) comprises a double-layer sleeve structure consisting of an inner cup cylinder (7) and an outer cup cylinder (8), the upper end ring sleeve opening of the double-layer sleeve structure is closed, the lower end ring sleeve opening of the double-layer sleeve structure is opened, a partition plate (9) is arranged in the middle of the double-layer sleeve structure to divide the ring sleeve into a first cavity (10) and a second cavity (11), and the outer opening of the upper end of the outer cup cylinder (8) is provided with a frame connector (12);

the reaction cup cover (3) comprises a cylinder cover (13), a sample liquid suction pipe (14) is arranged in the cylinder cover (13), and a cup cover joint (15) is arranged at the upper end of the cylinder cover (13);

a sealing washer (16) is arranged at the bottom of a connecting cup body (4) of a lower reaction cup body (1), an upper reaction cup body (2) is inserted into the connecting cup body (4) through an outer cup cylinder (8), a lower end ring sleeve opening of a double-layer sleeve structure is attached to the sealing washer (16), so that liquid in a first cavity (10) and liquid in a second cavity (11) are encapsulated, and meanwhile, a cup body connector (6) is connected to a frame connector (12);

the reaction cup cover (3) is inserted into the inner cup cylinder (7) through the lower end of the cylinder cover (13), in the insertion process of the reaction cup cover (3), sample liquid in the sample liquid suction pipe (14) is released through the extrusion piece (17) arranged in the inner cup cylinder (7), and the cup cover joint (15) is connected with the frame connector (12).

2. The reaction cup integrating packaging and uniformly mixing as claimed in claim 1, wherein: the detection reaction tank (5) is of a long-strip transparent structure.

3. The reaction cup integrating packaging and uniformly mixing as claimed in claim 1, wherein: the cup body connector (6) comprises a right-angle piece (18) and a lower cup body hanging buckle (19), the right-angle piece (18) is buckled on the outer wall of the connecting cup body (4), and the lower end of the lower cup body hanging buckle (19) is connected to the vertical edge of the right-angle piece (18).

4. The reaction cup integrating packaging and uniformly mixing as claimed in claim 3, wherein: bowl cover connects (15) and is the right angle structure, is equipped with wedge head piece (20) that make lower cup hang knot (19) and frame connection head (12) separation in right angle structure side bottom to hang the extrusion of knot (19) through wedge head piece (20) to lower cup, make down reaction cup (1) and last reaction cup (2) separation, be equipped with bowl cover in right angle structure side bottom and hang knot (21).

5. The reaction cup integrating packaging and uniformly mixing as claimed in claim 4, wherein: the frame connector (12) is of a square frame structure, the middle parts of four frame edges are respectively connected to the outer wall of the barrel cover (13), a hanging buckle table is arranged on the frame connector (12) at a position corresponding to the lower cup hanging buckle (19), and the hanging buckle at the upper end part of the lower cup hanging buckle (19) can be hung on the hanging buckle table; a hanging and buckling table is also arranged at the position, corresponding to the cup cover hanging and buckling (21), of the frame connector (12), and a hanging and buckling table can be hung on the hanging and buckling table at the lower end part of the cup cover hanging and buckling (21).

6. The reaction cup integrating packaging and uniformly mixing as claimed in claim 5, wherein: an upper cup body hanging buckle (22) is arranged at the bottom end of the frame connector (12), and the end part of the upper cup body hanging buckle (22) can be hung on the right-angle piece (18).

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