CN219273128U - Combined reagent ship - Google Patents

Abstract

The utility model relates to the technical field of reagent vessels, and discloses a combined reagent vessel which comprises a front end, an EP pipe support A, EP pipe support B, EP pipe support C and a tail end; the EP pipe support A, EP pipe support B, EP pipe support C and the two ends of the rear end are uniformly formed with fixing columns, and the EP pipe support A, EP pipe support B, EP pipe support C and the two ends of the front end are provided with hole sites. According to the technical scheme, the assembly work of a plurality of groups of EP tube supports can be realized rapidly and conveniently, a plurality of groups of EP tubes with different specifications can be installed in the plurality of groups of EP tube supports, so that the EP tube supports can flexibly and conveniently form a complete reagent vessel, the requirement of single-part pretreatment consumable diversification can be met, the application of reagents and the tubes can be reduced by utilizing the combined sample tube, thereby avoiding unnecessary waste, the combined mode enlarges the application project, and finally, the problems of overlong reagent vessel and overlarge deformation in injection molding can be solved.

Description

Combined reagent ship

Technical Field

The utility model relates to the technical field of reagent vessels, in particular to a combined reagent vessel.

Background

The sample volume is large in tumor project treatment, and the sample flux is not very large, so that the automatic extraction consumable is required to be more flexible, and the diversified requirements are met.

However, the present reagent vessel, the inventors found that at least the following problems are not solved: at present, the reagent vessels in the market are all in the most hole sites, are downward compatible, cannot be added or reduced randomly, cannot be realized if reagents in other projects are added in one site, and are required to be opened again for design and production, so that resource waste is caused, and improvement is needed.

Disclosure of Invention

The utility model aims to provide a combined reagent ship, which solves the problems in the background technology.

The embodiment of the application provides a combined reagent vessel, which comprises a front end, an EP pipe bracket A, EP pipe bracket B, EP pipe bracket C and a tail end;

the EP tube support A, EP tube support B, EP tube support C and the two ends of the rear end are uniformly formed with fixing columns, and the EP tube support A, EP tube support B, EP tube support C and the two ends of the front end are provided with hole sites;

the number of the EP pipe brackets A, EP and the number of the EP pipe brackets C are respectively three, the EP pipe brackets A, EP and the EP pipe brackets C are sequentially and transversely inserted and installed, and the fixing columns are inserted into the hole sites;

the inside of the EP pipe bracket A, EP pipe bracket B and the inside of the EP pipe bracket C are respectively and longitudinally inserted and provided with a small-size EP pipe, a medium-size EP pipe and a large-size EP pipe.

Through adopting above-mentioned technical scheme, the equipment work of realization multiunit EP pipe support that can be quick convenient, the EP pipe of multiunit different specifications of mountable in its multiunit EP pipe support makes its nimble convenient formation complete reagent ship, can satisfy the diversified requirement of single pretreatment consumptive material, utilize the sample cell of combination formula reducible reagent and the application of pipe to avoid causing unnecessary extravagant, secondly this kind of combined mode, enlarged the application project, still can solve the reagent ship overlength at last, the too big problem of deflection that appears in the injection molding.

Optionally, the front end and the tail end are respectively inserted and installed at the front end and the rear end through the fixing column and the hole site.

By adopting the technical scheme, the front end and the tail end of the EP pipe bracket can be conveniently assembled at the front end and the rear end of the EP pipe bracket.

Optionally, the EP pipe support A, EP pipe support B and the EP pipe support C are movably provided with EP pipe support upper covers at the rear sides of the tops thereof.

By adopting the technical scheme, the compression fixing work of the EP pipes in each group of EP pipe brackets after being installed can be conveniently realized.

Optionally, the front ends of the EP tube support A, EP tube support B and the EP tube support C are integrally formed with a fixing seat, the top of the fixing seat is integrally formed with a fixing seat boss, and the bottom of the front end of the EP tube support upper cover is provided with a groove.

Through adopting above-mentioned technical scheme, can ensure that the chucking is fixed when the EP pipe support upper cover is closed, avoid the EP pipe to lie in the condition that comes off in the EP pipe support.

Alternatively, the small size EP tube, the medium size EP tube and the large size EP tube have capacities of 2ml, 5ml and 10ml, respectively.

Through adopting above-mentioned technical scheme, the staff of can being convenient for selects the EP pipe of corresponding specification to use according to actual demand, improves the suitability greatly.

Compared with the prior art, the beneficial effects of the technical scheme are as follows:

according to the technical scheme, the interference fit of each group of EP tube supports A, EP tube supports B and EP tube supports C can be realized through the fit of the fixed columns and the hole sites, so that the assembly work for supporting and finishing transverse arrangement can be formed between each group of EP tube supports, and EP tubes with different specifications can be respectively inserted and installed in each group of EP tube supports A, EP tube supports B and EP tube supports C, so that a complete reagent ship can be formed, therefore, the reagent ship can meet the requirement of single-part pretreatment consumable diversification, the application of reagents and the tubes can be reduced by utilizing the combined sample tube, thereby avoiding unnecessary waste, and the combined mode enlarges the application project, and finally, the problem of overlong deformation quantity in injection molding can be solved.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic view of the overall structure of a modular reagent vessel according to the present utility model;

FIG. 2 is a schematic left-view structural diagram of an EP tube bracket A and a small-size EP tube of a combined type reagent vessel;

FIG. 3 is a right-side view of the EP tube bracket A and the small EP tube of the combined type reagent vessel;

fig. 4 is a schematic diagram of a split structure of an EP tube support a and an EP support B of a combined type reagent vessel according to the present utility model;

FIG. 5 is a schematic view of the front end structure of a modular reagent vessel according to the present utility model;

FIG. 6 is a schematic view of the tail end structure of a modular reagent vessel according to the present utility model.

In the figure: 1. a front end; 2. EP tube rack a;2-1, an upper cover of the EP pipe bracket; 2-2, fixing the column; 2-3, fixing base; 2-4, fixing base boss; 2-5 parts of grooves; 2-6, hole site; 3. EP tube scaffold B; 4. EP tube holder C; 5. tail end; 6. small EP tube; 7. middle EP tube; 8. large EP tube.

Detailed Description

Referring to fig. 1-6, the present utility model provides a technical solution: a combined reagent vessel, comprising a front end 1, an EP pipe bracket A2, an EP pipe bracket B3, an EP pipe bracket C4 and a tail end 5;

the two ends of the rear side of the EP pipe bracket A2, the EP pipe bracket B3, the EP pipe bracket C4 and the tail end 5 are uniformly and integrally formed with fixed columns 2-2, the two ends of the front side of the EP pipe bracket A2, the EP pipe bracket B3, the EP pipe bracket C4 and the front end 1 are respectively provided with hole sites 2-6;

in the technical scheme, the spacing of the fixed columns 2-2 is the same as the spacing of the hole sites 2-6, so that the fixed columns 2-2 at the two ends of the rear side of each group of EP pipe brackets can be ensured to be smoothly inserted into the hole sites 2-6 at the two ends of the front side of each group of EP pipe brackets at the rear side;

the number of the EP pipe brackets A2, the EP pipe brackets B3 and the EP pipe brackets C4 is three, the EP pipe brackets A2, the EP pipe brackets B3 and the EP pipe brackets C4 of each group are transversely inserted and installed in sequence, and the fixing columns 2-2 are inserted into the hole sites 2-6;

in the technical scheme, three groups of EP pipe brackets A can be disassembled into a hole site 2 at the front end through a fixed column 2-2 and pushed to the bottom to form interference fit, so that a support can be formed;

in addition, three sets of EP tube scaffolds B and three sets of EP tube scaffolds C may be assembled in the above manner;

secondly, the front end 1 is required to be placed at a first position, the fixed column 2-2 of the first group of EP pipe brackets A is inserted into the hole site 2-6 of the first group of EP pipe brackets A to realize assembly, and the tail end 5 is inserted into the hole site 2-6 of the last group of EP pipe brackets C4 to realize assembly by using the fixed column 2-2;

the inside of the EP pipe bracket A2, the EP pipe bracket B3 and the EP pipe bracket C4 are respectively and longitudinally inserted and provided with a small-size EP pipe 6, a medium-size EP pipe 7 and a large-size EP pipe 8;

in this solution, the small size EP tube 6, the medium size EP tube 7 and the large size EP tube 8 can be inserted into the rack A2, the EP tube rack B3 and the EP tube rack C4 in this order, and a complete reagent vessel can be formed.

In some technical schemes, as shown in fig. 1, 5 and 6, a front end 1 and a tail end 5 are respectively inserted and installed at the front end and the rear end through a fixed column 2-2 and a hole site 2-6; when assembled, the front end 1 and the tail end 5 can be respectively positioned at the front side and the rear side for assembly.

In some technical schemes, as shown in fig. 2, the rear sides of the tops of the EP pipe bracket A2, the EP pipe bracket B3 and the EP pipe bracket C4 are respectively movably provided with an EP pipe bracket upper cover 2-1; during assembly, the upper cover 2-1 is downwards closed, so that the small-size EP pipe 6, the medium-size EP pipe 7 and the large-size EP pipe 8 which are arranged in the EP pipe bracket A2, the EP pipe bracket B3 and the EP pipe bracket C4 can be tightly pressed.

In some technical schemes, as shown in fig. 2, the front ends of the EP pipe bracket A2, the EP pipe bracket B3 and the EP pipe bracket C4 are uniformly formed with a fixed seat 2-3, the top of the fixed seat 2-3 is integrally formed with a fixed seat boss 2-4, and the bottom of the front end of the EP pipe bracket upper cover 2-1 is provided with a groove 2-5; when the EP pipe bracket upper cover 2-1 is closed during assembly, the fixing base boss 2-4 can be clamped into the groove 2-5 to realize the locking and fixing work.

In some technical solutions, as shown in fig. 1, the volumes of the small EP tube 6, the medium EP tube 7 and the large EP tube 8 are respectively 2ml, 5ml and 10ml; when in use, the EP pipes with different capacities can be flexibly used according to the requirements.

When the kit is used, firstly, the small-size EP tube 6 can be placed in the EP tube support A, the upper cover 2-1 of the EP tube support is pressed, similarly, the middle-size EP tube 7 and the large-size EP tube 8 can be placed in the EP tube support B3 and the EP tube support C4 respectively according to the requirement in the same way and are tightly covered, then the front end 1 can be placed at the first position, the small-size EP tube 6 is placed in the EP tube support A2 to form 2ml support components, the middle-size EP tube 6 and the large-size EP tube 7 can respectively form 5ml support components and support components through the operation, three groups of 2ml support components can be disassembled into the hole sites 2-6 at the front end through the fixed column 2-2 and pushed to the bottom to form interference fit, the 5ml support components can be placed into the hole sites 2-6 of the 2ml support components through the fixed column 2-2 and pushed to be in contact with the two, then the front end 1 can be placed in the first position, the small-size EP tube 6 can be placed in the EP tube support component A2 to form 2ml support components, the middle-size EP tube 6 and the small-size EP tube 6 can be placed at the second position, the middle-size EP tube 6 can be placed in the second position, the front end 2ml support component can be inserted into the hole sites 2-6 ml support components can be completely and the front end can be pushed into the fixed column 2-2 ml support component can be completely and the front end 2ml support component can be completely and the whole reagent can be completely and the whole ship can be completely inserted into the ship can be completely and can be completely and completely inserted through the whole can be completely and can be completely inserted.

Claims (5)

1. A combination type reagent vessel, which is characterized in that: comprises a front end (1), an EP pipe bracket A (2), an EP pipe bracket B (3), an EP pipe bracket C (4) and a tail end (5);

the two ends of the rear side of the EP pipe bracket A (2), the EP pipe bracket B (3), the EP pipe bracket C (4) and the tail end (5) are uniformly formed with fixed columns (2-2), and the two ends of the front side of the EP pipe bracket A (2), the EP pipe bracket B (3), the EP pipe bracket C (4) and the front end (1) are provided with hole sites (2-6);

the number of the EP pipe brackets A (2), the EP pipe brackets B (3) and the EP pipe brackets C (4) is three, the EP pipe brackets A (2), the EP pipe brackets B (3) and the EP pipe brackets C (4) of each group are sequentially and transversely inserted and installed, and the fixing columns (2-2) are inserted into the hole sites (2-6);

the small-size EP pipe (6), the medium-size EP pipe (7) and the large-size EP pipe (8) are respectively and longitudinally inserted and installed in the EP pipe bracket A (2), the EP pipe bracket B (3) and the EP pipe bracket C (4).

2. A combined type reagent vessel according to claim 1, wherein the front end (1) and the tail end (5) are inserted and mounted at the front end and the rear end respectively through a fixed column (2-2) and a hole site (2-6).

3. A combined type reagent vessel according to claim 1, wherein the EP tube support upper cover (2-1) is movably mounted on the rear sides of the tops of the EP tube support a (2), the EP tube support B (3) and the EP tube support C (4).

4. A combined type reagent vessel according to claim 3, wherein the front ends of the EP tube support a (2), the EP tube support B (3) and the EP tube support C (4) are integrally formed with a fixing seat (2-3), the top of the fixing seat (2-3) is integrally formed with a fixing seat boss (2-4), and the bottom of the front end of the EP tube support upper cover (2-1) is provided with a groove (2-5).

5. A combined reagent vessel according to claim 1, wherein the volumes of the small EP tube (6), the medium EP tube (7) and the large EP tube (8) are 2ml, 5ml and 10ml, respectively.

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