CN213467822U - Glucose determination kit - Google Patents

Abstract

The utility model discloses a glucose assay kit. The glucose determination kit is used for accommodating and matching with reagent bottle groups, and each reagent bottle group comprises at least two reagent bottles. The kit comprises: the box body comprises a containing cavity; the first mounting frame is detachably connected to the box body and comprises two or more mounting holes which are distributed at intervals and penetrate through. The second mounting frame comprises at least two clamping holes, and each clamping hole is used for limiting one reagent bottle; wherein, the second mounting bracket is connected with the mounting hole in an inserting manner. The second mounting bracket sets up to supporting structure for accomodate and fixed reagent bottle group, wherein a plurality of reagent bottles in the reagent bottle group are used for the reagent of installation cooperation use. And each reagent bottle is limited by a corresponding clamping hole in the second mounting frame so as to keep the mounting position fixed, and is uniformly assembled to the first mounting frame along with the second mounting frame, so that the assembly efficiency is improved, and the reagent bottles are prevented from being mixed up.

Description

Glucose determination kit

Technical Field

The utility model belongs to the technical field of detect technique and specifically relates to a glucose assay kit is related to.

Background

Glucose is the most important monosaccharide in human blood, and the postprandial blood glucose concentration is about 5 mmol/L. Glucose is an energy donor essential for maintaining cell function, and is degraded by glycolysis. Blood glucose determinations are used in the diagnosis and therapeutic monitoring of disorders of glucose metabolism, including diabetes, neonatal hypoglycemia, and idiopathic hypoglycemia.

However, when the reagent bottles are similar in shape, they are easily mistakenly taken out to cause reagent confusion, and thus improvement is required.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a glucose assay kit.

The utility model discloses the first aspect of the technical scheme who adopts is: a glucose assay kit for housing groups of reagent vials for coordinated use, each group of reagent vials comprising at least two reagent vials, the kit comprising:

the box body comprises a containing cavity;

the first mounting frame is detachably connected to the box body and comprises two or more mounting holes which are distributed at intervals and penetrate through the first mounting frame;

the second mounting frame comprises at least two clamping holes, and each clamping hole is used for limiting one reagent bottle; wherein, the second mounting bracket is connected with the mounting hole in an inserting manner.

Optionally, the second mounting bracket comprises a bracket main body, and a guide rib protruding from a surface of the bracket main body and surrounding the clamping hole, wherein the clamping hole extends along an axial direction of the clamping hole to support and limit the reagent bottle.

Optionally, the second mounting bracket further includes a connecting portion provided on the bracket main body, and the connecting portion is connected to the first mounting bracket in a positioning manner.

Optionally, the connecting portion includes a positioning hole, and the first mounting bracket is provided with a positioning pin in insertion fit with the positioning hole; or, the connecting part comprises a supporting block formed by locally protruding the edge of the bracket main body, and the first mounting frame is provided with a positioning groove matched with the supporting block.

Optionally, the first mounting bracket includes the support body and is the convex pipe of tubulose, the mounting hole run through the support body and with the pipe coaxial arrangement, the second mounting bracket is followed the mounting hole inserts and with the cooperation of pegging graft of pipe.

Optionally, the first mounting bracket is including setting up the location breach at support body edge, the box body set up with location breach assorted location boss, first mounting bracket erects in the box body, the location breach is detained the location boss.

Optionally, the box body includes base and rotatable coupling in the top cap of base, the base is including being located accomodate the annular groove of chamber opening part, first mounting bracket erects in the annular groove, the top cap lid is located the base is in order to seal and accomodate the chamber.

Optionally, the cassette further comprises a stopper mounted to the top cover, the stopper resiliently abutting a reagent bottle defined by the first mounting bracket.

Optionally, the cassette further comprises a bottom support mounted to the base for supporting and confining a reagent bottle passing through the first mounting frame.

Optionally, the kit further comprises a temperature adjusting member mounted on the box body, and the temperature adjusting member surrounds the accommodating cavity.

After the structure is adopted, compared with the prior art, the utility model the advantage that has is: the second mounting bracket sets up to supporting structure for accomodate and fixed reagent bottle group, wherein a plurality of reagent bottles in the reagent bottle group are used for the reagent of installation cooperation use. And each reagent bottle is limited by a corresponding clamping hole in the second mounting frame so as to keep the mounting position fixed, and is uniformly assembled to the first mounting frame along with the second mounting frame, so that the assembly efficiency is improved, and the reagent bottles are prevented from being mixed up.

Drawings

The invention will be further described with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the kit of the present invention.

Fig. 2 is a schematic diagram of the explosion structure of the kit of the present invention.

Fig. 3 is a schematic structural diagram of the kit for removing the top cover according to the present invention.

Fig. 4 is a schematic sectional structure diagram of the reagent cartridge of the present invention.

In the figure: a case 10; a base 11; an annular groove 111; a positioning boss 112; a top cover 12; a first mounting bracket 20; a frame body 21; mounting holes 22; a conduit 23; a positioning notch 24; a positioning groove 25; a second mounting bracket 30; a holder main body 31; a clamping hole 32; a guide rib 33; a connecting portion 34; a bottom bracket 40; a limit groove 41; a stopper 50; a stopper groove 51; a reagent bottle 60; a temperature adjusting member 70.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

In the embodiment, as shown in fig. 1, 2 and 3, the glucose assay kit is configured to receive and cooperate with reagent bottle 60 sets, and each reagent bottle 60 set includes at least two reagent bottles 60. The kit comprises a kit body 10, a first mounting frame 20 and a second mounting frame 30, wherein the kit body 10 comprises a containing cavity, and the containing cavity is used for containing accessories such as a reagent bottle 60 group, the first mounting frame 20 and the second mounting frame 30.

The first mount 20 is a rigid structure and divides the housing chamber into upper and lower spaces. The first mounting frame 20 is detachably connected to the box 10 and includes two or more mounting holes 22 distributed at intervals and penetrating therethrough. The second mounting frame 30 comprises at least two clamping holes 32, each clamping hole 32 being adapted to define a reagent bottle 60. Wherein each of the second mounting brackets 30 is connected to the corresponding mounting hole 22 in an inserting manner.

The second mounting bracket 30 is configured as a rack structure for receiving and holding a group of reagent bottles 60, wherein a plurality of reagent bottles 60 in the group of reagent bottles 60 are used for mounting reagents used in cooperation. Alternatively, the reagent bottles 60 may have the same structure and shape, or at least one reagent bottle 60 in the group of reagent bottles 60 may have a different structure and shape from the other reagent bottles 60. If the set of reagent bottles 60 includes a first reagent bottle configured in a circular tubular configuration and a second reagent bottle configured in a rectangular tubular configuration, circular and rectangular clamping apertures 32 are provided in the second mounting bracket 30 to correspondingly define the first and second reagent bottles. Each reagent bottle 60 defines a corresponding clamping hole 32 in the second mounting frame 30 to keep the mounting position fixed and is uniformly assembled to the first mounting frame 20 along with the second mounting frame 30, so that the assembly efficiency is improved and the reagent bottles 60 are prevented from being mixed up.

As shown in fig. 2 and 4, the second mounting frame 30 may optionally include a bracket main body 31, and a guide rib 33 protruding from a surface of the bracket main body 31 and surrounding the clamping hole 32, wherein the clamping hole 32 extends along an axial direction of the clamping hole 32 to support and define the reagent bottle 60. Clamping hole 32 runs through support main part 31 and sets up with the protruding muscle 33 of direction is coaxial, and the protruding muscle 33 of direction is the tubulose protrusion and matches with the shape in clamping hole 32 to enlarge the hole wall area in clamping hole 32, enlarge the support area of second mounting bracket 30 to reagent bottle 60 then, improve the stability of reagent bottle 60 installation. Optionally, the wall of the guiding rib 33 is flush with the wall of the clamping hole 32. Optionally, the second mounting frame 30 further includes a handle protruding from the bracket body 31, the handle extends in a direction away from the first mounting frame 20, and the handle is used for lifting the second mounting frame 30 to separate from the first mounting frame 20.

The second mounting rack 30 is detachably connected to the first mounting rack 20, so that the first mounting rack 20 is integrally assembled with or separated from the second mounting rack 30 and the reagent bottle 60. Optionally, the second mounting bracket 30 further includes a connecting portion 34 disposed on the bracket body 31, and the connecting portion 34 is connected to the first mounting bracket 20. The connecting portion 34 is disposed on the second mounting frame 30 and is coupled to the first mounting frame 20. Optionally, the connecting portion 34 includes a positioning hole, and the first mounting frame 20 is provided with a positioning pin that is inserted into and matched with the positioning hole. The second mounting frame 30 and the first mounting frame 20 are positioned through the insertion matching of the plug pins and the positioning holes, the insertion positioning precision is high, and the assembly and disassembly are convenient. For example, the two ends of the second mounting frame 30 are provided with positioning holes, and the first mounting frame 20 is provided with positioning pins at two sides of the mounting hole 22, so that the second mounting frame 30 is erected on the first mounting frame 20 and the reagent bottle 60 group passes through the mounting hole 22.

Alternatively, the connecting portion 34 includes a supporting block partially protruding from an edge of the bracket body 31, and the first mounting bracket 20 is provided with a positioning groove 25 matching with the supporting block. The two sides of the bracket main body 31 are protruded with convex blocks or convex plate-shaped connecting parts 34, accordingly, the first mounting frame 20 is recessed from the surface to form a positioning groove 25, the positioning groove 25 is intersected to the mounting hole 22, so that the second mounting frame 30 is erected on the positioning groove 25 and limited in the mounting hole 22, and the tightness of the combination of the first mounting frame 20 and the second mounting frame 30 is improved.

First mounting bracket 20 includes support body 21 and is the convex pipe 23 of tubulose, mounting hole 22 runs through support body 21 and with pipe 23 coaxial setting, second mounting bracket 30 is followed mounting hole 22 inserts and with pipe 23 cooperation of pegging graft. The guide pipe 23 is in a tubular shape and protrudes out of the mounting hole 22, so that the hole wall area of the mounting hole 22 is enlarged, the supporting area of the first mounting frame 20 to the second mounting frame 30 is enlarged, and the stability of the second mounting frame 30 in matched mounting is improved. Optionally, the wall of the conduit 23 is flush with the wall of the mounting hole 22.

The box body 10 comprises a base 11 and a top cover 12 rotatably connected to the base 11, the base 11 comprises an annular groove 111 located at an opening of the storage cavity, the first mounting frame 20 is erected on the annular groove 111, and the top cover 12 covers the base 11 to seal the storage cavity.

The top cover 12 is rotatably coupled to the base 11 to close or open the receiving chamber. An annular groove 111 is provided at an opening of the base 11 to receive an edge of the frame body 21, thereby defining a mounting position of the frame body 21. Optionally, the frame body 21 is assembled to the box body 10 in a plate-shaped structure and covers the opening of the receiving cavity, so that the frame body and the box body can be detachably connected. Optionally, the first mounting bracket 20 includes a positioning notch 24 provided at an edge of the bracket body 21, and the box body 10 is provided with a positioning boss 112 matched with the positioning notch 24. The first mounting frame 20 is erected on the box body 10, and the positioning notch 24 is buckled into the positioning boss 112. The positioning boss 112 is located in the annular groove 111, and the first mounting frame 20 is connected with the box body 10 through the complementary positioning notch 24 and the positioning boss 112, so that the matching precision of the two is high, and the fool-proof effect is good.

Optionally, the cassette 10 further comprises a stopper 50 mounted to the top cover 12, the stopper 50 resiliently abutting a reagent bottle 60 defined by the first mounting frame 20. The stopper 50 is made of an elastic material and is configured to be pressed against one end of the reagent bottle 60 to prevent the end of the reagent bottle 60 from shaking. For example, the stopper 50 is made of sponge, rubber, foam, or the like. Optionally, the stopper 50 has a stopper groove 51 on a side facing the first mounting frame 20, and the stopper groove 51 is disposed opposite to the mounting hole 22 when the top cover 12 is covered on the base 11.

The cassette 10 further includes a bottom bracket 40 mounted to the base 11, the bottom bracket 40 supporting and defining a reagent bottle 60 passing through the first mounting frame 20. The bottom bracket 40 is used for limiting the bottom of the reagent bottle 60, preventing the bottom of the reagent bottle 60 from shaking and buffering the impact on the reagent bottle 60. The bottom supporting member 40 is made of an elastic material, for example, the bottom supporting member 40 is made of sponge, rubber, foam, etc. Optionally, the bottom supporting member 40 is provided with a limiting groove 41 on a side facing the first mounting frame 20, and the limiting groove 41 is disposed opposite to the mounting hole 22.

The kit further comprises a temperature adjusting piece 70 arranged on the kit body 10, and the temperature adjusting piece 70 surrounds the accommodating cavity. The temperature adjusting member 70 is installed on the box 10 and is used for adjusting the temperature of the reagent in the box 10, so that the reagent in the box 10 is in a stable storage environment, and the disadvantage that the reagent causes inaccurate test data when the environmental temperature changes is avoided.

The temperature adjusting member 70 surrounds the base 11 to stabilize the temperature of the reagent in the cartridge 10. Further, the temperature adjusting member 70 is disposed on the bottom wall of the base 11 to keep the temperature of the reagent stable from bottom to top and stabilize the temperature of the reagent. Optionally, the temperature adjusting member 70 is a semiconductor cooling plate, so that the temperature adjusting member 70 cools when powered on, so as to reduce the temperature of the reagent in the box body 10, and the temperature control effect is good. The semiconductor refrigerating plate has small integral volume and convenient carrying and use.

Claims (10)

1. A glucose assay kit for receiving groups of reagent bottles for coordinated use, each group of reagent bottles comprising at least two reagent bottles, the kit comprising:

the box body comprises a containing cavity;

the first mounting frame is detachably connected to the box body and comprises two or more mounting holes which are distributed at intervals and penetrate through the first mounting frame;

the second mounting frame comprises at least two clamping holes, and each clamping hole is used for limiting one reagent bottle; wherein, the second mounting bracket is connected with the mounting hole in an inserting manner.

2. The glucose assay kit of claim 1, wherein the second mounting bracket comprises a bracket main body, a guide rib protruding from a surface of the bracket main body and surrounding the clamping hole, the clamping hole extending in an axial direction of the clamping hole to support and define the reagent bottle.

3. The glucose assay kit of claim 2, wherein the second mounting bracket further comprises a connecting portion disposed on the bracket body, the connecting portion being in positioning connection with the first mounting bracket.

4. The glucose assay kit of claim 3, wherein the connecting portion comprises a positioning hole, and the first mounting bracket is provided with a positioning pin which is in inserted fit with the positioning hole; or, the connecting part comprises a supporting block formed by locally protruding the edge of the bracket main body, and the first mounting frame is provided with a positioning groove matched with the supporting block.

5. The glucose assay kit as defined in claim 1, wherein the first mounting frame comprises a frame body and a tubular projecting guide tube, the mounting hole penetrates through the frame body and is coaxially arranged with the guide tube, and the second mounting frame is inserted along the mounting hole and is in insertion fit with the guide tube.

6. The glucose assay kit as claimed in claim 5, wherein the first mounting frame comprises a positioning notch arranged at the edge of the frame body, the box body is provided with a positioning boss matched with the positioning notch, the first mounting frame is arranged on the box body, and the positioning notch is buckled into the positioning boss.

7. The glucose assay kit of claim 1, wherein the housing comprises a base and a cover rotatably connected to the base, the base comprises an annular groove at the opening of the receiving chamber, the first mounting bracket is mounted on the annular groove, and the cover covers the base to close the receiving chamber.

8. The glucose assay kit of claim 7, wherein the cassette body further comprises a stopper mounted to the top cover, the stopper resiliently abutting a reagent bottle defined by the first mounting bracket.

9. The glucose assay kit of claim 7, wherein the cassette further comprises a bottom support mounted to the base for supporting and defining a reagent bottle through the first mounting bracket.

10. The glucose assay kit of claim 1, further comprising a temperature regulating member mounted to the case, the temperature regulating member being disposed around the receiving chamber.

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