CN211099174U

CN211099174U - Sodium determination kit

Info

Publication number: CN211099174U
Application number: CN201921189112.0U
Authority: CN
Inventors: 高国华
Original assignee: Shanghai High Track Medical Equipment Co ltd
Current assignee: Shanghai High Track Medical Equipment Co ltd
Priority date: 2019-07-25
Filing date: 2019-07-25
Publication date: 2020-07-28
Anticipated expiration: 2029-07-25

Abstract

The utility model discloses a sodium determination kit, which relates to the technical field of ion determination kits and comprises a reagent box body, wherein one end of the reagent box body is rotationally connected with a box cover which is integrated with the reagent box body, a filling body is arranged at one end of the interior of the reagent box body, which is far away from the box cover, and a test tube placing mechanism is arranged at one side of the filling body, which is close to the box cover, in the interior of the reagent box body; the test tube placing mechanism comprises an underframe, a middle frame and a top frame, wherein the underframe, the middle frame and the top frame are sequentially arranged along the height direction of the reagent box body, and a plurality of first placing holes, second placing holes and third placing holes are respectively and uniformly formed in the underframe, the middle frame and the top frame. The utility model discloses have and place the mechanism through setting up the test tube, set up the rack of co-altitude not on it to make the hole phase-match of placing of overlap portion's position on every layer of rack, realize the function that can place co-altitude test tube on the same bottom surface area, thereby applicable in the effect of placing of co-altitude test tube.

Description

Sodium determination kit

Technical Field

The utility model relates to an ion assay kit technical field, more specifically say, it relates to a sodium assay kit.

Background

In recent years, with the development of scientific technology, modern detection means is continuously improved, and the ion selective electrode is widely applied in clinic, so that the ion determination is developed towards the direction of rapidness, convenience, accuracy and high specificity. The detection of ions includes the measurement of sodium ions.

There are many methods for measuring serum sodium, including a method for measuring serum sodium ions by a proteolytic enzyme method. The existing market also presents a kit for measuring serum sodium by using a proteolytic enzyme method, but the existing measuring kit still has certain defects in use.

During the use, when placing the test tube in the kit, because the height of placing the hole is unanimous, it is narrower to lead to the test tube height scope of applicable, but reagent is depositing, because the volume variation in size of reagent, need use the test tube of different size specifications usually to store, and the application scope of current kit is less, is unfavorable for placing of the test tube of different height specifications, remains to improve.

SUMMERY OF THE UTILITY MODEL

To this problem in the in-service use, the utility model aims to provide a sodium assay kit places the mechanism through setting up the test tube, sets up the rack of co-altitude not on it to make the hole phase-match of placing of overlap portion's position on every layer of rack, realize the function that can place co-altitude test tube on the same basal area, thereby applicable placing in co-altitude test tube, enlarged the application scope of kit, concrete scheme is as follows:

a sodium determination kit comprises a reagent box body, wherein one end of the reagent box body is rotatably connected with a box cover which is integrated with the reagent box body, a filling body is arranged at one end of the interior of the reagent box body, which is far away from the box cover, and a test tube placing mechanism is arranged at one side, which is close to the box cover, of the filling body;

the test tube placing mechanism comprises an underframe, an intermediate frame and a top frame, wherein the underframe is sequentially arranged with the top frame along the height direction of the reagent box body, the bottom area of the underframe is sequentially reduced with the bottom area of the top frame, the underframe is sequentially arranged with the center of the top frame on the same vertical line, a plurality of first placing holes, second placing holes and third placing holes are respectively and uniformly formed in the underframe and the intermediate frame, and the second placing holes are correspondingly formed in the third placing holes in the height direction of the reagent box body.

Through above-mentioned technical scheme, when placing the test tube to reagent box body's inside, according to the actual length of test tube, the longer test tube of length can be followed the first hole of placing on the roof-rack and put into, and run through the second in proper order and place the hole and the third places the hole, the test tube of medium length can place the hole from the second on the intermediate shelf and put into, and run through the third and place the hole, the shortest test tube of length can be followed the third of chassis and placed the hole and put into, like this, can all place the test tube that length is unequal on the test tube rack, and can guarantee the stability after every test tube is placed, help improving the application scope of kit.

Furthermore, the top frame and the middle frame are detachably connected through first support rods, and the first support rods are respectively positioned at four corners of the top frame;

the underframe is connected with the middle frame through second support rods, and the second support rods are respectively positioned at four corners of the middle frame;

the first supporting rod and the second supporting rod are both of telescopic structures.

Through above-mentioned technical scheme, set up first bracing piece and second bracing piece respectively in four corners of roof-rack and middle machine, help providing the biggest scope of seting up for second through-hole and third through-hole, place the mechanism with the test tube and exert to the maximum utilization, set up first bracing piece and second bracing piece into telescopic structure simultaneously, can change roof-rack and middle frame, perhaps vertical distance between middle frame and the chassis, thereby can further adapt to the placing of the test tube of the different height specifications of within a larger range, the application scope of kit has further been enlarged.

Furthermore, through holes are formed in the center of the side edge of the reagent box body, and transparent films are fixedly connected to the side edges of the reagent box body inside the through holes;

and a light shielding film is bonded on one side of the transparent film back to the reagent box body.

Through above-mentioned technical scheme, when whole kit is deposited and is not used, utilize the light-resistant membrane to attach to the transparent film, play the effect of light-resistant to the detection agent in the vitro, be favorable to the storage of reagent, when the reagent that uses in the reagent box when needs detects serum sodium, tear the light-resistant membrane, see through the change that the transparent membrane is favorable to observing the in vitro reagent comprehensively, be favorable to going on of detection.

Further, the bottom frame, the middle frame and the top frame are all of plate-shaped structures with rectangular sections, and the reagent box body is of an unsealed box body structure close to one side of the box cover;

the length and width of the outer side of the bottom frame are equal to those of the outer side of the reagent box body.

Through above-mentioned technical scheme, be favorable to guaranteeing that the chassis is placed the stability in the reagent box body to be favorable to guaranteeing that whole test tube is placed the stability that the mechanism placed in the reagent box body.

Furthermore, the peripheral edge of one side of the bottom frame, which is far away from the middle frame, extends outwards and extends to the middle position of the reagent box body and the filling body.

Through above-mentioned technical scheme, further guarantee the stability after the chassis is put.

Further, the inner hole diameters of the first placing hole, the second placing hole and the third placing hole are equal.

Through the technical scheme, the test tubes with the same diameter specification are guaranteed to be placed.

Further, the test tube placing mechanism is set to be a detachable structure.

Through above-mentioned technical scheme, conveniently place the mechanism with the test tube and dismantle and test.

Compared with the prior art, the beneficial effects of the utility model are as follows:

(1) the test tube placing mechanism is arranged in the reagent box body, the bottom frame, the middle frame and the top frame are sequentially arranged on the reagent box body along the height direction of the reagent box body, and the first placing hole, the second placing hole and the third placing hole which are corresponding to the reagent box body in the height direction are respectively and uniformly formed in the bottom frame, the middle frame and the top frame, so that the reagent box can meet the placing requirements of test tubes with the same diameter but different heights, the stability of the placed test tubes can be ensured, and the application range of the whole reagent box for placing the test tubes is enlarged;

(2) by respectively arranging the telescopic first supporting rod and the telescopic second supporting rod between the middle frame and the top frame and between the bottom frame and the middle frame, the vertical distance between the top frame and the middle frame or between the middle frame and the bottom frame can be changed, so that the test tube placing device can further adapt to the placing of test tubes with different height specifications in a larger range, and the application range of the kit is further expanded;

(3) through-hole is seted up through the outside limit at reagent box body, and fixed connection pellicular membrane in the through-hole, the membrane of keeping out the light that bonds simultaneously on the pellicular membrane, deposit and when not using when whole kit, utilize the membrane of keeping out the light to attach to on the pellicular membrane, the effect of keeping out the light to the detection agent in the test tube plays, be favorable to the storage of reagent, when reagent in the reagent box is used to needs detects serum sodium, tear the membrane of keeping out the light, see through the change that the pellicular membrane is favorable to observing the reagent in vitro comprehensively, be favorable to going on of detection.

Drawings

Fig. 1 is an overall schematic view of the present invention;

FIG. 2 is a schematic structural view of the test tube placing mechanism of the present invention;

fig. 3 is a schematic diagram of the internal structure of the present invention.

Reference numerals: 1. a reagent cartridge body; 2. a box cover; 3. a test tube placement mechanism; 31. a chassis; 32. a first placing hole; 33. a middle frame; 34. a second placing hole; 35. a top frame; 36. a third placing hole; 37. A first support bar; 38. a second support bar; 4. a filler; 5. a transparent film; 6. light shielding film.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the embodiments of the present invention are not limited thereto.

Referring to fig. 1, a sodium determination kit, including reagent box body 1, the one end of reagent box body 1 is rotated and is connected with lid 2 rather than the integral type structure, and the one end that lid 2 was kept away from to the inside of reagent box body 1 is provided with obturator 4, and the inside of reagent box body 1 is located one side that obturator 4 is close to lid 2 and is provided with test tube placement mechanism 3. Alternatively, the filling body 4 is provided as a sponge, foam, or the like. Like this, to be equipped with the test tube of reagent and place on test tube placement device 3, obturator 4 can not only play the effect of support to reagent box body 1, can play heat retaining effect to reagent simultaneously, closes the packing that test tube and reagent can be accomplished to lid 2.

The test tube placing mechanism 3 comprises a bottom frame 31, an intermediate frame 33 and an upper frame 35, the bottom frame 31, the intermediate frame 33 and the upper frame 35 are sequentially arranged along the height direction of the reagent box body 1, the bottom areas of the bottom frame 31, the intermediate frame 33 and the upper frame 35 are sequentially reduced, the bottom frame 31, the centers of the intermediate frame 33 and the upper frame 35 are located on the same vertical line, a plurality of first placing holes 32, second placing holes 34 and third placing holes 36 are respectively and uniformly formed in the bottom frame 31, the intermediate frame 33 and the upper frame 35, and the first placing holes 32, the second placing holes 34 and the third placing holes 36 correspond to each other in the height direction of the reagent box body 1. Optionally, the bottom frame 31, the middle frame 33, and the top frame 35 are made of transparent materials, such as transparent plastic films, transparent plastic plates, and glass. Like this, when placing the test tube to the inside of reagent box body 1, according to the actual length of test tube, the longer test tube of length can be placed the hole 32 from the first on roof-rack 35 and put into, and run through second in proper order and place hole 34 and third and place hole 36, the test tube of medium length can be placed the hole 34 from the second on middle shelf 33 and put into, and run through third and place hole 36, the test tube of shortest length can be placed the hole 36 from the third of chassis 31 and put into, like this, can all place the test tube that varies in length on the test tube rack, and can guarantee the stability after every test tube is placed, help improving the application scope of kit.

Through holes are formed in the center of the side edge of the reagent box body 1, and a transparent film 5 is fixedly connected with the side edge of the reagent box body 1 in the through holes; and a light shielding film 6 is adhered to one side of the transparent film 5, which faces away from the reagent box body 1. Optionally, the peripheral edge of the light shielding film 6 is adhered to the transparent film 5 by a glue. Meanwhile, the transparent film 5 is optionally set to be a transparent plastic film and the like, and the light shielding film 6 is set to be a brown plastic film, a brown glass film, a brown toughened film and the like. Like this, when whole kit is deposited and is not used, utilize to avoid light membrane 6 and attach to on transparent film 5, play the effect of avoiding light to the detection agent in the vitro, be favorable to the storage of reagent, when the reagent in the needs use kit detects serum sodium, tear and avoid light membrane 6, see through transparent film 5 and be favorable to observing the change of in vitro reagent comprehensively, be favorable to going on of detection.

The test tube placing mechanism 3 is set to be a detachable structure. Thus, the test tube placing mechanism 3 is convenient to disassemble for testing.

Referring to fig. 2, the bottom frame 31, the middle frame 33 and the top frame 35 are all plate-shaped structures with rectangular cross sections, and the reagent box body 1 is a box body structure with one side close to the box cover 2 not closed; the length and width of the outside of the chassis 31 are equal to those of the outside of the reagent cartridge body 1. Like this, be favorable to guaranteeing that chassis 31 places the stability in reagent box body 1 to be favorable to guaranteeing that whole test tube placement device 3 places the stability in reagent box body 1.

The inner diameters of the first placement holes 32, the second placement holes 34, and the third placement holes 36 are equal in size. Thus, the placement of test tubes with the same diameter specification is ensured.

Referring to fig. 3, the top frame 35 is detachably connected to the middle frame 33 through first support rods 37, and the first support rods 37 are respectively located at four corners of the top frame 35; the bottom frame 31 is connected with the middle frame 33 through second support rods 38, and the second support rods 38 are respectively positioned at four corners of the middle frame 33; the first support rod 37 and the second support rod 38 are both provided with telescopic structures. Optionally, the first support rod 37 and the second support rod 38 are both provided with two-section umbrella-shaped telescopic structures. Like this, set up first bracing piece 37 and second bracing piece 38 respectively in four corners of roof-rack 35 and middle machine, help providing the biggest scope of seting up for second through-hole and third through-hole, exert test tube placement machine 3 and utilize to the maximum, set up first bracing piece 37 and second bracing piece 38 into telescopic structure simultaneously, can change roof-rack 35 and middle frame 33, or the vertical distance between middle frame 33 and the chassis 31, thereby can further adapt to the placing of the test tube of the different height specifications in the wider scope, the application scope of kit has further been enlarged.

The peripheral edge of the bottom frame 31 on the side away from the middle frame 33 extends outwards and extends to the middle position between the reagent box body 1 and the filling body 4. In this way, the stability of the chassis 31 after placement is further ensured.

The utility model discloses a concrete implementation principle does: when placing the test tube to the inside of reagent box body 1, according to the actual length of test tube, the longer test tube of length can be followed the first hole 32 of placing on roof-rack 35 and put into, and run through the second in proper order and place hole 34 and third and place hole 36, the test tube of medium length can place hole 34 from the second on middle frame 33 and put into, and run through the third and place hole 36, the test tube of shortest length can be followed the third of chassis 31 and place hole 36 and put into, like this, can all place the test tube that length is unequal on the test tube rack, and can guarantee the stability after every test tube is placed, help improving the application scope of kit, and further adjust test tube placement mechanism 3 and can adapt to the test tube of different height specifications in the wider range through the length of adjusting first bracing piece 37 and second bracing piece 38, application scope has further been enlarged.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A sodium determination kit comprises a reagent box body (1), and is characterized in that one end of the reagent box body (1) is rotatably connected with a box cover (2) which is integrated with the reagent box body, a filling body (4) is arranged at one end, far away from the box cover (2), of the interior of the reagent box body (1), and a test tube placing mechanism (3) is arranged at one side, close to the box cover (2), of the filling body (4) in the interior of the reagent box body (1);

the test tube placing mechanism (3) comprises a bottom frame (31), a middle frame (33) and a top frame (35), the bottom frame (31), the middle frame (33) and the top frame (35) are sequentially arranged along the height direction of the reagent box body (1), the bottom areas of the bottom frame (31), the middle frame (33) and the top frame (35) are reduced in sequence, and the centers of the bottom frame (31), the middle frame (33) and the top frame (35) are positioned on the same vertical line, a plurality of first placing holes (32), second placing holes (34) and third placing holes (36) are respectively and uniformly arranged on the bottom frame (31), the middle frame (33) and the top frame (35), the first placement hole (32), the second placement hole (34), and the third placement hole (36) correspond to each other in the height direction of the reagent cartridge (1).

2. The sodium assay kit of claim 1, wherein the top frame (35) is detachably connected to the middle frame (33) by first support bars (37), the first support bars (37) being respectively located at four corners of the top frame (35);

the underframe (31) and the middle frame (33) are connected through second support rods (38), and the second support rods (38) are respectively positioned at four corners of the middle frame (33);

the first supporting rod (37) and the second supporting rod (38) are both of telescopic structures.

3. The sodium determination kit according to claim 1, wherein through holes are formed in the center of the side edges of the reagent kit body (1), and transparent films (5) are fixedly connected to the side edges of the reagent kit body (1) in the through holes;

and a light shielding film (6) is adhered to one side of the transparent film (5) back to the reagent box body (1).

4. The sodium determination kit according to claim 1, wherein the bottom frame (31), the middle frame (33) and the top frame (35) are all provided with plate-shaped structures with rectangular sections, and the reagent box body (1) is provided with a box body structure with one side close to the box cover (2) not closed;

the length and the width of the outer side of the bottom frame (31) are equal to those of the outer side of the reagent box body (1).

5. The sodium assay kit of claim 1, wherein the side of the bottom frame (31) remote from the intermediate frame (33) extends peripherally outward to a position intermediate the reagent cartridge body (1) and the filling body (4).

6. The sodium assay kit according to claim 1, wherein the inner pore diameters of the first placement hole (32), the second placement hole (34), and the third placement hole (36) are equal in size.

7. The sodium assay kit of claim 1, wherein the tube placement mechanism (3) is provided as a detachable structure.