CN204694712U - Anti-reagent tray tilts the immune quantitative analyser of clamping stagnation - Google Patents

Abstract

The utility model discloses the immune quantitative analyser that a kind of anti-reagent tray tilts clamping stagnation, comprise cover assembly, scan components, reagent tray assembly and lower cover component, described scan components mounts cover in described lower cover component by described cover assembly; Wherein, described scan components comprises scanner pressing plate, scanner and scanner bracing frame, described scanner bracing frame is installed in described lower cover component, described scanner is oppositely fitted in described scanner bracing frame by described scanner pressing plate, described reagent tray assembly is slided by removable rail and is inserted in described scanner bracing frame, and described reagent tray assembly is positioned at below described scanner; The both sides inwall of described scanner bracing frame is respectively equipped with the positive stop strip for preventing described reagent tray assembly from upwarping in sliding process or having a downwarp.Be applicable to the detection of biological sample.

Description

Anti-reagent tray tilts the immune quantitative analyser of clamping stagnation

Technical field

The utility model relates to a kind of instrument based on using flat scanning to detect, and particularly relates to the immune quantitative analyser that a kind of anti-reagent tray tilts clamping stagnation.

Background technology

At present, instant detect (POCT) because it is easy, feature fast, be widely used in domestic and international reagent detection technique field.Wherein, immune quantitative analyser is the most frequently used a kind of instant detector based on using flat scanning to detect, and it generally comprises cover assembly, scan components, reagent tray assembly and lower cover component, and scan components mounts cover in lower cover component by cover assembly; Wherein, scan components comprises scanner pressing plate, scanner and scanner bracing frame, scanner bracing frame is installed in lower cover component, scanner is oppositely fitted in described scanner bracing frame by scanner pressing plate, reagent tray assembly unremovably slides and is inserted in scanner bracing frame, and reagent tray assembly is positioned at below scanner.This immune quantitative analyser structure is simple, cost is low and easy to use, but also there is following problem when reality uses:

1, due to immune quantitative analyser in use for some time, blood stains or dirty can be infected with in its scanner surface, so need regularly to clean scanner surface, but because reagent tray assembly is non-dismountable structure, so can only first cover assembly be taken apart, take out scanner again to clean, operation bother very much, length consuming time and easily damage parts;

2, reagent tray assembly is in sliding process, and its front end easily upwarps or has a downwarp, thus causes reagent tray assembly easily to block being difficult to sliding.

Summary of the invention

The purpose of this utility model is the deficiency in order to overcome above-mentioned background technology, provides a kind of and is convenient to the immune quantitative analyser that the clean and anti-reagent tray not easily tilting clamping stagnation tilts clamping stagnation.

In order to realize above object, a kind of anti-reagent tray that the utility model provides tilts the immune quantitative analyser of clamping stagnation, comprise cover assembly, scan components, reagent tray assembly and lower cover component, described scan components mounts cover in described lower cover component by described cover assembly; Wherein, described scan components comprises scanner pressing plate, scanner and scanner bracing frame, described scanner bracing frame is installed in described lower cover component, described scanner is oppositely fitted in described scanner bracing frame by described scanner pressing plate, described reagent tray assembly is slided by removable rail and is inserted in described scanner bracing frame, and described reagent tray assembly is positioned at below described scanner; The both sides inwall of described scanner bracing frame is respectively equipped with the positive stop strip for preventing described reagent tray assembly from upwarping in sliding process or having a downwarp.By adopting the design of removable rail, reagent tray assembly is possessed function that can be for convenience detach, like this, when scanner need clean, only need first pull down reagent tray assembly, then corresponding lower cover component opening part stretches into clean scanner surface, finally again loads onto reagent tray assembly again, simple, convenient, save time; Simultaneously, positive stop strip is added respectively by the position of reagent tray assembly two sides corresponding on the both sides inwall of scanner bracing frame, like this, described reagent tray assembly can be effectively prevent upwarp in sliding process or have a downwarp, thus avoid the generation that reagent tray assembly blocks because of tilting.

In such scheme, described reagent tray assembly comprises flexible pallet and reagent tray, and described reagent tray is arranged on the end face of described flexible pallet.

In such scheme, described removable rail is two joint bounce-back guide rails, and the backbone part of described two joint bounce-back guide rails is arranged on the supporting surface of described scanner bracing frame, and the interior rail part of described two joint bounce-back guide rails is arranged on the bottom surface of described flexible pallet.Certainly, other dismountable guide rails can also be adopted.

In such scheme, described positive stop strip comprises upper limit bar and lower limit bar, described upper limit bar is positioned at the top face of described flexible pallet, described lower limit bar is positioned at the subjacent of described flexible pallet, spacing between corresponding described upper limit bar and lower limit bar matches with the width of the side of described flexible pallet, and the length of described upper limit bar and lower limit bar matches with the length of described flexible pallet respectively.

In such scheme, the upper limit that described upper limit bar is at least arranged by two septa intersegmentals saves and forms.By upper limit bar is designed to segmentation structure, the weight of scanner bracing frame can be reduced like this, thus alleviate the overall weight of well-behaved analyzer; Simultaneously; as upper limit bar is designed to one-piece construction; then upper limit bar is strip structure; such upper limit bar easily deforms in process that is shaping and that use; thus affect the normal slip of reagent tray, and after upper limit bar is designed to segmentation structure, often saving upper limit joint is then short strip shape structure; not easily deform, thus ensure that the normal slip of reagent tray.

In such scheme, the lower limit that described lower limit bar is at least arranged by two septa intersegmentals saves and forms, and between adjacent two joint described lower limit joint and the outside of the described lower limit joint being in two ends is equipped with for ensureing that the distance between described reagent tray upper surface and described scanner lower surface is in the positive stop lug boss effectively detected in spacing range.By lower limit bar is designed to segmentation structure, the weight of scanner bracing frame can be reduced like this, thus alleviate the overall weight of well-behaved analyzer, simultaneously, as lower limit bar is designed to one-piece construction, then lower limit bar is strip structure, such lower limit bar easily deforms in process that is shaping and that use, thus affect the normal slip of reagent tray, and after lower limit bar is designed to segmentation structure, often saving lower limit joint is then short strip shape structure, not easily deform, thus ensure that the normal slip of reagent tray, but after lower limit bar is designed to segmentation structure, because between adjacent two joint lower limit joints and the outside of the lower limit joint being in two ends all exists interval, so reagent tray easily occurs to lower recess at this interval, thus the distance changed between reagent tray upper surface and scanner lower surface, and then have impact on Detection results, therefore, by adding positive stop lug boss at this interval, can effectively prevent reagent tray from occurring to lower recess, distance between guarantee reagent tray upper surface and scanner lower surface is in and effectively detects in spacing range, thus ensure that Detection results.

In such scheme, the quantity of the described positive stop lug boss between the described lower limit joint of adjacent two joint is 2.The quantity of the positive stop lug boss between adjacent two joint lower limit joints is according to the line space design between these adjacent two joint lower limit joints.

The beneficial effect that the technical scheme that the utility model provides is brought is:

1, by adopting the design of removable rail, reagent tray assembly is possessed function that can be for convenience detach, like this, when scanner need clean, only need first pull down reagent tray assembly, then corresponding lower cover component opening part stretches into clean scanner surface, finally again loads onto reagent tray assembly again, simple, convenient, save time;

2, positive stop strip is added respectively by the position of corresponding reagent tray assembly two sides on the both sides inwall of scanner bracing frame, like this, described reagent tray assembly can be effectively prevent upwarp in sliding process or have a downwarp, thus avoid the generation that reagent tray assembly blocks because of tilting;

3, by positive stop strip is designed to segmentation structure, the weight of scanner bracing frame can be reduced like this, thus alleviate the overall weight of well-behaved analyzer;

4, as positive stop strip is designed to one-piece construction, then positive stop strip is strip structure, such positive stop strip easily deforms in process that is shaping and that use, thus affect the normal slip of reagent tray, and after positive stop strip is designed to segmentation structure, often saving spacing joint is then short strip shape structure, not easily deforms, thus ensure that the normal slip of reagent tray;

5, but after lower limit bar is designed to segmentation structure, because between adjacent two joint lower limit joints and the outside of the lower limit joint being in two ends all exists interval, so reagent tray easily occurs to lower recess at this interval, thus the distance changed between reagent tray upper surface and scanner lower surface, and then have impact on Detection results, therefore, by adding positive stop lug boss at this interval, can effectively prevent reagent tray from occurring to lower recess, distance between guarantee reagent tray upper surface and scanner lower surface is in and effectively detects in spacing range, thus ensure that Detection results.

The utility model is compared with the prior art, and abundant its superiority of display is: structure is simple, cleans simply, conveniently, saves time, not easily clamping stagnation, lightweight etc.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment;

Fig. 2 is the part detonation configuration schematic diagram of Fig. 1;

Fig. 3 is the complete detonation configuration schematic diagram of Fig. 1;

Fig. 4 is the structural representation of scanner bracing frame in embodiment;

Fig. 5 is the plan structure schematic diagram of Fig. 4;

Fig. 6 is the plan structure schematic diagram of Fig. 5;

Fig. 7 is the position relationship structural representation of reagent pallet component and scanner bracing frame in embodiment;

Fig. 8 is the cross-sectional view of Fig. 7.

In figure: cover assembly 1, scan components 2, scanner pressing plate 2a, scanner 2b, scanner bracing frame 2c, reagent tray assembly 3, flexible pallet 3a, reagent tray 3b, lower cover component 4, removable rail 5, backbone part 5a, interior rail part 5b, positive stop strip 6, upper limit bar 6a, upper limit joint 6a1, lower limit bar 6b, lower limit joint 6b1, spacing salient point 7, positive stop lug boss 8.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail, but this embodiment should not be construed as restriction of the present utility model.

As shown in Figure 1: the present embodiment provides a kind of anti-reagent tray to tilt the immune quantitative analyser of clamping stagnation, comprise cover assembly 1, scan components 2, reagent tray assembly 3 and lower cover component 4, described scan components 2 mounts cover in described lower cover component 4 by described cover assembly 1; Wherein, described scan components 2 comprises scanner pressing plate 2a, scanner 2b and scanner bracing frame 2c, described scanner bracing frame 2c is installed in described lower cover component 4, described scanner 2b is oppositely fitted in described scanner bracing frame 2c by described scanner pressing plate 2a, described reagent tray assembly 3 is slided by removable rail 5 and is inserted in described scanner bracing frame 2c, and described reagent tray assembly 3 is positioned at below described scanner 2b; The both sides inwall of described scanner bracing frame 2c being respectively equipped with the positive stop strip 6 for preventing described reagent tray assembly 3 from upwarping in sliding process or having a downwarp, the both sides inwall of described scanner bracing frame 2c being also respectively equipped with two sides for ensureing described reagent tray assembly 3 respectively and the spacing salient point 7 that between the side inwall of corresponding described scanner bracing frame 2c, gap is consistent; Supporting surface for installing described removable rail 5 on described scanner bracing frame 2c is arranged horizontal by α angle, bottom surface and surface level for installing described removable rail 5 on described reagent tray assembly 3 are also arranged in α angle, and the end face of described reagent tray assembly 3 is horizontally disposed.Described α is 0.5 ~ 1.5 °.By adopting the design of removable rail 5, reagent tray assembly 3 is possessed function that can be for convenience detach, like this, when scanner 2b need clean, only need first pull down reagent tray assembly 3, then corresponding lower cover component 4 opening part stretches into clean scanner 2b surface, finally again loads onto reagent tray assembly 3 again, simple, convenient, save time; Simultaneously, positive stop strip 6 is added respectively by the position of reagent tray assembly 3 two sides corresponding on the both sides inwall of scanner bracing frame 2c, like this, described reagent tray assembly 3 can be effectively prevent upwarp in sliding process or have a downwarp, thus avoid the generation that reagent tray assembly 3 blocks because of tilting; And, spacing salient point 7 is added respectively by the position of described reagent tray assembly 3 front-end and back-end corresponding on the both sides inwall of scanner bracing frame 2c, like this, the gap of two sides respectively and between the side inwall of corresponding scanner bracing frame 2c of energy guarantee reagent pallet component 3 is consistent, thus make the gap between the two sides of reagent tray assembly 3 and the side of corresponding opening in lower cover component 4 consistent, and then make the aesthetic feeling more of well-behaved analyzer; Finally, by the gentle slope that the supporting surface of scanner bracing frame 2c is become to cooperatively interact with the floor design of reagent tray assembly 3, like this, the design of this gentle slope can the distortion that occurs in forming materials, processing, assembling and use procedure of absorption reagent pallet component 3 widely, thus significantly reduces the risk of clamping stagnation.

Mentioned reagent pallet component 3 comprises flexible pallet 3a and reagent tray 3b, and described reagent tray 3b is arranged on the end face of described flexible pallet 3a.Described removable rail 5 is two joint bounce-back guide rails, and the backbone part 5a of described two joint bounce-back guide rails is arranged on the supporting surface of described scanner bracing frame 2c, and the interior rail part 5b of described two joint bounce-back guide rails is arranged on the bottom surface of described flexible pallet 3a.Certainly, other dismountable guide rails can also be adopted.

Above-mentioned positive stop strip 6 comprises upper limit bar 6a and lower limit bar 6b, described upper limit bar 6a is positioned at the top face of described flexible pallet 3a, described lower limit bar 6b is positioned at the subjacent of described flexible pallet 3a, spacing between corresponding described upper limit bar 6a and lower limit bar 6b matches with the width of the side of described flexible pallet 3a, and the length of described upper limit bar 6a and lower limit bar 6b matches with the length of described flexible pallet 3a respectively.

The upper limit that above-mentioned upper limit bar 6a is at least arranged by two septa intersegmentals saves 6a1 and forms.By upper limit bar 6a is designed to segmentation structure, the weight of scanner bracing frame 2c can be reduced like this, thus alleviate the overall weight of well-behaved analyzer; Simultaneously; as upper limit bar 6a is designed to one-piece construction; then upper limit bar 6a is strip structure; such upper limit bar 6a easily deforms in process that is shaping and that use; thus affect the normal slip of reagent tray 3b, and after upper limit bar 6a is designed to segmentation structure, often saving upper limit joint 6a1 is then short strip shape structure; not easily deform, thus ensure that the normal slip of reagent tray 3b.The lower limit that described lower limit bar 6b is at least arranged by two septa intersegmentals saves 6b1 and forms, and between adjacent two joint described lower limit joint 6b1 and the outside of the described lower limit joint 6b1 being in two ends is equipped with for ensureing that the distance between described reagent tray 3b upper surface and described scanner 2b lower surface is in the positive stop lug boss 8 effectively detected in spacing range.By lower limit bar 6b is designed to segmentation structure, the weight of scanner bracing frame 2c can be reduced like this, thus alleviate the overall weight of well-behaved analyzer, simultaneously, as lower limit bar 6b is designed to one-piece construction, then lower limit bar 6b is strip structure, such lower limit bar 6b easily deforms in process that is shaping and that use, thus affect the normal slip of reagent tray 3b, and after lower limit bar 6b is designed to segmentation structure, often saving lower limit joint 6b1 is then short strip shape structure, not easily deform, thus ensure that the normal slip of reagent tray 3b, but after lower limit bar 6b is designed to segmentation structure, because between adjacent two joint lower limit joint 6b1 and the outside of the described lower limit joint 6b1 being in two ends all exists interval, so reagent tray 3b easily occurs to lower recess at this interval, thus the distance changed between reagent tray 3b upper surface and scanner 2b lower surface, and then have impact on Detection results, therefore, by adding positive stop lug boss 8 at this interval, can effectively prevent reagent tray 3b from occurring to lower recess, distance between guarantee reagent pallet 3b upper surface and scanner 2b lower surface is in and effectively detects in spacing range, thus ensure that Detection results.Described effective detection spacing refers to: when the distance between reagent tray 3b upper surface and scanner 2b lower surface is in and effectively detects in spacing range, the Detection results of well-behaved analyzer is best, and this effectively detects the performance that spacing depends on scanner 2b.The quantity of the described positive stop lug boss 8 between adjacent two joint described lower limit joint 6b1 is 2.The quantity of the positive stop lug boss 8 between adjacent two joint lower limit joint 6b1 is according to the line space design between these adjacent two joint lower limit joint 6b1.

The position of the two sides, front-end and back-end of corresponding described flexible pallet 3a on the both sides inwall that above-mentioned spacing salient point 7 is arranged in described scanner bracing frame 2c.By the position of the two sides, front-end and back-end of corresponding flexible pallet 3a on the both sides inwall that will be arranged in scanner bracing frame 2c at spacing salient point 7, so just, can ensure that flexible pallet 3a is after insertion puts in place simply and easily, gap between its two sides and the side of corresponding opening in lower cover component 4 is consistent, and then makes the aesthetic feeling more of well-behaved analyzer.Described spacing salient point 7 is arranged in pairs along the Width of described flexible pallet 3a side.Arrange in pairs by stating spacing salient point 7, such limit effect is better.

The present embodiment is by adopting the design of removable rail 5, reagent tray assembly 3 is possessed function that can be for convenience detach, like this, when scanner 2b need clean, only need first pull down reagent tray assembly 3, then corresponding lower cover component 4 opening part stretches into clean scanner 2b surface, finally again loads onto reagent tray assembly 3 again, simple, convenient, save time, positive stop strip 6 is added respectively by the position of reagent tray assembly 3 two sides corresponding on the both sides inwall of scanner bracing frame 2c, like this, described reagent tray assembly 3 can be effectively prevent upwarp in sliding process or have a downwarp, thus avoid the generation that reagent tray assembly 3 blocks because of tilting, spacing salient point 7 is added respectively by the position of described reagent tray assembly 3 front-end and back-end corresponding on the both sides inwall of scanner bracing frame 2c, like this, the gap of two sides respectively and between the side inwall of corresponding scanner bracing frame 2c of energy guarantee reagent pallet component 3 is consistent, thus make the gap between the two sides of reagent tray assembly 3 and the side of corresponding opening in lower cover component 4 consistent, and then make the aesthetic feeling more of well-behaved analyzer, by the gentle slope that the supporting surface of scanner bracing frame 2c is become to cooperatively interact with the floor design of reagent tray assembly 3, like this, the design of this gentle slope can the distortion that occurs in forming materials, processing, assembling and use procedure of absorption reagent pallet component 3 widely, thus significantly reduces the risk of clamping stagnation, by positive stop strip is designed to segmentation structure, the weight of scanner bracing frame 2c can be reduced like this, thus alleviate the overall weight of well-behaved analyzer, as positive stop strip is designed to one-piece construction, then positive stop strip is strip structure, such positive stop strip easily deforms in process that is shaping and that use, thus affect the normal slip of reagent tray 3b, and after positive stop strip is designed to segmentation structure, often saving spacing joint is then short strip shape structure, not easily deforms, thus ensure that the normal slip of reagent tray 3b, but after lower limit bar 6b is designed to segmentation structure, because between adjacent two joint lower limit joint 6b1 and the outside of the lower limit joint 6b1 being in two ends all exists interval, so reagent tray 3b easily occurs to lower recess at this interval, thus the distance changed between reagent tray 3b upper surface and scanner 2b lower surface, and then have impact on Detection results, therefore, by adding positive stop lug boss 8 at this interval, can effectively prevent reagent tray 3b from occurring to lower recess, distance between guarantee reagent pallet 3b upper surface and scanner 2b lower surface is in and effectively detects in spacing range, thus ensure that Detection results, by the position of the two sides, front-end and back-end of corresponding flexible pallet 3a on the both sides inwall that will be arranged in scanner bracing frame 2c at spacing salient point 7, so just, can ensure that flexible pallet 3a is after insertion puts in place simply and easily, gap between its two sides and the side of corresponding opening in lower cover component 4 is consistent, and then makes the aesthetic feeling more of well-behaved analyzer, arrange in pairs by stating spacing salient point 7, such limit effect is better.

The cleaning course of the present embodiment is as follows:

First, reagent tray assembly 3 is pulled down; Then, by cleaning cloth or cleaning brush, the opening part of correspondence lower cover component 4 stretches into, and just can start clean scanner 2b surface; After clean, more again load onto reagent tray assembly 3.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle; any amendment of doing, equivalent replacement, improvement etc.; all should be included within protection domain of the present utility model; meanwhile, the concrete testing process of the present embodiment can refer to Chinese patent 201220593456.X, does not repeat them here.

Claims (7)

1. the immune quantitative analyser of an anti-reagent tray tilting clamping stagnation, comprise cover assembly (1), scan components (2), reagent tray assembly (3) and lower cover component (4), described scan components (2) mounts cover in described lower cover component (4) by described cover assembly (1), wherein, described scan components (2) comprises scanner pressing plate (2a), scanner (2b) and scanner bracing frame (2c), described scanner bracing frame (2c) is installed in described lower cover component (4), described scanner (2b) is oppositely fitted in described scanner bracing frame (2c) by described scanner pressing plate (2a), it is characterized in that: described reagent tray assembly (3) is slided by removable rail (5) and is inserted in described scanner bracing frame (2c), described reagent tray assembly (3) is positioned at described scanner (2b) below, the both sides inwall of described scanner bracing frame (2c) is respectively equipped with the positive stop strip (6) for preventing described reagent tray assembly (3) from upwarping in sliding process or having a downwarp.

2. anti-reagent tray as claimed in claim 1 tilts the immune quantitative analyser of clamping stagnation, it is characterized in that: described reagent tray assembly (3) comprises flexible pallet (3a) and reagent tray (3b), described reagent tray (3b) is arranged on the end face of described flexible pallet (3a).

3. anti-reagent tray as claimed in claim 2 tilts the immune quantitative analyser of clamping stagnation, it is characterized in that: described removable rail (5) is two joint bounce-back guide rails, the backbone part (5a) of described two joint bounce-back guide rails is arranged on the supporting surface of described scanner bracing frame (2c), and the interior rail part (5b) of described two joint bounce-back guide rails is arranged on the bottom surface of described flexible pallet (3a).

4. anti-reagent tray as claimed in claim 2 tilts the immune quantitative analyser of clamping stagnation, it is characterized in that: described positive stop strip (6) comprises upper limit bar (6a) and lower limit bar (6b), described upper limit bar (6a) is positioned at the top face of described flexible pallet (3a), described lower limit bar (6b) is positioned at the subjacent of described flexible pallet (3a), spacing between corresponding described upper limit bar (6a) and lower limit bar (6b) matches with the width of the side of described flexible pallet (3a), the length of described upper limit bar (6a) and lower limit bar (6b) matches with the length of described flexible pallet (3a) respectively.

5. anti-reagent tray as claimed in claim 4 tilts the immune quantitative analyser of clamping stagnation, it is characterized in that: the upper limit that described upper limit bar (6a) is at least arranged by two septa intersegmentals saves (6a1) and forms.

6. anti-reagent tray as claimed in claim 4 tilts the immune quantitative analyser of clamping stagnation, it is characterized in that: the lower limit that described lower limit bar (6b) is at least arranged by two septa intersegmentals saves (6b1) and forms, between adjacent two joints described lower limit joint (6b1) and the outside of described lower limit joint (6b1) being in two ends is equipped with for ensureing that the distance between described reagent tray (3b) upper surface and described scanner (2b) lower surface is in the positive stop lug boss (8) effectively detected in spacing range.

7. anti-reagent tray as claimed in claim 6 tilts the immune quantitative analyser of clamping stagnation, it is characterized in that: the quantity of the described positive stop lug boss (8) between described lower limit joint (6b1) of adjacent two joint is 2.