CN203310848U - Blood analysis tester - Google Patents

Abstract

The utility model discloses a blood analysis tester. The blood analysis tester comprises an optical receiver, an optical emitter, a conveyer belt, a first conveying wheel, a second conveying wheel, a cuvette, a cuvette cleaning tank, a waste liquid collection tank, a scanner, a sieve plate and a guiding vertical plate, wherein the cuvette is provided with a first light transmission surface, a second light transmission surface, a first frosted surface and a second frosted surface, the optical receiver is positioned at one side, far away from the second light transmission surface, of the first light transmission surface, the optical emitter is positioned at one side, far away from the first light transmission surface, of the second light transmission surface, a cuvette locating groove is formed in the conveyor belt, the sieve plate is slantwise arranged below the second conveying wheel, the waste liquid collection tank is positioned below sieve pores of the sieve plate, the cuvette cleaning tank is positioned below one end, far away from the second conveying wheel, of the sieve plate, and the scanner is close to the second conveying wheel and is dead against a bar code. The blood analysis tester is of continuous working type and can be used for solving the technical problems of low analysis testing efficiency and high labor intensity of medical workers in the using process of the blood analysis tester.

Description

The blood analysis tester

Technical field

The utility model relates to medicine equipment, particularly the blood analysis tester.

Background technology

In the prior art, blood analysis testing tool working method is discontinuous, that is: when carrying out the blood analysis test, put into a cuvette and carry out analytical test, after analytical test is complete, take out this cuvette, and then put into cuvette to be tested, the waste liquid in the cuvette be completed is poured into after the waste liquid returnable and is put into service sink and clean.Therefore, the analytical test efficiency of this blood analysis testing tool is lower, and the labour intensity of health care worker is large.

The utility model content

In view of this, the utility model is to provide continuous working formula blood analysis tester, to solve the technical matters that analytical test efficiency is low and health care worker labour intensity is large that in prior art, the blood analysis testing tool in use exists.

For addressing the above problem, the utility model provides the blood analysis tester, comprise optical receiver, optical transmitting set, conveying belt, the first delivery wheel, the second delivery wheel, cuvette, the cuvette service sink, the waste collection pond, scanner, sieve plate and guiding riser, described cuvette has the first transparent surface, the second transparent surface, the first frosting and the second frosting, described the first transparent surface is relative with described the second transparent surface, described the first frosting is relative with described the second frosting, on described the first frosting and/or described the second frosting and close on described cuvette upper edge along being pasted with bar code, at described the first transparent surface, close on the edge of described the first frosting and described the second frosting and be respectively arranged with anti-wear riser, at described the second transparent surface, close on the edge of described the first frosting and described the second frosting and also be respectively arranged with anti-wear riser, described optical receiver is positioned at the side of described the first transparent surface away from described the second transparent surface, described optical transmitting set is positioned at the side of described the second transparent surface away from described the first transparent surface, described conveying belt is contained on described the first delivery wheel and described the second delivery wheel, and on described conveying belt, be provided with the cuvette locating slot, described cuvette bottom is positioned at described cuvette locating slot and described cuvette moves to described the second delivery wheel direction from described the first delivery wheel, described sieve plate is obliquely installed below described the second delivery wheel, described waste collection pond is positioned at the sieve aperture below of described sieve plate, described cuvette service sink is positioned at the below of described sieve plate away from an end of described the second delivery wheel, described scanner close on that described the second delivery wheel install to arrange and described scanner over against described bar code, traffic direction along described cuvette: each described cuvette locating slot closes on a side of described the second delivery wheel described guiding riser all is installed, and the upper edge of described guiding riser is lower than the lower edge of described bar code.

The utility model has been obtained following beneficial effect: blood analysis tester of the present utility model is the continuous working formula, has solved the technical matters that analytical test efficiency is low and health care worker labour intensity is large that in the prior art, the blood analysis testing tool in use exists.

The accompanying drawing explanation

Fig. 1 is the structural representation of the utility model blood analysis tester;

Fig. 2 is the optical receiver of the utility model blood analysis tester and the position relationship schematic diagram of optical transmitting set and cuvette;

Fig. 3 is the cross-sectional structure schematic diagram of the cuvette of the utility model blood analysis tester.

In figure: 1-optical receiver, 2-optical transmitting set, 3-conveying belt, 4-the first delivery wheel, 5-the second delivery wheel, 6-cuvette, 61-the first transparent surface, 62-the second transparent surface, 63-the first frosting, 64-the second frosting, 65-bar code, the anti-wear riser of 66-, 7-cuvette service sink, 8-waste collection pond, 9-scanner, 10-sieve plate, the 11-riser that leads.

Embodiment

For clearly demonstrating the scheme in the utility model, below provide preferred embodiment and be described with reference to the accompanying drawings.

As shown in Figure 1 to Figure 3, the present embodiment blood analysis tester comprises optical receiver 1, optical transmitting set 2, conveying belt 3, the first delivery wheel 4, the second delivery wheel 5, cuvette 6, cuvette service sink 7, waste collection pond 8, scanner 9, sieve plate 10 and guiding riser 11, described cuvette 6 has the first transparent surface 61, the second transparent surface 62, the first frosting 63 and the second frosting 64, described the first transparent surface 61 is relative with described the second transparent surface 62, described the first frosting 63 is relative with described the second frosting 64, on described the first frosting 63 and/or described the second frosting 64 and close on described cuvette 6 upper edge along being pasted with bar code 65, at described the first transparent surface 61, close on the edge of described the first frosting 63 and described the second frosting 64 and be respectively arranged with anti-wear riser 66, at described the second transparent surface 62, close on the edge of described the first frosting 63 and described the second frosting 64 and also be respectively arranged with anti-wear riser 66, described optical receiver 1 is positioned at the side of described the first transparent surface 61 away from described the second transparent surface 62, described optical transmitting set 2 is positioned at the side of described the second transparent surface 62 away from described the first transparent surface 61, described conveying belt 3 is contained on described the first delivery wheel 4 and described the second delivery wheel 5, and be provided with the cuvette locating slot on described conveying belt 3, described cuvette 6 bottoms are positioned at described cuvette locating slot and described cuvette 6 moves to described the second delivery wheel 5 directions from described the first delivery wheel 4, described sieve plate 10 is obliquely installed below described the second delivery wheel 5, described waste collection pond 8 is positioned at the sieve aperture below of described sieve plate 10, described cuvette service sink 7 is positioned at the below of described sieve plate 10 away from an end of described the second delivery wheel 5, described scanner 9 close on described the second delivery wheel 5 install arrange and described scanner 9 over against described bar code 65, traffic direction along described cuvette 6: each described cuvette locating slot closes on a side of described the second delivery wheel 5 described guiding riser 11 all is installed, and the upper edge of described guiding riser 11 is lower than the lower edge of described bar code 65.

The present embodiment blood analysis tester is in work, and described the second delivery wheel 5 is driving wheel, by driven by motor; Described the first delivery wheel 4 is engaged wheel, is driven along with described the second delivery wheel 5 rotates together by described conveying belt 3.(the now tentative operation of motor when the described cuvette 6 on described conveying belt 3 is just in time between described optical transmitting set 2 and described optical receiver 1, the follow-up reforwarding row of end to be detected until next described cuvette 6 to be measured just in time between described optical transmitting set 2 and described optical receiver 1), the detection light that described optical transmitting set 2 sends passes successively the first transparent surface 61 of described cuvette 6 and the second transparent surface 62 is rear by described optical receiver 1, is received, 1 pair of described optical receiver receives light and analyzes and show that (this is prior art to test result, do not repeat them here).When described cuvette 6 runs to described the second delivery wheel 5, start upset downwards (before the upset downwards of described cuvette 6, bar code 65 on the described cuvette 6 of described scanner 9 scanning, obtain the information of corresponding cuvette 6), until be slipped on described sieve plate 10 along described guiding riser 11, and described cuvette 6 is slipped in described cuvette service sink 7 and cleans along described sieve plate 10; Meanwhile, the waste liquid in described cuvette 6 is poured on described sieve plate 10 and from the sieve aperture on described sieve plate 10 and flows to described waste collection pond 8.The setting of described guiding riser 11 can, so that described cuvette 6 slowly is slipped on described sieve plate 10, alleviate the collision between described cuvette 6 and described sieve plate 10.As shown in Figure 3; the anti-wear riser 66 arranged on described cuvette 6 can be so that described the first transparent surface 61 contact with described sieve plate 10 in the process that slides to described cuvette service sink 7 with described the second transparent surface 62; thereby protect described the first transparent surface 61 and described the second transparent surface 62 not to be worn, extend the serviceable life of described cuvette 6.

Above-described embodiment is only for the utility model creation example clearly is described, and not the utility model is created the restriction of embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without also giving all embodiments.All any apparent variation or changes being extended out within spirit of the present utility model and principle still are among the protection domain of the utility model creation claim.

Claims (1)

1. blood analysis tester, it is characterized in that, comprise optical receiver (1), optical transmitting set (2), conveying belt (3), the first delivery wheel (4), the second delivery wheel (5), cuvette (6), cuvette service sink (7), waste collection pond (8), scanner (9), sieve plate (10) and guiding riser (11), described cuvette (6) has the first transparent surface (61), the second transparent surface (62), the first frosting (63) and the second frosting (64), described the first transparent surface (61) is relative with described the second transparent surface (62), described the first frosting (63) is relative with described the second frosting (64), at described the first frosting (63) and/or described the second frosting (64), go up and close on described cuvette (6) upper edge along being pasted with bar code (65), at described the first transparent surface (61), close on the edge of described the first frosting (63) and described the second frosting (64) and be respectively arranged with anti-wear riser (66), at described the second transparent surface (62), close on the edge of described the first frosting (63) and described the second frosting (64) and also be respectively arranged with anti-wear riser (66), described optical receiver (1) is positioned at the side of described the first transparent surface (61) away from described the second transparent surface (62), described optical transmitting set (2) is positioned at the side of described the second transparent surface (62) away from described the first transparent surface (61), described conveying belt (3) is contained on described the first delivery wheel (4) and described the second delivery wheel (5), and described conveying belt is provided with the cuvette locating slot on (3), described cuvette (6) bottom is positioned at described cuvette locating slot and described cuvette (6) moves to described the second delivery wheel (5) direction from described the first delivery wheel (4), described sieve plate (10) is obliquely installed in described the second delivery wheel (5) below, described waste collection pond (8) is positioned at the sieve aperture below of described sieve plate (10), described cuvette service sink (7) is positioned at the below of described sieve plate (10) away from an end of described the second delivery wheel (5), described scanner (9) close on that described the second delivery wheel (5) install to arrange and described scanner (9) over against described bar code (65), traffic direction along described cuvette (6): each described cuvette locating slot closes on a side of described the second delivery wheel (5) described guiding riser (11) all is installed, and the upper edge of described guiding riser (11) is lower than the lower edge of described bar code (65).

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