CN211086310U - Test panel positioner of glycated haemoglobin detector - Google Patents

Abstract

The utility model relates to the technical field of medical equipment, refer in particular to a survey test panel positioner of glycosylated hemoglobin detector, including lamp plate support, base, guide rail subassembly and survey test panel layer board, on the lamp plate support was fixed in the base, on guide rail subassembly passed through drive arrangement slidable and located the base, guide rail subassembly passed through resilient means elastic connection with surveying test panel layer board, was equipped with the draw-in groove that is used for placing survey test panel on surveying test panel layer board, and the draw-in groove corresponds the setting with the lamp plate support. Adopt such structure setting, the guide rail subassembly passes through resilient means elastic connection with testing the board layer board, can effectively reduce the guide rail subassembly when sliding, tests the rigid collision between board layer board and the lamp plate support, can improve the inaccurate condition in location that guide rail mechanism overshoots and arouses simultaneously, realizes the high accuracy location.

Description

Test panel positioner of glycated haemoglobin detector

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a positioning device for a test board of a glycosylated hemoglobin detector.

Background

Glycated hemoglobin refers to a portion of hemoglobin in blood that is bound to glucose. When the concentration of glucose in blood is high, the content of glycated hemoglobin formed in a human body is relatively high. The life span of erythrocytes in humans is typically 120 days, and the glycated hemoglobin content of blood remains relatively unchanged until the cells die. The glycosylated hemoglobin detector detects the signal value of the glycosylated hemoglobin substance in the kit to be detected by using the diffuse reflection principle, and the content of the glycosylated hemoglobin in the sample can be obtained through specific operation. In the detection method, a certain requirement is placed on the positioning precision of a test board of the kit, and if the positioning has deviation, the signal value received by the analyzer has deviation, so that the deviation of the detection result is caused.

Patent application No. CN201620355184 discloses a survey test panel positioner, including being used for supporting survey test panel and driving the layer board of surveying test panel lateral shifting, the layer board is connected with drive arrangement, a two vertical positioner for survey test panel in vertical location, two vertical positioner are located the both sides of layer board, and two vertical positioner are elastic connection with survey test panel positioner's main part, two vertical positioner under the compression state can the centre gripping survey test panel, two vertical positioner's clamping face be for being used for with survey test panel laminating cambered surface. The longitudinal positioning device comprises an elastic piece, a positioning block and a telescopic rod arranged on the main body part, one end of the telescopic rod is connected with the main body part, the other end of the telescopic rod is connected with the positioning block, and the elastic piece is connected between the positioning block and the main body part. The test board described in the above prior art can meet the positioning requirement to some extent by adopting the way of spring plus positioning block, but the consistency requirement of this kind of scheme to the parts is very high: for example 1) the resilience of the two springs needs to be accurately controlled; 2) the block size parameters of the two positioning blocks need to be kept consistent; 3) the positioning block and the detection part need to have high centering precision. Therefore, the consistency of the parts is strictly controlled in the product implementation process, which is very troublesome.

SUMMERY OF THE UTILITY MODEL

To above problem, the utility model provides a survey test panel positioner of glycated haemoglobin detector, guide rail assembly with survey test panel layer board passes through resilient means elastic connection, can effectively reduce guide rail assembly when sliding, survey the rigid collision between test panel layer board and the lamp plate support, can improve the unsafe condition in location that low guide rail mechanism overshoots and arouses simultaneously, realize the high accuracy location.

In order to achieve the above purpose, the utility model discloses the technical scheme who uses as follows:

the utility model provides a glycated haemoglobin detector survey test panel positioner, includes lamp plate support, base, guide rail assembly and surveys test panel layer board, on the lamp plate support was fixed in the base, on guide rail assembly passed through drive arrangement slidable and locates the base, guide rail assembly and survey test panel layer board and pass through resilient means elastic connection, survey and be equipped with the draw-in groove that is used for placing survey test panel on the test panel layer board, the draw-in groove corresponds the setting with the lamp plate support.

Furthermore, the elastic device comprises a spring and a guide post, and the guide rail assembly and the test board supporting plate are respectively provided with a through hole matched with the guide post.

Further, the lamp panel support is fixed on the base through the stand column in a suspending mode, and the lamp panel support is provided with a guide device and a detection hole, wherein the guide device and the detection hole are arranged in the clamping groove in a corresponding mode.

Furthermore, guider is including locating the guide way on the lamp plate support, and the guide way comprises location limit one, location limit two and location limit three, the guide way is located to the inspection opening, and the inspection opening corresponds the setting with the detection zone that surveys the board.

Furthermore, the guide rail assembly comprises a guide rail positioning part fixed on the base and a guide rail sliding part capable of sliding on the guide rail positioning part in a matching manner, and the guide rail sliding part can slide on the guide rail positioning part in a linear manner through the driving device.

Further, the driving device comprises a direct current motor and a gear, an output shaft of the direct current motor is connected to the gear, and a rack meshed with the gear is arranged on the guide rail sliding part.

Further, the dc motor is correspondingly provided with a stop-motion switch.

Further, the stop moving switch comprises an optical coupler arranged on the base and an optical coupler catch arranged on the guide rail sliding piece, the optical coupler catch and the optical coupler are correspondingly arranged, and the optical coupler is electrically connected to the direct current motor.

The utility model discloses beneficial effect:

by adopting the structure, the working principle is as follows: in arranging the draw-in groove 91 on testing panel layer board at will testing panel, but through drive arrangement drive guide rail assembly slidable on the base, because guide rail assembly passes through resilient means elastic connection with testing panel layer board, guide rail assembly can drive and test panel layer board and slide together, when the draw-in groove on testing panel layer board corresponds with the lamp plate support, the accessible lamp plate support detects the testing panel in the draw-in groove of placing on testing panel layer board. In practical application, the guide rail assembly and the test board supporting plate are elastically connected through the elastic device, so that the rigid collision between the test board supporting plate and the lamp panel support when the guide rail assembly slides can be effectively reduced, the situation of inaccurate positioning caused by overshoot of a low guide rail mechanism can be improved, and high-precision positioning is realized.

Drawings

FIG. 1 is a top view of the overall structure of the present invention;

fig. 2 is a bottom view of the overall structure of the present invention;

fig. 3 is a top view of the rail assembly of the present invention;

fig. 4 is a bottom view of the rail assembly of the present invention;

FIG. 5 is a view of the lamp panel bracket structure of the present invention;

FIG. 6 is a structural diagram of the lamp panel bracket and the test board of the present invention;

fig. 7 is a state diagram of the detection holes of the lamp panel bracket of the present invention corresponding to the detection areas of the test board;

fig. 8 is a sliding state diagram of the guide rail assembly of the present invention;

fig. 9 is a diagram illustrating a state in which the sliding of the rail assembly is stopped.

1. A direct current motor; 2. a gear; 3. a column; 4. a lamp panel bracket; 41. positioning the first edge; 42. positioning the second edge; 43. positioning the third side; 44. a detection hole; 5. a base; 6. a guide rail slider; 61. a rack; 62. an optical coupling baffle plate; 7. an optical coupler; 8. a test board; 81. a detection zone; 9. a test board pallet; 91. a card slot; 10. a spring; 11. a guide post; 12. a guide rail positioning member.

Detailed Description

The technical solution of the present invention will be described below with reference to the accompanying drawings and examples.

As shown in fig. 1 to fig. 9, a survey test panel positioner of glycated hemoglobin detector, including lamp plate support 4, base 5, guide rail assembly and survey test panel layer board 9, on lamp plate support 4 was fixed in base 5, on guide rail assembly located base 5 through drive arrangement slidable, guide rail assembly passed through resilient means elastic connection with surveying test panel layer board 9, survey test panel layer board 9 and be equipped with the draw-in groove 91 that is used for placing survey test panel 8, draw-in groove 91 corresponds the setting with lamp plate support 4. By adopting the structure, the working principle is as follows: arrange survey test panel 8 in surveying draw-in groove 91 on test panel layer board 9, through drive arrangement drive guide rail assembly slidable on base 5, because guide rail assembly passes through resilient means elastic connection with survey test panel layer board 9, guide rail assembly can drive surveys test panel layer board 9 and slides together, when surveying draw-in groove 91 on test panel layer board 9 and lamp plate support 4 and corresponding, accessible lamp plate support 4 detects surveying test panel 8 in the draw-in groove 91 on survey test panel layer board 9. In practical application, the guide rail assembly and the test board supporting plate 9 are elastically connected through an elastic device, so that the rigid collision between the test board supporting plate 9 and the lamp panel support 4 when the guide rail assembly slides can be effectively reduced, the inaccurate positioning condition caused by the overshoot of the low guide rail mechanism can be improved, and the high-precision positioning is realized.

More specifically, the elastic means comprises a spring 10 and a guide post 11, and the guide rail assembly and the test board tray 9 are respectively provided with a through hole matched with the guide post 11. With the structure, the elastic connection between the guide rail assembly and the test board supporting plate 9 is realized through the spring 10 and the guide post 11.

In practical application, the spring 10 acts as an elastic structure between the rail assembly and the test board tray 9, and also plays a role in buffering.

More specifically, lamp plate support 4 is fixed in on base 5 through stand 3 is unsettled, is equipped with guider and inspection hole 44 that correspond the setting with survey test panel 8 in draw-in groove 91 on lamp plate support 4. Adopt such structure setting, through stand 3 with lamp plate support 4 unsettled be fixed in on the base 5, when guide rail assembly drives to survey test panel layer board 9 and slide together to draw-in groove 91 and lamp plate support 4 on the inspection hole 44 correspond, survey test panel 8 through lamp plate support 4's inspection hole 44 to the draw-in groove 91 that is placed on surveying test panel layer board 9 in detecting.

In practical application, lamp plate support 4 is through the unsettled one side that is fixed in base 5 of stand 3, and guide rail assembly drives and surveys test panel layer board 9 and slide between lamp plate support 4 and base 5, and arranges in and survey and be equipped with detection zone 81 on surveying the interior survey test panel 8 of draw-in groove 91 on test panel layer board 9, when detection zone 81 corresponds with inspection hole 44, realizes surveying the measuring of survey test panel 8.

More specifically, guider is including locating the guide way on lamp plate support 4, and the guide way comprises location limit one 41, location limit two 42 and location limit three 43, and inspection hole 44 is located in the guide way, inspection hole 44 corresponds the setting with the detection zone 81 of surveying test panel 8. By adopting the structure, the guide groove with the three closed sides and the one open side is formed by the first positioning edge 41, the second positioning edge 42 and the third positioning edge 43, when the guide rail assembly drives the test board supporting plate 9 to slide together, the test board 8 in the clamping groove 91 is guided and positioned under the constraint of the guide groove, and the detection hole 44 is corresponding to the detection area 81 of the test board 8.

More specifically, the guide rail assembly includes a guide rail positioning member 12 fixed to the base 5, and a guide rail slider 6 slidably fitted on the guide rail positioning member 12, and the guide rail slider 6 is slidable linearly on the guide rail positioning member 12 by a driving means. With such a configuration, the guide rail positioning member 12 is fixed to the base 5 to form a linear guide rail for the guide rail slider 6 to slide, and the guide rail slider 6 can be driven to slide linearly on the guide rail positioning member 12 by the driving device.

More specifically, the driving device comprises a direct current motor 1 and a gear 2, an output shaft of the direct current motor 1 is connected to the gear 2, and a rack 61 meshed with the gear 2 is arranged on the guide rail sliding part 6. By adopting the structure, the gear 2 is driven to rotate together through the output shaft of the direct current motor 1, and the aim of driving the guide rail sliding part 6 to slide is achieved because the gear 2 is meshed and connected with the rack 61 on the guide rail sliding part 6.

More specifically, the dc motor 1 is provided with a stop-motion switch.

More specifically, stop and move line switch including locating opto-coupler 7 on base 5 and locating opto-coupler separation blade 62 on guide rail slider 6, opto-coupler separation blade 62 corresponds the setting with opto- coupler 7, and 7 electric couplings are connected in direct current motor 1. By adopting the structure, when the guide rail sliding piece 6 slides and the optical coupler 7 on the base 5 is shielded by the optical coupler blocking piece 62 on the guide rail sliding piece 6, the direct current motor 1 stops running, and the effect of stopping and moving the switch of the direct current motor 1 is achieved.

In practical application, stand 3 and guide rail setting element 12 are all fixed in base 5 through bolt assembly on, and it is very convenient to install and dismantle.

The embodiments of the present invention have been described with reference to the accompanying drawings, but the present invention is not limited to the above-mentioned embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention, and these forms are within the scope of the present invention.

Claims (8)

1. The utility model provides a glycated haemoglobin detector survey test panel positioner which characterized in that: including lamp plate support (4), base (5), guide rail assembly and survey test panel layer board (9), lamp plate support (4) are fixed in on base (5), guide rail assembly passes through drive arrangement slidable and locates on base (5), guide rail assembly passes through resilient means elastic connection with surveying test panel layer board (9), survey and be equipped with draw-in groove (91) that are used for placing survey test panel (8) on survey test panel layer board (9), draw-in groove (91) correspond the setting with lamp plate support (4).

2. The apparatus for positioning a testing plate for a glycated hemoglobin meter according to claim 1, wherein: the elastic device comprises a spring (10) and a guide post (11), and the guide rail assembly and the test board supporting plate (9) are respectively provided with a through hole matched with the guide post (11).

3. The apparatus for positioning a testing plate for a glycated hemoglobin meter according to claim 1, wherein: lamp plate support (4) are fixed in on base (5) through stand (3) unsettled, be equipped with on lamp plate support (4) and survey guider and inspection hole (44) that test panel (8) correspond the setting in draw-in groove (91).

4. The apparatus for positioning a testing plate for a glycated hemoglobin meter according to claim 3, wherein: guider is including locating the guide way on lamp plate support (4), the guide way comprises location limit one (41), location limit two (42) and location limit three (43), the guide way is located in inspection hole (44), inspection hole (44) correspond the setting with detection zone (81) of surveying test panel (8).

5. The apparatus for positioning a testing plate for a glycated hemoglobin meter according to claim 1, wherein: the guide rail assembly comprises a guide rail positioning part (12) fixed on the base (5) and a guide rail sliding part (6) capable of being matched with the guide rail positioning part (12) to slide, and the guide rail sliding part (6) can slide on the guide rail positioning part (12) in a linear mode through a driving device.

6. The apparatus for positioning a testing plate for a glycated hemoglobin meter according to claim 5, wherein: the driving device comprises a direct current motor (1) and a gear (2), an output shaft of the direct current motor (1) is connected to the gear (2), and a rack (61) meshed with the gear (2) is arranged on the guide rail sliding part (6).

7. The apparatus for positioning a testing plate for a glycated hemoglobin meter according to claim 6, wherein: the direct current motor (1) is correspondingly provided with a stop-motion switch.

8. The apparatus of claim 7, wherein the test plate positioning device comprises: stop and move line switch including locating opto-coupler (7) on base (5) and locating opto-coupler separation blade (62) on guide rail slider (6), opto-coupler separation blade (62) correspond the setting with opto-coupler (7), opto-coupler (7) electric connection in direct current motor (1).

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