CN210514084U - Rapid detection device of up-conversion luminescence immunoassay analyzer - Google Patents

Abstract

The utility model relates to a quick detection device of up-conversion luminescence immunoassay analyzer, the light path system of this quick detection device includes excitation light source, plastic lens, even light reflex unit, reagent card, narrowband optical filter and signal collector, the center of excitation light source, plastic lens, even light reflex unit, reagent card sets gradually the constitution first optical axis in same vertical line and from top to bottom, the center of even light reflex unit, narrowband optical filter and signal collector sets gradually the constitution second optical axis in same horizontal plane and from left to right, first optical axis and second optical axis are perpendicular; even light reflection device is 45 degrees angles respectively with first optical axis and second optical axis. The utility model discloses an optical path system has shortened the light path stroke, has reduced the light loss. The utility model discloses furthest improves and detects the flux, accords with the needs of the short-term test's of instantaneous inspection, uses the static scheme of shooing, furthest's improvement detection speed.

Description

Rapid detection device of up-conversion luminescence immunoassay analyzer

Technical Field

The utility model relates to a medical treatment check out test set technical field especially relates to a go up quick detection device of luminous immunoassay appearance.

Background

In the prior art, the up-conversion luminescence immunoassay analyzer generally adopts motor motion to position the position of a reagent card, and belongs to the field of dynamic scanning image detection. The up-conversion luminescence immunoassay analyzer adopts a plurality of LED light sources as excitation light sources, or adopts a scheme of fixing the excitation light sources, the reagent card and the image acquisition system. The image detection is dynamically scanned, the movement time of a movement mechanism during scanning influences the detection flux, and the flux is generally calculated according to the Test quantity per hour (Test/h). The multiple LED light sources are used because the energy of a single LED light source is insufficient, but the multiple LED light sources are complex in structure and high in positioning accuracy requirement, and the detection result is influenced when one LED light source fails. The scheme of fixing an excitation light source, a reagent card and an image acquisition system is adopted, although no movement mechanism exists, the method belongs to static photographing, laser spots are not shaped, the coverage area of the spots is small, and the spots are not enough to cover the detection of a multi-band chromatographic strip (a reagent strip of a general immunochromatography method is a T-band and a C-band, and the detection of a plurality of T-bands and a C-band is carried out in the market).

Therefore, it is desirable to provide a rapid detection device for an up-conversion luminescence immunoassay analyzer, which can improve the detection speed and realize rapid detection.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a go up quick detection device of luminescence immunoassay appearance of revolving, save the motion, avoid the trouble that the motion probably brought, through optical path system's design, use the static scheme of shooing, improve detection speed, realize short-term test.

In order to solve the technical problem, the utility model adopts the following technical proposal:

a rapid detection device of an up-conversion luminescence immunoassay analyzer comprises a light path system, wherein the light path system comprises an excitation light source, a shaping lens, a light homogenizing reflecting device, a reagent card, a narrow-band light filter and a signal collector, the centers of the excitation light source, the shaping lens, the light homogenizing reflecting device and the reagent card are sequentially arranged on the same vertical line from top to bottom to form a first optical axis, the centers of the light homogenizing reflecting device, the narrow-band light filter and the signal collector are sequentially arranged on the same horizontal plane from left to right to form a second optical axis, and the first optical axis is vertical to the second optical axis; even light reflection device is 45 degrees angles respectively with first optical axis and second optical axis.

Preferably, the light homogenizing reflecting device comprises a composite light homogenizing plate and a dichroic mirror. Preferably, the dichroic mirror is fully transmissive for light having a wavelength of 980nm and fully reflective for light having a wavelength of 540 nm.

Preferably, the material of the light homogenizing plate is an engineering plastic film, an organic glass plate or a quartz glass plate, and the outer surface of the light homogenizing plate is provided with an atomizing layer. The principle of the light homogenizing plate is diffuse reflection, and the function of the light homogenizing plate is to homogenize light passing through the light homogenizing plate.

Preferably, the excitation light source is a semiconductor laser diode or a high-power light emitting diode, and the wavelength of the emergent light of the excitation light source is 980 nm. The semiconductor laser diode has the characteristics of good monochromaticity and small divergence angle compared with the light-emitting diode. The use of leds is generally high power with sufficient margin that can be allocated to the light homogenizing plate to achieve spot homogenization. The shaping lens is used for amplifying and shaping the banded facula of the emergent light of the excitation light source.

Preferably, the signal collector is a cmos or CCD sensor. The photoelectric diode has the advantages of high sensitivity and higher practicability compared with a photomultiplier by replacing the traditional photodiode and a traditional photocell. The narrow-band filter is used for eliminating stray light with other wavelengths.

Preferably, the reagent card is provided with up-conversion luminescent particles capable of exciting light with the wavelength of 540 nm. Using the principle of up-conversion luminescence, 980nm light having a longer wavelength is used to excite 540nm light having a shorter wavelength.

The utility model discloses a go up quick detection device's of luminous immunoassay appearance of rotation light path principle: an excitation light source is used for providing emergent light with the wavelength of 980nm, the emergent light is shaped on a first optical axis through a shaping lens to amplify and shape a banded light spot of the emergent light, is homogenized by a light homogenizing plate, vertically and downwards irradiates a reagent card after being fully transmitted by a dichroic mirror, visible light with the wavelength of 540nm is excited and emitted, vertically and upwards irradiates the dichroic mirror, the visible light with the wavelength of 540nm is totally reflected by the dichroic mirror on a second optical axis, is filtered by a narrow-band filter and is received by a signal collector.

The utility model has the advantages as follows:

the utility model discloses owing to adopted above technical scheme, optical path system has shortened the light path stroke, has reduced light loss. The utility model discloses a but the high-speed checking device furthest improves and detects the flux, accords with the needs of the high-speed check of real-time supervision, has saved motion, has avoided the trouble that motion probably brought, uses the static scheme of shooing, furthest's improvement detection speed.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood and to make the technical means more comprehensible, and to make the above and other objects, technical features, and advantages of the present invention easier to understand, one or more preferred embodiments are listed below, and the following detailed description is given with reference to the accompanying drawings.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

Fig. 1 shows a schematic diagram of an optical path system of a rapid detection device of an up-conversion luminescence immunoassay analyzer according to the present invention.

Description of the main reference numerals:

1-excitation light source, 2-shaping lens, 3-dichroic mirror, 4-light homogenizing plate, 5-reagent card, 6-narrow band filter and 7-signal collector.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited by the following detailed description.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Spatially relative terms, such as "below," "lower," "upper," "above," "upper," and the like, may be used herein for ease of description to describe one element or feature's relationship to another element or feature in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the object in use or operation in addition to the orientation depicted in the figures. For example, if the items in the figures are turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" the elements or features. Thus, the exemplary term "below" can encompass both an orientation of below and above. The article may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative terms used herein should be interpreted accordingly.

As shown in fig. 1, the rapid detection device of the up-conversion luminescence immunoassay analyzer comprises a light path system, wherein the light path system comprises an excitation light source 1, a shaping lens 2, a uniform light reflection device, a reagent card 5, a narrow-band filter 6 and a signal collector 7.

The excitation light source 1, the shaping lens 2, the light homogenizing reflecting device and the reagent card 5 are sequentially arranged on the same vertical line from top to bottom at the center to form a first optical axis.

The excitation light source 1 is a semiconductor laser diode or a high-power light emitting diode, and the wavelength of emergent light of the excitation light source 1 is 980 nm. The semiconductor laser diode has the characteristics of good monochromaticity and small divergence angle compared with the light-emitting diode. The use of leds is generally powerful and has sufficient margin to allow for distribution to the homogenizing plate 4 to achieve spot homogenization. The shaping lens 2 is used for enlarging and shaping the band-shaped light spot of the outgoing light of the excitation light source 1.

The dodging reflecting device comprises a composite dodging plate 4 and a dichroic mirror 3. The dichroic mirror 3 transmits light having a wavelength of 980nm and totally reflects light having a wavelength of 540 nm. The material of the light homogenizing plate 4 is an engineering plastic film, an organic glass plate or a quartz glass plate, and the outer surface of the light homogenizing plate 4 is provided with an atomizing layer. The principle of the light homogenizing plate 4 is diffuse reflection, and the function is to homogenize the light passing through the light homogenizing plate 4. The reagent card 5 is provided with up-conversion luminescent particles capable of exciting light with the wavelength of 540 nm. Using the principle of up-conversion luminescence, 980nm light having a longer wavelength is used to excite 540nm light having a shorter wavelength.

The centers of the uniform light reflection device, the narrow-band filter 6 and the signal collector 7 are arranged on the same horizontal plane in sequence from left to right to form a second optical axis.

The signal collector 7 is a COMS or CCD sensor. The photoelectric diode has the advantages of high sensitivity and higher practicability compared with a photomultiplier by replacing the traditional photodiode and a traditional photocell. The narrow-band filter 6 functions to eliminate stray light of other wavelengths.

The first optical axis and the second optical axis are perpendicular.

Even light reflection device is 45 degrees angles respectively with first optical axis and second optical axis.

The utility model discloses a go up quick detection device's of luminous immunoassay appearance of rotation light path principle: an excitation light source 1 is used for providing emergent light with the wavelength of 980nm, the emergent light is shaped on a first optical axis through a shaping lens 2 to amplify and shape a banded light spot of the emergent light, the emergent light is homogenized through a light homogenizing plate 4, then the homogenized emergent light is vertically irradiated downwards onto a reagent card 5 after being fully transmitted through a dichroic mirror 3 and emits visible light with the wavelength of 540nm, the visible light with the wavelength of 540nm is vertically irradiated upwards onto the dichroic mirror 3, the visible light with the wavelength of 540nm is totally reflected through the dichroic mirror 3 on a second optical axis, and the reflected visible light is filtered through a narrow-band filter 6 and then.

The utility model discloses a fast detection device of up-conversion luminescence immunoassay appearance can furthest's improvement detection speed, gets rid of the reaction time of outer reagent, and the plug-in card after possible reacting is surveyed promptly.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. Any simple modifications, equivalent changes and modifications made to the above exemplary embodiments shall fall within the scope of the present invention.

Claims (7)

1. The rapid detection device of the up-conversion luminescence immunoassay analyzer is characterized by comprising a light path system, wherein the light path system comprises an excitation light source (1), a shaping lens (2), a light homogenizing reflecting device, a reagent card (5), a narrowband optical filter (6) and a signal collector (7), the centers of the excitation light source (1), the shaping lens (2), the light homogenizing reflecting device and the reagent card (5) are sequentially arranged on the same vertical line from top to bottom to form a first optical axis, the centers of the light homogenizing reflecting device, the narrowband optical filter (6) and the signal collector (7) are sequentially arranged on the same horizontal plane from left to right to form a second optical axis, and the first optical axis is vertical to the second optical axis;

even light reflection device is 45 degrees angles respectively with first optical axis and second optical axis.

2. The rapid detection device of the up-conversion luminescence immunoassay analyzer according to claim 1, wherein the light homogenizing reflection device comprises a composite light homogenizing plate (4) and a dichroic mirror (3).

3. The rapid detection device of the up-conversion luminescence immunoassay analyzer according to claim 2, wherein the dichroic mirror (3) is totally transmissive for 980nm wavelength light and totally reflective for 540nm wavelength light.

4. The rapid detection device of the up-conversion luminescence immunoassay analyzer according to claim 2, wherein the light homogenizing plate (4) is made of an engineering plastic film, an organic glass plate or a quartz glass plate, and the outer surface of the light homogenizing plate (4) is provided with an atomizing layer.

5. The rapid detection device of the up-conversion luminescence immunoassay analyzer according to claim 1, wherein the excitation light source (1) is a semiconductor laser diode or a high-power light emitting diode, and the wavelength of the emergent light of the excitation light source (1) is 980 nm.

6. The rapid detection device of the up-conversion luminescence immunoassay analyzer of claim 1, wherein the signal collector (7) is a COMS or CCD sensor.

7. The rapid detection device of the up-conversion luminescence immunoassay analyzer according to claim 1, wherein the reagent card (5) is provided with up-conversion luminescence particles capable of exciting light with a wavelength of 540 nm.

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