CN109520933A - A kind of cuvette - Google Patents

Abstract

The invention belongs to field of optical measurements, and in particular to a kind of cuvette reflects the first reflectance coating and the second reflectance coating that increase light light path in cuvette by light with respect to being equipped with to be fitted to each other on the cuvette side wall.The beneficial effects of the present invention are: the 1, present invention on cuvette side wall by being arranged the first reflectance coating, the second reflectance coating, when light emission enters cuvette, measurement light path is effectively increased by multiple reflections, in the case where not changing cuvette appearance and size, the detection limit for substantially reducing existing method, improves sensitivity.2, the present invention is by being equipped with arc or meander line structure in the second reflectance coating two sides or respectively in the first, second reflectance coating, so that injection light, irradiant direction are each perpendicular to cuvette side wall, existing spectrophotometer can match the cuvette by the adjustment of slight optical path.

Description

A kind of cuvette

Technical field

The invention belongs to field of optical measurements, and in particular to a kind of cuvette.

Background technique

Spectrophotometric analysis is based on Lambert-beer's law and carries out quantitative analysis, is a kind of common instrumental method.Due to Instrument and equipment is at low cost, operate it is relatively easy, spectrophotometric analysis in the detection activity in the fields such as environment, health, water conservancy then With more.

The physical significance of Lambert-beer's law is when a branch of collimated monochromatic ligth is perpendicular through a certain uniform non-scatter extinction When substance, absorbance A is directly proportional to the concentration c of extinction material and absorber thickness b (light path).In actual measurement activity, Cuvette is important photometric measurement component, its light path size has important influence to the sensitivity of method and detection limit, And common cuvette light path is fixed as 1 to 3 cm range more, the sample that absorptivity is small or concentration is low is often difficult to measure. Wang Jun etc. [Chinese patent literature, publication number: 206920317 U of CN] proposes a kind of cuvette for optical measurement, passes through The multiple reflections of light in a reservoir, compared with the mode that common cuvette directly transmits, under the premise of container volume is constant, Light path significantly increases.Change incidence angle, i.e., changeable light path numerical value realizes changeable fluid.However, the invention there is also with Lower disadvantage: one is the failure to consider the refraction effectiveness between air and liquid level of solution, and the uncertain superposition refraction effect of liquid level It should make emergent ray position and angle that can change at any time；Second is that being proposed to the change of instrumental optics device position higher It is required that the instrument universality of method substantially reduces.

Summary of the invention

To solve the above-mentioned problems, the object of the present invention is to provide a kind of cuvettes, can effectively increase light path, and With good practicability.

The present invention provides the following technical solutions:

A kind of cuvette, is respectively equipped in two opposite transmissive walls of the cuvette to be fitted to each other to reflect by light and increases light The first reflectance coating and the second reflectance coating of light path in cuvette.

Preferably, the cuvette is square tubular structure.

As the preferred technical solution of the first of the invention, the cuvette includes at least a pair of light transmission disposed in parallel Plate, first reflectance coating, the second reflectance coating are separately fixed on two light-transmitting plates, and the first reflectance coating, the second reflectance coating are mutual It is staggeredly arranged so that light is injected from side light-transmitting plate, other side light-transmitting plate projects.

In the first preferred technical solution, it is further preferred that the shape of first reflectance coating, the second reflectance coating It is all the same with size, i.e. the first reflectance coating, the second reflectance coating one end be in flat, and the other end be in curved surface or tiltedly The curved arc or polyline shaped in face, and the first reflectance coating, the curved arc of the second reflectance coating or polyline shaped end are respectively facing the incidence side of light To and exit direction.

As second of preferred technical solution of the invention, the cuvette includes at least a pair of light transmission disposed in parallel Plate, first reflectance coating, the second reflectance coating are separately fixed on two light-transmitting plates；At the top of first reflectance coating and light-transmitting plate top The distance between portion is A, and the distance between first reflectance coating bottom and light-transmitting plate bottom are B, second reflectance coating top It is a the distance between at the top of portion and light-transmitting plate, the distance between second reflectance coating bottom and light-transmitting plate bottom are b, wherein A > a, B > b.

In second of preferred technical solution, it is further preferred that first reflectance coating is in flat；Second reflection The both ends of film are curved arc or polyline shaped with curved surface or inclined-plane, and centre is flat, two curved arcs of second reflectance coating Or polyline shaped end is respectively facing the incident direction and exit direction of light.

As the third preferred technical solution of the invention, the cuvette is flow-type cuvette pond, described first Reflectance coating, the second reflectance coating are separately fixed at flow-type cuvette pond pool wall two sides along perpendicular to the direction that liquid flows, the One reflectance coating, the second reflectance coating are staggeredly arranged on the direction flowed perpendicular to liquid, so that light is from flow-type cuvette The side pool wall in pond is injected, and other side pool wall projects.

In the third preferred technical solution, it is further preferred that the shape of first reflectance coating, the second reflectance coating It is all the same with size, i.e. the first reflectance coating, the second reflectance coating one end be in flat, and the other end be in curved surface or tiltedly The curved arc or polyline shaped in face, and the first reflectance coating, the curved arc of the second reflectance coating or polyline shaped end are respectively facing the incidence side of light To and exit direction.

As the 4th kind of preferred technical solution of the invention, the cuvette is flow-type cuvette pond, described first Reflectance coating, the second reflectance coating along the pool wall two sides for being separately fixed at flow-type cuvette pond perpendicular to the direction that liquid flows, And projection of first reflectance coating on the second reflectance coating is fallen within inside the projection of the second reflectance coating itself, so that light is from flowing The ipsilateral pool wall in formula cuvette pond is injected, and ipsilateral pool wall projects.

In the 4th kind of preferred technical solution, it is further preferred that first reflectance coating is in flat；Second reflection The both ends of film are curved arc or polyline shaped with curved surface or inclined-plane, and centre is flat, two curved arcs of second reflectance coating Or polyline shaped end is respectively facing the incident direction and exit direction of light.

The beneficial effects of the present invention are:

1, the present invention on cuvette side wall by being arranged the first reflectance coating, the second reflectance coating, when light emission enters cuvette, warp It crosses multiple reflections and effectively increases measurement light path, in the case where not changing cuvette appearance and size, substantially reduce existing method Detection limit, improve sensitivity.

2, the present invention is by being equipped with arc or broken line knot in the second reflectance coating two sides or respectively in the first, second reflectance coating Structure, so that injection light, irradiant direction are each perpendicular to cuvette side wall, existing spectrophotometer passes through slight optical path tune It is whole to match the cuvette.

3, when solution to be measured flows in flow-type cuvette pond, it will generate the variation of concentration, the present invention by than The first reflectance coating, the second reflectance coating are oppositely arranged on the pool wall of color ware pond, the first reflectance coating, the second reflectance coating are in flow-type cuvette In being staggeredly arranged on the direction perpendicular to liquid flowing in pond, cooperated by the first reflectance coating, the second reflectance coating, light Line passes through multiple reflections, and light is that flow-type cuvette pond is injected on the same section on the direction flowed perpendicular to liquid, And projected from flow-type cuvette pond on identical section, so that the sensitivity of detection greatly improves.

Detailed description of the invention

Fig. 1 is the conventional colorimetric ware structural schematic diagram in non-transparent face with transparent surface；

Fig. 2 is embodiment 1 or the corresponding cuvette structural schematic diagram of embodiment 3, and in figure, arrow represents light propagation side To；

Fig. 3 is embodiment 2 or the corresponding cuvette structural schematic diagram of embodiment 4, and in figure, arrow represents light propagation side To；

Fig. 4 is enlarged drawing at A in Fig. 3；

Fig. 5 is the corresponding cuvette structural schematic diagram of embodiment 5, and in figure, block arrow represents solution flow direction to be measured, carefully Arrow represents the light direction of propagation；

Fig. 6 is the corresponding cuvette pond of embodiment 5 perpendicular to flow direction optical monitoring window cross-sectional structure schematic diagram, In figure, arrow represents the light direction of propagation；

Fig. 7 is the corresponding cuvette pond of embodiment 6 perpendicular to flow direction optical monitoring window cross-sectional structure schematic diagram, In figure, arrow represents the light direction of propagation.

Attached meaning marked in the figure is as follows:

1- light-transmitting plate 2- non-transparent the first reflectance coating of plate 3- 4- the second reflectance coating 5- curved arc end

Specific embodiment

The present invention is illustrated combined with specific embodiments below.

Embodiment 1

As shown in Figure 1, 2, a kind of cuvette is square tubular structure, including a pair of light-transmitting plate 1 and one disposed in parallel To non-transparent plate 2 disposed in parallel, the first reflectance coating 3, the second reflectance coating 4 are separately fixed on two opposite light-transmitting plates 1, and the One reflectance coating 3, the second reflectance coating 4 are in being staggeredly arranged, so that light is injected from side light-transmitting plate 1, other side light-transmitting plate 1 is penetrated Out.

As shown in Fig. 2, second reflectance coating, 4 top, 3 bottom of the first reflectance coating in the present embodiment are in curved arc or folding Threadiness 5, the setting of curved arc or polyline shaped 5 enables light to inject along perpendicular to 1 direction of light-transmitting plate, perpendicular to 1 side of light-transmitting plate To injection.

Embodiment 2

As shown in Figure 1,3, a kind of cuvette is square tubular structure, including a pair of light-transmitting plate 1 and one disposed in parallel To non-transparent plate 2 disposed in parallel, first reflectance coating 3, the second reflectance coating 4 are separately fixed at two light-transmitting plates being oppositely arranged On 1, the vertical range at 3 top of the first reflectance coating and 1 top of light-transmitting plate is A, 3 bottom of the first reflectance coating and light-transmitting plate 1 bottom vertical range is B, and the vertical range at 4 top of the second reflectance coating and 1 top of light-transmitting plate is a, second reflectance coating The vertical range of 4 bottoms and 1 bottom of light-transmitting plate is b, wherein A > a, B > b.

As shown in figure 3,4 two sides of the second reflectance coating are in curved arc or polyline shaped 5, curved arc or polyline shaped 5 make luminous energy It is enough to be injected along perpendicular to 1 direction of light-transmitting plate, it is projected perpendicular to 1 direction of light-transmitting plate.

Embodiment 3

The tubular structure as shown in Fig. 2, a kind of cuvette is square, including two pairs of light-transmitting plates 1 disposed in parallel, described first Reflectance coating 3, the second reflectance coating 4 are separately fixed on a pair of light-transmitting plate 1 being parallel to each other, and the first reflectance coating 3, the second reflectance coating 4 in being staggeredly arranged so that light is injected from side light-transmitting plate 1, and other side light-transmitting plate 1 projects.

In the present embodiment, second reflectance coating, 3 top, 4 bottom of the first reflectance coating are in curved arc or polyline shaped 5, so that Light can be injected along perpendicular to 1 direction of light-transmitting plate, be projected perpendicular to 1 direction of light-transmitting plate.

Embodiment 4

As shown in Figure 3,4, a kind of cuvette is square tubular structure, including two pairs of light-transmitting plates 1 disposed in parallel, and described One reflectance coating 3, the second reflectance coating 4 are separately fixed on a pair of light-transmitting plate 1 being parallel to each other, 3 top of the first reflectance coating with The vertical range at the top of light-transmitting plate 1 is A, and 3 bottom of the first reflectance coating and 1 bottom vertical range of light-transmitting plate are B, described second 4 top of reflectance coating and the vertical range at 1 top of light-transmitting plate are a, and 4 bottom of the second reflectance coating is vertical with 1 bottom of light-transmitting plate Distance is b, wherein A > a, B > b.

In the present embodiment, 4 two sides of the second reflectance coating are in curved arc or polyline shaped 5, enable light along perpendicular to 1 direction of light-transmitting plate is injected, and is projected perpendicular to 1 direction of light-transmitting plate.

Embodiment 5

As shown in Figure 5,6, a kind of cuvette is the flow-type cuvette pond with outlet, entrance.In the present embodiment, this The cross section in flow-type cuvette pond is rectangular.

First reflectance coating 3, the second reflectance coating 4 are separately fixed at the pool wall two sides in flow-type cuvette pond, and first is anti- Film 3, the second reflectance coating 4 are penetrated in the width direction of flow-type cuvette pond in being staggeredly arranged, so that light is from flow-type colorimetric Ware pond pool wall side is injected, and the other side is projected.

In the present embodiment, 4 side of the second reflectance coating and side of first reflectance coating 3 far from the second reflectance coating 4 are equal In curved arc or polyline shaped 5, the setting of this curved arc or polyline shaped 5 enables light along vertical current dynamic formula cuvette pond pool wall direction It injects, is projected perpendicular to flow-type cuvette pond pool wall direction.

Certainly, the section in flow-type cuvette pond both can be rectangular, or circle or other shapes, by this field Technical staff is configured according to actual needs.

When solution to be measured flows in flow-type cuvette pond, the change of concentration will be generated along the flow direction of liquid Change, the present invention on the pool wall of cuvette pond by being arranged the first reflectance coating 3, the second reflectance coating 4, the reflection of the first reflectance coating 3, second Film 4, in being staggeredly arranged, passes through the first reflectance coating 3,4 phase interworking of the second reflectance coating in the width direction of flow-type cuvette pond It closes, light is the injection flow-type ratio on the same section in the width direction of flow-type cuvette pond into multiple reflections, light is crossed Color ware pond, and projected from flow-type cuvette pond on identical section, so that the sensitivity of detection greatly improves.

Embodiment 6

As shown in fig. 7, a kind of cuvette is the flow-type cuvette pond with outlet, entrance, and in the present embodiment, this stream The cross section in dynamic formula cuvette pond is rectangular.

First reflectance coating 3, the second reflectance coating 4 are separately fixed at flow-type cuvette pond pool wall two sides, in flow-type In the width direction of cuvette pond, the size of the first reflectance coating 3 makes light from flow-type cuvette less than the size of the second reflectance coating 4 The ipsilateral injection of pond pool wall, ipsilateral injection.

In the present embodiment, 4 two sides of the second reflectance coating are in that curved arc or polyline shaped 5 enable light along vertical current Dynamic formula cuvette pond pool wall direction is injected, and is projected perpendicular to flow-type cuvette pond pool wall direction.

Certainly, the section in flow-type cuvette pond both can be rectangular, or circle or other shapes, by this field Technical staff is configured according to actual needs.

When solution to be measured flows in flow-type cuvette pond, it will generate the variation of concentration, the present invention passes through in colorimetric First reflectance coating 3, the second reflectance coating 4 are set on the pool wall of ware pond, and the first reflectance coating 3, the second reflectance coating 4 are in flow-type cuvette pond It is positioned opposite in width direction, it is cooperated by the first reflectance coating 3, the second reflectance coating 4, light is into multiple reflections, light is crossed On the same section in the width direction of flow-type cuvette pond inject flow-type cuvette pond, and on identical section from Flow-type cuvette projects in pond, so that the sensitivity of detection greatly improves.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, although referring to aforementioned reality Applying example, invention is explained in detail, for those skilled in the art, still can be to aforementioned each implementation Technical solution documented by example is modified or equivalent replacement of some of the technical features.It is all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of cuvette, which is characterized in that be respectively equipped with to be fitted to each other in two opposite transmissive walls of the cuvette and pass through light Reflection increases the first reflectance coating (3) and the second reflectance coating (4) of light light path in cuvette.

2. a kind of cuvette according to claim 1, which is characterized in that the cuvette is square tubular structure.

3. a kind of cuvette according to claim 1 or 2, which is characterized in that the cuvette includes at least a pair of parallel The light-transmitting plate (1) of setting, first reflectance coating (3), the second reflectance coating (4) are separately fixed on two light-transmitting plates (1), and first Reflectance coating (3), the second reflectance coating (4) be staggeredly arranged so that light from side light-transmitting plate (1) inject, other side light-transmitting plate (1) It projects.

4. a kind of cuvette according to claim 1 or 2, which is characterized in that the cuvette includes at least a pair of parallel The light-transmitting plate (1) of setting, first reflectance coating (3), the second reflectance coating (4) are separately fixed on two light-transmitting plates (1)；Described It is A at the top of one reflectance coating (3) and the distance between at the top of light-transmitting plate (1), the first reflectance coating (3) bottom and light-transmitting plate (1) The distance between bottom is B, is a the distance between at the top of the second reflectance coating (4) top and light-transmitting plate (1), described second The distance between reflectance coating (4) bottom and light-transmitting plate (1) bottom are b, wherein A > a, B > b.

5. a kind of cuvette according to claim 1 or 2, which is characterized in that the cuvette is flow-type cuvette pond, First reflectance coating (3), the second reflectance coating (4) are separately fixed at flow-type cuvette along perpendicular to the direction that liquid flows Pond pool wall two sides, the first reflectance coating (3), the second reflectance coating (4) are staggeredly arranged on the direction flowed perpendicular to liquid, make It obtains light to inject from the side pool wall in flow-type cuvette pond, other side pool wall projects.

6. a kind of cuvette according to claim 1 or 2, which is characterized in that the cuvette is flow-type cuvette pond, First reflectance coating (3), the second reflectance coating (4) are separately fixed at flow-type cuvette along perpendicular to the direction that liquid flows The pool wall two sides in pond, and projection of first reflectance coating (3) on the second reflectance coating (4) falls within the second reflectance coating (4) itself Projection inside so that light is injected from the ipsilateral pool wall in flow-type cuvette pond, ipsilateral pool wall is projected.

7. a kind of cuvette according to claim 3, which is characterized in that first reflectance coating (3), the second reflectance coating (4) shape and size are all the same, i.e. the first reflectance coating (3), the second reflectance coating (4) one end be in flat, and the other end It is in have the curved arc or polyline shaped of curved surface or inclined-plane, and the curved arc or polyline shaped of the first reflectance coating (3), the second reflectance coating (4) End (5) is respectively facing the incident direction and exit direction of light.

8. a kind of cuvette according to claim 4, which is characterized in that first reflectance coating (3) is in flat；Second The both ends of reflectance coating (4) are curved arc or polyline shaped with curved surface or inclined-plane, and centre is flat, second reflectance coating (4) two curved arcs or polyline shaped end (5) are respectively facing the incident direction and exit direction of light.

9. a kind of cuvette according to claim 5, which is characterized in that first reflectance coating (3), the second reflectance coating (4) shape and size are all the same, i.e. the first reflectance coating (3), the second reflectance coating (4) one end be in flat, and the other end It is in have the curved arc or polyline shaped of curved surface or inclined-plane, and the curved arc or polyline shaped of the first reflectance coating (3), the second reflectance coating (4) End (5) is respectively facing the incident direction and exit direction of light.

10. a kind of cuvette according to claim 6, which is characterized in that first reflectance coating (3) is in flat；The The both ends of two reflectance coatings (4) are curved arc or polyline shaped with curved surface or inclined-plane, and centre is flat, second reflectance coating (4) two curved arcs or polyline shaped end (5) are respectively facing the incident direction and exit direction of light.