CN204964279U - A container for dyeing and analysis liquid - Google Patents

Abstract

The utility model relates to a liquid dyeing and analysis technical field aim at providing a container for dyeing and analysis liquid. This kind of a container for dyeing and analysis liquid includes analysis container and dyeing container, and a container for dyeing and analysis liquid is constituteed with dyeing container interconnect is fixed to the analysis container, and the analysis container can be according to the different transform relative position of demand with the dyeing container. The utility model discloses make liquid analysis container compromise the dyeing function simultaneously to when carrying out the liquid analysis, can realize annotating fast liquid.

Description

A kind of for dyeing and analyzing the container of liquid

Technical field

The utility model is about liquid dyeing and analysis technical field, particularly a kind of for dyeing and analyzing the container of liquid.

Background technology

In the numerous project of clinical examination, mostly be the detection to liquid, especially the composition of liquid analyzed.General for liquid component quantitative test mainly through carrying out micro-or Digital Image Processing to the composition in dosing container, and cell dyeing can better realize cell collection and identification, carries out analysis will become main flow to dyeing liquid.Dosing container is main in full-automatic instrument in the past, and what adopt is glass counting chamber, and reuses.But the application of counting chamber is easily colored agent pollutes generation background color and plug-hole.

Chinese patent (application number: 200790000098.4) provide a kind of under occupied state, be centrifuged separation after for the container of optical analysis liquid, it is disposable product.It has departed from reusable limitation in the past, and adopt calibrated shot to be accurately filled with container, single use also can well avoid the pollution problem brought of dyeing.But be positioned at the both sides of cavity volume because it injects button with water delivering orifice, liquid fills pond to rotate around cavity volume filling in the process of pond.General bubble is mainly present in the leading portion of liquid, if but fill pond excessive velocities bubble and easily hoard at cavity volume center, cause to discharge from freeing port by design route, wholely fill the pond time and also will be delayed; And it does not possess the container for dyeing, if instrument will dye, need the container that other remarks dye.

Therefore, those skilled in the art is devoted to develop a kind of conveniently for dyeing and analyzing the container of liquid, by reasonably arranging the versatility of entry and exit and design and multiplex container, can solving the above problems.

Utility model content

Fundamental purpose of the present utility model is to overcome deficiency of the prior art, provides a kind of and can solve the function having dyeing simultaneously, analyze well, and can realize the container filling pond fast.For solving the problems of the technologies described above, solution of the present utility model is:

There is provided a kind of for dyeing and analyzing the container of liquid, comprise analyzing container and dyeing container, analyzing container and dyeing container are interconnected and fixed composition for the container dyeed with analyze liquid (analyzing container with dyeing container can according to demand different conversion relative position);

The inside of described analyzing container has analysis cavity, and analyzes the position, upper middle that cavity is arranged on analyzing container; The analysis cavity epicoele face of analyzing container is upper cover light path forms, the analysis cavity cavity of resorption face of analyzing container is light path forms of going to the bottom, and upper cover light path forms, light path of going to the bottom forms are respectively groove-like setting, namely the upper surface of upper cover light path forms is lower than the upper surface of analyzing container, the lower surface of light path of going to the bottom forms higher than the upper surface of analyzing container, upper cover light path forms and go to the bottom light path forms can as observation area;

The position, lower middle of described analyzing container upper surface has the liquid injection port of an inverted round table shape, and the below of liquid injection port is connected with reservoir channel, and reservoir channel is communicated with analysis cavity, injects liquid by reservoir channel in analysis cavity; The liquid injection port symmetria bilateralis of analyzing container upper surface has left gas outlet and right gas outlet, and the below of left gas outlet is connected with left buffer channel, and the below of right gas outlet is connected with right buffer channel, and left buffer channel, right buffer channel are communicated with analysis cavity respectively;

Described dyeing container is groove-like structure, adopts arc-shaped transition between the bottom of dyeing container and trough rim, i.e. low centered by the bottom of dyeing container, surrounding is high.

As further improvement, described left buffer channel and right buffer channel are symmetrical bending passage (the preferred C type of shape of bending passage).

As further improvement, the lower right of described analysis cavity, the lower right of light path of namely going to the bottom forms is provided with a projection, and protruding upper surface roughness (Ra) is lower than 0.16 μm.

As further improvement, the height of described projection is 0.02mm, the square of protruding upper surface to be the length of side be 2mm.

As further improvement, the upper surface of described upper cover light path forms is lower than the upper surface 0.2mm of analyzing container, and the lower surface of light path of going to the bottom forms is higher than the lower surface 0.2mm of analyzing container.

As further improvement, described in the go to the bottom thickness of light path forms be 1.1mm.

As further improvement, described analysis cavity is cuboid-type cavity, the end face of cubic type cavity and bottom surface are respectively upper cover light path forms, light path of going to the bottom forms, a side of cuboid-type cavity is as fluid injection side, namely fluid injection side is used for being communicated with reservoir channel, left buffer channel, right buffer channel, opposite flank and all the other sides of this fluid injection side adopt Rouno Cormer Pregrinding Wheel transition, and radius of corner is greater than 3mm.

As further improvement, described dyeing container is for being rectangular parallelepiped groove-like structure, and groove inner bottom part corner is all rounding, and the radius of rounding is greater than 1.5mm.

As further improvement, the upper and lower surface of described upper cover light path forms, the upper and lower surface of light path of going to the bottom forms are all best bright finish, and namely surfaceness (Ra) is not more than 0.08 μm; The inside grooves of described dyeing container is all best bright finish, and namely surfaceness (Ra) is not more than 0.08 μm.

As further improvement, described for dyeing and analyzing the container employing upper cover of liquid and go to the bottom assembled;

The lower surface of upper cover is provided with reservoir channel, upper left buffer channel, upper right buffer channel; Upper cover light path forms adopt groove to arrange at the lower surface of upper cover, and the edge of upper cover light path forms is provided with a circle solder-bump, and cavity is analyzed in formation;

The upper surface of going to the bottom is provided with lower reservoir channel, bottom left buffer channel, bottom right buffer channel; Light path of going to the bottom forms adopt groove to arrange at the upper surface of going to the bottom, and the edge of light path forms of going to the bottom is provided with a circle groove, analyzes cavity under formation; On dyeing container is also arranged on and goes to the bottom;

Upper cover and go to the bottom closing lid time: upper reservoir channel, lower reservoir channel closing lid form reservoir channel, and upper left buffer channel, bottom left buffer channel closing lid form left buffer channel, and upper right buffer channel, bottom right buffer channel closing lid form right buffer channel; One circle solder-bump and go to the bottom of upper cover is enclosed groove joint close and is welded, and analysis cavity, lower analysis cavity closing lid is formed and analyzes cavity.

Compared with prior art, the beneficial effects of the utility model are:

The utility model makes fluid analysis container take into account dyeing function simultaneously, and when carrying out fluid analysis, can realize quick fluid injection.

Accompanying drawing explanation

Fig. 1 is one-piece construction schematic diagram of the present utility model.

Fig. 2 is stereo appearance figure of the present utility model.

Fig. 3 is upper cover surface structure of the present utility model signal.

Fig. 4 is upper cover lower surface configuration schematic diagram of the present utility model.

Fig. 5 is lower surface configuration schematic diagram of going to the bottom of the present utility model.

Fig. 6 is surface structure schematic diagram of going to the bottom of the present utility model.

Reference numeral in figure is: 1 upper cover; 11 upper cover light path forms; 12 liquid injection port; 13 left gas outlets; 14 right gas outlets; Reservoir channel on 15; 16 upper left buffer channels; 17 upper right buffer channels; 18 solder-bump; Cavity is analyzed on 19; 2 go to the bottom; 21 go to the bottom light path forms; Analyze cavity 22 times; 23 is protruding; 24 times reservoir channels; 25 bottom left buffer channels; 26 bottom right buffer channels; 27 grooves; 3 analyzing containers; 31 reservoir channels; 32 left buffer channels; 33 right buffer channels; 34 analyze cavity; 35 Rouno Cormer Pregrinding Wheels; 4 dyeing containers.

Embodiment

Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail:

As shown in Figure 1 and Figure 2 a kind of comprises the analyzing container 3 and dyeing container 4 that are interconnected and fixed for dyeing and analyzing the container of liquid, can carry out dyeing and the analysis of human body fluid, and two containers can according to demand difference conversion relative position.Dyeing container 4 is convenient to liquid dyeing mixing, and carries out optical analysis to filling pond liquid, and optical analysis preferably relies on microscope to carry out under illumination.After utilizing this patent to carry out dyeing and filling pond, by other equipment, for the container dyeed and analyze liquid, centrifugal treating is carried out to this again, the liquid visible component rapid precipitation in analyzing container 3 is made to observe bottom in container, micro-imaging can be carried out to visible component in liquid fast, and realize identifying counting object.

The inside of described analyzing container 3 has the analysis cavity 34 of cuboid-type, and analyzes the position, upper middle that cavity 34 is arranged on analyzing container 3.The analysis cavity 34 epicoele face of analyzing container 3 is upper cover light path forms 11, the analysis cavity 34 cavity of resorption face of analyzing container 3 is light path forms 21 of going to the bottom, and upper cover light path forms 11, light path of going to the bottom forms 21 are respectively groove-like setting, namely the upper surface of upper cover light path forms 11 is lower than the upper surface 0.2mm of analyzing container 3, the lower surface of light path of going to the bottom forms 21, higher than the upper surface 0.2mm of analyzing container 3, effectively can avoid surface scratches.Upper cover light path forms 11 and go to the bottom light path forms 21 can as microscopic region, the thickness of light path of going to the bottom forms 21 is 1.1mm, to adapt to microscopical light path.Analyze the lower right of cavity 34, the lower right of light path of namely going to the bottom forms 21 is provided with a projection 23, and the height of protruding 23 is 0.02mm, the square of the upper surface of protruding 23 to be length of sides be 2cm; The upper surface of protruding 23 will by flour milling process, and surface roughness Ra, lower than 0.16 μm, will be conducive to Mould Machining and microscope to the initial alignment of analysis level.

The position, lower middle of analyzing container 3 upper surface has the liquid injection port 12 of an inverted round table shape, and the below of liquid injection port 12 is connected with reservoir channel 31, and reservoir channel 31 is communicated with analysis cavity 34, injects liquid by reservoir channel 31 in analysis cavity 34.Liquid injection port 12 symmetria bilateralis of analyzing container 3 upper surface has left gas outlet 13 and right gas outlet 14, the below of left gas outlet 13 is connected with left buffer channel 32, the below of right gas outlet 14 is connected with right buffer channel 33, left buffer channel 32, right buffer channel 33 are communicated with analysis cavity 34 respectively, and design function is for discharging injection bubble in liquid or too much liquid.Reservoir channel 31 is arranged between two parties, and left buffer channel 32, right buffer channel 33 also symmetria bilateralis are arranged; And left buffer channel 32 and right buffer channel 33 are symmetrical bending passage, the shapes such as bending passage can adopt C type curved, can adapt to bubble or original liquid like this and to enter fast and visible component after well reducing liquid fluctuation after centrifugation and making precipitation forms movement.

In analysis cavity 34, reservoir channel 31, left buffer channel 32, right buffer channel 33 are all communicated with the side analyzing cavity 34, i.e. fluid injection side, the opposite flank of this fluid injection side and all the other sides adopt Rouno Cormer Pregrinding Wheel 35 transition, and radius of corner is preferably greater than 3mm, fillet design preferably can make liquid after injecting fast, effectively makes bubble or original liquid enter buffer channel in the first batch.The upper and lower surface of the upper and lower surface of upper cover light path forms 11, light path of going to the bottom forms 21 is all best bright finish, and namely surface roughness Ra is not more than 0.08 μm.

Described dyeing container 4 is rectangular parallelepiped groove-like structure, and plurality of liquid will be mixed in dyeing container 4, and be detached completely.Adopt arc-shaped transition between the bottom of dyeing container 4 and trough rim, i.e. low centered by the bottom of dyeing container 4, surrounding is high; And groove inner bottom part corner is all rounding, and the radius of rounding is preferably greater than 1.5mm.The inside grooves of dyeing container 4 is all best bright finish, and namely surface roughness Ra is not more than 0.08 μm, so that liquid can detach completely, can not be formed residual.

In the present embodiment, adopt upper cover 1 for the container dyeed and analyze liquid and go to the bottom 2 assembled.

As shown in Figure 3, Figure 4, the lower surface of upper cover 1 is provided with reservoir channel 15, upper left buffer channel 16, upper right buffer channel 17; Upper cover light path forms 11 adopt groove to arrange at the lower surface of upper cover 1, and the edge of upper cover light path forms 11 is provided with a circle solder-bump 18, and cavity 19 is analyzed in formation.

As shown in Figure 5, Figure 6, go to the bottom 2 upper surface be provided with lower reservoir channel 24, bottom left buffer channel 25, bottom right buffer channel 26; Light path of going to the bottom forms 21 go to the bottom 2 upper surface adopt groove to arrange, and the edge of light path forms 21 of going to the bottom is provided with a circle groove 27, is formed to analyze cavity 22 down; Dyeing container 4 is also arranged on goes to the bottom on 2.

Upper cover 1 and go to the bottom 2-in-1 lid time: upper reservoir channel 15, lower reservoir channel 24 closing lid formation reservoir channel 31, upper left buffer channel 16, bottom left buffer channel 25 closing lid form left buffer channel 32, and upper right buffer channel 17, bottom right buffer channel 26 closing lid form right buffer channel 33; One circle solder-bump 18 of upper cover 1 with go to the bottom 2 one enclose the ultrasonic soldering of groove 27 joint close, make analysis cavity 19, lower analysis cavity 22 closing lid form analysis cavity 34.

Finally, it should be noted that above what enumerate is only specific embodiment of the utility model.Obviously, the utility model is not limited to above embodiment, can also have a lot of distortion.All distortion that those of ordinary skill in the art can directly derive or associate from content disclosed in the utility model, all should think protection domain of the present utility model.

Claims (10)

1. for dyeing and analyzing the container of liquid, comprise analyzing container and dyeing container, it is characterized in that, analyzing container and dyeing container are interconnected and fixed composition for dyeing and analyzing the container of liquid;

The inside of described analyzing container has analysis cavity, and analyzes the position, upper middle that cavity is arranged on analyzing container; The analysis cavity epicoele face of analyzing container is upper cover light path forms, the analysis cavity cavity of resorption face of analyzing container is light path forms of going to the bottom, and upper cover light path forms, light path of going to the bottom forms are respectively groove-like setting, namely the upper surface of upper cover light path forms is lower than the upper surface of analyzing container, the lower surface of light path of going to the bottom forms higher than the upper surface of analyzing container, upper cover light path forms and go to the bottom light path forms can as observation area;

The position, lower middle of described analyzing container upper surface has the liquid injection port of an inverted round table shape, and the below of liquid injection port is connected with reservoir channel, and reservoir channel is communicated with analysis cavity, injects liquid by reservoir channel in analysis cavity; The liquid injection port symmetria bilateralis of analyzing container upper surface has left gas outlet and right gas outlet, and the below of left gas outlet is connected with left buffer channel, and the below of right gas outlet is connected with right buffer channel, and left buffer channel, right buffer channel are communicated with analysis cavity respectively;

Described dyeing container is groove-like structure, adopts arc-shaped transition between the bottom of dyeing container and trough rim, i.e. low centered by the bottom of dyeing container, surrounding is high.

2. according to claim 1ly a kind ofly to it is characterized in that for dyeing and analyzing the container of liquid, described left buffer channel and right buffer channel are symmetrical bending passage.

3. according to claim 1 a kind of for dyeing and analyzing the container of liquid, it is characterized in that, the lower right of described analysis cavity, the lower right of light path of namely going to the bottom forms is provided with a projection, and protruding upper surface roughness is lower than 0.16 μm.

4. according to claim 3 a kind of for dyeing and analyzing the container of liquid, it is characterized in that, the height of described projection is 0.02mm, the square of protruding upper surface to be the length of side be 2mm.

5. according to claim 1ly a kind ofly to it is characterized in that for dyeing and analyzing the container of liquid, the upper surface of described upper cover light path forms is lower than the upper surface 0.2mm of analyzing container, and the lower surface of light path of going to the bottom forms is higher than the lower surface 0.2mm of analyzing container.

6. according to claim 1ly a kind ofly to it is characterized in that for dyeing and analyzing the container of liquid, described in the go to the bottom thickness of light path forms be 1.1mm.

7. according to claim 1 a kind of for dyeing and analyzing the container of liquid, it is characterized in that, described analysis cavity is cuboid-type cavity, the end face of cubic type cavity and bottom surface are respectively upper cover light path forms, light path of going to the bottom forms, a side of cuboid-type cavity is as fluid injection side, namely fluid injection side is used for being communicated with reservoir channel, left buffer channel, right buffer channel, and opposite flank and all the other sides of this fluid injection side adopt Rouno Cormer Pregrinding Wheel transition, and radius of corner is greater than 3mm.

8. according to claim 1ly a kind ofly to it is characterized in that for dyeing and analyzing the container of liquid, described dyeing container is for being rectangular parallelepiped groove-like structure, and groove inner bottom part corner is all rounding, and the radius of rounding is greater than 1.5mm.

9. according to claim 1 a kind of for dyeing and analyzing the container of liquid, it is characterized in that, the upper and lower surface of described upper cover light path forms, the upper and lower surface of light path of going to the bottom forms are all best bright finish, and namely surfaceness is not more than 0.08 μm; The inside grooves of described dyeing container is all best bright finish, and namely surfaceness is not more than 0.08 μm.

10. a kind of according to claim 1 to 9 any one is characterized in that for dyeing and analyzing the container of liquid, describedly adopts upper cover for the container dyeed and analyze liquid and goes to the bottom assembled;

The lower surface of upper cover is provided with reservoir channel, upper left buffer channel, upper right buffer channel; Upper cover light path forms adopt groove to arrange at the lower surface of upper cover, and the edge of upper cover light path forms is provided with a circle solder-bump, and cavity is analyzed in formation;

The upper surface of going to the bottom is provided with lower reservoir channel, bottom left buffer channel, bottom right buffer channel; Light path of going to the bottom forms adopt groove to arrange at the upper surface of going to the bottom, and the edge of light path forms of going to the bottom is provided with a circle groove, analyzes cavity under formation; On dyeing container is also arranged on and goes to the bottom;

Upper cover and go to the bottom closing lid time: upper reservoir channel, lower reservoir channel closing lid form reservoir channel, and upper left buffer channel, bottom left buffer channel closing lid form left buffer channel, and upper right buffer channel, bottom right buffer channel closing lid form right buffer channel; One circle solder-bump and go to the bottom of upper cover is enclosed groove joint close and is welded, and analysis cavity, lower analysis cavity closing lid is formed and analyzes cavity.