CN205109662U - Reagent bottle of mixing solid phase reagent - Google Patents

Abstract

The utility model relates to a reagent bottle of mixing solid phase reagent, include: first reagent bottle, first reagent bottle include first bottle, the cavity of setting in first bottle, the cavity in be provided with two at least baffles, the baffle will the cavity separates into two at least cavities, first kind baffle with the lateral wall of cavity and bottom form the annular first kind reagent passageway of semicircle, second type baffle with the lateral wall of cavity and the second type reagent passageway that the bottom formed " concave " shape. The utility model discloses reagent bottle of mixing solid phase reagent owing to have special diaphragm structure, can solve reagent mixing cross contamination's problem, and reagent bottle space utilization is high moreover, has improved the power power utilization, reduces the energy consumption, and simple structure requires lowly to the power device structure.

Description

A kind of reagent bottle mixing solid-phase reagent

Technical field

The utility model relates to a kind of reagent bottle, particularly relates to a kind of splendid attire in full-automatic immunoassay system and mixes the reagent bottle of solid-phase reagent.

Background technology

Mixing solid-phase reagent generally adopts the mode stirred and evenly mixed, and there is the problem of cross pollution.

At present, the mixing of reagent adopts shake or centrifugal mode mostly, after filling reagent by reagent bottle, be fixed in fixture, fixture is fixed on whirligig again, by whirligig slant setting, done to rotate shake or centrifugal motion by power set driven rotary device, thus mixing reagent.

For mixing solid-phase reagent, have adopt can optionally to the reagent bottle that different reagent mixes, but the reagent bottle inside that it uses adopts S shape duct, the mode of violent shake or rotating centrifugal is adopted to make reagent mix reagent by S shape duct during reagent mixing, S type pore passage structure takies a large amount of reagent bottle inner space, there is the problem that reagent bottle space availability ratio is low, in addition, violent shake or rotating centrifugal make power set power dissipation serious, there is the problem that aerodynamic power utilization rate is low, and higher to power set structural requirement.

Therefore, prior art has yet to be improved and developed.

Utility model content

In view of above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of reagent bottle mixing solid-phase reagent, thus overcome in prior art to there is cross pollution when mixing solid-phase reagent, reagent bottle space availability ratio is low, aerodynamic power utilization rate is low and the problem high to power set structural requirement.

The technical solution of the utility model is as follows:

A kind of reagent bottle mixing solid-phase reagent, comprise: the first reagent bottle, first reagent bottle comprises the first bottle, be arranged on the cavity in the first bottle, at least two dividing plates are provided with in described cavity, described cavity is divided at least two chambers by described dividing plate, and the first kind reagent passage of semi-annular shape is formed on the sidewall of first kind dividing plate and described cavity and bottom, and the Second Type reagent passage of " recessed " shape is formed on the sidewall of Second Type dividing plate and described cavity and bottom.

The reagent bottle of described mixing solid-phase reagent, described cavity has one at least.

The reagent bottle of described mixing solid-phase reagent, be inclined-plane in the middle of the bottom of described cavity, two ends are arc surface.

The reagent bottle of described mixing solid-phase reagent, described dividing plate has at least two to become non-parallel.

The reagent bottle of described mixing solid-phase reagent, described first kind reagent passage and Second Type reagent passage all have one at least.

The reagent bottle of described mixing solid-phase reagent, described first bottle is provided with the fixed structure for being fixed by described first reagent bottle on the securing means.

The reagent bottle of described mixing solid-phase reagent, is provided with the first bottle cap above described first bottle, described first bottle cap is provided with and gets bottle structure for what taken off from described fixture by described first reagent bottle.

The reagent bottle of described mixing solid-phase reagent, described first reagent bottle is integral type or combined type.

The reagent bottle of described mixing solid-phase reagent, described fixed structure and described first bottle are integral type or combined type, described in get bottle structure and described first bottle is integral type or combined type.

The reagent bottle of described mixing solid-phase reagent, the reagent bottle of described mixing solid-phase reagent also comprises the second auxiliary reagent bottle for mixing liquid phase reagent and the 3rd auxiliary reagent bottle.

The beneficial effects of the utility model are: a kind of reagent bottle mixing solid-phase reagent that the utility model provides, there is the feature of contactless mixing solid-phase reagent, the high and low energy consumption of space availability ratio, can solve current reagent mixing have cross pollution, reagent bottle space availability ratio is low, aerodynamic power utilization rate is low and the problem high to power set structural requirement.

Accompanying drawing explanation

Fig. 1 is the schematic cross section of the reagent bottle preferred embodiment of the utility model mixing solid-phase reagent.

Fig. 2 is the vertical section schematic diagram of the reagent bottle preferred embodiment of the utility model mixing solid-phase reagent.

Fig. 3 is the external structure schematic diagram of the reagent bottle preferred embodiment of the utility model mixing solid-phase reagent.

Fig. 4 be the utility model mixing solid-phase reagent reagent bottle preferred embodiment disassemble schematic diagram.

Detailed description of the invention

The utility model provides a kind of reagent bottle mixing solid-phase reagent, for making the purpose of this utility model, technical scheme and effect clearly, clearly, further describes the utility model referring to the accompanying drawing embodiment that develops simultaneously.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The reagent bottle of the mixing solid-phase reagent of the utility model preferred embodiment, as shown in Figure 1, comprising: the first bottle 17, is arranged on the cavity 30 in the first bottle 17, is provided with 3 dividing plates in cavity 30, is respectively the first dividing plate 6, second partition 7, the 3rd dividing plate 8; Cavity 30 is divided into 3 chambers by the first dividing plate 6, second partition 7 and the 3rd dividing plate 8, is respectively the first cavity 9, second cavity 10, the 3rd cavity 11; Wherein, the first dividing plate 6 is first kind dividing plate, and second partition 7, the 3rd dividing plate 8 are Second Type dividing plate; The first kind reagent passage 12 of semi-annular shape is formed on the sidewall of first kind dividing plate (the first dividing plate 6) and cavity 30 and bottom, as shown in Figure 1; The Second Type reagent passage 13 of " recessed " shape is formed on the sidewall of Second Type dividing plate (second partition 7 and the 3rd dividing plate 8) and cavity 30 and bottom, as depicted in figs. 1 and 2.

First kind reagent passage 12 and Second Type reagent passage 13 can make solid-phase reagent by time formed and to raise up motion, concentration large solid-phase reagent in bottom is formed and moves upward, thus mix reagent; Especially first kind reagent passage 12, owing to having the special construction of semi-annular shape, to solid-phase reagent by time the effect of raising up better than Second Type reagent passage 13, the Blending Efficiency of Blending thus reached is also better.

Further, in other embodiments, described cavity 30 also can be more than 2 or 2, such as on the first bottle 17 side by side or annular array 4 described cavitys 30 are set, on first bottle 17, so just can carry out the mixing work of 4 groups of different solid reagents simultaneously, improve a blending efficiency.

In other embodiments, first kind reagent passage 12 and Second Type reagent passage 13 also can arrange multiple, solid reagent so can be made through the effect of multiple first kind reagent passage 12 and Second Type reagent passage 13, further can improve the Blending Efficiency of Blending of solid-phase reagent.

With further reference to Fig. 1, as shown in Figure 1, be inclined-plane in the middle of the bottom of cavity 30, two ends are arc surface.3 dividing plates comprising the first dividing plate 6, second partition 7 and the 3rd dividing plate 8 are non-parallel each other, and the volume ratio that the first dividing plate 6, second partition 7, the 3rd dividing plate 8 occupy reagent cavity body is less, and the space availability ratio of reagent bottle is high.

As shown in Figure 3, first bottle 17 is provided with the fixed structure 5 for being fixed by the first reagent bottle 1 on the securing means, first bottle 17 is provided with the first bottle cap 14 above, described first bottle cap 14 is provided with and gets bottle structure 4 for what taken off from described fixture by the first reagent bottle 1.

As shown in Figure 4, the first reagent bottle 1 is integral type, and namely the first dividing plate 6, second partition 7, the 3rd dividing plate 8 are with the first bottle cap 14 for integral type is connected, and the first bottle cap 14 is connected for can not be split with the first bottle 17.Fixed structure 5 and bottle 17 are integral type, and namely fixed structure 5 and bottle 17 can not be split; Getting bottle structure 4 with bottle 17 is integral type, namely gets bottle structure 4 and the first bottle cap 14 and the first bottle 17 and can not be split.

In other embodiments, the first reagent bottle 1 also can be combined type, and such as the first bottle cap 14 and bottle 17 are detachable being slidably connected.

In other embodiments, fixed structure 5, getting bottle structure 4 and bottle 17 also can for detachable combined type, such as fixed structure 5 with get bottle structure 4 and be all connected with bottle 17 by buckle.

With further reference to Fig. 4, as shown in Figure 4, the reagent bottle of described mixing solid-phase reagent also comprises the second auxiliary reagent bottle 2 for mixing liquid phase reagent and the 3rd auxiliary reagent bottle 3; First reagent bottle 1 is connected with the second auxiliary reagent bottle 2 by buckle 20, second auxiliary reagent bottle 2 is connected with the 3rd auxiliary reagent bottle 3 by buckle 20, and the first reagent bottle 1 and the second auxiliary reagent bottle 2 and the 3rd are tried adjuvant bottle 3 and be combined by buckle 20 Connecting groups; Second auxiliary reagent bottle 2 comprises the second bottle cap 15 and the second bottle the 18, three auxiliary reagent bottle 3 comprises the 3rd bottle cap 16 and the 3rd bottle 19.

First reagent bottle 1 and the second auxiliary reagent bottle 2 and the 3rd auxiliary reagent bottle 3 are combined, when mixing solid-phase reagent in the first reagent bottle 1, can simultaneously mixing liquid phase reagent in the second auxiliary reagent bottle 2 and the 3rd auxiliary reagent bottle 3, improve the utilization rate of reagent evenly mixing device.

During the reagent bottle embody rule of mixing solid-phase reagent provided by the utility model, first reagent bottle 1 is loaded onto solid-phase reagent, liquid-phase reagent loaded onto by second auxiliary reagent bottle 2 and the 3rd auxiliary reagent bottle 3, then be all fixed in described fixture, described fixture is fixed on whirligig again, by whirligig slant setting, makes rotary eccentric movement by power set driven rotary device, thus mixing solid-phase reagent, simultaneously also mixing liquid phase reagent.

When power set rotate and stop, solid-phase reagent in first cavity 9 of the first reagent bottle 1 is under the effect of inertia, the opposite side of the first dividing plate 6 is relatively moved to by first kind reagent passage 12, solid-phase reagent is by forming the motion that raises up during first kind reagent passage 12, the solid-phase reagent that bottom concentration is large moves upward, thus mixing reagent.

When reagent mixing and supply, power set must rotate and stop, and therefore, power when rotating and stop can applying to mix solid-phase reagent by first kind reagent passage 12.

In power set rotation process, solid-phase reagent under centrifugal action in the 3rd cavity 11 moves in the second cavity 10 by Equations of The Second Kind reagent passage 13 by the 3rd cavity 11, and the solid-phase reagent in the second cavity 10 moves in the first cavity 9 by Equations of The Second Kind reagent passage 13 by the second cavity 10;

When in power set stopped process, solid-phase reagent under gravity in the first cavity 9 moves in the second cavity 10 by Equations of The Second Kind reagent passage 13 by the first cavity 9, solid-phase reagent in second cavity 10 moves in the 3rd cavity 11 by Equations of The Second Kind reagent passage 13 by the second cavity 10, solid-phase reagent is by forming the motion that raises up during Equations of The Second Kind reagent passage 13, the solid-phase reagent that bottom concentration is large moves upward, thus mixing reagent.

Therefore, the Partial Power starting in the power that power set can input when mixing solid-phase reagent by the first reagent bottle 1 and stop also utilizing, and improves the utilization rate of aerodynamic power.

In addition, the first reagent bottle 1 also may be used for mixing liquid phase reagent, and for convenience of description, the dividing plate of following indication comprises the first dividing plate 6, second partition 7 and the 3rd dividing plate 8.

When the first reagent bottle 1 is for mixing liquid phase reagent, when power set start, liquid is relatively moved to the opposite side of dividing plate under the effect of inertia by the side of dividing plate, when power set stop, liquid is relatively moved to the offside of dividing plate under the effect of inertia by the side of dividing plate; When in power set rotation process, liquid is moved to the offside of dividing plate under centrifugal action by the side of dividing plate, and when in power set stopped process, liquid is moved to the offside of dividing plate under gravity by the side of dividing plate; The part started in the power so inputted by power set and stop also utilizing.

Therefore, a kind of reagent bottle mixing solid-phase reagent provided by the utility model, owing to having special diaphragm structure, the problem of reagent mixing cross pollution can be solved, and reagent bottle space availability ratio is high, improve aerodynamic power utilization rate, reduce energy consumption, structure is simple, low to power set structural requirement.

Should be understood that; application of the present utility model is not limited to above-mentioned citing; for those of ordinary skills, can be improved according to the above description or convert, all these improve and convert the protection domain that all should belong to the utility model claims.

Claims (10)

1. one kind mixes the reagent bottle of solid-phase reagent, it is characterized in that, comprise: the first reagent bottle, first reagent bottle comprises the first bottle, be arranged on the cavity in the first bottle, be provided with at least two dividing plates in described cavity, described cavity is divided at least two chambers by described dividing plate, the first kind reagent passage of semi-annular shape is formed on the sidewall of first kind dividing plate and described cavity and bottom, and the Second Type reagent passage of " recessed " shape is formed on the sidewall of Second Type dividing plate and described cavity and bottom.

2. the reagent bottle of mixing solid-phase reagent according to claim 1, is characterized in that, described cavity has one at least.

3. the reagent bottle of mixing solid-phase reagent according to claim 1, is characterized in that, be inclined-plane in the middle of the bottom of described cavity, two ends are arc surface.

4. the reagent bottle of mixing solid-phase reagent according to claim 1, is characterized in that, described dividing plate has at least two to become non-parallel.

5. the reagent bottle of mixing solid-phase reagent according to claim 1, is characterized in that, described first kind reagent passage and Second Type reagent passage all have one at least.

6. the reagent bottle of mixing solid-phase reagent according to claim 1, is characterized in that, described first bottle is provided with the fixed structure for being fixed by described first reagent bottle on the securing means.

7. the reagent bottle of mixing solid-phase reagent according to claim 6, is characterized in that, is provided with the first bottle cap above described first bottle, described first bottle cap is provided with and gets bottle structure for what taken off from described fixture by described first reagent bottle.

8. the reagent bottle of mixing solid-phase reagent according to claim 1, is characterized in that, described first reagent bottle is integral type or combined type.

9. the reagent bottle of mixing solid-phase reagent according to claim 7, is characterized in that, described fixed structure and described first bottle are integral type or combined type, described in get bottle structure and described first bottle is integral type or combined type.

10. the reagent bottle of mixing solid-phase reagent according to claim 1, is characterized in that, the reagent bottle of described mixing solid-phase reagent also comprises the second auxiliary reagent bottle for mixing liquid phase reagent and the 3rd auxiliary reagent bottle.