CN208661187U - Agent bin and sample analyser - Google Patents

Abstract

The utility model discloses a kind of agent bin and sample analysers, the bottom of the agent bin is equipped with: the drain hole for installing the mixing mounting hole of mixing mechanism and for condensed water to be discharged, agent bin has the bus structure that can collect the condensed water for mixing installation bore edges, which is connected to drain hole.Agent bin disclosed by the utility model, collect the condensed water for mixing installation bore edges using bus structure, condensed water after collecting is discharged through drain hole, then it is discharged convenient for the condensed water of installation bore edges will be mixed, it to reduce condensed water into the probability for mixing mounting hole is installed on, is mixed at mounting hole since mixing mechanism is installed on, then also reduces the probability that condensed water enters the mixing hole of mixing mechanism, the service life for extending mixing mechanism improves the stability of mixing mechanism；Be also convenient for the condensation flows of other positions in agent bin and bore edges be installed to mixing, consequently facilitating in agent bin all condensed waters discharge.

Description

Agent bin and sample analyser

Technical field

The utility model relates to vitro diagnostic techniques fields, more specifically to a kind of agent bin and sample analyser.

Background technique

In detection test, it usually needs reagent is to obtain the testing result to sample, such as vitro detection.And reagent exists It needs to be stored in the environment with preset temperature when being not used, for example, reagent needs to be stored in the ring that temperature is 2 DEG C~8 DEG C In border.

In the instruments such as sample analyser, reagent storage is on the reagent disc of agent bin.Agent bin has refrigerating function, makes Its internal environment temperature controls at 10 DEG C the long-term effectiveness hereinafter, to ensure reagent.

Since agent bin has refrigerating function, then the vapor in agent bin inner air is easier to be cooled and form condensation Water, the condensed water remain in agent bin, especially when air humidity is larger.Since condensed water does not have mobility and water Surface tension effects, then the condensed water in agent bin can gather certain height.

The bottom of agent bin is equipped with the mixing mounting hole for installing mixing mechanism.In instrument operation, in agent bin Reagent disc rotation, and the condensed water with certain altitude is easier into the mixing hole of mixing mechanism, it is cold in hole into mixing Condensate can flow on mixing mechanism along the hole wall for mixing hole, and mixing mechanism is caused to get rusty, or even there is the electricity for making mixing mechanism The risk of machine damage, leads to that the service life of mixing mechanism is shorter, stability is poor.

In conclusion how to reduce the condensed water in agent bin enters the probability for mixing hole, to extend making for mixing mechanism With service life and the stability of raising mixing mechanism, it is a problem to be solved by those skilled in the art.

Utility model content

The purpose of the utility model is to provide a kind of agent bins, reduce the condensed water in agent bin and enter the several of mixing hole Rate, to extend the service life of mixing mechanism and improve the stability of mixing mechanism.The utility model another object is that mentioning For a kind of sample analyser with mentioned reagent storehouse.

To achieve the goals above, the utility model provides the following technical solutions:

The bottom of a kind of agent bin, the agent bin is equipped with: for installing the mixing mounting hole of mixing mechanism and being used for The drain hole of condensed water is discharged, the agent bin has the confluence knot that can collect the condensed water for mixing installation bore edges Structure, the bus structure are connected to the drain hole.

Preferably, the bus structure is collecting tray, and the collecting tray is located at the bottom of the agent bin and is located at described Mix the edge of mounting hole.

Preferably, it is equipped at the mixing mounting hole and mixes flange, the top end face and the collecting tray for mixing flange The difference in height of groove bottom be greater than condensed water and be formed by liquid level in the agent bin by its surface tension effects.

Preferably, the bus structure is confluence inclined-plane, and the confluence inclined-plane is located at the bottom of the agent bin and is located at The edge for mixing mounting hole, and the confluence inclined-plane mixes circumferentially inclining to the bottom side of the agent bin for mounting hole along described Tiltedly.

Preferably, it is equipped at the mixing mounting hole and mixes flange, the top for mixing flange is equipped with cold for limiting The inner bottom wall of the limit plate of condensate liquid level, the limit plate, the lateral wall for mixing flange and the agent bin is formed The bus structure.

Preferably, the bus structure is along the circumferential setting for mixing mounting hole.

Preferably, the bottom of the agent bin is equipped with diversion canal, and the drain hole is located at the slot bottom of the diversion canal, described Bus structure is connected to the drain hole by the diversion canal.

Preferably, the drain hole includes the first drain hole, the axis of first drain hole and the mixing mounting hole The distance between axis be not more than 30mm.

Preferably, first drain hole is two, and is located at the two sides for mixing mounting hole.

Preferably, the aperture of the first drain hole cooling supply condensate circulation, which is greater than hole, can make condensed water form liquid film most Large aperture.

Preferably, the drain hole further includes the second drain hole, and it is remote that second drain hole is located at first drain hole From the side for mixing mounting hole, the aperture of the first drain hole cooling supply condensate circulation is greater than the second drain hole cooling supply The aperture of condensate circulation.

Based on the agent bin of above-mentioned offer, the utility model additionally provides a kind of sample analyser, the sample analyser packet Agent bin is included, the agent bin is agent bin described in any of the above embodiments.

Agent bin provided by the utility model, by the way that the bus structure that is connected to drain hole is arranged, using bus structure come Collect the condensed water for mixing installation bore edges, the condensed water after collecting is discharged through drain hole, then installs bore edges convenient for that will mix Condensed water discharge, thus reduce condensed water enter be installed on mix mounting hole probability, due to mixing mechanism be installed on it is mixed At even mounting hole, then the probability that condensed water enters the mixing hole of mixing mechanism is also reduced, extend mixing mechanism uses the longevity Life, improves the stability of mixing mechanism.

Meanwhile agent bin provided by the utility model, convenient for the condensed water discharge of installation bore edges will be mixed, correspondingly, The condensation flow of other positions in agent bin is also convenient for installation bore edges are mixed, consequently facilitating all condensed waters in agent bin Discharge.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is the embodiments of the present invention, for those of ordinary skill in the art, without creative efforts, also Other attached drawings can be obtained according to the attached drawing of offer.

Fig. 1 is the structural schematic diagram of agent bin provided by the embodiment of the utility model；

Fig. 2 is the partial enlarged view of Fig. 1；

Fig. 3 is the explosive view of agent bin provided by the embodiment of the utility model；

Fig. 4 is the cross-sectional view of agent bin provided by the embodiment of the utility model；

Fig. 5 is the enlarged drawing of part A in Fig. 4；

Fig. 6 is the enlarged drawing of part B in Fig. 4.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in figures 1 to 6, agent bin provided by the embodiment of the utility model is for placing reagent bottle, the bottom of the agent bin It is equipped with: the drain hole for installing the mixing mounting hole of mixing mechanism 13 and for condensed water to be discharged.

In order to solve the technical issues of being mentioned above, mentioned reagent storehouse has the condensation that can collect mixing installation bore edges The bus structure of water, bus structure are connected to drain hole.

It for the specific structure of above-mentioned bus structure, is designed according to actual needs, as long as guaranteeing above-mentioned bus structure The condensed water for mixing installation bore edges can be collected.It is understood that collecting mixing installation hole edge by bus structure The condensed water of edge, in this way, facilitating the flowing of condensed water, condensed water is more smoothly discharged, and will not mix shape at mounting hole At condensed water clustering phenomena.

Collect mixing installation using bus structure by the way that the bus structure being connected to drain hole is arranged in mentioned reagent storehouse The condensed water of bore edges, the condensed water after collecting are discharged through drain hole, then are discharged convenient for that will mix the condensed water of installation bore edges, To reduce condensed water into the probability for mixing mounting hole is installed on, mixed at mounting hole since mixing mechanism 13 is installed on, The probability that condensed water enters the mixing hole 9 of mixing mechanism 13 is then also reduced, the service life of mixing mechanism 13 is extended, improves The stability of mixing mechanism 13.

Meanwhile mentioned reagent storehouse is convenient for that the condensed water discharge of installation bore edges will be mixed, and correspondingly, is also convenient in agent bin The condensation flow of other positions to mix install bore edges, consequently facilitating in agent bin all condensed waters discharge.

As shown in Figure 1, Figure 2, shown in Fig. 4 and Fig. 5, for the ease of bus structure is arranged, above-mentioned bus structure is selected preferentially to converge Chute 10, the collecting tray 10 are located at the bottom of agent bin and are located at the edge for mixing mounting hole.It is understood that collecting tray 10 Opening towards agent bin opening.

Above-mentioned collecting tray 10 can collect the condensed water for mixing installation bore edges under the effect of gravity.

It is equipped at above-mentioned mixing mounting hole and mixes flange 5, mix the bottom that flange 5 passes through agent bin, mix the top of flange 5 End face is higher than the groove bottom of collecting tray 10, and mixing mechanism 13, which is installed on, to be mixed on flange 5, mixes hole 9 and is located at the interior of mixing flange 5 Kong Zhong.

In order to further optimize the above technical scheme, the height of the top end face of flange 5 and the groove bottom of collecting tray 10 is mixed Difference is greater than condensed water and is formed by liquid level in agent bin by its surface tension effects.It is understood that above-mentioned mixing The top end face of flange 5 is to mix flange 5 close to the end face that agent bin is open.

For the specific value of above-mentioned difference in height, selected according to the self-characteristic of the material of agent bin and condensed water It selects, the utility model embodiment does not limit this.

Above-mentioned collecting tray 10 can be one, can also at least two.For the ease of condensed water is discharged, above-mentioned collecting tray 10 is one It is a, and collecting tray 10 is along the circumferential setting for mixing mounting hole.Specifically, collecting tray 10 can in a ring, can also be arc-shaped, this is practical New embodiment does not limit this.

When collecting tray 10 be it is multiple, it is preferential to select collecting tray 10 along mixing the circumferentially distributed of mounting hole, it is further, adjacent Two collecting trays 10 connection.At this point, collecting tray 10 can for circular groove, square groove, arc groove etc., the utility model embodiment to this not It limits.Above-mentioned bus structure can also be other types, for example, above-mentioned bus structure is confluence inclined-plane, which is located at The bottom of agent bin and the edge for being located at mixing mounting hole, and the inclined-plane that converges is along the circumferential to the bottom side of agent bin of mixing mounting hole Inclination.

Above-mentioned confluence inclined-plane realizes collecting to the condensed water for mixing mounting hole edge by gravity.

Above-mentioned confluence inclined-plane can be one, can also be at least two, the utility model embodiment does not limit this.

Above-mentioned bus structure can also be other structures.For example, the top of above-mentioned mixing flange 5 is equipped with for limiting condensed water The inner bottom wall of the limit plate of liquid level, the limit plate, the lateral wall for mixing flange 5 and agent bin forms bus structure.It can be with Understand, the top of above-mentioned mixing flange 5 is to mix flange 5 close to the part that agent bin is open.

Above-mentioned bus structure limits the liquid level for mixing mounting hole edge condensed water by limit plate, has been utilized Limit space realizes the confluence to condensed water.Meanwhile limit plate also blocks condensed water and enters mixing hole 9, further reduces Condensed water enters the probability for mixing hole 9.

In order to improve limit degree, above-mentioned limit plate annular slab, further, which, which is coated at, mixes flange 5.When So, it is other shapes, such as arc panel that above-mentioned limit plate, which also may be selected, it is not limited to this.

In summary three kinds of specific structures of bus structure, would know that, enter mixing hole 9 to further decrease condensed water Probability, above-mentioned bus structure is along the circumferential setting for mixing mounting hole.

Above-mentioned bus structure can realize the connection with drain hole by channels such as slot channel, hole paths.For the ease of being arranged, Preferential selection is connected to by slot channel with drain hole using above-mentioned bus structure.Specifically, as shown in figs. 2,4 and 6, above-mentioned The bottom of agent bin is equipped with diversion canal 8, and drain hole is located at the slot bottom of diversion canal 8, bus structure and drain hole and is connected by diversion canal 8 It is logical.It is understood that opening of the opening of diversion canal 8 towards agent bin

Further, above-mentioned diversion canal 8 is arranged along the circumferential direction of agent bin.It is preferential to select when bus structure is collecting tray 10 The part for selecting mixing mounting hole is provided in diversion canal 8, and the edge for mixing another part of mounting hole is equipped with collecting tray 10, confluence Slot 10 and diversion canal 8 are docked and connected.

For the ease of condensed water, the depth of above-mentioned collecting tray 10 and the deep equality of diversion canal 8 or collecting tray 10 is discharged Depth be less than diversion canal 8 depth.Enter the probability mixed in hole 9 to reduce condensed water, preferential selection collecting tray 10 The deep equality of depth and diversion canal 8.

In mentioned reagent storehouse, for the position of drain hole, it is designed according to actual needs.It is installed to mix as early as possible Condensed water discharge at bore edges, selection drain hole is close to mixing mounting hole as far as possible.Preferably, above-mentioned drain hole includes first Drain hole 6, the distance between the axis of first drain hole 6 and the axis for mixing mounting hole are not more than 30mm.

For the specific value of above-mentioned distance, can also be selected according to actual needs, it is not limited to this.

As shown in Fig. 2, above-mentioned first drain hole 6 is two, and it is located at the two sides for mixing mounting hole.Certainly, optional Selecting above-mentioned first drain hole 6 is other numerical value, such as the first drain hole 6 is one or three with first-class.

For the aperture of drain hole, it is designed according to actual needs.Guaranteeing what agent bin mechanical performance was met the requirements Under the premise of, the aperture of drain hole is the bigger the better, and forms liquid film to avoid condensed water and blocks drain hole.Preferably, above-mentioned first row Discharge orifice 6 is greater than the maximum diameter of hole that hole can make condensed water form liquid film for the aperture that condensed water circulates.This way it is ensured that condensed water It not will form liquid film at the first drain hole 6, i.e., will not block the first drain hole 6.Further, above-mentioned first drain hole 6 supplies The aperture of condensed water circulation is greater than 6mm.Certainly, it is other that above-mentioned first drain hole 6, which also may be selected, for the aperture that condensed water circulates Numerical value, it is not limited to this.

Specifically, when 6 supplying cold directly condensate of the first drain hole circulates, then the internal diameter of the first drain hole 6 is for condensation The logical aperture of water flow；When needing to install drain tube at the first drain hole 6, the internal diameter of the drain tube at first drain hole 6 is For the aperture circulated for condensed water.

In order to accelerate to mix the discharge of condensed water at mounting hole, while the intensity of agent bin is improved again, preferentially select above-mentioned Drain hole further includes the second drain hole 7, and the second drain hole 7 is located at the first side of the drain hole 6 far from mixing mounting hole, and first Drain hole 6 is greater than the aperture that the second drain hole 7 circulates for condensed water for the aperture that condensed water circulates.

It for the number and aperture occurrence of the second drain hole 7, is designed according to actual needs, the utility model is implemented Example does not limit this.

Available reagent storehouse has the second drain hole 7, then above structure can add the first drain hole 6 on available reagent storehouse, Directly available reagent storehouse is processed, without remanufacturing agent bin, production is facilitated, reduces costs.

For the ease of agent bin is discharged in condensed water, preferentially select that drain tube is installed at above-mentioned drain hole.Specifically, it arranges Flow tube is installed on drain hole by pipe fitting, as shown in Figure 3.Specifically, when drain hole includes the first drain hole 6 and the second drainage When hole 7, drain tube includes the first drain tube 3 and the second drain tube 4, and the first drain tube 3 is installed on the by the first pipe fitting 12 One drain hole 6；Second drain tube 4 is installed on the second drain hole 7 by the second pipe fitting 11.

For the ease of installation, above-mentioned drain tube is hose, and above-mentioned pipe fitting is nipple, and above-mentioned drain hole is screw thread Hole.

Mentioned reagent storehouse mainly includes agent bin ontology 1 and partition 2；Wherein, agent bin ontology 1 includes bottom plate and and bottom plate Connected cyclic annular side plate, partition 2 are installed on the bottom side of bottom plate；It mixes mounting hole and drain hole runs through bottom plate and partition 2, confluence knot Structure is set to bottom plate.

Aforementioned barriers 2 completely cut off the heat sink below agent bin and agent bin, influence to avoid the heat sink for belonging to hot property The refrigeration effect of agent bin.Generally selecting aforementioned barriers 2 is heat-insulating shield.Preferably, aforementioned barriers 2 are ABS (Acrylonitrile Butadiene Styrene plastic) plastic plate.Certainly, aforementioned barriers 2 also may be selected is other Plate, it is not limited to this.

The material for mixing flange 5 is ABS (Acrylonitrile Butadiene Styrene plastic) plastics, peace Mounted in the agent bin back side, the top for mixing flange 5 is embedded into agent bin by mixing mounting hole, which can rise It is opened to mixing to completely cut off with the agent bin for belonging to cold conditions reagent, avoids agent bin by Conduction At Low Temperature to mixing mechanism 13, avoid The temperature of mixing mechanism 13 is too low and mixing mechanism 13 on generate condensed water.

It should be noted that the top of above-mentioned mixing flange 5 is to mix flange 5 close to one end that agent bin is open.On Stating and mixing flange 5 is hubbed flange, and the top for mixing flange 5 is the neck end for mixing flange 5.

The agent bin provided based on the above embodiment, the utility model embodiment additionally provide a kind of sample analyser, should Sample analyser includes agent bin, which is agent bin described in above-described embodiment.

Since mentioned reagent storehouse has above-mentioned technique effect, above-mentioned sample analyser has mentioned reagent storehouse, then above-mentioned sample This analyzer also has corresponding technical effect, and repeats no more herein.

The foregoing description of the disclosed embodiments makes those skilled in the art can be realized or use the utility model. Various modifications to these embodiments will be apparent for a person skilled in the art, general original as defined herein Reason can be realized in other embodiments without departing from the spirit or scope of the present utility model.Therefore, this is practical new Type is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase Consistent widest scope.

Claims (12)

1. the bottom of a kind of agent bin, the agent bin is equipped with: for installing the mixing mounting hole of mixing mechanism and for arranging The drain hole of condensed water out, which is characterized in that

The agent bin have can collect it is described mix installation bore edges condensed water bus structure, the bus structure with The drain hole connection.

2. agent bin according to claim 1, which is characterized in that the bus structure is collecting tray, the confluence slot position In the agent bin bottom and be located at it is described mix mounting hole edge.

3. agent bin according to claim 2, which is characterized in that it is equipped at the mixing mounting hole and mixes flange, it is described The difference in height of the top end face for mixing flange and the groove bottom of the collecting tray is greater than condensed water by its surface tension effects described Liquid level is formed by agent bin.

4. agent bin according to claim 1, which is characterized in that the bus structure is confluence inclined-plane, and the confluence is oblique Face is located at the bottom of the agent bin and is located at the edge for mixing mounting hole, and the confluence inclined-plane is installed along the mixing The circumferential of hole tilts to the bottom side of the agent bin.

5. agent bin according to claim 1, which is characterized in that it is equipped at the mixing mounting hole and mixes flange, it is described The top for mixing flange is equipped with limit plate for limiting condensed water liquid level, and the limit plate described mixes the outer of flange The inner bottom wall of side wall and the agent bin forms the bus structure.

6. agent bin according to claim 1, which is characterized in that the bus structure is along the circumferential direction for mixing mounting hole Setting.

7. agent bin according to claim 1, which is characterized in that the bottom of the agent bin is equipped with diversion canal, the row Discharge orifice is located at the slot bottom of the diversion canal, and the bus structure is connected to the drain hole by the diversion canal.

8. agent bin described in any one of -7 according to claim 1, which is characterized in that the drain hole includes the first drainage Hole, the distance between the axis of first drain hole and the axis for mixing mounting hole are not more than 30mm.

9. agent bin according to claim 8, which is characterized in that first drain hole is two, and is located at institute State the two sides for mixing mounting hole.

10. agent bin according to claim 8, which is characterized in that the aperture of the first drain hole cooling supply condensate circulation Greater than the maximum diameter of hole that hole can make condensed water formation liquid film.

11. agent bin according to claim 8, which is characterized in that the drain hole further includes the second drain hole, and described Two drain holes are located at first drain hole far from the side for mixing mounting hole, the first drain hole cooling supply condensate circulation Aperture be greater than the second drain hole cooling supply condensate circulation aperture.

12. a kind of sample analyser, including agent bin, which is characterized in that the agent bin is as any in claim 1-11 Agent bin described in.