CN212410612U - Blood analyzer, reagent bottle storage device - Google Patents

Abstract

The utility model provides a blood analyzer and a reagent bottle storage device thereof, wherein the reagent bottle storage device comprises a box body, a cover plate and a bracket, and the box body is used for storing reagent bottles; the cover plate is used for opening or closing the box body, the cover plate is provided with a through reagent sampling hole, and the reagent sampling hole is opposite to the bottle mouth of the reagent bottle; the box body is supported by the bracket, and the bottom edge of the bracket is provided with a guide rail. The utility model provides a blood analyzer and reagent bottle storage device thereof novel structure, make simply, the dismouting is maintained all comparatively conveniently.

Description

Blood analyzer, reagent bottle storage device

Technical Field

The utility model relates to a blood analysis technical field especially relates to a blood analysis appearance, reagent bottle storage device.

Background

The full-automatic analyzer is widely used in hospitals at all levels, medical inspection laboratories and regional detection centers due to high measurement speed, high accuracy and small reagent consumption.

However, the conventional reagent bottle storage device has a complex structure, is inconvenient to manufacture and disassemble and is not convenient to maintain.

SUMMERY OF THE UTILITY MODEL

The application provides a blood analyzer, reagent bottle storage device to reagent bottle storage device among the detection device among the solution prior art structure is complicated, make inconvenient, the dismouting inconvenient and be unfavorable for the technical problem who maintains.

In order to solve the technical problem, the application adopts a technical scheme that: there is provided a reagent bottle storage device including:

the box body is used for storing reagent bottles;

the cover plate is used for opening or closing the box body, and is provided with a through reagent sampling hole which is opposite to the bottle mouth of the reagent bottle;

the box passes through the support supports, the bottom edge of support is equipped with first removal fitting piece.

In order to solve the above technical problem, another technical solution adopted by the present application is: a blood analyzer is provided, which comprises the reagent bottle storage device and a main case.

The beneficial effect of this application is: be different from prior art's condition, the utility model provides a reagent bottle storage device novel structure, make simply, dismouting maintenance are all comparatively convenient, and reagent is changed conveniently simultaneously, makes the instrument more automatic.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

fig. 1 is a schematic perspective view of a partial assembly in a blood analyzer according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view showing the reagent bottle storage device shown in FIG. 1 in an open state of a cover;

FIG. 3 is a schematic cross-sectional view of one embodiment of the reagent bottle storage device shown in FIG. 1;

FIG. 4 is another schematic cross-sectional view of an embodiment of the reagent bottle storage device shown in FIG. 1;

FIG. 5 is a schematic cross-sectional view of another embodiment of the reagent bottle storage device shown in FIG. 1;

FIG. 6 is a schematic perspective view of the reagent bottle shown in FIG. 2;

fig. 7 is a schematic perspective view of a partial assembly in a blood analyzer according to another embodiment of the present invention;

fig. 8 is a schematic perspective view of a partial assembly in a blood analyzer according to another embodiment of the present invention;

fig. 9 is a schematic view of a blood analyzer according to an embodiment of the present invention in a state where a reagent bottle storage device is drawn out;

FIG. 10 is a schematic view of the blood analyzer shown in FIG. 9 with the reagent bottle storage device withdrawn and the cover opened;

fig. 11 is a partially enlarged schematic view of fig. 10.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Please refer to fig. 1 to 8 together, the present invention provides a reagent bottle storage device, which comprises a cover plate 1, a box body 3, an air outlet cover 4, a bracket 7, a refrigeration bottom plate 8, a hinge 9, a first positioning portion 10, a second positioning portion 11, a condensed water guide piece 12, heat preservation cotton 13, a micro switch 31, an air inlet cover 15, a heat dissipation module 16, a reagent bottle storage module 17 and a cold guiding plate 121.

The box body 3 comprises a bottom wall and a surrounding wall connected with the bottom wall, and a space formed by the bottom wall and the surrounding wall is used for storing the reagent bottles 2 in a refrigerating way, such as two reagent bottles 2 shown in fig. 2, of course, the number of the reagent bottles 2 is not limited, and can be 1, 3, 5 and the like, and the box body 3 can be in a rectangular box shape or a circular box shape.

The cover plate 1 is arranged at the top of the enclosing wall and used for opening or closing the box body 3, the cover plate 1 can also be in a rectangular box body shape or a circular box body shape, the cover plate 1 is provided with a through reagent sampling hole 101, and the reagent sampling hole 101 is opposite to the bottle mouth of the reagent bottle 2 so that a reagent needle (not shown) can penetrate through the reagent sampling hole 101 to suck the reagent in the reagent bottle 2.

The condensed water guide 12 is disposed on the inner surface side of the cover plate 1, the condensed water guide 12 is disposed on the side of the reagent sampling hole 101 and is staggered with the bottle mouth of the reagent bottle 2 to prevent condensed water from dripping into the reagent bottle 2 to contaminate the reagent, the number of the condensed water guides 12 is not limited, and may be 1, 2, 3, 4, 5, or 6, and the like, and when the number is plural, the condensed water guides may be disposed around the reagent sampling hole 101.

In an embodiment, the condensed water guiding member 12 may be a metal member, such as a metal pin, a metal sphere or a metal bump, the cross-sectional area of the free end of the condensed water guiding member 12 may be gradually reduced so that the air is liquefied and condensed into water drops to drop along with the water drops after encountering the condensed water guiding member 12, the reagent sampling hole 101 may be a straight hole or a step hole, when the reagent sampling hole 101 is in the step hole shape, the reagent sampling hole 101 includes a large hole 102 recessed in the inner surface of the cover plate 1 and a small hole 103 penetrating through the outer surface of the cover plate 1, the condensed water guiding member 12 may be disposed in the large hole 102 to shorten the distance between the outside air and the condensed water guiding member 12, so that the outside air immediately contacts the cooler condensed water guiding member 12 to be liquefied to form condensed water after.

The heat insulation cotton 13 is attached to the inner surface of the cover plate 1, the heat insulation cotton 13 is provided with a through hole 131 which is aligned with the reagent sampling hole 101, the aperture of the through hole 131 is larger than the diameter of the small hole 103 and smaller than the diameter of the large hole 102, therefore, the aperture of the air channel of the reagent sampling hole 101 can be properly reduced, the cold insulation is better, the condensed water guide piece 12 protrudes out of the heat insulation cotton 13, the condensed water guide piece 12 extends into the box body 3 to contact with the cold air in the box body 3, the temperature of the condensed water guide piece is relatively lower, its temperature is less than the outside air around the reagent thief hole 101, and outside air meets microthermal comdenstion water guide 12 and can liquefy and form the comdenstion water after getting into box 3 through reagent thief hole 101, and partial comdenstion water can be adsorbed by heat preservation cotton 13 and collect, and partial comdenstion water drips along the free end of comdenstion water guide 12, and the bottom of box 3 is equipped with overflow mouth 14, and overflow mouth 14 is used for connecting line and power supply in order to arrange outward the comdenstion water suction in the box 3.

The reagent bottle storage module 17 comprises a bottom block and a plurality of parallel side blocks arranged at intervals, a containing groove for containing the reagent bottle 2 is formed between every two adjacent side blocks, and the reagent bottle storage module 17 is made of materials with high heat conductivity coefficient.

The box 3 is supported at a certain height through the support 7, the refrigeration bottom plate 8 comprises a refrigeration block 20, a refrigeration piece 19 and a temperature sensor 13, the refrigeration block 20 and the temperature sensor 13 are embedded in the refrigeration bottom plate 8, and the refrigeration piece 19 is attached to the lower surface of the refrigeration block 20.

The heat dissipation module 16 is in contact with the refrigeration block 20 and is located in the support 7 and used for dissipating heat of the refrigeration bottom plate 8, the heat dissipation module 16 can comprise components such as a heat absorption plate, a heat pipe, heat dissipation fins, a fan and the like, two ends of the heat dissipation module 16 are respectively connected with the air inlet cover 15 and the air outlet cover 4, and an air inlet of the air inlet cover is correspondingly provided with a dust screen to prevent foreign matters such as dust from entering.

As shown in fig. 5, the condensed water guide 12 may be disposed on an inner surface side of the cover plate 1 through the cold guide plate 121, and when the cover plate 1 covers the box body 3, at least one side block of the reagent bottle storage module 17 is in contact with the cold guide plate 121, so that compared with the air cooling in the box body 3, the condensed water guide 12 may be cooled more quickly and have a better cooling effect by conducting the cold through the reagent bottle storage module 17 and the cold guide plate 121 in sequence.

The cover plate 1 can be connected with the box body 3 in a rotating or sliding manner, as shown in fig. 1, when the cover plate 1 is connected with the box body 3 in a rotating manner, the reagent bottle storage device further includes a hinge 9, one side of the hinge 9 is connected with the box body 3, the other side of the hinge 9 is connected with the cover plate 1, the box body 3 is provided with a first positioning portion 10 at the side of the hinge 9, the cover plate 1 is provided with a second positioning portion 11 at the side of the hinge 9, when the cover plate 1 is opened in a rotating manner relative to the box body 3, the second positioning portion 11 is supported by the first positioning portion 10 so that the cover plate 1 is opened in a positioning manner relative to the box body 3 and is kept at a predetermined position, the first positioning portion 10 and the second positioning portion 11 can both be nonmagnetic parts, or one of the first positioning portion 10 and the second positioning portion 11 is a magnet, and. When the cover plate 1 is in rotary sliding connection relative to the box body 3, the cover plate can be in one-way sliding as shown in fig. 7 or in two-way sliding as shown in fig. 8, when the two-way sliding is adopted, the cover plate 1 is only half opened during the operation of replacing the reagent bottle 2, the loss of cold energy can be properly reduced, and when the cover plate 1 is completely opened during the operation of replacing the reagent bottle 2 during the rotary connection and the one-way sliding connection, the cold energy is easy to lose.

The side of the box body 3 is provided with an open slot 105, the side of the reagent bottle 2 is provided with a guide rib 21 matched with the open slot 105 so as to facilitate guiding and foolproof assembly, and the top of the reagent bottle 2 is also provided with a lifting piece 22 so as to facilitate taking and placing the reagent bottle 2.

The microswitch 31 is arranged at the buckling end of the box body 3 or the cover plate 1 and is used for detecting the opening or closing state of the cover plate 1 relative to the box body 3.

The utility model also provides a blood analyzer, this blood analyzer include control and information processing module, sample acquisition and distributor, reagent acquisition and distributor, specific protein measuring device, the conventional measuring device of blood and aforementioned reagent bottle storage device that the electricity is connected.

The sample collection and distribution device is used for collecting samples and distributing the collected samples to the blood routine measuring device. The sample collection and dispensing device includes a sample needle and a hydrodynamic device such as a syringe, a dosing pump, and the like. The sample is mainly a blood-related sample

The reagent collecting and distributing device is used for collecting reagents and distributing the collected reagents to the specific protein measuring device. The reagent collecting and distributing device comprises a reagent needle and a liquid power device such as a syringe, a quantitative pump and the like. The reagent may be an antibody reagent, a hemolysis reagent, or the like.

The blood routine measuring device is used for providing a measuring place for the distributed sample, measuring the distributed sample to obtain at least one blood routine parameter and outputting a measuring result.

The specific protein measuring device is used for providing a measuring place for the distributed blood, measuring the distributed sample to obtain the specific protein parameter and outputting the measuring result.

The reagent bottle storage device is used for providing a low-temperature preservation environment for the reagent.

A fluid path support device for providing fluid path support for the sample collection and distribution device, the reagent collection and distribution device, the blood routine measurement device, and the specific protein measurement device.

The control and information processing module is used for controlling the sample collecting and distributing device to collect and distribute samples, controlling the reagent collecting and distributing device to collect and distribute reagents, controlling the liquid path supporting module to carry out fluid conveying, receiving the measuring result output by the specific protein measuring device and processing the measuring result. Preferably, the fluid circuit support means comprises a reagent delivery line in communication with a reagent bottle in the reagent bottle storage means.

Preferably, the fluid circuit support means comprises a reagent delivery conduit in communication with a reagent needle in the reagent collection and dispensing means.

Preferably, the blood analyzer further comprises a blood routine detection device.

Referring to fig. 1 to 11, the present invention further provides a reagent bottle storage device, which includes a cover plate 1, a box 3 and a support 7.

The box body 3 comprises a bottom wall and a surrounding wall connected with the bottom wall, and a space formed by the bottom wall and the surrounding wall is used for storing the reagent bottles 2 in a refrigerating way, such as two reagent bottles 2 shown in fig. 2, of course, the number of the reagent bottles 2 is not limited, and can be 1, 3, 5 and the like, and the box body 3 can be in a rectangular box shape or a circular box shape.

The cover plate 1 is arranged at the top of the enclosing wall and used for opening or closing the box body 3, the cover plate 1 can also be in a rectangular box body shape or a circular box body shape, the cover plate 1 is provided with a through reagent sampling hole 101, and the reagent sampling hole 101 is opposite to the bottle mouth of the reagent bottle 2 so that a reagent needle (not shown) can penetrate through the reagent sampling hole 101 to suck the reagent in the reagent bottle 2.

The bottom edge of the bracket 7 is provided with a first movable mating member 71, the first movable mating member 71 can be a guide rail or a pulley and the like, the inner end of the bracket 7 is provided with a first sensing component 71 used for sensing the pushing-in-place condition in a matching manner, and the outer side of the bracket 7 is provided with a handle 72 so as to facilitate the pulling-out and pushing-in operations of the bracket.

The reagent bottle storage device further comprises an air outlet cover 4, a refrigeration bottom plate 8, a hinge 9, a first positioning part 10, a second positioning part 11, a condensed water guide part 12, heat preservation cotton 13, a microswitch 31, an air inlet cover 15, a heat dissipation module 16, a reagent bottle storage module 17 and a cold guide plate 121.

The condensed water guide 12 is disposed on the inner surface side of the cover plate 1, the condensed water guide 12 is disposed on the side of the reagent sampling hole 101 and is staggered with the bottle mouth of the reagent bottle 2 to prevent condensed water from dripping into the reagent bottle 2 to contaminate the reagent, the number of the condensed water guides 12 is not limited, and may be 1, 2, 3, 4, 5, or 6, and the like, and when the number is plural, the condensed water guides may be disposed around the reagent sampling hole 101.

The condensed water guide 12 may be a metal member, such as a metal pin, the cross-sectional area of the free end of the condensed water guide 12 may be gradually reduced so that the water drops condensed by liquefaction after the air meets the condensed water guide 12 may drop along the way, the reagent sampling hole 101 may be a straight hole or a step hole, when the reagent sampling hole 101 is in the step hole shape, the reagent sampling hole 101 includes a large hole 102 recessed in the inner surface of the cover plate 1 and a small hole 103 penetrating through the outer surface of the cover plate 1, the condensed water guide 12 may be disposed in the large hole 102 to shorten the distance between the outside air and the condensed water guide 12, so that the outside air immediately contacts the cooler condensed water guide 12 to liquefy to form condensed water after entering the reagent sampling hole 101, and the outside air.

The heat insulation cotton 13 is attached to the inner surface of the cover plate 1, the heat insulation cotton 13 is provided with a through hole 131 which is aligned with the reagent sampling hole 101, the aperture of the through hole 131 is larger than the diameter of the small hole 103 and smaller than the diameter of the large hole 102, therefore, the aperture of the air channel of the reagent sampling hole 101 can be properly reduced, the cold insulation is better, the condensed water guide piece 12 protrudes out of the heat insulation cotton 13, the condensed water guide piece 12 extends into the box body 3 to contact with the cold air in the box body 3, the temperature of the condensed water guide piece is relatively lower, its temperature is less than the outside air around the reagent thief hole 101, and outside air meets microthermal comdenstion water guide 12 and can liquefy and form the comdenstion water after getting into box 3 through reagent thief hole 101, and partial comdenstion water can be adsorbed by heat preservation cotton 13 and collect, and partial comdenstion water drips along the free end of comdenstion water guide 12, and the bottom of box 3 is equipped with overflow mouth 14, and overflow mouth 14 is used for connecting line and power supply in order to arrange outward the comdenstion water suction in the box 3.

The reagent bottle storage module 17 comprises a bottom block and a plurality of parallel side blocks arranged at intervals, a containing groove for containing the reagent bottle 2 is formed between every two adjacent side blocks, and the reagent bottle storage module 17 is made of materials with high heat conductivity coefficient.

The box 3 is supported at a certain height through the support 7, the refrigeration bottom plate 8 comprises a refrigeration block 20, a refrigeration piece 19 and a temperature sensor 13, the refrigeration block 20 and the temperature sensor 13 are embedded in the refrigeration bottom plate 8, and the refrigeration piece 19 is attached to the lower surface of the refrigeration block 20.

The heat dissipation module 16 is in contact with the refrigeration block 20 and is located in the support 7 and used for dissipating heat of the refrigeration bottom plate 8, the heat dissipation module 16 can comprise components such as a heat absorption plate, a heat pipe, heat dissipation fins, a fan and the like, two ends of the heat dissipation module 16 are respectively connected with the air inlet cover 15 and the air outlet cover 4, and an air inlet of the air inlet cover is correspondingly provided with a dust screen to prevent foreign matters such as dust from entering.

As shown in fig. 5, the condensed water guide 12 may be disposed on an inner surface side of the cover plate 1 through the cold guide plate 121, and when the cover plate 1 covers the box body 3, at least one side block of the reagent bottle storage module 17 is in contact with the cold guide plate 121, so that compared with the air cooling in the box body 3, the condensed water guide 12 may be cooled more quickly and have a better cooling effect by conducting the cold through the reagent bottle storage module 17 and the cold guide plate 121 in sequence.

The cover 1 can be rotatably or slidably connected with respect to the housing 3, the hinge 9 is parallel to the extending direction of the first movable mating member 71, as shown in fig. 1, when the cover plate 1 is connected to the box 3 in a rotating manner, the reagent bottle storage device further includes a hinge 9, one side of the hinge 9 is connected to the box 3, the other side of the hinge 9 is connected to the cover plate 1, the box 3 is provided with a first positioning portion 10 on the side of the hinge 9, the cover plate 1 is provided with a second positioning portion 11 on the side of the hinge 9, when the cover plate 1 is opened in a rotating manner relative to the box 3, the second positioning portion 11 is supported by the first positioning portion 10 so that the cover plate 1 is positioned and opened relative to the box 3 and is kept at a predetermined position, the first positioning portion 10 and the second positioning portion 11 may be both non-magnetic members, or one of the first positioning portion 10 and the second positioning portion 11 is a magnet, and the other is a magnet or a magnetic metal member for magnetically attracting and positioning the opened state. When the cover plate 1 is in rotary sliding connection relative to the box body 3, the cover plate can be in one-way sliding as shown in fig. 7 or in two-way sliding as shown in fig. 8, when the two-way sliding is adopted, the cover plate 1 is only half opened during the operation of replacing the reagent bottle 2, the loss of cold energy can be properly reduced, and when the cover plate 1 is completely opened during the operation of replacing the reagent bottle 2 during the rotary connection and the one-way sliding connection, the cold energy is easy to lose.

The side of the box body 3 is provided with an open slot 105, the side of the reagent bottle 2 is provided with a guide rib 21 matched with the open slot 105 so as to facilitate guiding and foolproof assembly, and the top of the reagent bottle 2 is also provided with a lifting piece 22 so as to facilitate taking and placing the reagent bottle 2.

The microswitch 31 is arranged at the buckling end of the box body 3 or the cover plate 1 and is used for detecting the opening or closing state of the cover plate 1 relative to the box body 3.

The utility model provides a blood analyzer, this blood analyzer includes aforementioned reagent bottle storage device and mainframe box 200, mainframe box 200 includes interconnect's roof 201, panel 202, the backplate, curb plate 204 and bottom plate 5, be equipped with the opening on the curb plate 204, it is equipped with the second and removes the fitting piece to correspond first removal fitting piece 71 in the mainframe box 200, like guide rail or guide slot, and correspond first sensing part 73 and be equipped with the second sensing part of matching with the propulsion condition that targets in place of detecting support 7, support 7 pulls out the back in the X direction through handle 72, apron 1 can be opened at the Y direction to box 3 relatively, corresponding hinge 9's extending direction is parallel with the pull-out direction, perhaps apron 1 is when 3 sliding connection to box, the direction is opened in the slip can set to be perpendicular with the pull-out direction, a compact structure, and convenient operation.

The blood analyzer also comprises a control and information processing module, a sample collecting and distributing device, a reagent collecting and distributing device, a specific protein measuring device, a blood routine measuring device and the reagent bottle storage device which are electrically connected.

The sample collection and distribution device is used for collecting samples and distributing the collected samples to the blood routine measuring device. The sample collection and dispensing device includes a sample needle and a hydrodynamic device such as a syringe, a dosing pump, and the like. The sample is primarily a blood-related sample.

The reagent collecting and distributing device is used for collecting reagents and distributing the collected reagents to the specific protein measuring device. The reagent collecting and distributing device comprises a reagent needle and a liquid power device such as a syringe, a quantitative pump and the like. The reagent may be an antibody reagent, a hemolysis reagent, and the like, including but not limited to an immunological reagent, such as a CRP reagent, a SAA reagent, a ferritin reagent, and the like.

The blood routine measuring device is used for providing a measuring place for the distributed sample, measuring the distributed sample to obtain at least one blood routine parameter and outputting a measuring result.

The specific protein measuring device is used for providing a measuring place for the distributed sample, measuring the distributed sample to obtain the specific protein parameter and outputting a measuring result, wherein the sample is mainly a blood related sample.

The reagent bottle storage device is used for providing a low-temperature preservation environment for the reagent.

A fluid path support device for providing fluid path support for the sample collection and distribution device, the reagent collection and distribution device, the blood routine measurement device, and the specific protein measurement device.

The control and information processing module is used for controlling the sample collecting and distributing device to collect and distribute samples, controlling the reagent collecting and distributing device to collect and distribute reagents, controlling the liquid path supporting module to carry out fluid conveying, receiving the measuring result output by the specific protein measuring device and processing the measuring result. Preferably, the fluid circuit support means comprises a reagent delivery line in communication with a reagent bottle in the reagent bottle storage means.

Preferably, the fluid circuit support means comprises a reagent delivery conduit in communication with a reagent needle in the reagent collection and dispensing means.

The reagent bottle storage device 110 provided by the embodiment has the advantages of novel structure, simple manufacture and convenient disassembly, assembly and maintenance.

The above is only the embodiment of the present invention, not the limitation of the patent scope of the present invention, all the equivalent structures or equivalent processes of the present invention are utilized, or directly or indirectly applied to other related technical fields, and the same principle is included in the patent protection scope of the present invention.

Claims (10)

1. A reagent bottle storage device, comprising:

the box body is used for storing reagent bottles;

the cover plate is used for opening or closing the box body, and is provided with a through reagent sampling hole which is opposite to the bottle mouth of the reagent bottle;

the box passes through the support supports, the bottom edge of support is equipped with first removal fitting piece.

2. The reagent bottle storage device of claim 1, wherein the first moving engagement member is a rail or a pulley; and/or the inner end of the bracket is provided with a first sensing component; and/or a handle is arranged on the outer side of the bracket; and/or the reagent bottle storage device comprises a condensed water guide piece, the condensed water guide piece is arranged on the inner surface side of the cover plate, and the condensed water guide piece is arranged on the side edge of the reagent sampling hole and is staggered with the bottle mouth of the reagent bottle; and/or the comdenstion water guide is the metalwork, the reagent thief hole is the step poroid, including sunken in the macropore of apron internal surface and link up the aperture of apron surface, the comdenstion water guide set up in the macropore.

3. The reagent bottle storage device of claim 2, further comprising heat insulation cotton attached to the inner surface of the cover plate, wherein the heat insulation cotton is provided with a through hole aligned with the reagent sampling hole; and/or the condensed water guide piece protrudes out of the heat-preservation cotton; and/or the bottom of the box body is provided with an overflow port, and the overflow port is used for discharging the condensed water in the box body.

4. The reagent bottle storage device of claim 2, further comprising a reagent bottle storage module, wherein the reagent bottle storage module comprises a plurality of side blocks, and a containing groove for containing the reagent bottle is formed between two adjacent side blocks.

5. The reagent bottle storage device of claim 4, further comprising a refrigeration base plate and/or a heat sink module;

the refrigeration bottom plate comprises a refrigeration block, a refrigeration piece and a temperature sensor, the refrigeration block and the temperature sensor are embedded in the refrigeration bottom plate, and the refrigeration piece is attached to the surface of the refrigeration block;

the heat dissipation module is in contact with the refrigeration bottom plate and is positioned in the support and used for dissipating heat generated by the refrigeration sheet.

6. The reagent bottle storage device according to claim 4, further comprising a cold guide plate, wherein the condensate guide is disposed on an inner surface side of the cover plate via the cold guide plate, and the side block abuts against the cold guide plate when the cover plate covers the case.

7. The reagent bottle storage device of claim 1, wherein the cover plate is rotatably or slidably coupled with respect to the case; when the cover plate is rotationally connected relative to the box body, the reagent bottle storage device further comprises a hinge, the hinge is parallel to the extending direction of the first movable matching piece, one side edge of the hinge is connected with the box body, and the other side edge of the hinge is connected with the cover plate; and/or the box body is provided with a first positioning part at the side edge of the hinge, the cover plate is provided with a second positioning part at the side edge of the hinge, and when the cover plate rotates and opens relative to the box body, the second positioning part is supported by the first positioning part so that the cover plate is positioned and opened relative to the box body and is kept at a preset position; and/or the first positioning part and the second positioning part are both non-magnetic pieces, or one of the first positioning part and the second positioning part is a magnet, and the other one is a magnet or a magnetic metal piece; and/or the box body is provided with an open slot, and the side edge of the reagent bottle is provided with a guide rib matched with the open slot; and/or the top of the reagent bottle is also provided with a lifting piece so as to be convenient for taking and placing the reagent bottle; and/or the reagent bottle storage device further comprises a microswitch, wherein the microswitch is arranged at the box body or the buckling end of the cover plate and is used for detecting the opening or closing state of the cover plate relative to the box body.

8. A blood analyzer, comprising the reagent bottle storage device of any one of claims 1 to 7 and a main housing.

9. The blood analyzer of claim 8, wherein the main housing comprises a top plate, a front plate, a back plate and a side plate which are connected with each other, the inner end of the bracket is provided with a first sensing part, the side plate is provided with an opening, a second moving matching part is arranged in the main housing corresponding to the first moving matching part and a matched second sensing part is arranged corresponding to the first sensing part so as to detect the pushing-in-place condition of the bracket, the outer side of the bracket is provided with a handle, and after the bracket is pulled out by the handle, the cover plate can be opened relative to the direction perpendicular to the pulling-out direction of the housing.

10. The blood analyzer of claim 8, comprising an electrically connected control and information processing module, a sample collection and dispensing device, a reagent collection and dispensing device, a specific protein measurement device, a blood routine measurement module, and a reagent bottle storage device of any one of claims 1-7;

the sample collecting and distributing device is used for collecting samples and distributing the collected samples to the blood routine measuring module;

the reagent collecting and distributing device is used for collecting reagents and distributing the collected reagents to the specific protein measuring device;

the blood routine measuring module and the specific protein measuring device are used for providing a measuring place;

the reagent bottle storage device is used for providing a low-temperature preservation environment for the reagent;

a fluid path support device providing fluid path support for the sample collection and distribution device, the reagent collection and distribution device, the blood routine measurement module, and the specific protein measurement device.

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