CN204359588U - Mixer - Google Patents

Abstract

The utility model discloses a kind of mixer, comprising: the first rotating disk, the second rotating disk, supporting surface; Wherein, first rotating disk is positioned at above supporting surface, rotating disk has at least two liquid glass holder dress holes, supporting surface has at least two stations, wherein at least comprises a vibration station, vibration station there is the second rotating disk, first rotating disk is used for liquid glass holder dress hole to switch between each station, and the liquid glass holder be on vibration station fills the central axis in hole and the pivot center of the second rotating disk staggers mutually.Automatically can complete in damping fluid, drip sample, the mixing of sample and damping fluid, extract mixing liquid process, and structure is simple, simple operation, detection efficiency is high.

Description

Mixer

Technical field

The utility model relates to fields of measurement, is specifically related to a kind of mixer.

Background technology

Existing quantitative measurement technology is in application process, be generally manually to after reagent card loading, hatch special time under reagent card being delivered to the environment of a proper temperature, treat that incubation time arrives, reagent card is taken out from this environment, delivers in detector and detect and read result.This reagent card detects whole process to be needed to process manually, first in damping fluid, drip sample, fully after mixing, then draw a certain amount of mixing liquid with liquid-transfering gun and be added drop-wise on reagent card, take out after hatching certain hour under delivering to specific environment again, deliver on detector and detect.Whole process wastes time and energy, and detect the medical spaces such as the more large hospital of number of times for needing every day, use this manual detection method, detection efficiency is extremely low.

Utility model content

Based on this, the utility model discloses a kind of mixer, and automatically can complete in damping fluid, drip sample, the mixing of sample and damping fluid, extract mixing liquid process, and structure is simple, simple operation, detection efficiency is high.

Its technical scheme is as follows:

A kind of mixer, comprising: the first rotating disk, the second rotating disk, supporting surface; Wherein, first rotating disk is positioned at above supporting surface, rotating disk has at least two liquid glass holder dress holes, supporting surface has at least two stations, wherein at least comprises a vibration station, vibration station there is the second rotating disk, first rotating disk is used for liquid glass holder dress hole to switch between each station, and the liquid glass holder be on vibration station fills the central axis in hole and the pivot center of the second rotating disk staggers mutually.

Wherein in an embodiment, described station also comprises blanking station, described blanking station has blanking port, the liquid glass holder dress hole be on blanking station is positioned at above blanking port, when liquid glass holder dress hole is positioned at described vibration station described in one of them, the described liquid glass holder dress hole be in outside described vibration station is separately had to be positioned at blanking station.

Wherein in an embodiment, also include blanking guide cylinder, blanking guide cylinder docks with the below of described blanking port.

Wherein in an embodiment, described station also comprises standing station, described standing station has support face, the described liquid glass holder dress hole be on standing station is positioned at above support face, when liquid glass holder dress hole is positioned at described vibration station described in one of them, the described liquid glass holder dress hole be in outside described vibration station is separately had to be positioned at standing station.

Wherein in an embodiment, described station also comprises sampling station, there is sample extraction device above sampling station, when liquid glass holder dress hole is positioned at described vibration station described in one of them, separately have the described liquid glass holder dress hole be in outside described vibration station to be positioned at sampling station.

Wherein in an embodiment, described station also comprises feed station, there is liquid cup input media above feed station, when liquid glass holder dress hole is positioned at described vibration station described in one of them, separately have the described liquid glass holder dress hole be in outside described vibration station to be in feed station.

Wherein in an embodiment, described station also comprises application of sample station, there is sample input apparatus above application of sample station, when liquid glass holder dress hole is positioned at described vibration station described in one of them, separately have the described liquid glass holder dress hole be in outside described vibration station to be positioned at application of sample station.

Wherein in an embodiment, described station also comprises feed station, application of sample station, leaves standstill station, samples station, blanking station; And be uniformly distributed by the order annular of feed station, application of sample station, vibration station, standing station, sampling station, blanking station; Wherein, liquid cup input media is had above feed station; Sample input apparatus is had above reinforced station; Standing station has support face, and the described liquid glass holder dress hole be on standing station is positioned at above support face; Sample extraction device is had above sampling station; Blanking station has blanking port, and the described liquid glass holder dress hole be on blanking station is positioned at above blanking port; Described rotating disk has six described liquid glass holder dress holes, and when described in one of them, liquid glass holder dress hole is positioned at described vibration station, all the other five described liquid glass holder dress holes lay respectively at feed station, application of sample station, leave standstill station, sample station, blanking station.

Wherein in an embodiment, also include sensor and at least two sensing chips, described sensing chip extends outside rotating disk along described rotating disk edge, and described sensor coordinates with described sensing chip.

Wherein in an embodiment, the quantity of described sensing chip is the integral multiple of described liquid glass holder dress hole number.

Below the principle, effect etc. of preceding solution are described:

1, mixer comprises: the first rotating disk, the second rotating disk, supporting surface; Wherein, first rotating disk is positioned at above supporting surface, first rotating disk has at least two liquid glass holder dress holes, supporting surface has at least two stations, wherein at least comprises a vibration station, vibration station there is the second rotating disk, first rotating disk is used for liquid glass holder dress hole to switch between each station, and the liquid glass holder be on vibration station fills the central axis in hole and the pivot center of the second rotating disk staggers mutually;

Sample and damping fluid all load in liquid cup, liquid glass holder is loaded in liquid glass holder dress hole, edge and the liquid glass holder of liquid cup fill hole and mate, the liquid glass holder be on vibration station fills the central axis in hole and the pivot center of the second rotating disk staggers mutually, make to be sleeved on the central axis of liquid cup in liquid glass holder dress hole and the pivot center of the second rotating disk staggers mutually, the end face of the second rotating disk props up the bottom surface of liquid cup, when the second dial rotation, because the central axis of liquid cup and the pivot center of the second rotating disk stagger mutually, the bottom surface of the end-face friction liquid cup of the second rotating disk, band hydrodynamic cup is regular to be rocked, vibration, realize fully mixing of damping fluid and sample, the liquid glass holder dress hole be in outside vibration station can be used for laying liquid cup or taking liquid cup away or drip sample or standing liquid cup or have above function simultaneously, first rotating disk is used for liquid glass holder dress hole to switch between each station, above-mentioned multiple process can be completed simultaneously, what substantially increase detection mixed liquor produces efficiency, and mixer structure is simple, easy to maintenance.

2, described station also comprises blanking station, described blanking station has blanking port, the liquid glass holder dress hole be on blanking station is positioned at above blanking port, when liquid glass holder dress hole is positioned at described vibration station described in one of them, the described liquid glass holder dress hole be in outside described vibration station is separately had to be positioned at blanking station;

When liquid glass holder dress pore area hydrodynamic cup turns to blanking station, liquid cup can drop from blanking port, and this liquid glass holder dress hole of soaring, prepares for loading liquid cup next time;

Preferably, also include blanking guide cylinder, blanking guide cylinder docks with the below of described blanking port, and liquid cup is guided by blanking pilot hole, avoids liquid cup to reverse in dropping process and to be spilt by remaining liquid, pollutes working environment.

3, described station also comprises standing station, described standing station has support face, the described liquid glass holder dress hole be on standing station is positioned at above support face, when liquid glass holder dress hole is positioned at described vibration station described in one of them, the described liquid glass holder dress hole be in outside described vibration station is separately had to be positioned at standing station;

When liquid glass holder dress pore area hydrodynamic cup turns to standing station, liquid cup is statically placed on support face, and pending buffer liquid and sample fully mix.

4, described station also comprises sampling station, has sample extraction device above sampling station, when liquid glass holder dress hole is positioned at described vibration station described in one of them, separately has the described liquid glass holder dress hole be in outside described vibration station to be positioned at sampling station;

When liquid glass holder dress pore area hydrodynamic cup turns to sampling position, sample extraction device extracts mixed liquor from liquid cup.

5, described station also comprises feed station, has liquid cup input media above feed station, when liquid glass holder dress hole is positioned at described vibration station described in one of them, separately has the described liquid glass holder dress hole be in outside described vibration station to be in feed station;

When liquid glass holder dress pore area hydrodynamic cup turns to feed station, liquid cup input media is to liquid glass holder dress hole input liquid cup, and realize automatic charge, when liquid cup is pre-installed and is sealed with damping fluid, this sample adding device also bears the effect into liquid cup Kaifeng.

6, described station also comprises application of sample station, has sample input apparatus above application of sample station, when liquid glass holder dress hole is positioned at described vibration station described in one of them, separately has the described liquid glass holder dress hole be in outside described vibration station to be positioned at application of sample station;

When liquid glass holder dress pore area hydrodynamic cup turns to application of sample position, sample input apparatus is to liquid cup input sample.

7, described station also comprises feed station, application of sample station, leaves standstill station, samples station, blanking station; And be uniformly distributed by the order annular of feed station, application of sample station, vibration station, standing station, sampling station, blanking station; Wherein, liquid cup input media is had above feed station; Sample input apparatus is had above reinforced station; Standing station has support face, and the described liquid glass holder dress hole be on standing station is positioned at above support face; Sample extraction device is had above sampling station; Blanking station has blanking port, and the described liquid glass holder dress hole be on blanking station is positioned at above blanking port; Described rotating disk has six described liquid glass holder dress holes, and when described in one of them, liquid glass holder dress hole is positioned at described vibration station, all the other five described liquid glass holder dress holes lay respectively at feed station, application of sample station, leave standstill station, sample station, blanking station;

The action principle of each station is as follows:

A. feed station: liquid cup input media, to liquid glass holder dress hole input liquid cup, realizes automatic charge, when liquid cup is pre-installed and is sealed with damping fluid, this sample adding device is also born as the effect in liquid cup Kaifeng is to realize the operations such as ensuing application of sample, mixing, sampling; After installing liquid cup, the first driven by rotary disc liquid cup forwards application of sample station to;

B. application of sample station: here, sample input apparatus is to liquid cup input sample, and afterwards, the first driven by rotary disc liquid cup forwards vibration station to;

C. vibrate station: here, the bottom surface of the end-face friction liquid cup of the second rotating disk, band hydrodynamic cup is regular to be rocked, vibrate, realize fully mixing of damping fluid and sample, afterwards, the first driven by rotary disc liquid cup forwards standing station to;

D. station is left standstill:, liquid cup is statically placed on support face, and pending buffer liquid and sample fully mix, and afterwards, the first driven by rotary disc liquid cup forwards sampling station to here;

E. sample station: here, sample extraction device extracts mixed liquor from liquid cup, and afterwards, the first driven by rotary disc liquid cup forwards blanking station to;

F. blanking station: here, liquid cup can drop from blanking port, and this liquid glass holder dress hole of soaring, prepares for loading liquid cup next time;

Afterwards, the liquid glass holder of zero load dress hole is rotated back into feed station by the first rotating disk, and repeats a to f process;

Whole process completes automatically, and all six stations can be equipped with liquid cup simultaneously, work simultaneously, and realize streamline and produce mixed liquor, whole process efficiency is high.

8, also include sensor and at least two sensing chips, described sensing chip extends outside rotating disk along described rotating disk edge, and described sensor coordinates with described sensing chip;

Sensing chip coordinates the angle for the position and rotation responding to the first rotating disk with inductor, and as the station residing for each liquid cup of feedback monitoring, inductor will sense information and feed back in control system, order stopping or the rotation of the first rotating disk accordingly, or order second rotating disk stops or rotating, and realizes the control to this mixed process;

Especially, the quantity of described sensing chip is the integral multiple of described liquid glass holder dress hole number; Preferably, it is consistent that quantity and the described liquid glass holder of described sensing chip fill hole number, realizes liquid cup to switch between each station in the mode of " stepping ".

Accompanying drawing explanation

Fig. 1 is the structural drawing of the utility model embodiment mixer;

Fig. 2 is the structural drawing of the utility model embodiment mixer;

Fig. 3 is the structural drawing of the utility model embodiment mixer;

Fig. 4 is the explosive view of the utility model embodiment mixer.

Description of reference numerals:

100, the first rotating disk, 110, sensing chip, 120, liquid glass holder dress hole, 200, supporting surface, 210, feed station, 220, application of sample station, 230, vibrate station, 240, leave standstill station, 250, sampling station, 260, blanking station, 261, material-dropping hole, 262, blanking orienting sleeve, 300, the second rotating disk, 400, inductor, the 500, first motor, 600, the second motor, 700, controller.

Embodiment

Below embodiment of the present utility model is described in detail:

The mixer of the present embodiment as shown in Figures 1 to 4, comprising: the first rotating disk 100, second rotating disk 300, supporting surface 200.

First rotating disk 100 is positioned at above supporting surface 200, and the first rotating disk 100 has six liquid glass holders dress holes 120, pre-install and the liquid cup being sealed with damping fluid can load liquid glass holder fills in hole 120.

Supporting surface 200 has feed station 210, application of sample station 220, vibration station 230, leaves standstill station 240, samples station 250, blanking station 260; And be uniformly distributed by the order annular of feed station 210, application of sample station 220, vibration station 230, standing station 240, sampling station 250, blanking station 260.

First motor 500 drives the first rotating disk 100 to be switched between each station in liquid glass holder dress hole 120.

Wherein, above feed station 210, there is liquid cup input media;

Sample input apparatus is had above reinforced station 220;

Vibration station 230 has the second rotating disk, has the second motor to drive the second dial rotation, the liquid glass holder be on vibration station fills the central axis in hole and the pivot center of the second rotating disk staggers mutually;

Leave standstill station 240 and have support face, the described liquid glass holder dress hole be on standing station is positioned at above support face;

Sample extraction device is had above sampling station 250;

Blanking station 260 has blanking port 261, and the liquid glass holder dress hole 120 be on blanking station is positioned at above blanking port 261; Also have blanking guide cylinder 262, blanking guide cylinder 262 docks with the below of described blanking port 261.

Also have six sensing chips 110, sensor 400 and controller 700, sensing chip 110 extends outside rotating disk along described rotating disk edge, six sensing chips 110 are uniformly distributed in the first rotating disk 100 circumferentially, sensor 400 coordinates induction first rotating disk 100 to rotate information with sensing chip 110, the angle information such as rotated; The rotation information of the first rotating disk 100 is passed to controller 700 by sensor 400, and controller 700 controls the rotary state of the first rotating disk 100 and the rotary state of the second rotating disk 300 accordingly.

The station principle of mixer is as follows:

A. feed station: liquid cup input media inputs liquid cup to liquid glass holder dress hole 120, realize automatic charge, when liquid cup is pre-installed and is sealed with damping fluid, this sample adding device also bears the effect into liquid cup Kaifeng, to realize the operations such as ensuing application of sample, mixing, sampling; After installing liquid cup, the first rotating disk 100 is with hydrodynamic cup to forward application of sample station to;

B. application of sample station: here, sample input apparatus is to liquid cup input sample, and afterwards, the first rotating disk 100 is with hydrodynamic cup to forward vibration station 230 to;

C. vibrate station: when there being liquid cup to be transported to this station, the second rotating disk 300 rotates, the bottom surface of the end-face friction liquid cup of the second rotating disk 300, band hydrodynamic cup is regular to be rocked, vibrate, realize fully mixing of damping fluid and sample, afterwards, the first rotating disk 100 is with hydrodynamic cup to forward standing station 240 to;

D. leave standstill station:, liquid cup is statically placed on support face, and pending buffer liquid and sample fully mix here, afterwards, the first rotating disk 100 is with hydrodynamic cup to forward sampling station 250 to;

E. sample station: here, sample extraction device extracts mixed liquor from liquid cup, and afterwards, the first rotating disk 100 is with hydrodynamic cup to forward blanking station 260 to;

F. blanking station: here, liquid cup can drop from blanking port 261, and blanking orienting sleeve 262 guides liquid by the direction of dropping, and this liquid glass holder dress hole 120 of soaring, prepares for loading liquid cup next time;

Afterwards, the first rotating disk 110 drives and the liquid glass holder of zero load dress hole is rotated back into feed station, and repeats a to f process;

Whole process completes automatically, and all six stations can be equipped with liquid cup simultaneously, work simultaneously, and realize streamline and produce mixed liquor, whole process efficiency is high.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this instructions is recorded.

The above embodiment only have expressed embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (10)

1. a mixer, is characterized in that, comprising: the first rotating disk, the second rotating disk, supporting surface;

Wherein, first rotating disk is positioned at above supporting surface, first rotating disk has at least two liquid glass holder dress holes, supporting surface has at least two stations, wherein at least comprises a vibration station, vibration station there is the second rotating disk, first rotating disk is used for liquid glass holder dress hole to switch between each station, and the liquid glass holder be on vibration station fills the central axis in hole and the pivot center of the second rotating disk staggers mutually.

2. mixer according to claim 1, it is characterized in that, described station also comprises blanking station, described blanking station has blanking port, the liquid glass holder dress hole be on blanking station is positioned at above blanking port, when liquid glass holder dress hole is positioned at described vibration station described in one of them, the described liquid glass holder dress hole be in outside described vibration station is separately had to be positioned at blanking station.

3. mixer according to claim 2, is characterized in that, also includes blanking guide cylinder, and blanking guide cylinder docks with the below of described blanking port.

4. mixer according to claim 1, it is characterized in that, described station also comprises standing station, described standing station has support face, the described liquid glass holder dress hole be on standing station is positioned at above support face, when liquid glass holder dress hole is positioned at described vibration station described in one of them, the described liquid glass holder dress hole be in outside described vibration station is separately had to be positioned at standing station.

5. mixer according to claim 1, it is characterized in that, described station also comprises sampling station, sample extraction device is had above sampling station, when liquid glass holder dress hole is positioned at described vibration station described in one of them, the described liquid glass holder dress hole be in outside described vibration station is separately had to be positioned at sampling station.

6. mixer according to claim 1, it is characterized in that, described station also comprises feed station, liquid cup input media is had above feed station, when liquid glass holder dress hole is positioned at described vibration station described in one of them, the described liquid glass holder dress hole be in outside described vibration station is separately had to be in feed station.

7. mixer according to claim 1, it is characterized in that, described station also comprises application of sample station, sample input apparatus is had above application of sample station, when liquid glass holder dress hole is positioned at described vibration station described in one of them, the described liquid glass holder dress hole be in outside described vibration station is separately had to be positioned at application of sample station.

8. mixer according to claim 1, is characterized in that, described station also comprises feed station, application of sample station, leaves standstill station, samples station, blanking station; And be uniformly distributed by the order annular of feed station, application of sample station, vibration station, standing station, sampling station, blanking station;

Wherein, liquid cup input media is had above feed station; Sample input apparatus is had above reinforced station; Standing station has support face, and the described liquid glass holder dress hole be on standing station is positioned at above support face; Sample extraction device is had above sampling station; Blanking station has blanking port, and the described liquid glass holder dress hole be on blanking station is positioned at above blanking port;

Described rotating disk has six described liquid glass holder dress holes, and when described in one of them, liquid glass holder dress hole is positioned at described vibration station, all the other five described liquid glass holder dress holes lay respectively at feed station, application of sample station, leave standstill station, sample station, blanking station.

9. according to the arbitrary mixer described in claim 1 to 8, it is characterized in that, also include sensor and at least two sensing chips, described sensing chip extends outside rotating disk along described rotating disk edge, and described sensor coordinates with described sensing chip.

10. mixer according to claim 9, is characterized in that, the quantity of described sensing chip is the integral multiple of described liquid glass holder dress hole number.