CN207923879U - Sample analyser - Google Patents
Sample analyser Download PDFInfo
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- CN207923879U CN207923879U CN201820264514.1U CN201820264514U CN207923879U CN 207923879 U CN207923879 U CN 207923879U CN 201820264514 U CN201820264514 U CN 201820264514U CN 207923879 U CN207923879 U CN 207923879U
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Abstract
The utility model provides a kind of sample analyser, including suction means;At least two reagent container loading devices;The reagent container loading device is arranged side by side in the side of sample analyser;The reagent container loading device includes container incorporating section, and the container incorporating section has first state and the second state;In said first condition, the container housing portion is in the outside of sample analyser and with the operating space for picking and placeing reagent container, in said second condition, the container housing portion is in the inside of sample analyser, the suction means, which can extend into, draws reagent in reagent container, as a result of at least two reagent container toters, the working efficiency of reagent sampling is improved.
Description
Technical field
The utility model is related to in-vitro diagnosis field, especially a kind of sample analyser.
Background technology
In vitro diagnostic techniques field, usually blood, urine etc. are analyzed by reagent, therefore, it is necessary to will be contained with
In the reagent container merging analytical equipment of reagent, what is usually accommodated in reagent container is reagent or dyeing liquor, is used for and blood, urine
To carry out subsequent analysis after liquid equal samples hybrid reaction, in sample analyser, the reagent in reagent container is filled by drawing
It sets to draw and carry out follow-up comprehensive analysis.
Reagent container is first loaded upper machine, typically first holds reagent by sample analyser before carrying out sample analysis
Device is positioned in container fixed seat, then by suction means initiatively vertically elevating movement, at the top of reagent container
Opening portion is inserted into inside reagent container to draw reagent.
In order to meet the needs of plurality of reagents measurement, multiple containers fixed seat usually arranged side by side loads multiple examinations with this
Agent container, each reagent container be all be placed on demand in container fixed seat in the foregoing manner, then by sample analyser inside
Suction means initiatively be inserted into inside destination agent container to draw reagent by vertically elevating movement.
It finds in actual use, it is existing that there are multiple fixed seat sample analysers of container side by side to have the following deficiencies it
Place:
1, since operating personnel are to hold the side of reagent container to carry out loading or unloading operation, the process for picking and placeing reagent container can be by
It is limited to the space between adjacent container fixed seat, after multiple containers fixed seat arranged side by side, picks and places the behaviour of reagent container
Become more narrow as space, especially in the case where being mounted with reagent container in neighbouring container fixed seat, loading or unloading operation
It is quite inconvenient;
2, since suction means is connected with the pipeline of liquid channel system, these pipelines are following suction means elevating movement
Abrasion is had in the process, is fractureed or the risk of casey.
Utility model content
The purpose of this utility model is:A kind of reagent container load machine for being easy to carry out reagent container loading or unloading operation is provided
Structure.
A kind of sample analyser, including:Suction means;At least two reagent container loading devices;The reagent container adds
It carries to set and be arranged side by side in the side of sample analyser;The reagent container loading device includes container incorporating section, the container
Incorporating section has first state and the second state;In said first condition, the container housing portion is in sample analyser
External and with the operating space for picking and placeing reagent container, in said second condition, the container housing portion is in sample analysis
The inside of instrument, the suction means, which can extend into, draws reagent in reagent container;At least one reagent container load maintainer
It can individually be switched to first state when other reagent container loading devices are in the second state;The container storage
Portion is located at the first height in the first state, and the container incorporating section is located at the second height, institute in second state
The first height is stated less than second height.
Preferably, in said first condition, between the bottom and the bottom of suction means of the container incorporating section away from
From the height more than the reagent container, in said second condition, the bottom of the bottom and suction means of the container incorporating section
The distance between portion is less than the height of the reagent container.
Preferably, the reagent container loading device includes first movement device and the second mobile device, and described first moves
Dynamic device is set to the lower section of the suction means, and the container incorporating section is connected to the first movement device, and described second
Mobile device is arranged with the first movement device in predetermined angle, and is connect with the first movement device;Described first moves
Dynamic device makes the container incorporating section that the reagent container be driven movably to reach the second state;Second mobile device
So that the container incorporating section drives the reagent container movably to reach the first height and the second height.
Preferably, further include fixed frame, the fixed frame includes the first support portion and second in the setting of predetermined angle
Support part, the first movement device are connected to first support portion, and second mobile device is connected to second support
Portion;When the container incorporating section is moved to the first height along the first movement device, the container incorporating section is far from described
Fixed frame, when the container incorporating section is moved to the second height along the first movement device, the container incorporating section is close
The fixed frame.
Preferably, the first movement device is drawer guideway, is set to the container incorporating section and the fixed frame
First support portion between;Second mobile device includes the linear guide and the cunning slided along the linear guide
Block, the sliding block are connected to second support portion of the fixed frame.
Preferably, the reagent container loading device includes the first guidance set and the second guidance set;Described first leads
The container incorporating section can be guided outwardly or inwardly to be overturn relative to the sample analyser to component;The second guiding group
Part can guide the container incorporating section to change the height and position of the container incorporating section, so that the container incorporating section drives institute
State reagent container far from or close to suction means.
Preferably, the container incorporating section includes fixed part and receiving portion, and described accommodation section can accommodate reagent container simultaneously
It is rotatable relative to the fixed part;First guidance set at least can guide described accommodation section relative to the fixed part
Outwardly or inwardly overturn;Second guidance set is connect with the fixed part, and the second guidance set driving is described solid
Determine portion to move back and forth between the first height and the second height, so that described accommodation section drives the reagent container separate or leans on
Nearly suction means.
Preferably, when second guidance set drives the fixed part to reach first height, described accommodation section band
The reagent container is moved in the first posture so that far from the suction means, second guidance set drives the fixed part to reach
When second height, described accommodation section drives the reagent container in the second posture with close to the suction means, and described
It is in predetermined angular between first posture and second posture.
Preferably, the fixed part from second height towards described first it is highly mobile when, described accommodation section drive
It is first posture that the reagent container, which follows the fixed part to move down and gradually flipped outward from second posture,;
The fixed part from first height towards described second it is highly mobile when, described accommodation section drives the reagent container gradual
From first posture, inwardly overturning is second posture.
Preferably, second guidance set includes guide rail and the second sliding block for being moved along the guide rail, the container
The fixed part of incorporating section includes holder, and second sliding block is connected to the holder;First guidance set includes sliding
Road and the first sliding block moved along the slideway, the slideway include the first slideway portion and the second slideway in the setting of predetermined angle
Portion, and the junction rounding off of the two;Second slideway portion is parallel to the guide rail setting, and described accommodation section is pivotly
It is connected to first sliding block;When first sliding block is moved along second slideway portion, described accommodation section be guided with
The fixed part is followed to move together;When first sliding block is moved along first slideway portion, described accommodation section is drawn
It leads gradually inwardly and outwardly to be overturn relative to the fixed part.
Sample analyser provided by the utility model is improved as a result of at least two reagent container toters
The working efficiency of reagent sampling, also, two reagent container toters can be picked and placeed independently, not interfere with each other, and pick and place reagent appearance
Device is convenient, further improves working efficiency.
Description of the drawings
Fig. 1 is the structural schematic diagram of the utility model sample analyser;
Fig. 2 is a kind of structural schematic diagram of the embodiment of reagent container loading device of the utility model;
Fig. 3 is structural schematic diagram of the container housing portion shown in Fig. 2 when the first height;
Fig. 4 is structural schematic diagram of the container housing portion shown in Fig. 2 when the second height;
Fig. 5 is the structural schematic diagram of the utility model another kind reagent container loading device;
Fig. 6 is structural schematic diagram when reagent container loading device shown in fig. 5 is moved to precalculated position;
Fig. 7 is structural schematic diagram of the reagent container loading device movement shown in fig. 5 when the first height removes;
Fig. 8 is structural schematic diagram when reagent container loading device shown in fig. 5 is moved to the second height merging;
Fig. 9 is the structural schematic diagram of the locking system of reagent container locking device shown in fig. 5.
Specific implementation mode
The utility model in order to better understand, with reference to Fig. 1 to the sample analyser of the utility model embodiment into
Row detailed description.
As shown in Figures 1 to 4, the sample analyser of the present embodiment includes suction means and reagent container loading device 100;
Shell 200 can be covered in the outside of container incorporating section 1010, prevent the reagent in reagent container C from being polluted by impurity such as dusts;
Shell 200 is provided with opening 210 on direction of the container incorporating section 1010 far from suction means N, when suction means N holds from reagent
After having drawn enough reagents in device C, container incorporating section 1010 removes shell 200 by opening 210, is conveniently replaceable next examination
Agent container C.Since shell 200 need not cover the overall structure of reagent container loading device 100, therefore occupied space is smaller.With
Personnel easy to operation continuously pick and place reagent container C, are replaced again after waiting for suction means N to draw reagent without wasting time
New reagent container C, and more than two reagent container loading devices 100 respectively work independently, and pick and place the reagent container side C
Just, do not interfere with each other, further improve working efficiency, in addition, shell 200 corresponding to suction means N position at can be arranged
There is window 220, if the quantity of reagent container loading device 100 is two or more, corresponds to each reagent container load dress
It sets and is each provided with corresponding window 220 at the position of 100 suction means N, i.e., the quantity of window 220 is filled with reagent container load
Set 100 quantity it is identical, in order to operating personnel each reagent container loading device 100 receiving portion 1012 close to draw fill
The reagent in each reagent container C is checked when setting N in time.
Specifically, suction means is suction means N, reagent container loading device 100 includes container incorporating section 1010, container
Incorporating section 1010 has first state and the second state;In the first state, container incorporating section 1010 is located at sample analyser
External and with the operating space for picking and placeing reagent container C, in the second condition, container incorporating section 1010 is located at sample analyser
Inside, suction means can extend into reagent container C and draw reagent;
In order to meet while loading multiple reagent container C, the present embodiment sample analyser has at least two reagent containers
Loading device 100, reagent container loading device 100 are abreast set to the side of sample analyser, to improve sampling efficiency, rich
Rich reagent container C types, in terms of the side of sample analyser, at least two reagent container loading devices 100 are transversely side by side
Ground is intensively set together, and Fig. 1 illustrates a kind of illustrative structure, and there are five transversely simultaneously for sample analyser tool
Arrange the reagent container loading device 100 of setting.
In the present embodiment, first state be container incorporating section 1010 to after mobile outside sample analyser convenient for picking and placeing examination
State when agent container C, the second state be container incorporating section 1010 to after mobile inside sample analyser convenient for suction means into
The state of row suction operation.It is more when being arranged side by side since operating personnel are the side progress loading or unloading operations for holding reagent container C
After a reagent container loading device 100, picking and placeing the operating space of reagent container C becomes more narrow, in order to solve the problems, such as this,
At least one of the present embodiment reagent container C load maintainers can be in the second shape in other reagent container loading devices 100
First state is individually switched to when state, through this structure, each reagent container C load maintainers can relatively solely
On the spot, individually switch between the first state and a second state, rather than the container of all reagent container C load maintainers is received
Receive portion 1010 synchronously switches between the first state and a second state.
Container incorporating section 1010 is located at the first height in first state, and container incorporating section 1010 is located in the second state
Second height, and the first height is highly less than second, i.e.,:First height is located at the lower section of the second height.Using such structure,
When needing reagent container C when container incorporating section 1010 is picked and placeed, container incorporating section 1010 is made to be in relatively low
First height of position;So that container incorporating section 1010, which individually removes, forms enough loading or unloading operation spaces;When needing profit
Reagent container C is stably placed inside sample analyser with container incorporating section 1010 when carry out suction operation, makes appearance
Device incorporating section 1010 is in the second height of relatively high position, with the effect for playing storage, reducing space hold.When reagent holds
At work, reagent container C is in the second state (i.e. to device C:Collapsed state), space is saved with this, in addition, it is necessary to individually
When picking and placeing some reagent container C, corresponding reagent container loading device 100 can be individually controlled, by container incorporating section 1010
It is pulled down to first state (i.e.:Unfolded state), in this case, since container incorporating section 1010 is far below reagent container load dress
100 are set, both sides are not hindered by neighbouring reagent container loading device 100 when picking and placeing reagent container C, almost can be with whole
Hand picks and places reagent container C, therefore can quickly and easily take out reagent container C.
Further, in the second condition, that is, reagent container C at work, the bottom of container incorporating section 1010
The distance between portion and the bottom of suction means are less than the height of reagent container C, and therefore, in the second condition, suction means is
Bottom is extend into reagent container C to carry out suction operation;In the first state, the bottom of container incorporating section 1010 is filled with absorption
The distance between bottom set is more than the height of reagent container C, therefore, in the first state, container incorporating section 1010 and reagent
Container C is far from suction means, with this, can avoid bumping against suction means when picking and placeing reagent container C, and space is filled
It is abundant easily to carry out loading or unloading operation.
Suction means and the relative motion of container incorporating section 1010, in the present embodiment, reagent container loading device 100
Suction means is fixedly arranged inside sample analyser, and container incorporating section 1010 is movably to be set in sample analyser
Portion stretches into or removes the mode of reagent container C in being different from the prior art by suction means lifting, using the present embodiment structure,
Displacement is carried out by container incorporating section 1010, and suction means is fixed, so as to avoid the liquid being connected on suction means
There is abrasion in road system, fractures or the problem of casey.
In the following, combining as Fig. 2 to Fig. 4 shows a kind of embodiment of reagent container toter, the present embodiment reagent container
Toter includes:Container incorporating section 1010, the first guidance set 1020 and the second guidance set 1030.
Container incorporating section 1010 includes fixed frame 1011 and receiving portion 1012, and receiving portion 1012 can accommodate reagent container C
And it is rotatable relative to fixed frame 1011.It is loaded with reagent in reagent container C.The contact surface of receiving portion 1012 and reagent container C
The elastic material that rubber can be filled with makes, and prevents reagent container C to be received the scuffing of portion 1012 in moving process, simultaneously
The shaking of reagent container C can also be slowed down.
First guidance set 1020 is for guiding receiving portion 1012 to be rotated relative to fixed frame 1011.
Second guidance set 1030 is connect with fixed frame 1011, drives fixed frame 1011 between the first height and the second height
While reciprocating movement so that receiving portion 1012 drives reagent container C relative to fixed frame 1011 along counterclockwise or up time
Needle direction overturns predetermined angle theta.
In addition, the suction means in the reagent container toter that the utility model embodiment proposes is suction means N, inhale
One end of device N is taken to be connected with liquid channel system.
When fixed frame 1011 is highly mobile towards second from the first height, the first guidance set 1020 guides receiving portion
After 1012 drive reagent container C overturn predetermined angle theta counterclockwise relative to fixed frame 1011, with fixed frame 1,011 1
It rises and is moved to the second height, so that reagent container C draws examination close to suction means N, convenient for suction means N from reagent container C
Agent;When fixed frame 1011 is highly mobile towards first from the second height, the first guidance set 1020 guides 1012 band of receiving portion
Dynamic reagent container C overturns predetermined angle theta relative to fixed frame 1011 far from suction means N clockwise, is convenient for behaviour
Reagent container C is picked and placeed as personnel.
Reagent container toter provided in this embodiment passes through the first guidance set 1020 and the second guidance set 1030
Actively reagent container C is moved near suction means N, and suction means N is fixed, so as to avoid and suction means
There is abrasion in the liquid channel systems of N connections, fractures or the problem of casey.In addition, the first guidance set 1020 can guide reagent to hold
Device C is inclined outwardly when far from suction means N, and convenient for picking and placeing reagent container, overall structure is simple, compact, easy to operate.
The receiving portion 1012 of container incorporating section 1010 could be provided as accommodating a part of reagent container C, without accommodating
Entire reagent container C, so that most of side of reagent container C can be exposed to outside, to can not only mitigate weight but also just
Receiving portion 1012 is taken out or is positioned over from receiving portion 1012 in most of side that reagent container C is held in operating personnel.In addition, being
Personnel easy to operation move receiving portion 1012, a handle 1013 can be arranged in the suitable position of receiving portion 1012.
Second guidance set 1030 can be the moving parts of slidingtype, or the moving parts of roller, this reality
With being illustrated for the moving parts of new embodiment slidably.Second guidance set 1030 include guide rail 1031 and along
The fixed frame 1011 of the second sliding block 1032 that guide rail 1031 moves, container incorporating section 1010 includes holder 1011a, the second sliding block
1032 are connected to holder 1011a, to make the second sliding block 1032 drive fixed frame 1011 along guide rail 1031 by holder 1011a
It is moved back and forth between the first height and the second height.
First guidance set 1020 includes slideway 1021 and the first sliding block 1022 moved along slideway 1021, the first sliding block
1022 can be to be slidably moved component, or roller moving parts, such as roller, when the first sliding block 1022 is to roll
When formula moving parts, also around own axis while being slided along slideway 1021, relative to being slidably moved portion
Part can reduce its frictional force between slideway 1021, so that the operation of the first sliding block 1022 is more smooth.Slideway 1021 is including being in
The the first slideway portion 1021a and the second slideway portion 1021b of predetermined angle setting, and the junction rounding off of the two;Second slides
Road portion 1021b is parallel to the setting of guide rail 1031, and receiving portion 1012 is as pivotally connected to the first sliding block 1022.
As a result, when fixed frame 1011 is highly mobile towards first, receiving portion 1012 is by the first sliding block 1022 along
One slideway portion 1021a is mobile and receiving portion 1012 is made to overturn predetermined angle theta clockwise relative to fixed frame 1011, far from absorption dress
It sets N and is inclined outwardly, as shown in Figure 2.When fixed frame 1011 is highly mobile towards second, receiving portion 1012 passes through the first sliding block
1022 move along the second slideway portion 1021b and overturn predetermined angle theta counterclockwise, and close to suction means N, so that suction means
N draws the reagent in reagent container C.
As an alternative embodiment, the first guidance set 1020 and the second guidance set 1030 can be respectively positioned on suction
The same side for taking device N also allows for picking and placeing reagent container C, as shown in Figure 3 to reduce the overall dimensions of container incorporating section 1010.
It is understood that the first guidance set 1020 and the second guidance set 1030 can also be located at the both sides of suction means N, herein
It is not restricted.
As an alternative embodiment, suction means N can be placed vertically, the guide rail in the second guidance set 1030
1031 are parallel to the axial vertical placement of suction means N.When the second sliding block 1032 drives the fixed frame of container incorporating section 1010
1011 when being located at the second height, and the receiving portion 1012 of container incorporating section 1010 is with horizontality face suction means N, convenient for drawing
Device N draws reagent from reagent container C.When the second sliding block 1032 drives fixed frame 1011 to be located at the first height, receiving portion
1012 far from suction means N and are relatively fixed frame 1011 and overturn predetermined angle theta clockwise, and personnel easy to operation pick and place
Reagent container C.
It is understood that suction means N can also be placed with respect to the horizontal plane at an angle, while the second guiding group
Part 1030 can not also be parallel to the axially placed of suction means N.The angle needs to ensure the receiving portion of container incorporating section 1010
1012 with non-standard state close to suction means N when, the reagent volumes in reagent container C will not overflow enough and in switching process
Go out or the receiving portion of container incorporating section 1,010 1012 with horizontality close to suction means N when, suction means can be with a certain
Angle is inserted into reagent container without making suction means bend and can draw enough reagents.
As an alternative embodiment, the first guidance set 1020 can also be mandril, mandril is oriented to close to second
The setting of guide rail 1031 in component 1030 and the lower section positioned at receiving portion 1012.Suction means N is drawn enough from reagent container C
Reagent after, operating personnel's operating handle 1013 moves container incorporating section 1010, and fixed frame 1011 is made to drive 1012 edge of receiving portion
It that guide rail 1031 towards second is highly mobile, when the bottom of receiving portion 1012 touches mandril, receiving portion 1012 can be guided
Relative to fixed frame 1011, overturning predetermined angle theta, personnel easy to operation take out reagent container C, are changed to next clockwise
Reagent container C.When the movement container of operating personnel's operating handle 1013 incorporating section 1010, fixed frame 1011 is made to drive receiving portion 1012
Along guide rail 1031 towards first it is highly mobile when, mandril guides receiving portion 1012, and relative to fixed frame 1011, overturning is pre- counterclockwise
After determining angle, θ, so that the bottom of receiving portion 1012 is left mandril and be moved to first along guide rail 1031 together with fixed frame 1011
Highly, it is rotated relative to fixed frame 1011 when receiving portion 1012 is close to suction means N in order to prevent, it can be close to suction means N
Position at be arranged locating part.
In order to make receiving portion 1012 smoothly be overturn relative to fixed frame 1011, the top of mandril can be arranged idler wheel or
Cam.Meanwhile impact when being contacted at the top of the bottom and mandril in order to reduce receiving portion 1012 or preventing receiving portion 1012
Bottom be scratched, can the outer surface of idler wheel or cam be provided with the elastic component of rubber.
For ease of description, below with the first guidance set 1020 be slideway 1021 and the first sliding block 1022 combination knot
Structure, the first guidance set 1020 is respectively positioned on the same side of suction means N with the second guidance set 1030 and suction means N is put vertically
It is described for the technical solution set.
Further, fixed frame 1011 further includes two side plate 1011b of relative spacing setting, the bottom of receiving portion 1012
It is provided with rotation axis 1012a, rotation axis 1012a is set between two side plate 1011b and is rotatably connected to two side plates
1011b。
In addition, fixed frame 1011 further includes support shaft 1011c, support shaft 1011c be fixed between two side plate 1011b and
With the intervals rotation axis 1012a be arranged, when receiving portion 1012 for instance in horizontality close to suction means N when, support shaft 1011c
Receiving portion 1012 is supported jointly with rotation axis 1012a.The both ends of support shaft 1011c can for example, by but be not limited to the side of screw
Formula and be fixed on two side plate 1011b.
As an alternative embodiment, support shaft 1011c and rotation axis 1012a could be provided as the identical circle of diameter
Cylinder.At this point, rotation axis 1012a is contacted with the bottom of receiving portion 1012 for line.In order to increase receiving portion 1012 bottom by
Power area can also set the parts contacted with the bottom of receiving portion 1012 rotation axis 1012a to plane.For the ease of adding
Work can set rotation axis 1012a on cylinder, while the periphery of cylinder is removed a part, Huo Zheyan in an axial direction
Axially remove symmetrical two parts, and removes the plane of part to the distance of central axis and the radius phase of support shaft 1011c
Deng.The both ends of rotation axis 1012a are further provided with the smaller multi-diameter shaft of diameter, are correspondingly arranged on two side plate 1011b solid
Determine hole, which is inserted into mounting hole, and rotation axis 1012a is made to be rotatably connected to two side plate 1011b.
Further, the reagent container toter that the utility model embodiment proposes further includes locking system 1040, lock
At least part of locking apparatus 1040 is connect with the holder 1011a of fixed frame 1011, when the second sliding block 1032 passes through holder 1011a
When fixed frame 1011 being driven to be moved to the second height along guide rail 1031, locking system 1040 positions fixed frame 1011 to second
Highly, prevent reagent container C from gliding, suction means N starts steadily to draw the reagent in reagent container C at this time.Work as fixed frame
1011 along the moving direction of the second sliding block 1032 when continuing to move to preset distance, and locking system 1040 releases fixed frame 1011
It puts.
As an alternative embodiment, locking system 1040 is miniature elastic collision bead 1041, as shown in Figure 3 and Figure 4,
Miniature elastic collision bead 1041 includes the collision bead 1041 and lock 1042 of separable setting, wherein lock 1042 is fixed to fixed frame
1011 holder 1011a, collision bead 1041 be fixed to lock 1042 opposite pre-positions, collision bead 1041 can lock or
Releasable catch 1042.
Specifically, when the second sliding block 1032 drives fixed frame 1011 to be moved to along guide rail 1031 by holder 1011a
When the second height, collision bead 1041 contacts and locks lock 1042, is simultaneously emitted by the sound, and operating personnel's reagent container C is reminded to arrive
Up to designated position.After suction means N has drawn enough reagents from reagent container C, operating personnel's operating handle 1013 makes
Fixed frame 1011 continues to move to preset distance along the moving direction of the second sliding block 1032 can make 1041 releasable catch of collision bead
1042 and unlock.Container incorporating section 1010 is returned under the action of the second guidance set 1030 and the first guidance set 1020 as a result,
It is back to the first height, and receiving portion 1012 is in the state being inclined outwardly, operating personnel can be easily from receiving portion 1012
Middle taking-up reagent container C, then replaces next reagent container C.
It is understood that locking system 1040 is not limited to miniature elastic collision bead 1041 shown in figure, can also be
The miniature elastic collision bead 1041 of other forms, for example, the overall structure of miniature elastic collision bead 1041 is connected to fixed frame 1011
Holder 1011a, when to drive fixed frame 1011 along guide rail 1031 to be moved to second by holder 1011a high for the second sliding block 1032
When spending, miniature elastic collision bead 1041 is stretched out lock 1042 and is connect with the hook plate of offside setting, realizes latch functions.Locking system
1040 can also be the locking mechanism of other forms, and details are not described herein again.
As an alternative embodiment, the reagent container toter that the utility model embodiment proposes further wraps
Damping unit 1050 is included, damping unit 1050 includes pitch wheel 1051 and rack 1052, and gear 1051 is rotationally
It is connected to the holder 1011a of fixed frame 1011, rack 1052 is parallel to the setting of guide rail 1031.Due to gear 1051 and rack 1052
Damping can be generated during intermeshing, therefore operating personnel's operating handle 1013 makes fixed frame 1011 in the first height and
Between two height move back and forth during, fixed frame can be parked in any position in 1031 stroke of guide rail, without when
Operating handle 1013 is carved, user experience is improved, also allows for checking the reagent state in reagent container at any time.
It is understood that damping unit 1050 can also be to be such as, but not limited to air spring, wind spring, leading with damping
To structures such as devices, details are not described herein again.
In addition, the needle tubing of suction means N has first end and the second end opposite with first end close to suction means N,
Second end is movably connected in fixed firm banking 101, and first end is fixed with flange 102, firm banking 101 and flange
The compressed spring 103 being socketed on the outside of needle tubing is provided between 102, when the fixed frame 1011 of container incorporating section 1010 reaches second
When height, the opening portion F (as shown in Figure 2) for the reagent container C that receiving portion 1012 accommodates is contacted with flange 102.
Specifically, the second end of the needle tubing of suction means N is provided with baffle ring, and firm banking 101 is provided with through-hole, and needle tubing is worn
The through-hole is crossed, and the through-hole is connected in by baffle ring.Flange 102 can be welded at the suction means N of the first end of needle tubing, or
Person is fixed on the first end of needle tubing otherwise.When the fixed frame 1011 of container incorporating section 1010 reaches the second height,
The opening portion F of reagent container C is contacted with flange 102 just.Flange 102 drives the needle tubing of suction means N by compressed spring 103
It is movable in the through-hole of firm banking 101, to slow down opening portion F and method due to reagent container C caused by installation error etc.
Impact force when the just contact of orchid 13.
In addition, the syringe needle of suction means N draws reagent below the liquid level that the opening portion F of reagent container C is inserted into reagent
In the process, it is also possible to the compressed spring 103 is compressed because of slight disturbance, thus will not bending or damage suction means
N improves the reliability of the reagent container toter.After suction means N draws enough reagents, reagent container C's opens
Oral area F is disengaged with flange 102, and compressed spring 103 is restored to original length.
In addition, the reagent container toter that the utility model embodiment proposes further includes fixed frame 1080, first is oriented to
Slideway 1021 in component 1020, the guide rail 1031 in the second guidance set 1030, the rack 1052 in damping unit 1050 with
And firm banking 101 is individually secured to the fixed frame 1080.If the first guidance set 1020 is mandril, mandril is also fastened to
The fixed frame 1080.
Further, the utility model embodiment propose reagent container toter further include control device (in figure not
Showing) and position sensor 1060 can pass through the position when the fixed frame 1011 of container incorporating section 1010 reaches the second height
It sets sensor 1060 and sends electric signal to control device, the liquid channel system in order to control suction means N connections starts from reagent
Reagent is drawn in container C.Position sensor 1060 can be any one in photoelectric sensor, optocoupler or electronic switch
Kind.
The reagent container toter that the utility model embodiment proposes further comprises radio-frequency module 1070, radio-frequency module
1070 are electrically connected with control device.It is provided with the label comprising the reagent information on the outer surface of reagent container C, such as printing
Quick Response Code etc., which is sent to control device by radio-frequency module 1070 after scanning the label, to obtain in reagent container C
Reagent information.
The reagent container toter provided as a result, according to the utility model embodiment, by the first guidance set
Setting is in the first slideway portion 1021 and the second slideway portion 1022 of predetermined angle in 1020, to guide the appearance of container incorporating section 1010
Receiving portion 1012 drives reagent container C close to suction means N so that suction means N draws reagent, or far from suction means N and to
Outer incline is in order to picking and placeing reagent container C.When the fixed frame 1011 of container incorporating section 1010 reaches the second height, filled by locking
1040 are set to prevent container incorporating section 1010 from gliding.At this point, the opening portion F of the flange 102 and reagent container C at suction means N
Contact buffers the impact force in the two contact process, to make suction means N steadily draw reagent by compressed spring 103
Reagent in container C improves the reliability of reagent container toter.
Refering to Fig. 5 to Fig. 8, the utility model embodiment proposes another reagent container loading device 100, the present embodiment
Reagent container loading device 100 is provided with suction means N, and suction means N is connected with liquid channel system.Reagent container loading device
100 include container incorporating section 2010, first movement device 2020 and the second mobile device 2030.
Container incorporating section 2010 has the receiving portion for accommodating reagent container C, and reagent is loaded in reagent container C.Container is received
The elastic material that rubber may be used with the contact surface of reagent container C for the receiving portion in portion 2010 of receiving makes, and prevents reagent container C
It is scratched by container incorporating section 2010 in moving process, while the shaking of reagent container C can also be slowed down.
First movement device 2020 is set to the lower section of suction means N, and container incorporating section 2010 is connected to first movement dress
Set 2020.
Second mobile device 2030 with first movement device 2020 in the setting of predetermined angle, and with first movement device 2020
Connection so that container incorporating section 2010 drives reagent container C can along first movement device 2020 and the second mobile device 2030
Precalculated position is movably reached, so that suction means N draws the reagent in reagent container C.
In addition, one end of the needle tubing of suction means N is movably connected in fixed pedestal 2012, the other end is fixed with method
Orchid 2013, is provided with the compressed spring 2014 being socketed on the outside of needle tubing between pedestal 2012 and flange 2013.Specifically, dress is drawn
The one end for setting the needle tubing of N is provided with baffle ring, and pedestal 2012 is provided with through-hole, and needle tubing passes through the through-hole, and is connected in by baffle ring
The through-hole.Flange 2013 can be welded in the suction means N of the needle tubing other end, or be fixed on the another of needle tubing otherwise
One end.When container incorporating section 2010 drives reagent container C to reach precalculated position, the opening portion F of reagent container C is just and flange
2013 contacts.Flange 2013 drives the needle tubing of suction means movable in the through-hole of pedestal 2012 by compressed spring 2014,
To slow down the impact force when opening portion F due to reagent container C caused by installation error etc. is just contacted with flange 2013.In addition,
During the syringe needle of suction means N draws reagent below the liquid level that the opening portion F of reagent container C is inserted into reagent, it is also possible to
The compressed spring 2014 can be compressed because of slight disturbance, to will not bending or damage suction means N, improve the examination
The reliability of agent container loading device 100.After suction means N draws enough reagents, the opening portion F and method of reagent container C
Orchid 2013 disengages, and compressed spring 2014 is restored to original length.
It is understood that first movement device 2020 and the second mobile device 2030 can be the mobile dress of slidingtype
It sets, or the mobile device of roller illustrates for the mobile device of the utility model embodiment slidably.
As an alternative embodiment, the pre- clamp between first movement device 2020 and the second mobile device 2030
Angle can be right angle, or other angles.The utility model embodiment is illustrated by taking right angle as an example.Suction means N's
Fixed-direction can be vertical direction shown in fig. 5, and container incorporating section 2010 drives reagent container C can be first along horizontal direction
It is mobile, it is moved further along vertical direction, to reach precalculated position.As an alternative embodiment, suction means N's consolidates
Determine the vertical direction that direction is not limited to diagram, can also be horizontal direction, the opening portion F of reagent container C can be arranged in side
Portion is other convenient for drawing the position of reagent, and container incorporating section 2010 drives reagent container C can be first along vertical side as a result,
To movement, moved further along horizontal direction, to reach precalculated position.It is understood that first movement device 2020 and
When predetermined angle between two mobile devices 2030 is other angles, the shifting of the fixed-direction and reagent container C of suction means N
Dynamic direction can also carry out the modification of adaptability.
According to the reagent container loading device 100 that the utility model embodiment provides, by be arranged in predetermined angle the
2030 active mobile reagent container C of one mobile device 2020 and the second mobile device, and suction means N is fixed, can keep away
There is abrasion, fractures or the problem of casey in the liquid channel system for exempting from suction means N connections.In addition, since suction means N is long and
It is fixed and reagent container C moves back and forth, convenient for picking and placeing reagent container, reagent container load can also be reduced compared with the existing technology
Space of the device 100 on suction means fixed-direction, overall structure are compact.
The reagent container loading device 100 that the utility model embodiment offer is described in further detail below in conjunction with the accompanying drawings is each
The structure of component.
Refering to Fig. 7 and Fig. 8, the reagent container loading device 100 that the utility model embodiment proposes further comprises fixing
Frame 2040, fixed frame 2040 include in the first support portion 2041 and the second support portion 2042 of the setting of predetermined angle, first movement
Device 2020 is connected to the first support portion 2041, and the second mobile device 2030 is connected to the second support portion 2042.It is appreciated that
It is that the predetermined angle can be right angle, or other angles.The utility model embodiment is illustrated by taking right angle as an example.
As an alternative embodiment, first movement device 2020 is drawer guideway, it is set to container incorporating section
Between 2010 and the first support portion 2041 of fixed frame 2040, first movement device 2020 can be set to container incorporating section 2010
Both sides, the bottom of container incorporating section 2010 can also be set to, be not restricted herein.Since drawer guideway is that existing maturation is set
Meter, repeats no more with the specific installation connection type of container incorporating section 2010 and fixed frame 2040.
As an alternative embodiment, container incorporating section 2010 could be provided as accommodating a part of reagent container C,
Without accommodating entire reagent container C, so that most of side of reagent container C can be exposed to outside, so as to mitigate
Weight.
Further, container incorporating section 2010 can between the first height and the second height along first movement device 2020
It is mobile.When container incorporating section 2010 is moved to the first height, container incorporating section 2010 is led far from fixed frame 2040, and by drawer
Rail supports, and the structure of container incorporating section 2010 can make user hold most of side of reagent container C, convenient for being placed or taken out
It is loaded with the reagent container C of reagent.When container incorporating section 2010 is moved to the second height, container incorporating section 2010 is close to fixed frame
2040。
Specifically, hold corresponding to magnetic devices 2043 are provided at the position of container incorporating section 2010 on fixed frame 2040
When device incorporating section 2010 is moved to the second height along first movement device 2020, magnetic devices 2043 are by container incorporating section 2010
It adsorbs and positions to fixed frame 2040.It container incorporating section 2010 can be by the magnetic metal materials such as iron, cobalt, nickel and its alloy
Any one is made, and iron sheet bended or iron block machining generally may be used in engineering to make, and do surface antirust
Processing.Container incorporating section 2010 can also use plastic part to process, and only be used in the position contacted with magnetic devices 2043
Magnetic metal material as described above inlays a holder or plate, can further mitigate container incorporating section 2010
Weight.
As an alternative embodiment, the second mobile device 2030 is including the linear guide 2031 and along the linear guide
The sliding block 2032 of 2031 slidings.Sliding block 2032 is connected to the second support portion 2042 of fixed frame 2040 so that container incorporating section
2010 drive reagent container C movably reach precalculated position along first movement device 2020 and the second mobile device 2030.
As an alternative embodiment, the reagent container loading device 100 into one that the utility model embodiment proposes
Step includes locating part 2015, and locating part 2015 is arranged in parallel to the first support portion 2041 of fixed frame 2040, container incorporating section
2010 close to fixed frame 2040 when, reagent container C is between container incorporating section 2010 and locating part 2015.At this point, reagent holds
It the top of device C can be against locating part 2015, it is possibility to have small gap.Container incorporating section 2010 drives reagent to hold as a result,
Device C is highly mobile to during precalculated position from second along the second mobile device 2030, will be held by magnetic devices 2043
Device incorporating section 2010 adsorb and position to fixed frame 2040, locating part 2015 can then further prevent reagent container C overturn or
It shakes.
In addition, the reagent container loading device 100 that the utility model embodiment proposes further comprises control device (in figure
It is not shown) and position sensor 2060 can pass through when container incorporating section 2010 drives reagent container C to reach precalculated position
The position sensor 2060 sends signal to control device, and the liquid channel system in order to control suction means N connections starts from examination
Reagent is drawn in agent container C.Position sensor 2060 can be any one in photoelectric sensor, optocoupler or electronic switch
Kind.
The reagent container loading device 100 that the utility model embodiment proposes further comprises radio-frequency module 2070, radio frequency
Module 2070 is electrically connected with control device.It is provided with the label comprising the reagent information on the outer surface of reagent container C, such as prints
The reagent information is sent to control device by the Quick Response Code etc. of brush, radio-frequency module 2070 after scanning the label, to obtain reagent appearance
Reagent information in device C.
In addition, container incorporating section 2010 is pushed and pulled for the ease of user, it can be in the lower part or side of container incorporating section 2010
A handle 201 is arranged in the other positions such as portion.
The reagent container loading device 100 that the utility model embodiment proposes further comprises locking system 2050, container
Incorporating section 2010 drive reagent container C along the second mobile device 2030 from second it is highly mobile to precalculated position when, locking dress
It sets 2050 to lock container incorporating section 2010, to prevent reagent container C from gliding, suction means N starts steadily to draw examination at this time
Reagent in agent container C.
Further refering to Fig. 8, locking system 2050 includes the lock being connect with the first support portion 2041 of fixed frame 2040
Pin mechanism 2051 and corresponding closing piece 2052 is set in reagent container loading device 100.It is understood that closing piece 2052 can
To be fixed on the precalculated position in reagent container loading device 100 by clamp device.
Specifically, closing piece 2052 has U-shaped card slot, and inclined-plane tapered downward is provided with below U-shaped card slot
2052b。
Latch gear 2051 includes that lock pin 201, fixed seat 202 and unlock briquetting 203, fixed seat 202 are connected to fixed frame
2040 the first support portion 2041, unlock briquetting 203 are elastically connected to fixed seat 202, and lock pin 201 has first end and second
End, first end are located between fixed seat 202 and unlock briquetting 203, and second end can be plugged in the U-shaped card slot of closing piece 2052.
More specifically, as shown in figure 9, unlock briquetting 203 by bolt 203a and be socketed on the outside of bolt 203a first
Elastic component 203b is connected to fixed seat 202, shaft shoulder 201a is provided in the first end of lock pin 201, shaft shoulder 201a is by being socketed on
The second elastic component 201b on the outside of first end and between fixed seat 202 and unlock briquetting 203.
As an alternative embodiment, the first elastic component 203b and the second elastic component 201b can be compressed spring,
It may be rubber parts, be not restricted herein.
As an alternative embodiment, bolt 203a can be contour bolt, contour bolt includes one section of optical axis, the
One elastic component 203b is socketed on the outside of the optical axis, can reduce the friction between the first elastic component 203b and bolt 203a.
Container incorporating section 2010 drives reagent container C highly mobile to during precalculated position from second as a result, lock pin
The lock pin 201 that mechanism 2051 is stretched out comes into contact with the inclined-plane 2052b of closing piece 2052, and lock pin 201 is made by from inclined-plane 2052b
The first elastic component 203b and the second elastic component 201b is firmly compressed, until lock pin 201 is detached from inclined-plane 2052b and enters closing piece
In 2052 U-shaped card slot, to lock the container incorporating section 2010 in vertical direction, its downslide is prevented.At this point, reagent holds
The opening portion F of device C is just contacted with the flange 2013 at suction means N, may be because during suction means N draws reagent
The compressed spring 2014 is compressed for slight disturbance, lock pin 201 is inserted into the U-shaped card slot of closing piece 2052 so that reagent container C
And its component of connection can be continued up along the second mobile device 2030 and slightly be moved, without damage suction means or
Other components further improve the reliability of reagent container loading device 100.
As an alternative embodiment, the end set of the second end of lock pin 201 is arc surface, in order to closing piece
It will not scraping contact surface when 2052 inclined-plane 2052b contact card slots.
After suction means N takes fully enough reagents from reagent container C interior suctions, solution is pressed along the axial direction of lock pin 201
Lock briquetting 203, you can the shaft shoulder 201a for pushing lock pin 201, to make lock pin 201 be exited from the U-shaped card slot of closing piece 2052.
Container incorporating section 2010 drives reagent container C to return to first from the second height along the second mobile device 2030 at this time
Highly, it is then removed further along with mobile device, with this, user easily can take out reagent from container incorporating section 2010
Then container C replaces next reagent container C.
As a result, according to the reagent container loading device 100 of the utility model embodiment offer, will be in by fixed frame 2040
The first movement device 2020 of predetermined angle setting and the second mobile device 2030 link together.Container incorporating section 2010 drives
When reagent container C is moved to the first height, far from fixed frame 2040, convenient for taking out or placing reagent container C;Container incorporating section
2010 when being moved to the second height, close to fixed frame 2040, and is fixed on container incorporating section 2010 by magnetic devices 2043
On fixed frame 2040;Container incorporating section 2010 is highly mobile to during precalculated position from second, by locating part 2015 into one
The overturning or shaking of step limitation reagent container C;When container incorporating section 2010 reaches precalculated position, pass through the lock including U-shaped card slot
Locking apparatus 2050 come prevent container incorporating section 2010 glide;At this point, flange 2013 and reagent container C's at suction means N opens
Oral area F contacts buffer the impact force in the two contact process by compressed spring 2014, and U-shaped card slot makes container incorporating section
2010 and its component of connection can continue up along the second mobile device 2030 and slightly move, avoid damage suction means or
The other components of person improve reagent container loading device to make suction means N steadily draw the reagent in reagent container C
100 reliability.
Although the present utility model has been described by reference to the preferred embodiments, but in the model for not departing from the utility model
In the case of enclosing, various improvement can be carried out to it and can replace component therein with equivalent.Especially, as long as not depositing
In structural conflict, items technical characteristic mentioned in the various embodiments can be combined in any way.The utility model
It is not limited to specific embodiment disclosed herein, but includes all technical solutions fallen within the scope of the appended claims.
Although the present utility model has been described by reference to the preferred embodiments, but in the model for not departing from the utility model
In the case of enclosing, various improvement can be carried out to it and can replace component therein with equivalent.Especially, as long as not depositing
In structural conflict, items technical characteristic mentioned in the various embodiments can be combined in any way.The utility model
It is not limited to specific embodiment disclosed herein, but includes all technical solutions fallen within the scope of the appended claims.
Claims (10)
1. a kind of sample analyser, which is characterized in that including:
Suction means;
At least two reagent container loading devices;The reagent container loading device is arranged side by side in the side of sample analyser;
The reagent container loading device includes container incorporating section, and the container incorporating section has first state and the second state;
In said first condition, the container housing portion is in the outside of sample analyser and with the behaviour for picking and placeing reagent container
Make space, in said second condition, the container housing portion can be stretched in the inside of sample analyser, the suction means
Enter and draws reagent in reagent container;
At least one reagent container load maintainer can be when other reagent container loading devices be in the second state
Individually it is switched to first state;
The container incorporating section is located at the first height in the first state, and the container incorporating section is in second state
Positioned at the second height, first height is less than second height.
2. sample analyser according to claim 1, it is characterised in that:In said first condition, the container storage
The distance between the bottom in portion and the bottom of suction means are more than the height of the reagent container, in said second condition, institute
State the height that the distance between the bottom of container incorporating section and the bottom of suction means are less than the reagent container.
3. sample analyser according to claim 1, it is characterised in that:The reagent container loading device includes the first shifting
Dynamic device and the second mobile device, the first movement device are set to the lower section of the suction means, the container incorporating section
It is connected to the first movement device, second mobile device is arranged with the first movement device in predetermined angle, and with
The first movement device connection;The first movement device makes the container incorporating section drive the reagent container removable
Ground reaches the second state;Second mobile device makes the container incorporating section that the reagent container be driven movably to reach
First height and the second height.
4. sample analyser according to claim 3, it is characterised in that:Further include fixed frame, the fixed frame includes being in
The first support portion and the second support portion of predetermined angle setting, the first movement device are connected to first support portion, institute
It states the second mobile device and is connected to second support portion;The container incorporating section is moved to along the first movement device
When one height, the container incorporating section is moved far from the fixed frame, the container incorporating section along the first movement device
When to the second height, the container incorporating section is close to the fixed frame.
5. sample analyser according to claim 4, it is characterised in that:The first movement device is drawer guideway,
It is set between the container incorporating section and first support portion of the fixed frame;Second mobile device includes straight line
Guide rail and the sliding block slided along the linear guide, the sliding block are connected to second support portion of the fixed frame.
6. sample analyser according to claim 1, it is characterised in that:The reagent container loading device is led including first
To component and the second guidance set;First guidance set can guide the container incorporating section relative to the sample analysis
Instrument is outwardly or inwardly overturn;Second guidance set can guide the container incorporating section to change the height of the container incorporating section
Position is spent, so that the container incorporating section drives the reagent container separate or close to suction means.
7. sample analyser according to claim 6, it is characterised in that:The container incorporating section includes fixed part and receiving
Portion, described accommodation section can accommodate reagent container and rotatable relative to the fixed part;
First guidance set at least can guide described accommodation section outwardly or inwardly to be overturn relative to the fixed part;
Second guidance set is connect with the fixed part, and second guidance set drives the fixed part in the first height
It is moved back and forth between the second height, so that described accommodation section drives the reagent container separate or close to suction means.
8. sample analyser according to claim 7, it is characterised in that:Second guidance set drives the fixed part
When reaching first height, described accommodation section drives the reagent container in the first posture with far from the suction means, institute
When stating the second guidance set the fixed part being driven to reach second height, described accommodation section drives the reagent container in the
Two postures are to be in predetermined angular close to the suction means, and between first posture and second posture.
9. sample analyser according to claim 8, it is characterised in that:The fixed part is from second height towards institute
State first it is highly mobile when, described accommodation section drives the reagent container that the fixed part is followed to move down and gradually from described
It is first posture that second posture, which flips outward,;The fixed part is highly mobile from first height towards described second
When, described accommodation section drives the reagent container, and gradually from first posture, inwardly overturning is second posture.
10. sample analyser according to claim 9, it is characterised in that:
Second guidance set includes guide rail and the second sliding block for being moved along the guide rail, the container incorporating section it is described
Fixed part includes holder, and second sliding block is connected to the holder;
First guidance set includes slideway and the first sliding block for being moved along the slideway, the slideway include be in predetermined angle
The the first slideway portion and the second slideway portion being arranged, and the junction rounding off of the two;Second slideway portion is parallel to described
Guide rail is arranged, and described accommodation section is as pivotally connected to first sliding block;
When first sliding block is moved along second slideway portion, described accommodation section is guided to follow the fixed part one
Play movement;When first sliding block is moved along first slideway portion, described accommodation section is guided with relative to described solid
Determine portion gradually inwardly and outwardly to overturn.
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CN201820264514.1U CN207923879U (en) | 2018-02-23 | 2018-02-23 | Sample analyser |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108279299A (en) * | 2018-02-23 | 2018-07-13 | 迈克医疗电子有限公司 | Sample analyser |
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2018
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108279299A (en) * | 2018-02-23 | 2018-07-13 | 迈克医疗电子有限公司 | Sample analyser |
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