CN106771282A - Biochemical Analyzer guideway transit system - Google Patents
Biochemical Analyzer guideway transit system Download PDFInfo
- Publication number
- CN106771282A CN106771282A CN201611177321.4A CN201611177321A CN106771282A CN 106771282 A CN106771282 A CN 106771282A CN 201611177321 A CN201611177321 A CN 201611177321A CN 106771282 A CN106771282 A CN 106771282A
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- Prior art keywords
- support
- conveyer belt
- biochemical analyzer
- transit system
- plate
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Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N35/00—Automatic analysis not limited to methods or materials provided for in any single one of groups G01N1/00 - G01N33/00; Handling materials therefor
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N35/00—Automatic analysis not limited to methods or materials provided for in any single one of groups G01N1/00 - G01N33/00; Handling materials therefor
- G01N2035/00178—Special arrangements of analysers
Abstract
The invention discloses a kind of Biochemical Analyzer guideway transit system, including first support, described first support is provided with conveyer belt assembly and spacing baffle mechanism;The sample outlet end of conveyer belt assembly of the described spacing baffle mechanism described in, the spacing baffle mechanism is spacing for being carried out to the specimen holder on the sample outlet end of described conveyer belt assembly;Propulsive mechanism is additionally provided with described first support, the propulsive mechanism is used to for the specimen holder on the sample outlet end of described conveyer belt assembly to push away described conveyer belt assembly.The guideway transit system can be horizontally installed in Biochemical Analyzer, can be achieved a butt joint with the long rails in Biochemical Analyzer, so as on the premise of the length for not increasing Biochemical Analyzer, greatly increase the buffering capacity of specimen holder.
Description
Technical field
The present invention relates to technical field of medical equipment, more particularly to a kind of Biochemical Analyzer guideway transit system.
Background technology
With developing rapidly for state-of-the-art technology, automation equipment is widely applied in biomedicine inspection industry,
Its reason is that can replace the cumbersome artificial operations of the overwhelming majority using automation equipment, and not only result is accurate, and error is small, while
Biochemical pollution is also avoided that, faster, efficiency is also higher for test speed.Biochemical Analyzer is exactly that a kind of relatively common medical treatment sets
It is standby.But the still many unsatisfactory places of the Biochemical Analyzer of prior art, such as the rail of current Biochemical Analyzer
Pipeline conveying system is typically all arranged using longitudinally fed pattern, i.e. track along Biochemical Analyzer length direction, and this kind of mode is present
The not enough situation of specimen holder buffering capacity, can only typically buffer 2 specimen holders, and biochemical point certainly will will be extended to increase buffering capacity
The length of analyzer, relatively takes up space.
The content of the invention
The technical problem to be solved in the present invention is to provide a kind of Biochemical Analyzer guideway transit system, the orbit transports system
System can be horizontally installed in Biochemical Analyzer, can be achieved a butt joint with the long rails in Biochemical Analyzer, so as to not increase
Plus on the premise of the length of Biochemical Analyzer, the buffering capacity of specimen holder can be greatly increased.
Technical solution of the invention is to provide a kind of Biochemical Analyzer guideway transit system with following structure,
Including first support, described first support is provided with conveyer belt assembly and spacing baffle mechanism;Described spacing baffle mechanism
Located at the sample outlet end of described conveyer belt assembly, the spacing baffle mechanism is used on the sample outlet end of described conveyer belt assembly
Specimen holder carries out spacing;Propulsive mechanism is additionally provided with described first support, the propulsive mechanism is used for described conveyer belt group
Specimen holder on the sample outlet end of part pushes away described conveyer belt assembly.
After using above structure, Biochemical Analyzer guideway transit system of the invention, compared with prior art, with following
Advantage:
Biochemical Analyzer guideway transit system of the invention is used to be horizontally installed in Biochemical Analyzer, lateral transfer specimen holder,
Can realize that this guideway transit system is docked with the long rails in Biochemical Analyzer by propulsive mechanism, i.e., by pusher
Can be pushed into specimen holder on this guideway transit system in long rails by structure, compared to existing technologies, Biochemical Analyzer
Sample Buffer amount can increase 4-5 times, greatly improve the amount of suffering all of unit module specimen holder in Combined biochemical analyzer, increase and survey
Examination personnel's disembarks the time, but also will not increase the length of Biochemical Analyzer.
Used as improvement, described conveyer belt assembly includes conveyer belt, the first drive component and support component;Described support
In described first support, described conveyer belt is supportted in described support component component;The first described drive component
Described support component operating is driven, support component drives described conveying V belt translation.After adopting the structure, simple structure,
It is easy to assembly.
Used as improvement, described support component includes driven pulley, the first idle pulley and the second idle pulley;The first described idle pulley sets
In in one end of described first support, in adjustment frame, described adjustment rack position adjustably sets the second described idle pulley
In in the other end of described first support, the second described idle pulley is used for the elastic of adjusting elasticity band;Described conveyer belt support
On described driven pulley, the first idle pulley and the second idle pulley;Described driven pulley is connected with the first described drive component.Using
After this kind of structure, described support component simple structure, described adjustment frame can adjust the elastic of conveyer belt, to ensure conveying
Band can effectively convey specimen holder.
As improvement, slide plate, described slide plate are provided between the both sides of the upper surface of described conveyer belt and first support
Upper surface with described conveyer belt forms specimen holder transfer passage.After adopting the structure, simple structure is easy to assembly.
Used as improvement, described spacing baffle mechanism includes baffle plate, second support and electromagnet;Described second support is consolidated
It is scheduled in described first support;Described baffle plate includes body, and described body is hinged in described second support;It is described
The side of upper end of body be provided with a grade bar, the opposite side of the lower end of described body is provided with pull bar;Described electromagnet is located at
In described second support, the upper end of described electromagnet armature is hinged with the lower end of described pull bar;Described shelves bar position
In the top of the sample outlet end of described conveyer belt assembly.After adopting the structure, spacing baffle mechanism is driven by electromagnet
Baffle plate is swung, simple structure, and the stepper motor of prior art is substituted with electromagnet, can realize drop mesh originally
Mark, controls also more convenient.
Used as improvement, described support includes the front shoe and rear fixed plate that are connected with each other;Described baffle plate and electromagnetism
Iron is between described front shoe and rear fixed plate.After adopting the structure, simple structure is easy to assembly.
As improvement, porjection type optical interruption device, described porjection type optical interruption device position are additionally provided with described rear fixed plate
In outside the opposite side of described body, the opposite side that described porjection type optical interruption device is provided with for the body described in confession passes through
Interrupt grooves.After adopting the structure, when position-limit mechanism releasing is spacing, the other end of body will be contained in interrupt grooves,
Light in cut-out interrupt grooves, signal can just be fed back to controller by the first transmission-type optical interruption device, so as to may know that position restrainer
The state of structure.
Used as improvement, described adjustment frame is located at the sample outlet end of described specimen holder transfer passage;Described adjustment frame
Space is left between the both sides of both sides and described first support;Described propulsive mechanism is located at the lower section of described conveyer belt,
Stretch into described space and push away the specimen holder on described specimen holder transfer passage sample outlet end in the upper end of the push pedal of propulsive mechanism
Described specimen holder transfer passage.After adopting the structure, simple structure and compact.
Used as improvement, described propulsive mechanism also includes cross slide way below conveyer belt, the second drive component, pushes away
Enter guide plate, propulsion roller and runner;Described propulsion guide plate is slidably fitted on described cross slide way, described push pedal
It is connected on described propulsion guide plate;Described runner is driven by the second described drive component and rotated, described propulsion
Roller is prejudicially on the side of described runner;Described propulsion guide plate is provided with gathering sill, described gathering sill
Length direction forms angle with the length direction of described cross slide way;Described propulsion roller is rolled and coordinated in described guiding
In groove.After adopting the structure, propulsion guide plate is slidably fitted on described cross slide way, and the second drive component drives runner
Rotate, propulsion roller prejudicially on runner, eccentric motion is done by driven by rotating wheel, so as to be slided in gathering sill, and be oriented to
The length direction of groove forms angle with the length direction of described cross slide way, and propulsion guide plate will be in the drive of propulsion roller
It is lower to be slidably reciprocated along cross slide way, this kind of mode simple structure, and also organization volume is smaller, and the installing space of occupancy is smaller.
Used as improvement, described propulsive mechanism also includes lifting structure, and described lifting structure includes lifting guide plate, institute
The lifting guide plate stated is located at the side of described push pedal;Described lifting guide plate is provided with ring near the side of described push pedal
Shape lifts gathering sill;The side of described push pedal is provided with guide roller, and described guide roller is rolled and coordinated in described lifting
In gathering sill;Described push pedal can be connected on described propulsion guide plate up and downly.It is described after adopting the structure
Push pedal can move up and down under the drive of lifting structure, so as to the conveying in the process of push pedal reset to the sample in track is realized
Avoidance is acted, so as to submit transfer efficiency to.
Brief description of the drawings
Fig. 1 is the structural representation of Biochemical Analyzer guideway transit system of the present invention.
Fig. 2 is the structural representation of Biochemical Analyzer guideway transit system part of the present invention.
Fig. 3 is the structural representation of the track sample introduction position-limit mechanism of Biochemical Analyzer guideway transit system of the present invention.
Fig. 4 is that the track sample introduction position-limit mechanism of Biochemical Analyzer guideway transit system of the present invention takes away the structure of front shoe
Schematic diagram.
Fig. 5 is the structural representation of the baffle plate of Biochemical Analyzer guideway transit system of the present invention.
Fig. 6 is the structural representation of the first transmission-type optical interruption device of Biochemical Analyzer guideway transit system of the present invention.
Fig. 7 is the dimensional structure diagram of Biochemical Analyzer sample feeding propulsive mechanism of the present invention.
Fig. 8 is Biochemical Analyzer sample feeding propulsive mechanism part-structure schematic diagram of the present invention.
Fig. 9 is Biochemical Analyzer sample feeding propulsive mechanism part-structure schematic diagram of the present invention.
Figure 10 is the structural representation of the lifting guide plate of Biochemical Analyzer sample feeding propulsive mechanism of the present invention.
Shown in figure:1st, first support, 2, conveyer belt, 3, driven pulley, the 4, first idle pulley, the 5, second idle pulley, 6, adjustment frame,
7th, slide plate, 8, space, 9, push pedal, 9.1, push pedal body, 9.2, pushing plate, 10, tensioning wheel, 11, anti-rollover press strip, 12, support
Plate, 13, bolt, 14, baffle plate, 14.1, body, 14.2, shelves bar, 14.3, pull bar, 15, second support, 16, electromagnet, 17, hinge
Spindle, 18, front limited block, 19, rear limited block, 20, installing plate, the 21, first transmission-type relay, the 21.1, first interrupt grooves,
22nd, supporter, 23, cross slide way, 24, propulsion guide plate, 24.1, gathering sill, 25, propulsion roller, 26, runner, 27, propulsion bottom
Plate, the 28, second sliding block, 29, lifting guide plate, 29.1, lifting gathering sill, 30, guide roller, 31, upper shell fragment, 32, lower shell fragment,
33rd, longitudinal rail, 34, fixed plate, the 35, first sliding block, 36, extension spring, the 37, the 3rd support, the 38, second porjection type optical interruption device,
38.1st, the second interrupt grooves, 39, driving wheel, 40, conveyer belt, 41, propulsion installing plate.
Specific embodiment
The invention will be further described with specific embodiment below in conjunction with the accompanying drawings.
Refer to shown in Fig. 1 to Fig. 2, Biochemical Analyzer guideway transit system of the invention includes first support 1, described
First support 1 is provided with conveyer belt assembly and spacing baffle mechanism;Described spacing baffle mechanism is located at described conveyer belt group
The sample outlet end of part, the spacing baffle mechanism is spacing for being carried out to the specimen holder on the sample outlet end of described conveyer belt assembly;Institute
Propulsive mechanism is additionally provided with the first support 1 stated, the propulsive mechanism is used for the sample on the sample outlet end of described conveyer belt assembly
Product frame pushes away described conveyer belt assembly.
Described conveyer belt assembly includes conveyer belt 2, the first drive component and support component;Described support component is located at
In described first support 1, described conveyer belt 2 is supportted in described support component;The first described drive component drives institute
The support component operating stated, support component drives described conveying V belt translation.
Described support component includes driven pulley 3, the first idle pulley 4 and the second idle pulley 5;The first described idle pulley 4 is located at institute
In the one end for the first support 1 stated, in adjustment frame 6, the described position of adjustment frame 6 adjustably sets the second described idle pulley 5
In in the other end of described first support 1, the second described idle pulley 5 is used to adjust the elastic of conveyer belt 2;Described conveyer belt
2 supports are on described driven pulley 3, the first idle pulley 4 and the second idle pulley 5;Described driven pulley 3 connects with the first described drive component
Connect.The first described drive component is the first motor, and the output end of the first described motor is connected with driving wheel 39, described master
Conveyer belt 40 is connected between driving wheel 39 and described driven pulley 3.The both sides of the upper surface of described conveyer belt 2 and first support
Slide plate 7 is provided between 1, described slide plate 7 forms specimen holder transfer passage with the upper surface of described conveyer belt 2.Described tune
Sample outlet end of the whole frame 6 located at described specimen holder transfer passage;The both sides of described adjustment frame 6 and described first support 1
Space 8 is left between both sides;Described propulsive mechanism is located at the lower section of described conveyer belt 2, the upper end of the push pedal 9 of propulsive mechanism
Stretch into described space 8 and the specimen holder on described specimen holder transfer passage sample outlet end is pushed away described specimen holder and conveyed and lead to
Road.Tensioning wheel 10 is additionally provided with described first support 1, described tensioning wheel 10 is pressed in the lower surface of described conveyer belt 2
Downside.Anti-rollover press strip 11 is provided with the upside of the first described idle pulley and the second idle pulley.
The end face of the other end of described first support 1 is provided with supporting plate 12, and described supporting plate 12 is provided with bolt
Through hole.Described adjustment frame 6 is slidably fitted on the base plate of described first support 1, and the base plate of described adjustment frame 6 is provided with
Threaded connection plate(It is not shown), described threaded connection plate is provided with screwed hole, and the stud of described bolt 13 passes through supporting plate
Bolt hole on 12 is connected in the screwed hole on described threaded connection plate, and the nut of described bolt 13 is spacing in support
On the outside of plate 12.The two ends of the second described idle pulley 5 are hinged on the two side of the upper end of adjustment frame 6.Adjusted during swivel bolt
Frame 6 will move back and forth on the base plate of first support 1 such that it is able to adjust between the first idle pulley 4 and the second idle pulley 5 away from
From, regulation conveyer belt 2 it is elastic.The base plate of described adjustment frame 6 is provided with kidney-shaped adjustment hole, the bottom of described first support 1
Plate is provided with stop screw, the downside of the spacing nut in described stop screw of the base plate of adjustment frame 6, the described bottom of adjustment frame 6
Plate is slided on the base plate of first support 1, the displacement relative with described stop screw generation of described kidney-shaped adjustment hole.
Refer to shown in Fig. 3 to Fig. 6, described spacing baffle mechanism includes baffle plate 14, second support 15 and electromagnet 16;
Described second support 15 is fixed in described first support 1;Described baffle plate 14 includes body 14.1, described body
14.1 are hinged in described second support 15;The side of the upper end of described body 14.1 is provided with grade bar 14, described body
The opposite side of 14.1 lower end is provided with pull bar 14.3;Described electromagnet 16 is located in described second support 15, described electricity
The upper end of the armature of magnet 16 is hinged with the lower end of described pull bar 14.3;Described shelves bar 14.2 is located at described conveyer belt group
The top of the sample outlet end of part.The described horizontally set of shelves bar 14.2, described pull bar 14.3 is longitudinally disposed.
Described second support 15 includes the front shoe 15.1 and rear fixed plate 15.2 that are connected with each other;Described baffle plate 14
And electromagnet 16 is between described front shoe 15.1 and rear fixed plate 15.2.Described front shoe 15.1 is fixed with rear
Jointed shaft 17 is provided between plate 15.2, described body 14.1 is provided with hinge hole;Described body 14.1 is by described hinge
Hole is connect to be hinged on described jointed shaft 17.Preceding limit is provided between described front shoe 15.1 and described body 14.1
Position block 18, rear limited block 19 is provided between described rear fixed plate 15.2 and described body 14.1.Described rear fixed plate
15.2 are provided with installing plate 20.Described installing plate 20 is connected in described first support 1.
The first transmission-type optical interruption device 21 is additionally provided with described rear fixed plate 15.2, the first described transmission-type light is interrupted
Device 21 is located at outside the opposite side of described body 14.1, and the first described transmission-type optical interruption device 21 is provided with for described in confession
21.1 first interrupt grooves that the opposite side of body 14.1 passes through.The first described transmission-type optical interruption device 21 is pacified by supporter 22
On described rear fixed plate 15.2.
Described spacing baffle mechanism operation principle is as follows:During switching electricity, armature does lifting fortune to electromagnet 16
It is dynamic, drive pull bar 14.3 also to move up and down, so as to pull baffle plate 14 to rotate, grade bar 14.2 is swung, it is right so as to realize
Specimen holder carries out position-limiting action.
Refer to shown in Fig. 7 to Figure 10, described propulsive mechanism also include cross slide way 23 located at the lower section of conveyer belt 2,
Second drive component, propulsion guide plate 24, propulsion roller 25 and runner 26;Described propulsion guide plate 24 is slidably fitted in described
Cross slide way 23 on, described push pedal 9 is connected on described propulsion guide plate 24;Described runner 26 is by described second
Drive component is driven and rotates, and described propulsion roller 25 is prejudicially located on the side of described runner 26;Described propulsion
Guide plate 24 is provided with gathering sill 24.1, the length direction of described gathering sill 24.1 and the length side of described cross slide way 23
To formation angle;Described propulsion roller 25 is rolled and coordinated in described gathering sill 24.1.It is described in this specific embodiment
The length direction shape angle in 90 ° of the length direction of gathering sill 24.1 and described cross slide way 23.The second described driving group
Part is motor.
Described sample feeding propulsive mechanism also includes propulsion base plate 27, and described cross slide way 23 is arranged on described pushing away
Enter the upside of base plate 27;Described propulsion base plate 27 is fixed on the base plate of described first support 1.Described cross slide way 23
It is provided with two, and two cross slide ways 23 propulsion base plate 27 in parallel to each other described in.Described propulsion guide plate
24 both sides are equipped with the second sliding block 28, and the second described sliding block 28 is slidably fitted in described cross slide way 23 correspondingly
On., located at the downside of described propulsion base plate 27, described runner 26 is located at the upper of described propulsion base plate 27 for described motor
Just, the propulsion base plate 27 described in the output shaft insertion of described motor is connected with described runner 26.
Described propulsive mechanism also includes lifting structure, and described lifting structure includes lifting guide plate 29, described liter
Drop guide plate 29 is located at the side of described push pedal 9;Described lifting guide plate 29 is provided with ring near the side of described push pedal 9
Shape lifts gathering sill 29.1;The side of described push pedal 9 is provided with guide roller 30, and described guide roller 30 is rolled and coordinated in institute
In the lifting gathering sill 29.1 stated;Described push pedal 9 can be connected on described propulsion guide plate 24 up and downly.
One end of the upside of described lifting gathering sill 29.1 is provided with and is directed to the upper shell fragment 31 that roller 30 is pressed downward, i.e. institute
The upper shell fragment 31 stated is contained in described lifting gathering sill 29.1, hanging, the described upper bullet in the lower end of described upper shell fragment 31
The space of activity is left between the side wall of one end of piece 31 and lifting gathering sill 29.1.The downside of described lifting gathering sill 29.1
The other end be provided with and be directed to the lower shell fragment 32 that roller 30 is pushed up, i.e., described lower shell fragment 32 is contained in described lifting and is oriented to
In groove 29.1, the upper end of described lower shell fragment 32 is hanging, the side of described lower shell fragment 32 and the other end of lifting gathering sill 29.1
The space of activity is left between wall.
Described propulsion guide plate 24 is provided with longitudinal rail 33, and described push pedal 9 is slidably fitted in described longitudinal direction and leads
On rail 33.Described longitudinal rail 33 is fixed on described propulsion guide plate 24 by advancing installing plate 41;Described push pedal 9
On be connected with fixed plate 34, described fixed plate 34 is provided with the first sliding block 35, and the first described sliding block 35 is slidably fitted in institute
On the longitudinal rail 33 stated;Be provided with extension spring 36 between described propulsion installing plate 41 and fixed plate 34, described extension spring 36 it is upper
End is connected with described propulsion installing plate 41, and the lower end of described extension spring 36 is connected with described fixed plate 34.Described fixation
The 3rd support 37 is additionally provided with the side of plate 34, described guide roller 30 is connected on the 3rd described support 37;Described
The lower end of extension spring 36 is connected on the 3rd described support 37.
One end of the upside of described propulsion base plate 27 is provided with the second transmission-type optical interruption device 38, the second described transmission-type
Optical interruption device 38 is provided with the second interrupt grooves 38.1, and described push pedal 9 is provided with propulsion baffle plate 9.3, described propulsion baffle plate 9.3
For blocking the light in the second described interrupt grooves 38.1 through the second described interrupt grooves 38.1.In this specific embodiment,
When reseting movement is done in described push pedal 9, when just dropping to extreme lower position, described propulsion baffle plate 9.3 is contained in the second transmission
In second interrupt grooves 38.1 of type optical interruption device 38.
The operation principle of propulsive mechanism is as follows:Stepper motor drives propulsion roller 25 to do eccentric rotational motion, in pushing guidance
Moved along a straight line to Y-direction is done in the gathering sill 24.1 of plate 24.Promote propulsion guide plate 24 is slided on cross slide way 23, completion X to
Linear motion, so as to drive push pedal 9 to be X to linear motion.Guide roller 30 is driven by push pedal 9 and is done in lifting gathering sill 29.1
During X is to linear motion, the pushing sample of the task is had been completed at the position for moving to shell fragment 31, then go up shell fragment
31 pairs its produce downward pressure, so as to force the push pedal 9 being connected with the first sliding block 35 to be moved downward along longitudinal rail 33, and
Now propulsion guide plate 24 just reaches X to range, and push pedal 9 starts to do return movement.During return movement, under
Under shell fragment 32 and the collective effect of extension spring 36, force push pedal longitudinal rail 33 to move upwards, prepare to the next group of push of sample.
In this specific embodiment, described push pedal 9 also includes push pedal body 9.1 and pushing plate 9.2, described push pedal body
9.1 are connected with described fixed plate 34, and described pushing plate 9.2 has two pieces, respectively up located at described push pedal body 9.1
Both sides on, and two pushing plates 9.2 can be respectively protruding into described space 8, after adopting the structure, specimen holder is pushed away
It is dynamic more to stablize.
The operation principle of Biochemical Analyzer guideway transit system of the invention is as follows:Specimen holder is placed on conveyer belt 2, is led to
Cross it and complete specimen holder conveying task.Spacing baffle mechanism is accurately positioned to specimen holder conveying stroke, when specimen holder is reached
During spacing baffle mechanism, conveyer belt is stopped, and spacing baffle mechanism starts avoidance, and reciprocating type propelling mechanism starts, by sample
Frame pushes to suction sample track(That is long rails)On.Anti-rollover press strip plays the work for escorting in specimen holder course of conveying
With, it is ensured that specimen holder can smoothly advance.
Claims (10)
1. a kind of Biochemical Analyzer guideway transit system, it is characterised in that:Including first support, described first support is provided with
Conveyer belt assembly and spacing baffle mechanism;The sample outlet end of conveyer belt assembly of the described spacing baffle mechanism described in, the limit
Position baffle mechanism is spacing for being carried out to the specimen holder on the sample outlet end of described conveyer belt assembly;In described first support also
Propulsive mechanism is provided with, the propulsive mechanism is used to for the specimen holder on the sample outlet end of described conveyer belt assembly to push away described conveying
Band component.
2. Biochemical Analyzer guideway transit system according to claim 1, it is characterised in that:Described conveyer belt assembly bag
Include conveyer belt, the first drive component and support component;Described support component is located in described first support, described conveying
With support in described support component;The first described drive component drives described support component operating, and support component drives
Described conveying V belt translation.
3. Biochemical Analyzer guideway transit system according to claim 2, it is characterised in that:Described support component includes
Driven pulley, the first idle pulley and the second idle pulley;In one end of first support of the first described idle pulley described in, described second
Idle pulley in the adjustment frame, in the other end of described adjustment rack position first support adjustably described in, described the
Two idle pulleys are used for the elastic of adjusting elasticity band;Described conveyer belt is supportted on described driven pulley, the first idle pulley and the second idle pulley;
Described driven pulley is connected with the first described drive component.
4. Biochemical Analyzer guideway transit system according to claim 3, it is characterised in that:The upper end of described conveyer belt
Slide plate is provided between the both sides in face and first support, described slide plate forms specimen holder and conveys with the upper surface of described conveyer belt
Passage.
5. Biochemical Analyzer guideway transit system according to claim 1, it is characterised in that:Described spacing baffle mechanism
Including baffle plate, second support and electromagnet;Described second support is fixed in described first support;Described baffle plate includes
Body, described body is hinged in described second support;The side of the upper end of described body is provided with a grade bar, described sheet
The opposite side of the lower end of body is provided with pull bar;Described electromagnet is located in described second support, described electromagnet armature
Upper end be hinged with the lower end of described pull bar;Described shelves bar is located at the top of the sample outlet end of described conveyer belt assembly.
6. Biochemical Analyzer guideway transit system according to claim 5, it is characterised in that:Described support includes mutual
The front shoe and rear fixed plate of connection;Described baffle plate and electromagnet are between described front shoe and rear fixed plate.
7. Biochemical Analyzer guideway transit system according to claim 5, it is characterised in that:On described rear fixed plate also
The first transmission-type optical interruption device is provided with, the first described transmission-type optical interruption device is located at outside the opposite side of described body, described
The first transmission-type optical interruption device be provided with the interrupt grooves passed through for the opposite side of the body described in confession.
8. Biochemical Analyzer guideway transit system according to claim 4, it is characterised in that:Described adjustment frame is located at institute
The sample outlet end of the specimen holder transfer passage stated;Sky is left between the both sides of the both sides of described adjustment frame and described first support
Between;Described propulsive mechanism is located at the lower section of described conveyer belt, and described space is stretched into the upper end of the push pedal of propulsive mechanism will
Specimen holder on described specimen holder transfer passage sample outlet end pushes away described specimen holder transfer passage.
9. Biochemical Analyzer guideway transit system according to claim 8, it is characterised in that:Described propulsive mechanism is also wrapped
Include cross slide way, the second drive component, propulsion guide plate, propulsion roller and the runner below conveyer belt;Described propulsion
Guide plate slides coordinate on described cross slide way, and described push pedal is connected on described propulsion guide plate;Described turns
Wheel is driven and rotated by the second described drive component, and described propulsion roller is prejudicially located on the side of described runner;
Described propulsion guide plate is provided with gathering sill, the length direction of described gathering sill and the length direction of described cross slide way
Form angle;Described propulsion roller is rolled and coordinated in described gathering sill.
10. Biochemical Analyzer guideway transit system according to claim 9, it is characterised in that:Described propulsive mechanism is also
Including lifting structure, described lifting structure includes lifting guide plate, and described lifting guide plate is located at the one of described push pedal
Side;Described lifting guide plate is provided with annular lifting gathering sill near the side of described push pedal;The side of described push pedal sets
There is guide roller, described guide roller is rolled and coordinated in described lifting gathering sill;Described push pedal can up and downly
It is connected on described propulsion guide plate.
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