CN112578108A - Immune chip laser scanning system for biological health research - Google Patents

Abstract

The invention discloses an immune chip laser scanning system for biological health research, which comprises a shell, wherein a left-right through working cavity is arranged in the shell, a power cavity is arranged at the rear side of the working cavity in the shell, the bottom wall of the working cavity is communicated with a movable groove, a wall body between the power cavity and the movable groove is communicated with a lifting guide groove, the lifting guide groove is simultaneously communicated with the working cavity and the power cavity, a lifting support block is arranged in the lifting guide groove in a vertically sliding manner, the device is simple in operation, the movement of the lifting support block, a humidity controller and a temperature controller is realized through the work control of a screw motor shaft, the chip is moved, a push rod, a limiting rotating rod and a rotating clamping rod are contacted at the same time, the overturning of a clamp is realized, the fixed work of the chip is realized, the stable detection work can be ensured, and the laser scanner can be quickly reset by matching with the, therefore, the detection result of the chip is prevented from being influenced by long-time irradiation of the laser scanner.

Description

Immune chip laser scanning system for biological health research

Technical Field

The invention relates to the technical field of biological correlation, in particular to an immune chip laser scanning system for biological health research.

Background

Biological health is always an important direction of biological research, researchers test various active proteins through an immune chip for testing biological changes under various conditions, but the reaction speed of protein parts is high, the environmental requirement degree is high, the existing laser scanning system cannot simulate the environment in real time, the consumption is high, and the long-time irradiation of laser on the immune chip easily influences the detection result, so that the research cannot be carried out.

Disclosure of Invention

The invention aims to solve the technical problem of providing an immune chip laser scanning system for biological health research, and solves the problems that the environment cannot be simulated in real time and laser can not irradiate for a long time.

The invention is realized by the following technical scheme.

The invention relates to an immune chip laser scanning system for biological health research, which comprises a shell, wherein a left-right through working cavity is arranged in the shell, a power cavity is arranged at the rear side of the working cavity in the shell, the bottom wall of the working cavity is communicated with a movable groove, a wall body between the power cavity and the movable groove is communicated with a lifting guide groove, the lifting guide groove is simultaneously communicated with the working cavity and the power cavity, a lifting support block is arranged in the lifting guide groove in a vertical sliding manner, connecting rotating rods are respectively and rotatably arranged at the left side and the right side of the lifting guide groove on the wall body between the working cavity and the power cavity, the connecting rotating rods are fixedly connected with a rotating disc in the working cavity, a humidity regulator is fixedly arranged at the lower side of the connecting rotating rod on the left side of the rotating disc, a temperature regulator is fixedly connected at the lower side of the connecting rotating rod on the right side of the rotating disc, and, the working chamber top wall is communicated with a lifting groove, a spline sleeve is rotatably arranged on a wall body between the lifting groove and the T-shaped transmission chamber, a movable shaft extending out from top to bottom is connected in the spline sleeve through a spline, the movable shaft is rotatably connected with a lifting plate in the lifting groove, a connecting sliding groove with a downward opening is arranged in the lifting plate, a laser scanner is symmetrically and slidably connected with the front wall and the rear wall of the connecting sliding groove by taking the movable shaft as a center, an extension block is fixedly connected to the upper end surface of the laser scanner, the laser scanner is connected with the connecting sliding groove through a spring to be far away from the side wall of the movable shaft, a beam collecting belt wheel is fixedly connected in the connecting sliding groove through the movable shaft, a movable guide rope is wound on the beam collecting belt wheel and is fixedly connected with the left side and the right side of the movable shaft respectively, and the movable guide rope is fixedly connected with a transmission, the transmission guide block passes through spring coupling the connection spout is kept away from the loose axle lateral wall, controls the side be equipped with the opening separation tank that runs through mutually in the transmission guide block back to the back and downwards, the extension piece stretches into the separation tank, the separation tank roof is kept away from the loose axle sideslip is rotated and is connected with and accomodates the baffle, the transmission guide block in the separation tank upside is equipped with the lift spacing groove of running through about, the inclined plane that stretches out about slidable mounting goes up and down in the lift spacing inslot colludes the claw, the inclined plane colludes the claw end with accomodate the baffle contact, the inclined plane colludes the claw and passes through spring coupling lower wall on the lift spacing groove.

Preferably, the wall body between the power cavity and the movable groove is communicated with inclined guide grooves at the left side and the right side of the lifting guide groove, movable belt wheel shafts are arranged in the inclined guide grooves in a sliding manner, the left side and the right side of the movable belt wheel shafts are connected in the movable groove through a telescopic conveying belt in a transmission manner, lifting support blocks extending out from front to back are arranged in the lifting guide groove in a sliding manner, the lifting support blocks are contacted with the lower section of the telescopic conveying belt, the front wall and the rear wall of the movable groove are bilaterally symmetrical by taking the lifting guide groove as a center and are rotatably provided with rotating shafts through torsion springs, the rotating shafts are positioned at the inclined guide grooves far away from the lifting guide groove side, overturning support plates extending into the working cavity are rotatably arranged at the rotating shafts at the left side and the right side of the movable groove, guide grooves penetrating, sliding fit about the fixed connection piece the guide slot inner wall, the fixed connection piece passes through spring coupling the guide slot roof, the casing in the T shape transmission chamber left and right sides is equipped with the gear chamber, gear chamber rear side wall with wall body between the lateral wall rotates before the T shape transmission chamber and installs the gear shaft, the gear shaft in gear intracavity fixedly connected with lifting gear, the gear chamber with wall body sliding mounting between the working chamber have with the rack baffle that lifting gear meshing is connected, rack baffle sliding fit the gear chamber is kept away from the lift groove lateral wall.

Preferably, the left and right side walls of the lifting groove are bilaterally and symmetrically connected with supporting rockers by taking the movable shaft as a center, the lifting plate is bilaterally and symmetrically provided with guide grooves which penetrate through from front to back by taking the connecting chute as a center, the supporting rockers extend into and are in sliding fit with the inner walls of the guide grooves, the movable shaft is provided with a swinging groove which is provided with a downward opening and penetrates through from front to back in the connecting chute, a lifting connecting rod is arranged on the wall body between the swinging groove and the penetrating groove in a sliding manner, the lifting connecting rod is fixedly connected with a connecting rod in the penetrating groove, the connecting rod is fixedly connected with an annular circular truncated cone in the penetrating groove, the annular circular truncated cone is in sliding fit with the outer wall of the movable shaft, the lifting connecting rod is fixedly connected with a circular truncated cone sliding block in the swinging groove, the top wall of the swinging, the rocking plate is contacted with the circular truncated cone sliding block on the front side and the rear side.

Preferably, the lower wall on the T shape transmission chamber in the spline sleeve positive rear rotates installs the transition axle, the epaxial fixedly connected with worm wheel of transition, the transition axle with the spline sleeve is connected through connecting the drive belt, the casing in T shape transmission chamber left side is equipped with the belt chamber, the belt chamber with wall body between the T shape transmission chamber rotates installs the worm axle, the worm wheel with worm axle meshing connects, controls the side the gear shaft in T shape transmission intracavity through linking bevel gear group with the worm axle is connected.

Preferably, a through chute penetrating from front to back is arranged in the lifting support block, a propelling inclined plane block is slidably mounted in the through chute, the propelling inclined plane block is connected with the inner wall of the through chute through a spring, the propelling inclined plane block is rotatably mounted outside the rear side of the through chute through torsional springs and provided with four groups of rotating clamping rods, the rotating clamping rods are equally distributed at the four corners of the rear end face of the propelling inclined plane block, a connecting plate is slidably mounted on the front side wall of the lifting guide groove, a supporting rotating shaft rotating from front to back is rotatably mounted on the upper side of the connecting plate, clamps are fixedly connected to the upper side of the supporting rotating shaft in a bilateral symmetry manner, a linking chute penetrating from front to back is arranged in the connecting plate, an inclined plane limiting block is slidably mounted in the linking chute, the inclined plane limiting block is in sliding, spacing locking groove with wall body slidable mounting between the linking spout has the inclined plane depression bar, the inclined plane depression bar with inclined plane stopper sliding fit, it stretches into to impel the inclined plane piece link up the spout with inclined plane stopper sliding fit.

Preferably, a control motor is fixedly arranged on the right side wall of the power cavity, a screw motor shaft is connected to the control motor in a power mode, the screw motor shaft is rotationally connected with a wall body between the belt cavity and the power cavity, the screw motor shaft and the worm shaft are in transmission connection in the belt cavity through a transmission belt, threaded connecting blocks are symmetrically and slidably arranged on the bottom wall of the power cavity in a left-right mode by taking the lifting guide groove as the center, threaded limiting blocks are connected between the threaded connecting blocks on the left side and the right side on a motor shaft of the screw rod in a threaded mode, the thread limiting block slides on the bottom wall of the power cavity, the thread limiting block is contacted with the lifting supporting block, the threaded connecting block is in threaded connection with the screw motor shaft, the threads of the threaded connecting block on the left side and the right side are opposite, the threaded connection block is provided with a limiting groove which penetrates through the threaded connection block from front to back, and the movable belt wheel shaft extends into and is in sliding fit with the inner wall of the limiting groove.

Preferably, fixed mounting has drive motor on the lateral wall before the power chamber, drive motor rear side power is connected with the work motor shaft, fixed mounting has drive gear on the work motor shaft, the right side the epaxial fixedly connected with loose gear of activity band pulley, loose gear with drive gear meshing connects, connect the bull stick in power intracavity fixedly connected with pushing ram, rotate through torsion spring on the pushing ram and be connected with spacing bull stick, the lift guide slot left and right sides be fixed with respectively with the fixed stopper of spacing bull stick contact, spacing bull stick with the pushing ram with the rotation kelly contact.

The invention has the beneficial effects that: this device easy operation realizes the activity of lift supporting shoe and humidity controller, temperature controller through the job control of screw motor shaft, realizes that the chip removes, and the contact of simultaneous propulsion pole and spacing bull stick and rotation kelly realizes the upset of anchor clamps to realize the fixed work of chip, guarantee that the detection achievement can stably go on, laser scanner cooperation rocker slides and can reset fast, thereby prevent that laser scanner from shining the testing result who influences the chip for a long time.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an immune chip laser scanning system for biological health research according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a rear cross-sectional view of the power chamber shown in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line C-C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view taken along line B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a partial cross-sectional structure at D-D in FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The immune chip laser scanning system for biological health research, which is described in conjunction with fig. 1-6, comprises a housing 23, a working chamber 36 penetrating through the housing 23 from left to right is arranged in the housing 23, a power chamber 53 is arranged at the rear side of the working chamber 36 in the housing 23, the bottom wall of the working chamber 36 is communicated with a movable groove 29, a wall body between the power chamber 53 and the movable groove 29 is communicated with a lifting guide groove 33, the lifting guide groove 33 is simultaneously communicated with the working chamber 36 and the power chamber 53, a lifting support block 34 is slidably arranged in the lifting guide groove 33 from top to bottom, connecting rotating rods 37 are respectively rotatably arranged at the left and right sides of the lifting guide groove 33 on the wall body between the working chamber 36 and the power chamber 53, a rotating disc 39 is fixedly connected in the working chamber 36, and a humidity regulator 40 is fixedly arranged at the lower side of the rotating disc 39 on the left side and the connecting rotating disc 37, the right side the carousel 39 in connect bull stick 37 downside fixedly connected with temperature regulator 25, casing 23 in the working chamber 36 upside is equipped with T shape transmission chamber 17, working chamber 36 roof intercommunication has lift groove 18, lift groove 18 with wall body between the T shape transmission chamber 17 rotates installs spline sleeve 15, spline connection has the loose axle 16 that stretches out from top to bottom in the spline sleeve 15, loose axle 16 in the lift inslot 18 internal rotation is connected with lifter plate 13, be equipped with the decurrent connection spout 66 of opening in the lifter plate 13, the preceding back wall of connection spout 66 with loose axle 16 is the symmetrical sliding connection of left and right sides has laser scanner 65 in the center, laser scanner 65 up end fixedly connected with extension piece 83, laser scanner 65 is through spring coupling connect spout 66 keep away from the loose axle 16 lateral wall, loose axle 16 in connect spout 66 internal fixed connection has beam receiving belt wheel 61, the movable guide rope 63 is wound and connected on the belt-retracting wheel 61, the left side and the right side of the movable shaft 16 of the movable guide rope 63 are respectively and fixedly connected with a transmission guide block 62, the transmission guide block 62 is located on the upper side of the laser scanner 65, the transmission guide block 62 is connected with the connecting sliding groove 66 through a spring and is far away from the side wall of the movable shaft 16, a separating groove 91 with an opening back to back and penetrating downwards is arranged in the transmission guide block 62 on the left side and the right side, the extension block 83 extends into the separation groove 91, the top wall of the separation groove 91 is rotatably connected with a storage clapboard 90 far away from the side of the movable shaft 16, the transmission guide block 62 is provided with a left-right penetrating elevation limiting groove 92 at the upper side of the separation groove 91, the inclined plane that stretches out about slidable mounting has in the lift spacing groove 92 colludes the claw 64 from top to bottom, inclined plane collude claw 64 collude the claw end with accomodate baffle 90 contact, inclined plane colludes claw 64 and passes through spring coupling the lower wall on the lift spacing groove 92.

Beneficially, the wall body between the power cavity 53 and the movable groove 29 is communicated with inclined guide grooves 30 at the left and right sides of the lifting guide groove 33, a movable pulley shaft 31 is slidably mounted in the inclined guide groove 30, the movable pulley shaft 31 at the left and right sides is in belt transmission connection in the movable groove 29 through a telescopic conveyor belt 35, lifting support blocks 34 extending forward and backward are slidably mounted in the lifting guide groove 33, the lifting support blocks 34 are in contact with the lower section of the telescopic conveyor belt 35, the front and rear walls of the movable groove 29 are bilaterally symmetrical by taking the lifting guide groove 33 as a center and are rotatably mounted with rotating shafts 26 through torsion springs, the rotating shafts 26 are located at the sides of the inclined guide grooves 30 far away from the lifting guide groove 33, turnover support plates 38 extending into the working cavity 36 are rotatably mounted at the positions of the left and right sides of the movable groove 29 at the rotating shafts 26, and guide grooves 28 penetrating, the pivot 26 in fixedly connected with fixed connection block 27 in the guide slot 28, sliding fit about the fixed connection block 27 the 28 inner walls of guide slot, fixed connection block 27 passes through spring coupling the 28 roof of guide slot, the casing 23 in T shape transmission chamber 17 left and right sides is equipped with gear chamber 19, 19 rear side walls of gear chamber 19 with wall body between the lateral wall rotates before the T shape transmission chamber 17 installs gear shaft 20, gear shaft 20 in fixedly connected with lifting gear 21 in the gear chamber 19, gear chamber 19 with wall body slidable mounting between the working chamber 36 have with the rack baffle 22 that lifting gear 21 meshing is connected, rack baffle 22 sliding fit gear chamber 19 is kept away from lifting groove 18 lateral wall.

Beneficially, the left and right side walls of the lifting slot 18 are bilaterally and symmetrically connected with supporting rockers 12 by taking the movable shaft 16 as a center, the lifting plate 13 is bilaterally and symmetrically provided with front and rear penetrating guide slots 24 by taking the connecting sliding slot 66 as a center, the supporting rockers 12 extend into and are in sliding fit with the inner walls of the guide slots 24, the movable shaft 16 is provided with a swinging slot 71 which is opened downwards and penetrates in front and rear directions in the connecting sliding slot 66, a lifting connecting rod 70 is slidably mounted on a wall body between the swinging slot 71 and the penetrating slot 58, the lifting connecting rod 70 is fixedly connected with a connecting rod 59 in the penetrating slot 58, the connecting rod 59 is fixedly connected with an annular circular truncated cone 60 in the penetrating slot 58, the annular circular truncated cone is in sliding fit with the outer wall of the movable shaft 16, the lifting connecting rod 70 is fixedly connected with a circular truncated cone sliding block 69 in the swinging slot 71, and the top wall of the swinging, the front and rear rocking plates 68 are connected by a spring, and the front and rear rocking plates 68 are in contact with the circular truncated cone slider 69.

Beneficially, the upper and lower walls of the T-shaped transmission cavity 17 are provided with a transition shaft 73 rotating right behind the spline sleeve 15, the transition shaft 73 is fixedly connected with a worm wheel 75, the transition shaft 73 is connected with the spline sleeve 15 through a connecting transmission belt 14, the housing 23 is provided with a belt cavity 51 on the left side of the T-shaped transmission cavity 17, a wall body between the belt cavity 51 and the T-shaped transmission cavity 17 is provided with a worm shaft 74 in a rotating manner, the worm wheel 75 is in meshing connection with the worm shaft 74, and the left and right gear shafts 20 are connected with the worm shaft 74 through a connecting bevel gear set 72 in the T-shaped transmission cavity 17.

Beneficially, a through sliding groove 32 penetrating through the lifting support block 34 from front to back is arranged in the through sliding groove 32, a pushing inclined block 55 is slidably mounted in the through sliding groove 32, the pushing inclined block 55 is connected to the inner wall of the through sliding groove 32 through a spring, four sets of rotating clamping rods 56 are rotatably mounted on the outside of the rear side of the through sliding groove 32 through torsion springs, the rotating clamping rods 56 are respectively arranged at four corners of the rear end face of the pushing inclined block 55, a connecting plate 78 is slidably mounted on the front side wall of the lifting guide groove 33, a supporting rotating shaft 81 rotating from front to back is rotatably mounted on the upper side of the connecting plate 78, clamps 82 are fixedly connected to the upper side of the supporting rotating shaft 81 in a bilateral symmetry manner, a connecting sliding groove 76 penetrating through the front and back is arranged in the connecting plate 78, an inclined limiting block 77 is slidably mounted in the connecting sliding, support and be equipped with the decurrent spacing locking groove 80 of opening in the pivot 81, spacing locking groove 80 with wall body slidable mounting between linking spout 76 has inclined plane depression bar 79, inclined plane depression bar 79 with inclined plane stopper 77 sliding fit, it stretches into to impel inclined plane piece 55 link up spout 76 with inclined plane stopper 77 sliding fit.

Beneficially, a control motor 45 is fixedly mounted on the right side wall of the power cavity 53, a screw motor shaft 46 is power-connected to the control motor 45, the screw motor shaft 46 is rotatably connected to the wall body between the belt cavity 51 and the power cavity 53, the screw motor shaft 46 and the worm shaft 74 are belt-drive-connected in the belt cavity 51 through a drive belt 52, threaded connection blocks 50 are bilaterally-symmetrically and slidably mounted on the bottom wall of the power cavity 53 with the lifting guide groove 33 as the center, threaded limit blocks 85 are threadedly connected between the left and right threaded connection blocks 50 on the screw motor shaft 46, the threaded limit blocks 85 and the bottom wall of the power cavity 53 slide, the threaded limit blocks 85 are in contact with the lifting support block 34, the threaded connection blocks 50 are threadedly connected with the screw motor shaft 46, and the threads of the left and right threaded connection blocks 50 are opposite, the threaded connection block 50 is provided with a limiting groove 47 which penetrates through the threaded connection block from front to back, and the movable pulley shaft 31 extends into and is in sliding fit with the inner wall of the limiting groove 47.

Beneficially, a transmission motor 43 is fixedly installed on the front side wall of the power cavity 53, a working motor shaft 41 is power-connected to the rear side of the transmission motor 43, a transmission gear 42 is fixedly installed on the working motor shaft 41, a movable gear 44 is fixedly connected to the movable pulley shaft 31 on the right side, the movable gear 44 is meshed with the transmission gear 42, a push rod 49 is fixedly connected to the connecting rotating rod 37 in the power cavity 53, a limit rotating rod 48 is rotatably connected to the push rod 49 through a torsion spring, fixed limit blocks 54 contacting with the limit rotating rod 48 are respectively fixed to the left side and the right side of the lifting guide groove 33, and the limit rotating rod 48 and the push rod 49 are in contact with a rotation clamping rod 56.

In an initial state, the rack partition plate 22 is stored in the gear cavity 19, the telescopic conveying belt 35 is tensioned, the movable pulley shaft 31 is far away from the left and right sides and is in contact with the overturning supporting plate 38 through a pulley, the overturning supporting plate 38 overturns and extends out of the working cavity 36, the pushing inclined plane block 55 is stored in the through sliding groove 32, the clamp 82 is separated from the lifting supporting block 34, and the extension block 83 extends into the separation groove 91.

Starting to work, the chip is moved to the telescopic conveyor belt 35 through the right-side overturning supporting plate 38, the transmission motor 43 is started to drive the working motor shaft 41 to rotate, the working motor shaft 41 drives the movable gear 44 to rotate through the transmission gear 42, the movable gear 44 drives the right-side movable belt wheel shaft 31 to rotate, the movable belt wheel shaft 31 drives the chip to move to the upper side of the lifting supporting block 34 through the telescopic conveyor belt 35, the transmission motor 43 is closed, the control motor 45 is started, the control motor 45 drives the screw motor shaft 46 to rotate, the thread limiting block 85 and the thread connecting block 50 slide, the thread limiting block 85 is in contact with the lifting supporting block 34 and drives the lifting supporting block 34 to slide upwards, the thread connecting block 50 drives the movable belt wheel shaft 31 to slide, the movable belt wheel shaft 31 is separated from the overturning supporting plate 38, the rotating shaft 26 overturns under the, the lifting support block 34 slides and supports the chip to move upwards, meanwhile, the threaded connection block 50 is contacted with the push rod 49, the push rod 49 drives the connection rotating rod 37 to turn over, the connection rotating rod 37 drives the temperature controller 25 and the humidity controller 40 to rotate and adjust the angle through the turntable 39, the temperature controller 25 and the humidity controller 40 face the chip, the limit rotating rod 48 is matched with the push rod 49 to enable the rotation clamping rod 56 to swing, the push inclined plane block 55 slides forwards under the action of the spring, the push inclined plane block 55 pushes the inclined plane limit block 77 to slide forwards and simultaneously drives the connecting plate 78 to slide upwards, the inclined plane limit block 77 is separated from the inclined plane pressure rod 79, the inclined plane pressure rod 79 slides downwards, the support rotating shaft 81 turns backwards, the support rotating shaft 81 drives the clamp 82 to fix the chip, meanwhile, the screw motor shaft 46 drives the worm shaft 74 to rotate through the transmission belt 52, the worm shaft 74 drives, the transition shaft 73 drives the spline sleeve 15 to rotate through the connecting transmission belt 14, the spline sleeve 15 drives the movable shaft 16 to rotate the bundling belt wheel 61, the movable guide rope 63 is bundled by the bundling belt wheel 61, the movable guide rope 63 drives the transmission guide block 62 to slide, the transmission guide block 62 drives the laser scanner 65 to slide through the extension block 83, the worm shaft 74 simultaneously drives the gear shaft 20 to rotate through the connecting bevel gear set 72, the gear shaft 20 drives the rack partition 22 to slide through the lifting gear 21, so that the rack partition 22 secondarily blocks the working chamber 36, the working chamber 36 is ensured to be completely closed, the laser scanner 65 starts to cooperate with the temperature controller 25 and the humidity controller 40 to perform scanning work, the laser scanner 65 drives the extension block 83 to be close to the movable shaft 16, the laser scanner 65 is in contact with the rocking plate 68, the rocking plate 68 drives the lifting connecting rod 70 to slide upwards through the circular platform sliding block 69, the lifting connecting rod 70 drives the annular circular truncated cone 60 to slide upwards through the connecting rod 59, the annular circular truncated cone 60 drives the inclined plane hook claw 64 to move upwards, the inclined plane hook claw 64 is separated from the storage partition plate 90, the separation partition plate 90 can be overturned, the extension block 83 is separated from the separation groove 91 from the separation partition plate 90, and the laser scanner 65 resets.

After the work is finished, the control motor 45 is turned back and then is closed, the transmission motor 43 rotates forward to drive the chip to slide leftwards and extend out, and the device is restored to the initial state.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (7)

1. An immune chip laser scanning system for biological health research comprises a shell, wherein a working cavity which is penetrated left and right is arranged in the shell, a power cavity is arranged at the rear side of the working cavity in the shell, the bottom wall of the working cavity is communicated with a movable groove, a wall body between the power cavity and the movable groove is communicated with a lifting guide groove, the lifting guide groove is simultaneously communicated with the working cavity and the power cavity, a lifting support block is arranged in the lifting guide groove in a vertical sliding manner, connecting rotating rods are respectively and rotatably arranged at the left side and the right side of the lifting guide groove on the wall body between the working cavity and the power cavity, the connecting rotating rods are fixedly connected with a rotating disc in the working cavity, a humidity regulator is fixedly arranged at the lower side of the connecting rotating rod on the left side of the rotating disc, a temperature regulator is fixedly connected at the lower side of the connecting rotating rod on the right side of the rotating disc, and a, the working chamber top wall is communicated with a lifting groove, a spline sleeve is rotatably arranged on a wall body between the lifting groove and the T-shaped transmission chamber, a movable shaft extending out from top to bottom is connected in the spline sleeve through a spline, the movable shaft is rotatably connected with a lifting plate in the lifting groove, a connecting sliding groove with a downward opening is arranged in the lifting plate, a laser scanner is symmetrically and slidably connected with the front wall and the rear wall of the connecting sliding groove by taking the movable shaft as a center, an extension block is fixedly connected to the upper end surface of the laser scanner, the laser scanner is connected with the connecting sliding groove through a spring to be far away from the side wall of the movable shaft, a beam collecting belt wheel is fixedly connected in the connecting sliding groove through the movable shaft, a movable guide rope is wound on the beam collecting belt wheel and is fixedly connected with the left side and the right side of the movable shaft respectively, and the movable guide rope is fixedly connected with a transmission, the transmission guide block passes through spring coupling the connection spout is kept away from the loose axle lateral wall, controls the side be equipped with the opening separation tank that runs through mutually in the transmission guide block back to the back and downwards, the extension piece stretches into the separation tank, the separation tank roof is kept away from the loose axle sideslip is rotated and is connected with and accomodates the baffle, the transmission guide block in the separation tank upside is equipped with the lift spacing groove of running through about, the inclined plane that stretches out about slidable mounting goes up and down in the lift spacing inslot colludes the claw, the inclined plane colludes the claw end with accomodate the baffle contact, the inclined plane colludes the claw and passes through spring coupling lower wall on the lift spacing groove.

2. The immune chip laser scanning system for biological health research of claim 1, wherein: the wall body between the power cavity and the movable groove is communicated with inclined guide grooves at the left side and the right side of the lifting guide groove, movable belt wheel shafts are arranged in the inclined guide grooves in a sliding manner, the movable belt wheel shafts at the left side and the right side are connected in the movable groove through a telescopic conveying belt in a transmission manner, lifting support blocks extending out from front to back are arranged in the lifting guide groove in a sliding manner, the lifting support blocks are contacted with the lower section of the telescopic conveying belt, rotating shafts are arranged at the left side and the right side of the movable groove in a rotating manner by taking the lifting guide grooves as centers and in a bilateral symmetry manner through torsion springs, the rotating shafts are positioned at the inclined guide grooves far away from the lifting guide groove side, turning support plates extending into the working cavity are rotatably arranged at the positions of the left side and the right side of the movable groove at the rotating shafts, guide grooves penetrating from front to back, the fixed connection piece passes through spring coupling the guide slot roof, the casing in the T shape transmission chamber left and right sides is equipped with the gear chamber, the gear chamber back side wall with wall body between the lateral wall rotates before the T shape transmission chamber and installs the gear shaft, the gear shaft in gear intracavity fixedly connected with lifting gear, the gear chamber with wall body slidable mounting between the working chamber have with the rack baffle that lifting gear meshing is connected, rack baffle sliding fit the gear chamber is kept away from the lift groove lateral wall.

3. The immune chip laser scanning system for biological health research according to claim 2, wherein: the left side wall and the right side wall of the lifting groove are bilaterally and symmetrically connected with supporting rockers by taking the movable shaft as a center, the lifting plate is bilaterally and symmetrically provided with guide grooves which penetrate through from front to back by taking the connecting sliding groove as a center, the supporting rockers extend into and are in sliding fit with the inner walls of the guide grooves, the movable shaft is provided with a swinging groove which is provided with a downward opening and penetrates through from front to back in the connecting sliding groove, a lifting connecting rod is arranged on the wall body between the swinging groove and the penetrating groove in a sliding manner, the lifting connecting rod is fixedly connected with a connecting rod in the penetrating groove, the connecting rod is fixedly connected with an annular round platform in the penetrating groove, the annular round platform is in sliding fit with the outer wall of the movable shaft, the lifting connecting rod is fixedly connected with a round platform sliding block in the swinging groove, the top wall, the rocking plate is contacted with the circular truncated cone sliding block on the front side and the rear side.

4. The immune chip laser scanning system for biological health research according to claim 3, wherein: the T shape transmission chamber upper and lower walls in the spline sleeve positive rear rotates installs the transition axle, the epaxial fixedly connected with worm wheel of transition, the transition axle with the spline sleeve is connected through connecting the drive belt, the casing in T shape transmission chamber left side is equipped with the belt chamber, the belt chamber with wall body between the T shape transmission chamber rotates installs the worm axle, the worm wheel with worm axle mesh connects, controls the side the gear shaft in T shape transmission intracavity through linking bevel gear group with the worm axle is connected.

5. The immune chip laser scanning system for biological health research according to claim 4, wherein: the lifting support block is internally provided with a through chute which penetrates through the lifting support block from front to back, a pushing inclined block is arranged in the through chute in a sliding manner, the pushing inclined block is connected with the inner wall of the through chute through a spring, the pushing inclined block is arranged outside the rear side of the through chute in a rotating manner through torsional springs and is provided with four groups of rotating clamping rods, the rotating clamping rods are equally distributed at the four corners of the rear end face of the pushing inclined block, the lifting guide groove front side wall is provided with a connecting plate in a sliding manner, the upper side of the connecting plate is rotatably provided with a front and back rotating support rotating shaft, the upper side of the support rotating shaft is fixedly connected with clamps in a bilateral symmetry manner, the connecting plate is internally provided with a front and back through linking chute, an inclined limiting block is arranged in the linking chute in a sliding manner, the inclined limiting block is in sliding fit with, the inclined plane depression bar with inclined plane stopper sliding fit, impel the inclined plane piece to stretch into link up the spout with inclined plane stopper sliding fit.

6. The immune chip laser scanning system for biological health research according to claim 5, wherein: a control motor is fixedly arranged on the right side wall of the power cavity, a screw motor shaft is connected to the control motor in a power mode, the screw motor shaft is rotationally connected with a wall body between the belt cavity and the power cavity, the screw motor shaft and the worm shaft are in transmission connection in the belt cavity through a transmission belt, threaded connecting blocks are symmetrically and slidably arranged on the bottom wall of the power cavity in a left-right mode by taking the lifting guide groove as the center, threaded limiting blocks are connected between the threaded connecting blocks on the left side and the right side on a motor shaft of the screw rod in a threaded mode, the thread limiting block slides on the bottom wall of the power cavity, the thread limiting block is contacted with the lifting supporting block, the threaded connecting block is in threaded connection with the screw motor shaft, the threads of the threaded connecting block on the left side and the right side are opposite, the threaded connection block is provided with a limiting groove which penetrates through the threaded connection block from front to back, and the movable belt wheel shaft extends into and is in sliding fit with the inner wall of the limiting groove.

7. The immune chip laser scanning system for biological health research according to claim 6, wherein: the lifting guide groove is characterized in that a transmission motor is fixedly mounted on the front side wall of the power cavity, the rear side of the transmission motor is in power connection with a working motor shaft, a transmission gear is fixedly mounted on the working motor shaft, a movable gear is fixedly connected to the shaft of the movable belt pulley, the movable gear is meshed with the transmission gear and connected with a pushing rod fixedly connected in the power cavity, a limiting rotating rod is rotatably connected onto the pushing rod through a torsion spring, fixed limiting blocks in contact with the limiting rotating rod are fixed on the left side and the right side of the lifting guide groove respectively, and the limiting rotating rod is in contact with the rotating clamping rod.

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