CN209280419U - Glass slide assembling and coloring system - Google Patents

Abstract

The utility model discloses a kind of assembling of glass slide and coloring systems, including the assembling unit that the dyeing component being made of glass slide, dyeing substrate and canister is assembled into one and the dye unit dyed to the sample on the dyeing component, mutually it is connected between the assembling unit and the dye unit by supply unit.The utility model structure is simple, ingenious, the assembling and dyeing course for dyeing component are not necessarily to manual intervention, solves the technical issues of traditional artificial assembly and semi-automatic dyeing work low efficiency, glass slide assembling and dying operation are standardized, the Automated assembly of dyeing component and the automatic staining of glass slide are realized, to realize that the full-automatic analysis of glass slide lays the foundation.

Description

Glass slide assembling and coloring system

Technical field

The utility model relates to glass slide dyeing technologies, more particularly, to a kind of assembling of glass slide and coloring system.

Background technique

Glass slide dyeing is the key factor for influencing glass slide film-making success or not.Traditional glass slide dyeing is to contaminate by hand Color, using by glass slide put into dyeing container in coloured by the way of.Since glass slide wetted area is larger, the later period cleaning and Drying is time-consuming and laborious, in the case where manual operation, is also easy to that sample contamination phenomenon occurs, dyeing course lacks unified operation Codes and standards.In order to solve the above technical problems, someone has developed a kind of semi-automatic coloring system, glass slide is integrated in semi-automatic Below dyeing apparatus in the locating slot of mounting plate, dyeing pot is clamped on locating slot, is integrated in the shell above mounting plate multiple Fixing pipe integrates more root dyeing agent pipelines and a sample needle in each fixing pipe.Semi-automatic coloring system is to a certain extent It solves the technical problem more than traditional manual dyeing manual intervention, but still remains following problems: firstly, semi-automatic dyeing system Structure of uniting is big and heavy, occupied space, energy consumption are high, and manual intervention is more, and there are pollution risks；Secondly, needing manually to before dyeing Dyeing pot rotation correspondence is screwed in each locating slot, that is, needs human assistance operation；Furthermore it is needed to frequently replace in dyeing course Pipette tips on sample needle, while the coloring agent pipeline of adjustment sample needle connection is needed to frequently replace, troublesome in poeration, one timing of dyeing Between after need manually uniformly to outwell the coloring agent in multiple dyeing pots, and the dyeing time of multiple samples has differences, dyeing Poor repeatability；Coloring agent has toxicity and volatility mostly, and there are safety problems.

Summary of the invention

The utility model aim is to provide that a kind of high degree of automation, dyeing component assembly efficiency is high, dyeing efficiency is high And highly-safe glass slide assembling and coloring system.

To achieve the above object, the utility model takes following technical proposals:

Glass slide assembling described in the utility model and coloring system, including will be by glass slide, dyeing substrate and canister structure At the assembling unit that is assembled into one of dyeing component and dye unit that the sample on the dyeing component is dyed, institute It states and is mutually connected between assembling unit and the dye unit by supply unit；

The assembling unit includes dyeing pot rotary feeding mechanism, can accommodate canister and carry out canister automatic turning and Automatic loading；

Substrate feed mechanism is dyed, dyeing substrate can be accommodated and carries out the automatic charging of dyeing substrate；

Glass slide feed mechanism can accommodate glass slide and carry out automatic charging and the clamping, and automatic push of glass slide Glass slide, the dyeing substrate fitted together；

Manipulator is screwed, canister can be grabbed, shifts and screw；

Component delivery device is dyed, the dyeing component fitted together is pushed into the supply unit.

The dyeing pot feed mechanism includes canister storage box, and the single canister discharging of arc is provided in the canister storage box Channel, the tangentially connected single output channel of line style for thering is bottom to have vibrator in the single canister tapping channel exit, institute It states the single output channel exit of line style and is provided with motor-driven rotating disk, radially offer in the rotating disk for connecing The groove of canister is received, the exit that the groove extends to rotation plate edge is provided with the lifting supporting plate of cylinder driving, the liter Output guide rail is provided with below drop supporting plate, sliding is provided with the loading supporting plate of cylinder driving, the feeding on the output guide rail Supporting plate and lifting supporting plate cooperate.

The loading supporting plate and lifting supporting plate are the opposed U-shaped structure of opening, and it is fixed to be provided between the U-shaped arm of loading supporting plate Position supporting plate；When the two matches, the U-shaped trailing arm of loading supporting plate is located on the outside of the U-shaped trailing arm of lifting supporting plate, the positioning supporting plate Between the U-shaped arm of lifting supporting plate, and the otic placode overlap joint slot opened up on the U-shaped trailing arm is respectively positioned on same straight line.

The glass slide feed mechanism includes the lateral blocks and transverse direction vertical plate of parallel interval setting, the transverse direction of the lateral blocks Sliding is provided with the support being driven by the cylinder on sliding rail, slides and is provided with by lifting cylinder on the upright slide rail of the support riser The vacuum chuck for adsorbing glass slide is provided on the lifting seat I, the lifting seat I of driving；The bottom of the support is arranged There is the link block being laterally extended, the stand I on support and the link block is between left and right every setting, the upright slide rail of the stand I Upper sliding is provided with the pushing hands driven by lifting cylinder, and horizontal slide plate is arranged in the top of the transverse direction vertical plate, and the pushing hands is upward Extend the horizontal concrete chute of the horizontal slide plate, glass slide Storage Box is provided on the left of lateral vertical plate.

The dyeing substrate feed mechanism includes spaced dyeing substrate storage cassette and stand II, the horizontal slide plate Left end extend rearwardly to form mounting portion, the dyeing substrate storage cassette bottom opening, which is arranged and passes through installation frame, is located at horizontal cunning On the mounting portion of plate, the bottom of substrate storage cassette and the mounting portion gap setting of horizontal slide plate are dyed；It is arranged on the stand II There is the horizontal push plate being driven by the cylinder, the length of the horizontal push plate is greater than the length of dyeing substrate storage cassette, and horizontal push plate is vertical To back and forth movement between dyeing substrate storage cassette and horizontal slide plate；

The dyeing component delivery device include the horizontal pushing block being driven by the cylinder and from horizontal slide plate right end front side edge to The push slideway of preceding extension, the horizontal pushing block are travelled to and fro between along longitudinal direction between push slideway and the supply unit.

It is described that screw mechanical hand include the runing rest that the lateral vertical plate right end is arranged in and is driven by rotary cylinder, institute It states sliding on the upright slide rail of runing rest and is provided with the lifting seat II being driven by the cylinder, be provided on the lifting seat II downwards The mounting bracket of extension, the bottom of the mounting bracket are provided with the rotating seat of rotating electric machine driving, the clamping of the rotating seat A pair of curved splint matched with canister is correspondingly arranged on cylinder.

The dye unit includes bottom plate, and the dyeing component being provided on the bottom plate for being connected the supply unit is defeated Entering mechanism, the outlet end of the dyeing component input mechanisms is mutually connected by sample introduction handgrip with the input end of pool conveyer structure, The outlet end of the pool conveyer structure is mutually connected by going out sample handgrip with dyeing component output mechanism；The pool conveyer structure Including conveyor chain driven by stepper motors, the top uniform intervals of the conveyor chain are provided with multiple described for clamping The carrying component of component is dyed, is provided with waste liquid pool below the carrying component；Along conveyor chain it is circumferentially spaced-apart be provided with it is multiple Station is dyed, the dyeing station is provided with sample charging mechanism and turning manipulator.

The sample introduction handgrip is identical with sample gripping structure out, and sample introduction handgrip and out sample handgrip include being connected in the bottom plate The U-frame frame of bottom is provided with a pair of of upright slide rail on the two sidewalls of the U-frame frame, slides setting on the upright slide rail There is stepper motor driven horizontal lifting plate, rotation is provided with the rotation of synchronous tape transport driving on the horizontal lifting plate Axis, the rotary shaft extend upward bottom plate, at the top of level board on be provided with straight line cylinder driving sliding block, the sliding block On gripper cylinder on be provided with the clamping limb of a pair of L-shaped structure, the horizontal segment of the clamping limb offers and the dyeing The limiting slot that substrate matches.

The carrying component includes the mounting blocks being connected on the conveyor chain by connection sheet, is led on the mounting blocks Crossing stud connection has U-shaped snap-gauge for clamping the glass slide substrate, is provided with level between mounting blocks and the U-shaped snap-gauge Location structure, the medial surface of U-shaped snap-gauge offer the limit card slot matched with dyeing substrate；

The turning manipulator includes the pedestal being connected on the bottom plate, on the guide rail of the pedestal sliding be provided with by Cylinder driving L bracket, the upper end of the L bracket be provided with by rotating electric machine drive rotation hand, the rotation hand and The U-shaped snap-gauge height is consistent, and rotation offers the locating slot matched with the short side of the dyeing substrate on hand.

The sample charging mechanism includes the L shape substrate being connected on the bottom plate, the sample-adding group in the L shape substrate level section Part is correspondingly arranged up and down with the carrying component；The sample-adding component includes the horizontal block driven by lifting cylinder, the level Sample needle is provided on block.

The utility model advantage is that structure is simple, ingenious, and the assembling and dyeing course for dyeing component are not necessarily to manual intervention, It solves the technical issues of traditional artificial assembly and semi-automatic dyeing work low efficiency, has standardized glass slide assembling and dyeing behaviour Make, realize the Automated assembly of dyeing component and the automatic staining of glass slide, to realize that the full-automatic analysis of glass slide is beaten Lower basis.Assembling unit improves assembly efficiency and dyeing efficiency while guaranteeing assembly precision；Dye unit can be realized Coloring agent or the automatic of eluent add and topple over, and dyeing is reproducible, improves dyeing efficiency, reduce coloring agent to human body Harm, it is highly-safe.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram with the matching used dyeing component of the utility model.

Fig. 3 is the structural schematic diagram that substrate is dyed in Fig. 2.

Fig. 4 is the structural schematic diagram (concealing canister storage box) of assembling unit described in the utility model.

Fig. 5 is the structural schematic diagram of dyeing pot feed mechanism in Fig. 4.

Fig. 6 is the overlooking structure diagram of Fig. 5.

Fig. 7 is the structural schematic diagram that disc portion is rotated in Fig. 5.

Fig. 8 is the structural schematic diagram of loading supporting plate part in Fig. 5.

Fig. 9 is the structural schematic diagram of glass slide feed mechanism in Fig. 4.

Figure 10 is the structural schematic diagram (concealing lateral vertical plate and horizontal slide plate) of Fig. 4 glass slide feed mechanism.

Figure 11 is the structural schematic diagram that manipulator is screwed in Fig. 4.

Figure 12 is the structural schematic diagram of dye unit described in the utility model.

Figure 13 is the overlooking structure diagram (concealing the first shield, the second shield and waste liquid pool) of Figure 12.

Figure 14 is the structural schematic diagram of sample charging mechanism in Figure 12.

Figure 15 is another structural schematic diagram of sample charging mechanism described in the utility model.

Figure 16 is the location diagram described in the utility model for carrying component and turning manipulator.

Figure 17 is the structural schematic diagram of sample introduction handgrip described in the utility model.

Figure 18 is the work flow diagram of the utility model.

Specific embodiment

As shown in Figure 1, glass slide assembling described in the utility model and coloring system, including will be by glass slide, dyeing base Plate (as shown in figure 3, dyeing substrate includes transfer plate W01, is provided with one for placing glass slide on the transfer plate W01 Card puts groove W02, and the thickness difference for blocking the depth and glass slide of putting groove W02 is 2-5mm, and card puts the bottom wall of groove W02 On offer peep hole W03, card, which is put to extend to form outward respectively in the middle part of the long side of groove W02, screws groove W04, each described The one end for screwing groove W04 is precession position, and the other end covers W05 plate formation fixing position by being spirally connected, and two fixing positions are each other Diagonally) and the dyeing component V(that constitutes of canister M dye component structure it is as shown in Figure 2) assembling unit that is assembled into one and right The dye unit that sample on the dyeing component V is dyed, by defeated between the assembling unit and the dye unit 100 phase of unit is sent to be connected；

As shown in Figure 1, supply unit 100 is arranged on bottom plate U when actual installation for convenient for assembly, assembling unit setting On bottom plate N, dye unit is arranged on bottom plate X, and supply unit 100 is the synchronization tape transport being arranged on bottom plate U, defeated Send the synchronous belt of unit 100 longitudinally disposed, the bottom plate U positioned at synchronous belt outlet end is arranged at intervals with pipetting device and by horizontal gas The push rod 102 of cylinder driving, sample application needle is injected into the canister of dyeing component when dyeing component V is run to synchronous belt outlet end Then dyeing component on synchronous belt is pushed to dye unit by push rod 102 by sample.

The specific structure of present embodiment is as follows: as shown in Fig. 1,4, the assembling unit includes dyeing pot feed mechanism 200, can accommodate canister and carry out canister automatic turning and automatic loading；Dyeing substrate can be accommodated and carry out dyeing substrate The dyeing substrate feed mechanism 300 of automatic charging, can accommodate glass slide and carry out glass slide automatic charging and clamping, and from The dynamic glass slide feed mechanism 400 for pushing the glass slide fitted together, dyeing substrate, can grab, shifts and screw canister Screw manipulator 500, the dyeing component fitted together is pushed to the dyeing component delivery device of the supply unit 100 600；Dyeing substrate feed mechanism 300 and 400 longitudinal direction of glass slide feed mechanism are correspondingly arranged, glass slide feed mechanism 400, dyeing Component delivery device 600 screws manipulator 500 and dyeing pot feed mechanism 200 is successively connected from left to right.

The specific structure of assembling unit described in the utility model is as follows:

As viewed in figures 5-8, the dyeing pot feed mechanism 200 includes the canister storage box 201 being arranged on bottom plate N, described The single canister tapping channel of arc is provided in canister storage box 201, the single canister tapping channel exit is tangentially connected There is bottom to have the single output channel of line style of vibrator 202, the single output channel exit of line style is provided with motor drive Dynamic rotating disk 203, the groove 204 for receiving canister is radially offered in the rotating disk 203, and the groove 204 prolongs The exit for extending to 203 edge of rotating disk is provided with the lifting supporting plate 205 of cylinder driving, is arranged below the lifting supporting plate 205 There is output guide rail, sliding is provided with the loading supporting plate 206 of cylinder driving, the loading supporting plate 206 and liter on the output guide rail Supporting plate 205 is dropped to cooperate；The loading supporting plate 206 and lifting supporting plate 205 are the opposed U-shaped structure of opening, loading supporting plate 206 U-shaped arm between be provided with positioning supporting plate 207；When the two matches, the U-shaped trailing arm of loading supporting plate 206 is located at lifting supporting plate On the outside of 205 U-shaped trailing arm, the positioning supporting plate 207 is located between the U-shaped arm of lifting supporting plate 205, and opens on the U-shaped trailing arm If otic placode overlap joint slot 208 be respectively positioned on same straight line.

The course of work of dyeing pot feed mechanism 200 described in the utility model is as follows:

Canister M is inverted in canister storage box 201, even if the single canister that the pedestal otic placode of canister M is articulated in arc goes out Expect on channel, when vibrator 202 is opened, canister M is sequentially advanced along single canister tapping channel and the single output channel of line style, When row output channel exit single to line style, under effect of inertia, into the groove 204 of rotating disk 203, and pass through liter Drop supporting plate 205 is fixed, and later, rotating disk 203 rotates 180 °, and canister M is made to align direction vertical display.During this period, line The single output channel outlet of type is blocked by rotating disk 203, other canisters M is prevented to discharge.Loading supporting plate 206 is run along output guide rail To lifting supporting plate 205, canister M declines with lifting supporting plate 205, when lifting supporting plate 205 and loading supporting plate 206 are in same When horizontal plane, lifting supporting plate 205 and loading supporting plate 206 staggeredly cooperate, canister M by both common support, when lifting supporting plate 205 after After continuous decline, canister M is only by 206 support of loading supporting plate, later, shifts to subsequent processing in the horizontal direction with loading supporting plate 206, into The assembly of row dyeing pot.

As shown in Figures 9 and 10, the glass slide feed mechanism 400 includes the lateral blocks 401 on parallel interval setting bottom plate N With lateral vertical plate 402, sliding is provided with the support 403 being driven by the cylinder, the support in the horizontal slide rail of the lateral blocks 401 Sliding is provided on the lifting seat I404, the lifting seat I404 by lifting cylinder driving and is arranged on the upright slide rail of 403 risers There is the vacuum chuck 405 for adsorbing glass slide；The bottom of the support 403 is provided with the link block being laterally extended, support 403 It is provided between left and right by going up and down every being slided in setting, the upright slide rail of the stand I 406 with the stand I 406 on the link block Horizontal slide plate 408 is arranged in the top of the pushing hands 407 of cylinder driving, the transverse direction vertical plate 402, and the pushing hands 407 extends upward The left side of the horizontal concrete chute 409 of the horizontal slide plate 408, lateral vertical plate 402 is provided with glass slide Storage Box 410.When work, gas Cylinder drives vacuum chuck 405 to be moved to 410 top of glass slide Storage Box by support 403, adjusts vacuum by lifting cylinder and inhales 405 height of disk makes it adsorb a glass slide, and dyeing substrate feed mechanism 300 pushes to substrate is dyed on horizontal slide plate 408, Glass slide feed mechanism 400 is moved to right above dyeing substrate, is then adjusted its height again for glass slide and is installed on dyeing base The card of plate is put in groove W02；Adjustment 407 position of pushing hands is located on the left of dyeing substrate, and then adjusting 407 height of pushing hands makes it Extend horizontal concrete chute 409 and push the glass slide after assembling and dyeing substrate to the right, until pushing to dyeing component delivery device On the horizontal slide plate 408 of 600 corresponding positions, the decline of pushing hands 407 is moved to the left home position, in order to push next but one dyeing Substrate and glass slide combination.

As shown in figure 4, the dyeing substrate feed mechanism 300 includes spaced dyeing substrate storage cassette 301 and sets Stand II 302 on bottom set plate N, the left end of the horizontal slide plate 408 extend rearwardly to form mounting portion, the dyeing substrate storage 301 bottom opening of box, which is arranged and passes through installation frame, to be located on the mounting portion of horizontal slide plate 408, and the bottom of substrate storage cassette 301 is dyed The mounting portion gap setting in portion and horizontal slide plate 408；The horizontal push plate 303 being driven by the cylinder is provided on the stand II 302, The length of the horizontal push plate 303 is greater than the length of dyeing substrate storage cassette 301, and the longitudinal back and forth movement of horizontal push plate 303 is in dye Between chromogen substrate Storage Box 301 and horizontal slide plate 408, horizontal push plate 303 pushes dyeing substrate to be stored by dyeing substrate along longitudinal direction 301 bottom of box pushes on horizontal slide plate 408；The dyeing component delivery device 600 includes the horizontal pushing block being driven by the cylinder 601 and from the push slideway 602 that 408 right end front side edge of horizontal slide plate extends forward, the horizontal pushing block 601 is travelled to and fro between along longitudinal direction Between the push slideway 602 and supply unit 100, the dyeing component after assembling is pushed on supply unit 100.

As shown in figure 11, the manipulator 500 that screws includes setting in lateral 402 right end of vertical plate and by rotary cylinder The runing rest 501 of driving, sliding is provided with the lifting seat II being driven by the cylinder on the upright slide rail of the runing rest 501 502, the mounting bracket 503 extended downwardly is provided on the lifting seat II 502, and the bottom of the mounting bracket 503 is provided with The rotating seat 504 of rotating electric machine driving is correspondingly arranged on the gripper cylinder of the rotating seat 504 and a pair of matches with canister Curved splint 505, the lower part of the curved splint 505 offer the locating slot 506 matched with the lower part canister M reinforcing rib.Work When making, 501 position of runing rest is adjusted by rotary cylinder first, makes itself and corresponding, arc above and below the canister on loading supporting plate 206 Clevis plate 505 is in open configuration before clamping, curved splint 505 is along upright slide rail decline until the complete position curved splint of canister In 505, the closure of curved splint 505 clamping canister simultaneously rises, rotates to 600 top of dyeing component delivery device, makes it and carries glass Piece and dyeing substrate in batch are correspondingly arranged up and down, and adjustment canister height makes it be placed exactly in glass slide upper surface, pass through rotating electric machine It drives curved splint 505 to rotate, is transferred to two pedestal otic placodes of canister M from the precession position for screwing groove W04 of dyeing substrate Position is fixed, then closely connects three.

The specific structure of dye unit described in the utility model is as follows:

As shown in Figure 12,13, the dye unit includes bottom plate X, is provided on the bottom plate X for being connected the conveying The outlet end of the dyeing component input mechanisms A00 of unit 100, the dyeing component input mechanisms A00 by sample introduction handgrip B00 with The input end of pool conveyer structure is mutually connected, and the outlet end of the pool conveyer structure is by going out sample handgrip C00 and dyeing component Output mechanism D00 phase is connected, and dyeing component input mechanisms A00 is synchronous tape transport with dyeing component output mechanism D00； The pool conveyer structure includes conveyor chain E00 driven by stepper motors, the top uniform intervals of the conveyor chain E00 It is provided with below multiple carrying component F00, the carrying component F00 for clamping the dyeing component and is provided with waste liquid pool Y； Multiple dyeing stations are provided with along conveyor chain E00 is circumferentially spaced-apart, the dyeing station is provided with sample charging mechanism H00 and tipper Specific dyer bit quantity and position can be arranged in tool hand I00, when installation according to actual needs, need as cervical cancer cell detects 16 dyeing stations of interval setting；As shown in figure 14, the sample charging mechanism H00 includes the L shape substrate being connected on the bottom plate X H01, the sample-adding component on the L shape substrate H01 horizontal segment are correspondingly arranged with the carrying component F00 or more；The sample-adding group Part includes the horizontal block driven by lifting cylinder, is provided with sample needle H03 in the horizontal block.Certainly, if desired to sample into When row gradient elution, the sample needle H03 for being arranged three and being connected respectively with different eluents can be spaced in horizontal block, specifically As shown in figure 15, then sample-adding component is connected on the nut seat H05 of lead screw stepper motor H04, passes through lead screw stepper motor H04 adjusts the position of three sample needle H03, meets the elution demand of different eluents, when such as cervical cancer cell detection, needs Third dyes station and three sample needle H03 is arranged, and successively carries out 95% ethanol elution to the sample on glass slide, 80% ethyl alcohol is washed De- and 70% ethyl alcohol carries out gradient elution, it is ensured that elution effect.

As shown in figure 17, the sample introduction handgrip B00 is identical with sample handgrip C00 structure out, specific by taking sample introduction handgrip B00 as an example Illustrate its structure, the U-frame frame B01 including being connected in the bottom the bottom plate X is provided on the two sidewalls of the U-frame frame B01 A pair of of upright slide rail, sliding is provided with stepper motor driven horizontal lifting plate B02, the horizontal lifting on the upright slide rail The rotary shaft B03, the rotary shaft B03 that rotation is provided with synchronous tape transport driving on plate B02 extend upward bottom plate X, It is provided with the slide block B 05 of straight line cylinder driving on level board B04 at the top of it, is arranged on the gripper cylinder in the slide block B 05 There is the clamping limb B06 of a pair of L-shaped structure, the horizontal segment of the clamping limb B06, which is offered, dyes what substrate matched with described Limiting slot.Sample introduction handgrip B00 and out sample handgrip C00 have the function of lifting, horizontal rotation and longitudinal translation, realize dyeing component With docking for conveying connection, it is not necessarily to manual handling, improves working efficiency.

As shown in figure 16, the carrying component F00 includes the installation being connected on the conveyor chain E00 by connection sheet There are the U-shaped snap-gauge F02 for clamping the glass slide substrate, mounting blocks by stud connection on block F01, the mounting blocks F01 Horizontal location structure is provided between F01 and the U-shaped snap-gauge F02, the horizontal location structure includes being connected in the installation Return spring is provided in position-limiting drum F03, the position-limiting drum F03 on block F01, the positioning bead F04 of return spring end extends It the position-limiting drum F03 and is installed in the limiting slot of the U-shaped snap-gauge F02 out, the medial surface of U-shaped snap-gauge F02 is offered and contaminated The limit card slot that chromogen substrate matches, for clamping glass slide.

As shown in figure 16, the turning manipulator I00 includes the pedestal I01 being connected on the bottom plate X, the pedestal On the guide rail of I01 sliding be provided with by straight line cylinder drive L bracket I02, the upper end of the L bracket I02 be provided with by The rotation hand I03 of rotating electric machine driving, the rotation hand I03 is consistent with the U-shaped snap-gauge F02 height, rotates and opens up on hand I03 There is the locating slot matched with the short side of the glass slide.When toppling over coloring agent or eluent, cylinder is driven by L bracket I02 Dynamic rotation hand I03 is mobile to U-shaped snap-gauge F02, it is ensured that the short side of glass slide outer end is just installed on the locating slot of rotation hand I03 Interior, rotating electric machine drives U-shaped snap-gauge F02 and glass slide to overturn 180 ° by rotation hand I03, and coloring agent or eluent are poured into down In the waste liquid pool of side, positioning bead F04 stress squeezes return spring and is retracted into position-limiting drum F03 in U-shaped snap-gauge F02 switching process； After toppling over, rotating electric machine drives U-shaped snap-gauge F02 and glass slide to restore to horizontal position by rotation hand I03, and cylinder passes through L bracket I02 drives rotation hand I03 to sail out of U-shaped snap-gauge F02, it is ensured that dyeing component passes through；U-shaped snap-gauge F02 restores to water Positioning bead F04 is headed into limit card slot under the action of the return spring after level state, to U-shaped snap-gauge F02 horizontal location, it is ensured that dye The operation stability of colour cell part.

When actual installation, to protect dye unit, the first protective cover E01 is covered on bottom plate X, waste liquid pool Y setting exists On first protective cover E01；The second protective cover E02 is covered on pool conveyer structure.

It,, will be corresponding with sample introduction handgrip B00 to be dyed convenient for setting by taking the dyeing of cervical cancer cell as an example when practical dyeing The conveyor chain E00 upper inlet end at place is labeled as No. 1 station, then from No. 1 station along successively tag align sort clockwise, per adjacent Spacing between two stations carries the conveyor chain that the spacing of component F00 is consistent, with the corresponding position sample handgrip C00 out with adjacent two The outlet end E00 be No. 28 stations (i.e. end station), out sample handgrip C00 the glass slide of No. 28 stations is grabbed send to dye component it is defeated Mechanism D00 out.

The course of work and principles illustrated of the utility model are as follows:

As shown in figure 18, multiple canister M are inverted in the interior i.e. canister M of canister storage box 201 and are suspended on arc by its pedestal otic placode On the monolithic canister tapping channel of shape, canister M is logical along the single output of single canister tapping channel and line style when vibrator 202 works Road is sequentially advanced, when row output channel exit single to line style, under effect of inertia, into the groove 204 of rotating disk 203 It is interior, and fixed by lifting supporting plate 205, rotating disk 2033 rotates 180 °, and canister M is made to align direction vertical display, realizes The automatic turning of rotating disk 203.During this period, the single output channel outlet of line style is blocked by rotating disk 203, prevents other cylinders Tank M discharging.Loading supporting plate 206 is run along output guide rail to lifting supporting plate 205, and canister M declines with lifting supporting plate 205, When lifting supporting plate 205 and loading supporting plate 206 are in same level, lifting supporting plate 205 and loading supporting plate 206 staggeredly cooperate, Canister M is by the common support of the two, and after lifting supporting plate 205 continues decline, canister M is only by 206 support of loading supporting plate；Canister is automatic While feeding, dyeing substrate feed mechanism 300 pushes to substrate is dyed on horizontal slide plate 408, glass slide feed mechanism 400 405 glass slide of vacuum chuck and be moved to above dyeing substrate, the adjustment height of vacuum chuck 405, after vacuum chuck 405 is ventilated The card that glass slide is installed on dyeing substrate is put in groove W02, horizontal concrete chute 409 is extended in the rising of pushing hands 407 will be after assembling Glass slide and dyeing substrate in batch push on the horizontal slide plate 408 for dyeing 600 corresponding position of component delivery device and wait canister, carry glass Piece feed mechanism 400 is moved to the left 410 corresponding position of glass slide Storage Box, in order to push next glass slide and dyeing Substrate in batch；The rotary cylinder for screwing manipulator 500 drives curved splint 505 to rotate clockwise 90 ° by runing rest 501, makes Curved splint 505 is corresponding up and down with output guide rail, and adjustment 206 position of loading supporting plate makes canister and arc on loading supporting plate 206 About 505 clamping plate is correspondingly arranged, and curved splint 505 opens and declines clamping canister, and canister tank body is made to be fully located at curved splint In 505 grasping parts surrounded, the closure of curved splint 505 clamping canister simultaneously rises, and screws cylinder again by runing rest 501 It drives curved splint 505 and canister to be rotated by 90 ° counterclockwise, is placed exactly in canister above glass slide, adjustment canister height makes it Pedestal otic placode is sticked glass slide upper surface, drives curved splint 505 to rotate by rotating electric machine, makes two pedestal otic placodes of canister It is transferred to from the precession position for screwing groove W04 of dyeing substrate and fixes position, and then three is closely connected, realize dyeing component Automatic assembling improves assembly efficiency, convenient for subsequent delivery, dyes and topple over coloring agent or eluent.

After dyeing component is completed, the horizontal pushing block 601 of cylinder driving of dyeing component delivery device 600 will dye component It is pushed to by push slideway 602 on the synchronous belt of supply unit 100, dyeing component is translate forward under synchronous belt effect through liquid relief When at mechanism 101,101 pairs of dyeing components of pipetting device are loaded, and when being moved at 102 position of push rod, push rod 102 is pushed away to the right Dyeing component is sent to be pushed on the synchronous belt of dyeing component input mechanisms A00, dyeing assembly operating to dyeing component input Sample introduction handgrip B00 clamping dyeing component and 90 ° are rotated clockwise when the outlet end of mechanism A00, make to dye component and No. 1 station Component F00 alignment setting is carried, the sliding block on the level board B04 of sample introduction handgrip B00 drives dyeing component to move to component F00 is carried It is dynamic, it is installed on dyeing component just in U-shaped snap-gauge F02, then sample introduction handgrip B00 is bounced back, rotated counterclockwise and dye component Input mechanism A00 docking, convenient for transferring another dyeing component；The dyeing component on component F00 is carried along successive warp clockwise It crosses 16 dyeing stations to be dyed or eluted, when each dyeing station dyes or elutes, sample needle H03 is first into canister After injecting coloring agent or eluent dyeing preset time, the rotation hand I03 of turning manipulator I00 is moved to the direction component F00 is carried It is dynamic, it is ensured that the short side of dyeing substrate outer end is just installed in the locating slot of rotation hand I03, rotates hand I03 and U-shaped snap-gauge F02 For collective effect in glass slide, rotating electric machine drives rotation hand I03 to overturn 180 ° of waste liquids that coloring agent or eluent are poured into lower section In pond, continue to be moved horizontally to next station with conveyor chain E00 after the every dyeing of glass slide or elution, until dyeing is completed, dye Go out the clamping limb B06 clamping glass slide of sample handgrip C00 after the completion of color with glass slide is pulled outwardly, glass slide is turned by U-shaped snap-gauge F02 It moves to out on the clamping limb B06 of sample handgrip C00, then sample handgrip C00 rotates clockwise 90 ° and glass slide is placed on dyeing group out It is delivered to next station on the synchronous belt of part output mechanism D00, automatic assembling and the automatic staining of dyeing component is realized, realizes Standardization and standardization detection.

Claims (10)

1. a kind of assembling of glass slide and coloring system, it is characterised in that: including will be made of glass slide, dyeing substrate and canister The assembling unit that dyeing component is assembled into one and the dye unit that the sample on the dyeing component is dyed, described group Mutually it is connected between dress unit and the dye unit by supply unit (100)；

The assembling unit includes dyeing pot feed mechanism (200), can accommodate canister and carry out canister automatic turning and from Dynamic loading；

It dyes substrate feed mechanism (300), dyeing substrate can be accommodated and carries out the automatic charging of dyeing substrate；

Glass slide feed mechanism (400) can accommodate glass slide and carry out automatic charging and the clamping, and automatic push of glass slide Glass slide, the dyeing substrate fitted together；

Manipulator (500) are screwed, canister can be grabbed, shifts and screw；

It dyes component delivery device (600), the dyeing component fitted together is pushed into the supply unit (100).

2. glass slide assembling according to claim 1 and coloring system, it is characterised in that: the dyeing pot feed mechanism (200) include canister storage box (201), the single canister tapping channel of arc, the list are provided in the canister storage box (201) The tangentially connected single output channel of line style for thering is bottom to have vibrator (202) in row canister tapping channel exit, the line style Single output channel exit is provided with motor-driven rotating disk (203), is radially opened up on the rotating disk (203) useful In the groove (204) for receiving canister, the exit that the groove (204) extends to rotating disk (203) edge is provided with cylinder drive Dynamic lifting supporting plate (205), lifting supporting plate (205) lower section are provided with output guide rail, slide setting on the output guide rail The loading supporting plate (206) for having cylinder to drive, the loading supporting plate (206) and lifting supporting plate (205) cooperate.

3. glass slide according to claim 2 assembling and coloring system, it is characterised in that: the loading supporting plate (206) and Lifting supporting plate (205) is the opposed U-shaped structure of opening, is provided with positioning supporting plate (207) between the U-shaped arm of loading supporting plate (206)； When the two matches, the U-shaped trailing arm of loading supporting plate (206) is located on the outside of the U-shaped trailing arm of lifting supporting plate (205), the positioning Supporting plate (207) is located between the U-shaped arm of lifting supporting plate (205), and otic placode overlap joint slot (208) opened up on the U-shaped trailing arm is equal It is located on the same line.

4. glass slide assembling according to claim 1 and coloring system, it is characterised in that: the glass slide feed mechanism (400) include parallel interval setting lateral blocks (401) and transverse direction vertical plate (402), in the horizontal slide rail of the lateral blocks (401) Sliding is provided with the support (403) being driven by the cylinder, and slides and is provided with by going up and down on the upright slide rail of support (403) riser The lifting seat I(404 of cylinder driving), the lifting seat I(404) on be provided with vacuum chuck (405) for adsorbing glass slide； The bottom of the support (403) is provided with the link block being laterally extended, the stand I (406) on support (403) and the link block Sliding in setting, the upright slide rail of the stand I (406) is provided with the pushing hands (407) driven by lifting cylinder, institute between left and right The top horizontal for stating lateral vertical plate (402) is fixed with horizontal slide plate (408), and the pushing hands (407) extends upward the level The horizontal concrete chute (409) of slide plate (408) is provided with glass slide Storage Box (410) on the left of lateral vertical plate (402).

5. glass slide assembling according to claim 4 and coloring system, it is characterised in that: the dyeing substrate feed mechanism (300) include spaced dyeing substrate storage cassette (301) and stand II (302), the left end of the horizontal slide plate (408) to After extend to form mounting portion, dyeing substrate storage cassette (301) bottom opening, which is arranged and passes through installation frame, is located at horizontal slide plate (408) on mounting portion, the bottom of substrate storage cassette (301) and the mounting portion gap setting of horizontal slide plate (408) are dyed；It is described The horizontal push plate (303) being driven by the cylinder is provided on stand II (302), the length of the horizontal push plate (303) is greater than dyeing The length of substrate storage cassette (301), the longitudinal back and forth movement of horizontal push plate (303) are sliding in dyeing substrate storage cassette (301) and level Between plate (408)；

Dyeing component delivery device (600) include the horizontal pushing block (601) being driven by the cylinder and from horizontal slide plate (408) right side The push slideway (602) that end front side edge extends forward, the horizontal pushing block (601) travel to and fro between the push slideway along longitudinal direction (602) between supply unit (100).

6. glass slide assembling according to claim 4 and coloring system, it is characterised in that: described to screw manipulator (500) Including being arranged in lateral vertical plate (402) right end and by the runing rest (501) of rotary cylinder driving, the runing rest (501) sliding is provided with the lifting seat II (502) being driven by the cylinder on upright slide rail, is arranged on the lifting seat II (502) There is the mounting bracket (503) extended downwardly, the bottom of the mounting bracket (503) is provided with the rotating seat of rotating electric machine driving (504), a pair of curved splint (505) matched with canister is correspondingly arranged on the gripper cylinder of the rotating seat (504).

7. glass slide assembling according to claim 1 and coloring system, it is characterised in that: the dye unit includes bottom Plate is provided with the dyeing component input mechanisms (A00) for being connected the supply unit (100), the dyeing on the bottom plate The outlet end of component input mechanisms (A00) is mutually connected by sample introduction handgrip (B00) with the input end of pool conveyer structure, the ring The outlet end of shape conveying mechanism is mutually connected by going out sample handgrip (C00) with dyeing component output mechanism (D00)；The annular conveying Mechanism includes conveyor chain driven by stepper motors (E00), and the top uniform intervals of the conveyor chain (E00) are provided with more A carrying component (F00) for being used to clamp the dyeing component, carrying component (F00) lower section are provided with waste liquid pool；Along defeated Send chain (E00) is circumferentially spaced-apart to be provided with multiple dyeing stations, the dyeing station is provided with sample charging mechanism (H00) and tipper Tool hand (I00).

8. glass slide according to claim 7 assembling and coloring system, it is characterised in that: the sample introduction handgrip (B00) and Sample handgrip (C00) structure is identical out, and sample introduction handgrip (B00) and out sample handgrip (C00) include the U for being connected in the bottom base plate Shape frame (B01) is provided with a pair of of upright slide rail on the two sidewalls of the U-frame frame (B01), slides and set on the upright slide rail It is equipped with stepper motor driven horizontal lifting plate (B02), rotation is provided with synchronous belt conveyor on the horizontal lifting plate (B02) The rotary shaft (B03) of structure driving, the rotary shaft (B03) extends upward bottom plate, at the top of level board (B04) on be provided with The sliding block (B05) of straight line cylinder driving is provided with the clamping of a pair of L-shaped structure on the gripper cylinder on the sliding block (B05) Arm (B06), the horizontal segment of the clamping limb (B06) offer the limiting slot matched with dyeing substrate.

9. glass slide assembling according to claim 7 and coloring system, it is characterised in that: carrying component (F00) packet The mounting blocks (F01) being connected on the conveyor chain (E00) by connection sheet are included, pass through hinged shaft on the mounting blocks (F01) It is connected with the U-shaped snap-gauge (F02) for clamping the glass slide substrate, between mounting blocks (F01) and the U-shaped snap-gauge (F02) It is provided with horizontal location structure, the medial surface of U-shaped snap-gauge (F02) offers the limit card slot matched with dyeing substrate；

The turning manipulator (I00) includes the pedestal (I01) being connected on the bottom plate, on the guide rail of the pedestal (I01) Sliding is provided with the L bracket (I02) being driven by the cylinder, and the upper end of the L bracket (I02) is provided with to be driven by rotating electric machine Rotation hand (I03), the rotation hand (I03) and the U-shaped snap-gauge (F02) height are consistent, offered in rotation hand (I03) with The locating slot that the short side of dyeing substrate matches.

10. glass slide assembling according to claim 7 and coloring system, it is characterised in that: sample charging mechanism (H00) packet The L shape substrate (H01) being connected on the bottom plate is included, the sample-adding component on L shape substrate (H01) horizontal segment and the carrying Component (F00) is correspondingly arranged up and down；The sample-adding component includes the horizontal block (H02) driven by lifting cylinder, the horizontal block (H02) sample needle (H03) is provided on.