CN214472197U - Drop dyeing and piece making dyeing all-in-one machine capable of achieving direct wet sealing - Google Patents

Abstract

The application relates to a can be direct wet-sealed drip dyeing system piece dyeing all-in-one, its including be used for placing the slide glass frame dish of slide, be used for the sampling mechanism of sample and be used for controlling the portal mechanism of the relative slide glass frame dish position of sampling mechanism, slide glass frame dish is provided with the sample district that is used for placing the sample, the top of slide glass frame dish is fixed in the installation of portal mechanism, sampling mechanism fixed connection is in portal mechanism's control end. This application can effectual optimization film-making efficiency.

Description

Drop dyeing and piece making dyeing all-in-one machine capable of achieving direct wet sealing

Technical Field

The application relates to the field of film-making devices, in particular to a drop dyeing and film-making dyeing all-in-one machine capable of achieving direct wet sealing.

Background

Cytological examination is one of common pathological examination methods, and is often used for examining naturally exfoliated cells of body fluid, mucosal cells, fine needle puncture or ultrasonic guided puncture smears, so as to be used for diagnosing diseases, particularly suspected malignant disease diseases, such as thyroid cancer or cervical cancer.

The existing cytological examination is usually performed by a pap smear method, which mainly comprises the steps of manually smearing the obtained sample on a slide by using a scraping blade, and then directly reading the slide under a microscope.

With respect to the related art among the above, the inventors consider that the efficiency of tableting by hand depends on the experience of the producer, and the efficiency of tableting is relatively low.

SUMMERY OF THE UTILITY MODEL

In order to optimize the film-making efficiency, the application provides a can be directly wet-sealed drip dyeing film-making dyeing all-in-one machine.

The application provides a can be directly wet the drip dyeing system piece dyeing all-in-one who seals adopts following technical scheme:

the utility model provides a can be directly wet sealed drip dyeing system piece dyeing all-in-one, is including the slide frame dish that is used for placing the slide, the sampling mechanism who is used for the sample and be used for controlling the portal mechanism of the relative slide frame dish position of sampling mechanism, slide frame dish is provided with the sample district that is used for placing the sample, the top of slide frame dish is fixed in the installation of portal mechanism, sampling mechanism fixed connection is in portal mechanism's control end.

Through adopting above-mentioned technical scheme, when needs film-making, only need through the relative position of the relative slide frame dish of gantry mechanism control sampling mechanism to make sampling mechanism can take a sample in the sample district, then instil into the sample through sampling mechanism and place the slide on slide frame dish and can accomplish the film-making, intervene with artifical connecing of reduction film-making in-process, optimize the efficiency of film-making.

Optionally, the gantry mechanism comprises at least one X-axis sliding part and at least one Y-axis sliding part, the X-axis sliding part and the Y-axis sliding part are both provided with sliding ends and are both arranged above the slide rack tray, the Y-axis sliding part is fixedly connected to the slide rack tray, the X-axis sliding part is fixedly connected to the sliding ends of the Y-axis sliding part, and the sampling mechanism is fixedly connected to the sliding ends of the X-axis sliding part.

Through adopting above-mentioned technical scheme, when the relative position of the relative slide frame dish of control sampling mechanism, only need slide through the end that slides of Y axle sliding piece, the position in the Y axle direction of control X axle sliding piece, then slide through the end that slides of X axle sliding component again, control the position of sampling component in the X axle direction to reach the effect of the relative slide frame dish position of control sampling mechanism.

Optionally, sampling mechanism is including connecting in the sample seat of planer-type mechanism control end and being used for the sampling tube of sample, the vertical sliding of sampling tube is connected in the sample seat, sample seat fixedly connected with sample driving piece, the sample driving piece includes fixed connection in the sample motor of sample seat, the sample band pulley of two vertical distributions and the sample belt that two sample band pulleys were located to the cover, the coaxial fixed connection of output shaft of sample motor is in one of them sample band pulley, the sampling tube is connected in the vertical portion of sample belt.

Through adopting above-mentioned technical scheme, when portal mechanism control sampling mechanism takes a sample the film-making, only need the sample motor to pass through the sample band pulley and drive the sample belt and rotate, thereby drive the sample tube along the vertical slip of sample seat, thereby can make the sample tube insert earlier and establish disposable straw, then portal mechanism control sampling mechanism moves and absorbs the sample to the sample district, at last with the disposable intraductal sample dropwise add to the slide can, in order to further reduce artificial intervention, optimize the efficiency of film-making.

Optionally, one side that the sampling belt kept away from the sampling tube still is provided with the dyeing pipe that is used for the dropwise add dye liquor, the vertical slip of dyeing pipe is connected in the sample seat, dyeing pipe fixed connection is in another vertical portion of sampling belt.

Through adopting above-mentioned technical scheme, because during the film-making, to different samples, still need dye so that the discernment, when needs dye, after the dropwise add sample, only need rotate through the sample belt of sample driving piece and make the sampling tube move up, the dyeing tube can move down this moment, and with dye liquor dropwise add to slide, in order to accomplish the dyeing, further optimize the efficiency of film-making dyeing, simultaneously dyeing tube and sampling tube connect respectively in two vertical portions of sample belt, can make dyeing tube and sampling tube can follow the vertical slip of opposite direction, thereby produce the possibility of interfering when reducing sample and dyeing.

Optionally, the dyeing pipe includes dyeing sleeve pipe and a plurality of dye liquor pipes that are used for transmitting the dye liquor, the vertical slip of dyeing sleeve pipe is connected in the sample seat, and is a plurality of the dye liquor pipe encircles the central axis setting of dyeing sleeve pipe, the dye liquor pipe sets up in dyeing sheathed tube inside, the lower extreme opening orientation of dye liquor pipe is kept away from the direction at dyeing sleeve pipe center.

Through adopting above-mentioned technical scheme, can be so that when dropwise add the dye liquor, the dye liquor can flow in to the slide through the inner wall in dye liquor pipe dropwise add to the film-making storehouse, and the dye liquor pipe of a plurality of equipartitions can be comparatively even simultaneously with the dye liquor dropwise add to the slide to reduce the influence of dropwise add dye liquor to the film-making quality, optimize the quality of film-making.

Optionally, the sampling seat is fixedly connected with a separation plate, the separation plate is provided with at least one separation hole with a diameter smaller than that of the disposable pipette, and the separation hole is located on a sliding path of the sampling tube.

Through adopting above-mentioned technical scheme, accomplish the back at the sample film-making, when needing to pull down the disposable straw on the sampling tube, only need make the sampling tube shift up for disposable straw supports locates the opening border that breaks away from the hole on breaking away from the board, supports the relative sampling tube of disposable straw and falls, further optimizes the efficiency of film-making, optimizes the result of use.

Optionally, at least one mounting opening is formed in the slide rack tray, a glass carrying rack for placing slides is arranged in the mounting opening, and a uniformly mixing mechanism for uniformly distributing samples on the slides is arranged in the mounting opening.

Through adopting above-mentioned technical scheme, the slide is placed on glass slide rack, after with sample dropwise add to the slide, through mixing mechanism with the sample equipartition on the slide to can optimize the quality of film-making when optimizing film-making efficiency.

Optionally, the blending mechanism includes a loading plate rotatably arranged in the mounting opening and a blending driving part for driving the loading plate to rotate forward and backward, and the glass-carrying frame is fixedly connected to the upper plate surface of the loading plate.

Through adopting above-mentioned technical scheme, when needs are the mixing to the slide, only need through mixing driving piece drive loading board just reversal to be used for making the sample equipartition in slide.

Optionally, the slide rack tray is fixedly connected with a recycling box located below the slide rack tray, the recycling box is provided with an upper opening, the projection of the mounting opening is located in the opening of the recycling box, and the recycling box is provided with a liquid discharge pipe for discharging liquid.

Through adopting above-mentioned technical scheme, when needing the clearance after the film making is accomplished, only need to make the loading board slope for waste liquid on year glass rack and the loading board flows into to the collection box, and discharge into to the dedicated pipeline through the fluid-discharge tube can.

Optionally, the mixing driving part includes mixing motor, two mixing pulleys of fixed connection in slide frame dish and the mixing belt of two mixing pulleys is located to the cover, one of them coaxial fixed connection of mixing pulley in the output shaft of mixing motor, another mixing pulley fixed connection is in the loading board.

Through adopting above-mentioned technical scheme, when doing the mixing to the slide, only need the mixing motor to rotate through mixing band pulley and mixing belt, can drive the loading board and just reverse to do the mixing to the sample on the slide.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when needs film-making, only need through the relative position of the relative slide frame dish of gantry mechanism control sampling mechanism to make sampling mechanism can take a sample in the sample district, then instil into the sample through sampling mechanism and place the slide on slide frame dish and can accomplish the film-making, with the artifical intervention that connects of reduction film-making in-process, optimize the efficiency of film-making.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

FIG. 2 is a schematic diagram of a slide holder tray and a blending mechanism according to an embodiment of the present disclosure.

Figure 3 is an exploded view of the slide rack tray and the homogenizing mechanism according to the embodiment of the present application.

FIG. 4 is a schematic cross-sectional structural diagram of a sample holder according to an embodiment of the present application.

FIG. 5 is a schematic cross-sectional view of a blending mechanism and a slide rack according to an embodiment of the present application.

FIG. 6 is a schematic view of a partially assembled configuration of a slide rack mounted slide magazine according to an embodiment of the present application.

Fig. 7 is an enlarged schematic view of a portion a of fig. 3.

Fig. 8 is a schematic structural diagram of a gantry mechanism according to an embodiment of the present application.

Fig. 9 is an enlarged schematic view of a portion B of fig. 9.

FIG. 10 is a cross-sectional structural schematic view of a Y-axis slide of an embodiment of the present application.

FIG. 11 is a schematic structural diagram of a sampling mechanism according to an embodiment of the present application.

Fig. 12 is an enlarged schematic view of a portion C in fig. 11.

Description of reference numerals: 1. a slide rack tray; 11. a sample area; 111. a sample placement port; 112. a sample box; 12. an installation port; 13. a straw recovery box; 14. a recycling bin; 141. a liquid discharge pipe; 15. a sample holder; 151. a sample well; 152. an upper frame body; 153. a lower frame body; 154. a groove; 16. a pipette rack; 2. a sampling mechanism; 21. a sampling seat; 211. a disengagement plate; 212. a release hole; 213. a cover plate; 22. a sampling tube; 23. a sampling drive member; 231. a sampling motor; 232. a sampling belt wheel; 233. a sampling belt; 24. dyeing a tube; 241. dyeing the sleeve; 242. a dyeing liquor pipe; 243. a standby pipe; 244. an output section; 245. an output pipe; 25. a connecting member; 251. a clamping port; 252. fastening a bolt; 253. a fixing plate; 3. a gantry mechanism; 31. an X-axis slide; 32. a Y-axis slide; 321. a Y-axis sliding seat; 322. a Y-axis slide rail; 323. a Y-axis pulley; 324. a Y-axis belt; 325. a Y-axis sliding table; 326. a Y-axis chute; 33. a Y-axis drive member; 331. a Y-axis motor; 332. a Y-axis drive shaft; 34. an X-axis drive member; 4. a blending mechanism; 41. a carrier plate; 411. a rotating seat; 412. a pin shaft; 413. a bearing rotating seat; 414. connecting the rotating seat; 42. a blending drive; 421. a mixing motor; 422. blending belt wheel; 423. uniformly mixing the leather belt; 5. a chassis; 51. a top cover; 52. a front door; 6. a glass carrier; 61. a slide groove; 62. a limiting hole; 621. an upper limiting port; 622. a lower limiting hole.

Detailed Description

The present application is described in further detail below with reference to figures 1-10.

The embodiment of the application discloses a drop dyeing and piece dyeing all-in-one machine capable of being directly wet-sealed. Referring to fig. 1 and 2, the slide preparation and dyeing all-in-one machine comprises a case 5, a slide rack tray 1 for placing slides, a sampling mechanism 2 for sampling slide preparation, and a gantry mechanism 3 for controlling the position of the sampling mechanism 2 relative to the slide rack tray 1. Wherein, the gantry mechanism 3 is fixed on the inner wall of the case 5, and the sampling mechanism 2 and the gantry mechanism 3 are both positioned above the slide frame disc 1.

The case 5 is of a side opening and upper opening structure, the upper opening of the case 5 is covered with a top cover 51, and the side opening of the case 5 is covered with a front door 52. The sampling mechanism 2 is arranged above the slide frame disc 1 through a gantry mechanism 3. The gantry mechanism 3 can also be fixedly connected to a bracket arranged on the slide frame disc 1, so that the gantry mechanism 3 is fixedly installed on the slide frame disc 1, and the slide frame disc 1 is divided into sample areas 11 for placing sample tubes.

When the film-making, place the sample in sample district 11 in advance, then close qianmen 52, sampling mechanism 2 takes a sample to the sample intraductal in sample district 11 under gantry mechanism 3's control, and after the sample was accomplished, gantry mechanism 3 control sampling mechanism 2 resets to film-making is carried out through the sedimentation method, reduce artifical intervention to the film-making process, thereby efficiency when optimizing the film-making.

Referring to fig. 2 and 3, the sample area 11 has a plurality of sample placing openings 111 formed in the slide tray 1, a sample box 112 for placing sample tubes is fixedly connected in the sample placing openings 111, and a sample holder 15 for positioning the sample tubes is placed in the sample box 112.

Referring to fig. 3 and 4, the sample holder 15 is formed with a plurality of vertically extending sample holes 151, the sample holes 151 are stepped holes, and the upper portion thereof is a small end, the sample holder 15 includes an upper holder body 152 and a lower holder body 153 which are vertically distributed, and the upper holder body 152 and the lower holder body 153 are fixedly connected by bolts or the like. The groove 154 is opened on the outer wall of the lower end of the upper frame body 152 for filling damping layers such as a silica gel layer and a rubber layer, and the sample tube is arranged through the damping layers, so that the possibility that the sample tube is separated from the sample frame 15 when the liquid is poured is reduced.

The upper end of sample hole 151 is located upper frame body 152 to can be when preventing that the relative sample frame 15 of sample cell breaks away from, the damping layer can produce deformation in the major diameter portion of sample hole 151, with the effect that produces the damping to the sample cell, thereby can provide sufficient elastic deformation's space for the damping layer, optimize damping effect.

Referring to FIGS. 2 and 3, the sample zone 11 is further provided with at least one pipette rack 16 for holding disposable pipettes, in the embodiment of the present application, one pipette rack 16 is provided, and the pipette rack 16 is provided in the middle of the sample zone 11, although in other embodiments, the pipette rack 16 may be provided in a plurality of other positions. A plurality of straw holes for placing disposable straws are formed in the straw rack 16, and the straw holes vertically extend and have a lower end wind sealing structure for placing the disposable straws.

The slide rack tray 1 is provided with at least one mounting opening 12 at one side of the sample area 11 which is open towards the side of the case 5, two mounting openings 12 are provided in the embodiment, and one or more mounting openings 12 can be provided in other embodiments. A glass carrying frame 6 for placing a slide is arranged in the mounting port 12, a uniformly mixing mechanism 4 for uniformly distributing a sample on the slide is arranged in the mounting port 12, and the glass carrying frame 6 is fixedly arranged at a uniformly mixing end of the uniformly mixing mechanism 4.

Referring to fig. 2 and 3, in addition, since the sampling mechanism 2 sucks a sample through a disposable pipette, a pipette recovery box 13 for recovering the disposable pipette is fixedly connected to a side of the slide rack tray 1 facing the side opening of the case 5 for recovering the disposable pipette.

Referring to fig. 2 and 3, the blending mechanism 4 includes a bearing plate 41 rotatably connected to the edge of the opening of the mounting opening 12 and a blending driving member 42 for driving the bearing plate 41 to rotate forward and backward, the rotating plane of the bearing plate 41 is vertically arranged, and the glass carrier 6 is fixedly connected to the upper plate surface of the bearing plate 41 through bolts and the like. The axis of the bearing plate 41 is located below the bearing plate 41, so that the bearing plate 41 can swing at each position when rotating, and the uniform mixing effect is achieved.

Referring to fig. 3 and 5, the bearing plate 41 is fixedly connected with rotating seats 411 at both ends along the rotation central axis thereof, a pin shaft 412 is respectively disposed at a side of the same bearing plate 41 away from the two rotating seats 411, and the pin shaft 412 is inserted toward one end portion of the connected rotating seats 411 and is fixedly connected to the rotating seats 411 by a plurality of bolts.

One of the pins 412 connected to the same carrier plate 41 is rotatably provided with a bearing rotary base 413 through a bearing, and the bearing rotary base 413 is fixedly connected to the slide frame tray 1 through a bolt. And the pin shaft 412 is inserted into the bearing rotating seat 413. The other pin 412 connected to the same carrier plate 41 is fixedly connected to the rotation output end of the mixing drive member 42. Wherein, the upper end of the bearing rotating seat 413 is inserted into the slide rack tray 1.

In use, the mixing driving member 42 rotates via the pin 412, and the bearing rotating seat 413 drives the bearing plate 41 to rotate. In addition, the central axis of rotation of the bearing plate 41 during rotation is located below the bearing plate 41, so that each part of the bearing plate 41 can perform a certain tilting action or shake during rotation, and the glass slides of each part of the bearing plate 41 can be uniformly mixed relatively, thereby optimizing the effect of uniform mixing.

Referring to fig. 3 and 4, the blending driving member 42 includes a blending motor 421 fixedly connected to the lower plate surface of the slide rack tray 1, two blending pulleys 422, and a blending belt 423 sleeved on the two blending pulleys 422. One of the blending belt wheels 422 is coaxially and fixedly connected to an output shaft of the blending motor 421, that is, the blending belt wheel 422 connected with the output shaft of the blending motor 421 is coaxial with the central axis; the other mixing pulley 422 is fixedly connected to the pin 412 of the loading plate 41 at the end away from the bearing rotating base 413, and the pin 412 connected with the mixing pulley 422 is rotatably connected to the slide rack tray 1. The kneading motor 421 is preferably a forward/reverse rotation motor or a servo motor.

When the samples or the dye solution on the slide need to be uniformly mixed, the loading plate 41 is driven to rotate forward and backward only by the uniformly mixing motor 421 through the uniformly mixing belt wheel 422 and the uniformly mixing belt 423, so that the samples or the dye solution in the slide making bin can be uniformly distributed on the slide, and the slide making quality can be optimized; meanwhile, when the waste liquid is cleaned, the waste liquid flows into the recovery tank 14 by driving the bearing plate 41 to incline, so that the use effect is optimized.

In addition, the blending driving member 42 can also be a chain and chain wheel assembly, so that one chain wheel is coaxially and fixedly connected with the output shaft of the blending motor 421, and the other chain wheel is fixedly connected with the bearing plate 41; the blending driving member 42 can also directly select a motor, so that the output shaft of the motor is fixedly connected with the bearing plate 41.

Referring to fig. 3 and 4, a recovery box 14 for receiving waste liquid is fixedly connected to the lower part of the slide rack tray 1, the recovery box 14 is provided with an upper opening, and the vertical projection of the plurality of mounting ports 12 is positioned in the opening of the recovery box 14. The bottom fixedly connected with of collection box 14 rather than the fluid-discharge tube 141 of inside intercommunication, fluid-discharge tube 141 can communicate in outside waste liquid collection pipeline when using to after being used for the film-making to accomplish, loading board 41 rotates the slope under the drive of mixing driving piece 42, with the leading-in to collection box 14 of waste liquid in, the clearance recovery of waste liquid is more convenient relatively.

The recycling tank 14 is a tank body with a semicircular cross section, so that the volume of the recycling tank 14 can be reduced, meanwhile, the space required by the rotation of the bearing plate 41 can be adapted, waste liquid can be relatively easily concentrated at the position of the liquid discharge pipe 141 under the action of gravity, the waste liquid accumulated in the recycling tank 14 is reduced, and the using effect is optimized.

The pin shaft 412 connected to the blending pulley 422 is sleeved with a connecting rotary seat 414, the connecting rotary seat 414 can be rotatably connected to the pin shaft 412 through a bearing, and the connecting rotary seat 414 is fixedly connected to the recovery box 14, so that the pin shaft 412 connected to the blending pulley 422 is rotatably connected to the slide frame tray 1 through the recovery box 14 and the connecting rotary seat 414.

Referring to fig. 6 and 7, the glass slide rack 6 has a plate-like structure, and the glass slide rack 6 has a plurality of slide grooves 61 for placing slides on the outer wall facing the sampling mechanism 2, and the slide grooves 61 are arranged to have an upper opening and a side opening. A plurality of slide grooves 61 divide into two sets ofly, and a plurality of slide grooves 61 of the same group distribute along its side open direction of perpendicular to, and the side open opposite direction of two sets of slide grooves 61 sets up to in the film-making completion back, do the clearance to the remaining liquid in slide grooves 61.

Spacing hole 62 has been seted up respectively along the both sides wall of its side opening direction in slide groove 61, and spacing hole 62 includes spacing mouth 621 and spacing hole 622 down. Go up spacing mouth 621 and be horizontal opening and its opening towards the slide groove 61 of intercommunication, go up spacing mouth 621 and spacing hole 622 intercommunication and the central axis of both is parallel to each other down, the central axis of going up spacing mouth 621 and spacing hole 622 is dislocation set down, and the projection part of spacing hole 622 is located its projection that is located slide groove 61 down, so that after installing the slide in slide groove 61, the fixed system piece storehouse of accessible trip is gone over from last spacing mouth 621 to spacing hole 622 down in, thereby restrict the trip of system piece storehouse when the trip is fixed through the transition surface between last spacing mouth 621 and the spacing hole 622 down, be fixed in the slide groove through system piece storehouse with the slide.

Referring to fig. 8 and 9, the gantry mechanism 3 includes at least one X-axis sliding member 31 and at least one Y-axis sliding member 32, and the X-axis sliding member 31 and the Y-axis sliding member 32 are both provided with sliding ends, and in this embodiment, one X-axis sliding member 31 and two Y-axis sliding members 32 are adopted.

Referring to fig. 9 and 10, the Y-axis sliding member 32 includes a Y-axis sliding seat 321, a Y-axis sliding rail 322, two Y-axis pulleys 323, and a Y-axis belt 324 sleeved on the two Y-axis pulleys 323, the Y-axis sliding rail 322 is fixedly connected to the Y-axis sliding seat 321, the two Y-axis pulleys 323 are both rotatably connected to the Y-axis sliding seat 321, and in addition, in other embodiments, the Y-axis pulleys 323 can also be rotatably connected to the Y-axis sliding rail 322. The Y-axis sliding seat 321 is parallel to the Y-axis sliding rail 322, and the two Y-axis pulleys 323 are respectively located at two end portions of the Y-axis sliding rail 322. Wherein, the Y-axis slide rail 322 is connected with a Y-axis sliding table 325 in a sliding manner, and the sliding end of the Y-axis sliding piece 32 is the Y-axis sliding table 325.

In addition, the lower part of the Y-axis slide rail 322 is provided with a Y-axis slide groove 326, the lower belt surface of the Y-axis belt 324 is positioned in the Y-axis slide groove 326, and the Y-axis sliding table 325 is fixedly connected to the upper belt surface of the Y-axis belt 324, so that the Y-axis slide rail 322 is positioned between the two belt surfaces of the Y-axis belt 324, and the space required by installation is reduced.

Referring to fig. 8 and 9, the two Y-axis sliding seats 321 are parallel to each other and are both horizontally disposed, the Y-axis sliding seats 321 are fixedly connected to the inner wall of the chassis 5, and the length direction of the Y-axis sliding seats 321 is parallel to the side opening direction of the chassis 5. The Y-axis sliding base 321 is provided with a Y-axis driving member 33 for driving the Y-axis pulleys 323 on the two Y-axis sliding members 32 to rotate. Wherein, X axle sliding piece 31 fixed connection is in two Y axle slip tables 325, and sampling mechanism 2 fixed connection is in the end that slides of X axle sliding piece 31.

The Y-axis driving member 33 includes a Y-axis motor 331 fixedly connected to one of the Y-axis sliding seats 321, and a Y-axis driving shaft 332 coaxially and fixedly connected to the Y-axis motor 331. One Y-axis pulley 323 in the Y-axis slide 32 is coaxially and fixedly connected to the Y-axis drive shaft 332, i.e., two Y-axis pulleys 323 are fixedly connected to the Y-axis drive shaft 332.

Referring to fig. 8 and 9, the X-axis sliding member 31 and the Y-axis sliding member 32 have the same structure, and two ends of the X-axis sliding seat of the X-axis sliding member 31 are respectively and fixedly connected to the Y-axis sliding table 325, so as to sufficiently support the X-axis sliding member 31 and optimize the stability of use. The X-axis sliding seat of the X-axis sliding member 31 is provided with an X-axis driving member 34, the X-axis driving member 34 is a motor, an output shaft of the motor is coaxially and fixedly connected to an X-axis belt wheel of the X-axis sliding member 31, and the sliding end of the X-axis sliding member 31 is an X-axis sliding table. Wherein, the control end of the gantry mechanism 3 is an X-axis sliding table of the X-axis sliding piece 31.

When the position of the sampling mechanism 2 relative to the slide frame disc 1 needs to be adjusted, the Y-axis motor 331 only needs to rotate forwards or reversely, and the Y-axis driving shaft 332 drives the two Y-axis belt wheels 323 respectively belonging to the two Y-axis sliding pieces 32 to rotate, so as to drive the Y-axis belt 324 to rotate and drive the two Y-axis sliding tables 325 to slide, so as to change the position of the X-axis sliding piece 31 relative to the slide frame disc 1; make X axle driving piece 34 corotation or reversal simultaneously, and drive the rotation of X axle belt through X axle band pulley, can drive X axle slip table and slide, thereby cooperation Y axle slip piece changes the relative position of 2 relative slide frame dishes 1 of sampling mechanism, in order to reach earlier and use disposable straw in straw frame 16, then remove to sample district 11 internal suction sample, at last again with the interior sample dropwise add of disposable straw to the slide in slide groove 61 can, wholly do not need manual intervention, can effectual further optimize the efficiency of film-making.

In addition, the X-axis sliding member 31 and the Y-axis sliding member 32 may be linear motors or linear sliding tables.

Referring to fig. 11 and 12, the sampling mechanism 2 includes a sampling seat 21 and a sampling tube 22 for sampling, wherein the sampling tube 22 is used for inserting a disposable pipette for sampling. The sampling seat 21 is in an L-shaped plate structure, the horizontal part of the sampling seat is erected and fixed on the X-axis sliding table, and the vertical part of the sampling seat 21 vertically extends downwards; the sampling tube 22 is used for inserting disposable straws placed in the straw holes of the straw rack 16.

Referring to fig. 8, a cover plate 213 for protection is further fixedly connected to the sample holder 21 to protect the dye tube 242 and the sampling tube 22. The cover plate 213 is a U-shaped folded plate structure, and the U forms a horizontal opening, the sampling seat 21 and the sampling tube 22 are both located between the two side plates of the cover plate 213, and the sampling seat 21 is fixedly connected to the inner walls of the two side plates of the cover plate 213 for protection.

Referring to fig. 11 and 12, a sampling driving member 23 for driving the sampling tube 22 to slide vertically is fixedly connected to the sampling seat 21. The sampling driving member 23 includes a sampling motor 231 fixedly connected to the sampling seat 21, two sampling belt wheels 232 vertically distributed, and a sampling belt 233 sleeved on the two sampling belt wheels 232. One of the sampling belt wheels 232 is rotatably connected to the sampling seat 21, and the other sampling belt wheel 232 is coaxially and fixedly connected to an output shaft of the sampling motor 231. Wherein, the rotation plane of the sampling belt wheel 232 is parallel to the plate surface of the sampling seat 21.

Referring to fig. 9 and 10, both vertical portions of the sampling belt 233 are provided with connectors 25, one of the connectors 25 is used to connect the sampling tube 22, and the other connector 25 is provided with a dyeing tube 24 for dropping a dye solution, so that the sampling tube 22 and the dyeing tube 24 are fixedly connected to the sampling belt 233 through different connectors 25, respectively.

The connecting member 25 is a U-shaped folded plate structure, the opening direction of the connecting member 25 is perpendicular to the surface of the sampling seat 21, the two side plates of the connecting member 25 are horizontally arranged, and the connecting member 25 is slidably connected to the sampling seat 21 through a slide rail fixed to the sampling seat 21. The connecting piece 25 is towards one side of the centre of the sampling belt 233 and is fixedly connected with a fixing plate 253 through a bolt, and the vertical part of the sampling belt 233 is clamped between the fixing plates 253 connected with the connecting piece 25 and the connecting piece 25, so that the connecting piece 25 and the sampling belt 233 are fixedly connected and can be conveniently disassembled and assembled.

The two side plates of the connecting piece 25 are both provided with a clamping opening 251 for clamping the sampling tube 22, the side part of the clamping opening 251 is provided with a connecting seam which is provided with an opening, so that the profile of the clamping opening 251 is T-shaped, the horizontal part of the clamping opening 251 is circular, and the clamping opening 251 is provided with a T-shaped vertical part opening. The sampling tube 22 is inserted through the two horizontal portions of the holding openings 251T of one of the connecting members 25, and the dyeing tube 24 is inserted through the two horizontal portions of the holding openings 251T of the other connecting member 25.

Referring to fig. 9 and 10, a fastening bolt 252 is penetrated through a vertical portion of the T-shape of the clamping port 251 for fastening the clamping port 251 and clamping the sampling tube 22 and the dyeing tube 24, and the stability of clamping the sampling tube 22 and the dyeing tube 24 can be effectively optimized. So that the sampling tube 22 and the dyeing tube 24 are slidably connected to the sampling seat 21 and fixed to the sampling belt 233 by means of different connectors 25. In use, the dye tube 24 is connected to a dye solution source, and the dye solution can be pumped into the dye tube 24 by, for example, a diaphragm pump.

Meanwhile, in order to facilitate the removal of the disposable pipette on the sampling tube 22, a release plate 211 is fixedly connected to the sampling seat 21 for assisting the removal of the disposable pipette. The detachment plate 211 is preferably fixedly connected to the lower end of the sampling seat 21, and the detachment plate 211 is horizontally disposed. The separation plate 211 is provided with at least one separation hole 212 with a diameter smaller than that of the disposable pipette, two separation holes 212 are provided in the embodiment, and the sampling tube 22 and the dyeing tube 24 are respectively inserted into the two separation holes 212.

When the disposable pipette needs to be detached from the sampling tube 22, the sampling tube 22 is moved upwards only under the driving of the sampling driving member 23, and the disposable pipette is abutted to the opening edge of the detachment hole 212, so that the disposable pipette can be shifted relative to the sampling tube 22 and detached from the sampling tube 22, and the convenience of use is further optimized.

Referring to fig. 9 and 10, in order to drop the dye solution on the slide glass relatively uniformly through the dyeing tube 24 and reduce the direct drop of the dye solution on the slide glass, the dyeing tube 24 includes a dyeing sleeve 241 and a plurality of dye solution tubes 242 for transferring the dye solution, and the dyeing sleeve 241 is held in the holding opening 251. The plurality of dye tubes 242 are disposed around a central axis of the dyeing sleeve 241, and the dye tubes 242 are disposed inside the dyeing sleeve 241 and fixedly connected to each other.

The lower end of the dyeing tube 242 is folded towards the direction far away from the central axis of the dyeing sleeve 241 to form an output part 244, the output port of the output part 244 is fixedly connected and communicated with an output tube 245 in an S-shaped structure, the lower end of the output tube 245 is arranged obliquely downwards, the lower end opening direction of the output tube 245 is arranged towards the direction far away from the central axis of the dyeing sleeve 241, and therefore the lower end opening direction of the dyeing tube 242 faces towards the direction far away from the central axis of the dyeing sleeve 241. Make when dropwise add the dye liquor, the dye liquor can drip the inner wall of locating the system slide storehouse and flow in to the slide, reduces the direct dropwise add possibility to the slide of dye liquor, can also do certain slow speed to the dye liquor that will flow out simultaneously through output portion 244 and output tube 245, reduces the possibility that the dye liquor sputters, optimizes the stability of using.

The multiple dyeing liquid tubes 242 are further fixedly connected with a standby tube 243 parallel to the multiple dyeing liquid tubes 242 towards one side of the central axis of the dyeing sleeve 241, so that the multiple dyeing liquid tubes 242 can be supported, and meanwhile, other dyeing liquids except the dyeing liquid can be dripped to be reserved for standby.

The implementation principle of the drop dyeing and sheet making dyeing all-in-one machine capable of being directly wet-sealed is as follows: when the slide is produced, the position of the sampling mechanism 2 relative to the slide rack tray 1 is adjusted through the X-axis sliding piece 31 and the Y-axis sliding piece 32, the sampling tube 22 is driven by the sampling driving piece 23 to insert and take the disposable suction tube, the sample is sucked in the sample area 11 after being moved to the position of the corresponding slide producing bin on the bearing plate 41, and the sample is dripped into the sample producing bin and is uniformly mixed through the uniformly mixing mechanism 4; meanwhile, the sampling mechanism 2 moves to the upper part of the straw recycling box 13 under the action of the gantry mechanism 3, the sampling tube 22 moves upwards, and the disposable straws are separated by the separation plate 211 and fall into the straw recycling box 13; finally, after the samples are uniformly distributed on the slide, the sampling mechanism 2 is positioned above the slide making bin again under the action of the gantry mechanism 3, and the dye solution is dripped through the dye solution pipe 242 to complete slide making and dyeing, so that the efficiency of the slide making is effectively optimized, and the error caused by manual operation is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a can be directly wet the drop dyeing system piece dyeing all-in-one who seals which characterized in that: including slide frame dish (1) that is used for placing the slide, sampling mechanism (2) that are used for the sample and be used for controlling portal mechanism (3) of the relative slide frame dish (1) position of sampling mechanism (2), slide frame dish (1) is provided with sample district (11) that are used for placing the sample, the top in slide frame dish (1) is fixed in the installation of portal mechanism (3), sampling mechanism (2) fixed connection is in the control end of portal mechanism (3).

2. The direct wet sealable drop-on-dye and pad-dyeing machine of claim 1, wherein: gantry mechanism (3) include that at least one X axle slides (31) and at least one Y axle slides (32), X axle slides (31) and Y axle slides (32) and all is provided with the end of sliding and both set up in slide rack dish (1) top, Y axle slides (32) fixed connection in slide rack dish (1), X axle slides (31) fixed connection in the end of sliding of Y axle slides (32), sampling mechanism (2) fixed connection is in the end of sliding of X axle slides (31).

3. A direct wet sealable drop-on-pad dyeing machine according to any of claims 1 or 2, wherein: sampling mechanism (2) including connecting in sample seat (21) of planer-type mechanism (3) control end and sampling tube (22) that is used for the sample, vertical sliding connection in sample seat (21) of sampling tube (22), sample seat (21) fixedly connected with sample driving piece (23), sample belt (233) of two sample belt pulleys (232) are located including sample motor (231), two vertical distribution's sample belt pulley (232) and the cover of fixed connection in sample seat (21), the coaxial fixed connection in one of them sample belt pulley (232) of output shaft of sample motor (231), sampling tube (22) are connected in the vertical portion of sample belt (233).

4. A direct wet sealable drop-on-dye system dyeing machine as claimed in claim 3, wherein: one side that sampling belt (233) kept away from sampling tube (22) still is provided with dyeing pipe (24) that are used for the dropwise add dye liquor, vertical sliding connection in sample seat (21) of dyeing pipe (24), dyeing pipe (24) fixed connection is in another vertical portion of sampling belt (233).

5. The direct wet sealable drop-dyeing and sheet-making machine according to claim 4, wherein: dye tube (24) including dyeing sleeve pipe (241) and a plurality of dye liquor pipe (242) that are used for transmitting the dye liquor, dye sleeve pipe (241) vertical slip connect in sample seat (21), a plurality of dye liquor pipe (242) encircle the central axis setting of dyeing sleeve pipe (241), dye liquor pipe (242) set up in the inside of dyeing sleeve pipe (241), dye the lower extreme opening orientation of liquid pipe (242) and keep away from the direction at dyeing sleeve pipe (241) center.

6. A direct wet sealable drop-on-dye system dyeing machine as claimed in claim 3, wherein: the sampling seat (21) is fixedly connected with a separation plate (211), at least one separation hole (212) with the diameter smaller than that of the disposable pipette is formed in the separation plate (211), and the separation hole (212) is located on the sliding path of the sampling tube (22).

7. A direct wet sealable drop-on-dye system dyeing machine as claimed in claim 2, wherein: at least one mounting opening (12) has been seted up in slide frame dish (1), be provided with glass carrier (6) that are used for placing the slide in mounting opening (12), be provided with in mounting opening (12) and be used for the even mixing mechanism (4) of sample equipartition in slide.

8. A direct wet sealable drop-on-dye system dyeing machine as claimed in claim 7, wherein: mixing mechanism (4) are including rotating loading board (41) that sets up in installing port (12) and drive mixing driving piece (42) that loading board (41) just reverse, carry glass rack (6) fixed connection in the last face of loading board (41).

9. A direct wet sealable drop-on-dye system dyeing machine as claimed in claim 8, wherein: the glass slide frame tray (1) is fixedly connected with a recovery box (14) located below the glass slide frame tray, the recovery box (14) is provided with an upper opening, the projection of the mounting opening (12) is located in the opening of the recovery box (14), and the recovery box (14) is provided with a liquid discharge pipe (141) for discharging liquid.

10. A direct wet sealable drop-on-pad dyeing machine according to any of claims 8 or 9, wherein: mixing driving piece (42) are including mixing motor (421), two mixing band pulley (422) and the mixing belt (423) of two mixing band pulley (422) of cover locating of fixed connection in slide frame dish (1), one of them mixing band pulley (422) coaxial fixed connection is in the output shaft of mixing motor (421), another mixing band pulley (422) fixed connection is in loading board (41).

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