CN115524194A

CN115524194A - Full-automatic dyeing machine capable of quickly preparing slices

Info

Publication number: CN115524194A
Application number: CN202211162902.6A
Authority: CN
Inventors: 徐光辉; 邓赟; 汪繁荣
Original assignee: Hubei Xingsheng Electrical Equipment Research Institute Co ltd
Current assignee: Hubei Xingsheng Electrical Equipment Research Institute Co ltd
Priority date: 2022-09-23
Filing date: 2022-09-23
Publication date: 2022-12-27
Anticipated expiration: 2042-09-23
Also published as: CN115524194B

Abstract

The invention discloses a full-automatic rapid slide-making dyeing machine, which comprises a slide-making dyeing machine frame assembly, wherein a slide placing table assembly is rotatably arranged on the slide-making dyeing machine frame assembly, the slide placing table assembly forms a synchronous pressing placing table structure of a plurality of slides, the slide placing table assembly forms a toggle type transposition table structure on the slide-making dyeing machine frame assembly, a plurality of U-shaped placing tables are fixedly arranged on the edge table at the top of each placing table, a slide pressing plate at the front end of a rotating shaft tube props against and presses against the table body of the U-shaped placing table through an edge table, the slides prop against and press between the slide pressing plate and the U-shaped placing table and are placed on the U-shaped placing table, the dissociated biological tissue is placed on the U-shaped placing table facing a central identification point, a dyeing drip nozzle or a cleaning drip nozzle faces the center of the central identification point, and continuous actions of dyeing, clean water absorption, clean water dilution and clean water absorption are realized in the transposition process.

Description

Full-automatic dyeing machine capable of quickly preparing slices

Technical Field

The invention belongs to the technical field of dyeing and sheet making, and particularly relates to a full-automatic rapid sheet making and dyeing machine.

Background

Biological slide is a fundamental method for studying the microstructure of a biological organism, and the purpose is to provide a method for effectively observing and studying the morphology and functions of a moderate sample under a microscope.

The prior art has the following problems: the process of the existing dyeing and sheet-making is roughly as follows, a biological tissue sample which is soaked and dissociated is placed on a glass slide, then a dyeing agent is dripped, the process needs to absorb the dyeing agent, dilute clear water and absorb clear water, if the process is artificial, the process is more complicated and troublesome, although the operation difficulty is not large, when a plurality of groups of glass slides are subjected to dyeing and sheet-making simultaneously, the process is more complicated and troublesome, the sheet-making dyeing efficiency is greatly reduced, and therefore a full-automatic quick sheet-making dyeing machine is urgently needed to solve the problems.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a full-automatic rapid slice-making dyeing machine which has the characteristics of convenience in slice-making dyeing and operation.

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic rapid slide-making dyeing machine comprises a slide-making dyeing machine frame assembly, wherein a slide placing table assembly is rotatably arranged on the slide-making dyeing machine frame assembly, the slide placing table assembly forms a synchronous pressing placing table structure of a plurality of slides, and the slide placing table assembly forms a poking type transposition table structure on the slide-making dyeing machine frame assembly;

the assembly of slice-making and dyeing machine frame includes slice-making and dyeing base frame, the fixed L type frame plate that is provided with in slice-making and dyeing base frame top, be provided with toggle motor on the L type frame plate, be provided with the toggle wheel on toggle motor's the output shaft, the fixed toggle arm that is provided with in the toggle wheel, the toggle arm end fixing is provided with the toggle rod, slice-making and dyeing base frame edge fixing is provided with first U type frame, second U type frame, third U type frame and fourth U type frame, be provided with dyeing drip mouth and clear water drip mouth in first U type frame and the third U type frame respectively, and first U type frame and third U type frame top all are provided with the drip ware, second U type frame and fourth U type frame top are provided with telescopic cylinder and imbibition pump, the telescopic cylinder bottom is provided with the dustcoat pipe, the dustcoat pipe inboard is provided with sponge inside lining ring pad.

Preferably, the glass slide placing table component comprises a placing table, a supporting shaft rod is fixedly arranged at the bottom of the placing table, a transposition bottom table is fixedly arranged at the bottom of the supporting shaft rod, a plurality of limiting arc grooves and a plurality of stirring sliding grooves are formed in the transposition bottom table, a plurality of U-shaped placing tables are fixedly arranged on the edge table body at the top of the placing table through edge table platforms, a central identification point is arranged on each U-shaped placing table, a plurality of glass slide pressing plates are arranged on the top table body of the placing table through rotation of the rotating shaft rod and rotation of a rotating shaft tube, pressing plates are fixedly arranged at the rear end of the rotating shaft tube, and a top pressing spring is arranged between each pressing plate and the placing table.

Preferably, the support shaft rod is rotatably connected with the L-shaped frame plate through a bearing seat, the placing table is located above the L-shaped frame plate, and the transposition base table is located below the L-shaped frame plate.

Preferably, the poking wheel rotates in a limiting arc groove in a limiting mode, the poking rod on the poking arm pokes the transposition bottom platform through the poking sliding groove, and the limiting arc groove and the poking sliding groove are distributed on the transposition bottom platform at intervals.

Preferably, through the pushing of the pushing spring, the slide pressing plate at the front end of the rotating shaft tube abuts against and is pressed against the table body of the U-shaped placing table, and the slide abuts against and is pressed between the slide pressing plate and the U-shaped placing table.

Preferably, the slide glass is placed on the U-shaped placing table, the dissociated biological tissue is placed on the U-shaped placing table opposite to the central identification point, and the staining drip nozzle or the clear drip nozzle is opposite to the center of the central identification point.

Preferably, when the platform was placed to the U type shifted dyeing dropping liquid mouth below, dyeing dropping liquid mouth formed the dyeing dropping liquid structure to the slide glass, when the platform was placed to the clear water dropping liquid mouth below to the U type, clear water dropping liquid mouth formed the dilution dropping liquid structure to the slide glass, inside lining sponge ring pad on the second U type frame formed the absorbent structure of dyeing liquor, inside lining sponge ring pad on the fourth U type frame formed the absorbent structure of diluting clear water.

Preferably, through the flexible action of telescopic cylinder, inside lining sponge ring pad forms the upper and lower action structure of contact slide glass, the imbibition pump passes through the pipeline and is connected with inside lining sponge ring pad, through the suction of imbibition pump for inside lining sponge ring pad keeps the imbibition structure all the time.

Compared with the prior art, the invention has the beneficial effects that: when the invention is used, the edge stand body at the top of the placing stand is fixedly provided with a plurality of U-shaped placing stands through the edge stand platform, the slide glass pressing plate at the front end of the rotating shaft tube is abutted and pressed against the stand body of the U-shaped placing stand through the pushing of the pushing spring, the slide glass is abutted and pressed between the slide glass pressing plate and the U-shaped placing stand, when the slide glass is placed, the slide glass is placed on the U-shaped placing stand, the dissociated biological tissue is placed on the U-shaped placing stand which is over against the central identification point, because the dyeing dropping nozzle or the clean dropping nozzle is over against the center of the central identification point, the dyeing agent and the clean water which are dropped out by the dropping nozzle can be ensured to be over-directed to the biological tissue for dyeing and diluting the dyeing agent by the dyeing dropping, when the U-shaped placing stand is shifted to the lower part of the dyeing dropping nozzle, the dyeing dropping nozzle forms a dyeing dropping structure to the slide glass, and when the U-shaped placing stand is shifted to the lower part of the clean dropping nozzle, the clear water dropping nozzle forms a dilution dropping liquid structure for the glass slide, the lining sponge ring pad on the second U-shaped frame forms an absorption structure for dyeing liquid, the lining sponge ring pad on the fourth U-shaped frame forms an absorption structure for diluting clear water, the lining sponge ring pad forms an up-and-down action structure contacting the glass slide through the telescopic action of the telescopic cylinder, the liquid suction pump is connected with the lining sponge ring pad through a pipeline, the lining sponge ring pad always keeps a liquid suction structure through the suction of the liquid suction pump, through the mode, the continuous actions of dyeing, dyeing agent absorption, clear water dilution and clear water absorption are realized in the transposition process, the poking wheel rotates in the limit arc groove in a limiting way, the poking rod on the poking arm pokes the transposition base platform through the poking chute, the limit arc groove and the poking chute are distributed on the transposition base platform in an interval manner, and through the rotation of the poking motor and the matching of the structures, the slide glass rack can realize transposition among a plurality of slide glasses clamped on the U-shaped placing table, and facilitates treatment of dropping liquid and imbibition in subsequent dyeing and film making.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view from another perspective of the present invention;

FIG. 3 is a perspective view of the slice-making and dyeing machine frame assembly of the present invention;

FIG. 4 is a perspective view of a portion of the construction of the slice-making and dyeing machine frame assembly of the present invention;

FIG. 5 is a perspective view of the slide positioning stage assembly of the present invention;

FIG. 6 is an exploded view of the slide positioning stage assembly of the present invention;

in the figure: 100. a slice-making and dyeing machine frame assembly; 101. a slice making and dyeing base table; 102. a poking wheel; 103. a motor is shifted; 104. an L-shaped frame plate; 105. a first U-shaped frame; 106. a dyeing dropping nozzle; 107. a liquid dropper; 108. a second U-shaped frame; 109. a third U-shaped frame; 110. a clear water dripping nozzle; 111. a liquid suction pump; 112. a fourth U-shaped frame; 113. a telescopic cylinder; 114. a poke rod; 115. a poke arm; 116. an outer shroud tube; 117. a lining sponge ring pad; 200. a slide holding stage assembly; 201. a placing table; 202. a limiting arc groove; 203. poking the chute; 204. a support shaft; 205. a transposition base table; 206. an edge stand; 207. a U-shaped placing table; 208. a central identification point; 209. a slide pressing plate; 210. rotating the shaft lever; 211. rotating the shaft tube; 212. pressing the pressing plate; 213. and tightly pushing the spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides the following technical solutions: a full-automatic rapid slide-making dyeing machine comprises a slide-making dyeing machine frame assembly 100, wherein a slide placing table assembly 200 is rotatably arranged on the slide-making dyeing machine frame assembly 100, the slide placing table assembly 200 forms a synchronous pressing placing table structure of a plurality of slides, and the slide placing table assembly 200 forms a toggle type transposition table structure on the slide-making dyeing machine frame assembly 100;

the slice-making and dyeing machine frame assembly 100 comprises a slice-making and dyeing base table 101, wherein an L-shaped frame plate 104 is fixedly arranged at the top of the slice-making and dyeing base table 101, a toggle motor 103 is arranged on the L-shaped frame plate 104, a toggle wheel 102 is arranged on an output shaft of the toggle motor 103, a toggle arm 115 is fixedly arranged on the toggle wheel 102, a toggle rod 114 is fixedly arranged at the end part of the toggle arm 115, a first U-shaped frame 105, a second U-shaped frame 108, a third U-shaped frame 109 and a fourth U-shaped frame 112 are fixedly arranged at the edge of the slice-making and dyeing base table 101, a dyeing dropping nozzle 106 and a clear dropping nozzle 110 are respectively arranged on the first U-shaped frame 105 and the third U-shaped frame 109, liquid droppers 107 are respectively arranged at the tops of the first U-shaped frame 105 and the third U-shaped frame 109, telescopic cylinders 113 and liquid suction pumps 111 are arranged at the tops of the second U-shaped frame 108 and the fourth U-shaped frame 112, an outer cover pipe 116 is arranged at the bottom of the telescopic cylinders 113, and an inner side of the outer cover pipe 116 is provided with a sponge ring gasket 117;

the slide glass placing table assembly 200 comprises a placing table 201, a supporting shaft rod 204 is fixedly arranged at the bottom of the placing table 201, a transposition bottom table 205 is fixedly arranged at the bottom of the supporting shaft rod 204, a plurality of limiting arc grooves 202 and a plurality of stirring chutes 203 are arranged on the transposition bottom table 205, a plurality of U-shaped placing tables 207 are fixedly arranged on the edge table body at the top of the placing table 201 through an edge table platform 206, a central mark point 208 is arranged on the U-shaped placing table 207, a plurality of slide glass pressing plates 209 are rotatably arranged on the top table body of the placing table 201 through a rotating shaft rod 210 and a rotating shaft tube 211, a pressing plate 212 is fixedly arranged at the rear end of the rotating shaft tube 211, a jacking spring 213 is arranged between the pressing plate 212 and the placing table 201, the supporting shaft rod 204 is rotatably connected with an L-shaped frame plate 104 through a bearing seat, the placing table 201 is positioned above the L-shaped frame plate 104, the transposition bottom table 205 is positioned below the L-shaped frame plate 104, and the stirring wheel 102 is in the limiting arc grooves 202 for limiting rotation, the poke rod 114 on the poke arm 115 pokes the transposition bottom table 205 through the poke chute 203, the spacing arc groove 202 and the poke chute 203 are distributed on the transposition bottom table 205 at intervals, the slide glass pressing plate 209 at the front end of the rotating shaft tube 211 is abutted and pressed on the table body of the U-shaped placing table 207 through the pushing of the pushing spring 213, the slide glass is abutted and pressed between the slide glass pressing plate 209 and the U-shaped placing table 207, the slide glass is placed on the U-shaped placing table 207, the dissociated biological tissue is placed on the U-shaped placing table 207 opposite to the central identification point 208, the dyeing dropping nozzle 106 or the clean dropping nozzle 110 is opposite to the center of the central identification point 208, when the U-shaped placing table 207 is shifted below the dyeing dropping nozzle 106, the dyeing dropping nozzle 106 forms a dyeing dropping structure for the slide glass, when the U-shaped placing table 207 is shifted below the clean dropping nozzle 110, the clean dropping nozzle 110 forms a diluting dropping structure for the slide glass, the lining sponge ring pad 117 on the second U-shaped frame 108 forms an absorption structure of staining solution, the lining sponge ring pad 117 on the fourth U-shaped frame 112 forms an absorption structure of diluted clear water, the lining sponge ring pad 117 forms an up-and-down motion structure contacting with the slide glass through the telescopic action of the telescopic cylinder 113, the liquid suction pump 111 is connected with the lining sponge ring pad 117 through a pipeline, and the liquid suction pump 111 sucks the lining sponge ring pad 117 to keep a liquid suction structure all the time.

The dripper 107 of the present invention is a well-known technology that has been widely used and used in daily life and is known as DEEPBANG-8558.

The working principle and the using process of the invention are as follows: when the device is used, the edge stand body at the top of the placing table 201 is fixedly provided with a plurality of U-shaped placing tables 207 through the edge stand platform 206, the slide pressing plate 209 at the front end of the rotating shaft tube 211 is abutted and pressed against the stand body of the U-shaped placing tables 207 through the pushing of the pushing spring 213, the slide is abutted and pressed between the slide pressing plate 209 and the U-shaped placing table 207, when the slide is placed, the slide is placed on the U-shaped placing table 207, the dissociated biological tissue is placed on the U-shaped placing table 207 opposite to the central identification point 208, because the dyeing drip nozzle 106 or the clear water drip nozzle 110 is opposite to the center of the central identification point 208, through the mode, the dyeing agent and the clear water dripped from the drip nozzle can be ensured to be directly opposite to the biological tissue for dyeing and dilution, when the U-shaped placing table 207 is shifted to the position below the dyeing drip nozzle 106, the dyeing drip nozzle 106 forms a dyeing drip structure for dyeing the slide, when the U-shaped placing table 207 is shifted to the position below the clean water dripping nozzle 110, the clean water dripping nozzle 110 forms a liquid dropping diluting structure for the glass slide, the lining sponge ring pad 117 on the second U-shaped frame 108 forms a dyeing liquid absorbing structure, the lining sponge ring pad 117 on the fourth U-shaped frame 112 forms a clear water diluting absorbing structure, the lining sponge ring pad 117 forms an up-and-down action structure contacting the glass slide through the telescopic action of the telescopic cylinder 113, the liquid suction pump 111 is connected with the lining sponge ring pad 117 through a pipeline, the lining sponge ring pad 117 is enabled to always keep a liquid absorbing structure through the suction of the liquid suction pump 111, through the mode, the continuous actions of dyeing, dyeing agent absorption, clear water dilution and clear water absorption are realized in the shifting process, the shifting wheel 102 is limited to rotate in the limiting arc groove 202, the shifting rod 114 on the shifting arm 115 shifts the bottom table 205 through the shifting chute 203, spacing arc groove 202 and stir the spout 203 between the interval formula distribute on transposition base 205, through stirring the rotation of motor 103 and the cooperation of above-mentioned structure, can realize pressing from both sides and realize changing the position between the platform 207 is placed to the U type a plurality of slide glass, the processing of dropping liquid and imbibition when convenient follow-up dyeing film-making.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A full-automatic rapid slice-making and dyeing machine, comprising a slice-making and dyeing machine frame assembly (100), characterized in that: a slide placing table assembly (200) is rotatably arranged on the slide making and dyeing machine frame assembly (100), the slide placing table assembly (200) forms a synchronous pressing placing table structure of a plurality of slides, and the slide placing table assembly (200) forms a toggle type transposition table structure on the slide making and dyeing machine frame assembly (100);

production-making dyeing machine frame subassembly (100) is including production-making dyeing base frame (101), fixed L type frame plate (104) that is provided with in production-making dyeing base frame (101) top, be provided with toggle motor (103) on L type frame plate (104), be provided with toggle wheel (102) on the output shaft of toggle motor (103), fixed toggle arm (115) that is provided with on toggle wheel (102), toggle arm (115) end fixing is provided with toggle rod (114), production-making dyeing base frame (101) edge fixing is provided with first U type frame (105), second U type frame (108), third U type frame (109) and fourth U type frame (112), be provided with dyeing drip nozzle (106) and clear water drip mouth (110) on first U type frame (105) and third U type frame (109) respectively, and first U type frame (105) and third U type frame (109) top all are provided with drip chamber (107), second U type frame (108) and fourth U type frame (109) are provided with flexible cylinder (113) and suction cup (116), and sponge cover tube pad (116) outside is provided with telescopic cylinder (113) and inner side (116).

2. A full-automatic rapid slice-making and dyeing machine as claimed in claim 1, characterized in that: the slide glass placing table assembly (200) comprises a placing table (201), a supporting shaft rod (204) is fixedly arranged at the bottom of the placing table (201), a transposition bottom table (205) is fixedly arranged at the bottom of the supporting shaft rod (204), a plurality of limiting arc grooves (202) and a plurality of shifting sliding grooves (203) are arranged on the transposition bottom table (205), a plurality of U-shaped placing tables (207) are fixedly arranged on top edge tables of the placing table (201) through edge tables (206), a central identification point (208) is arranged on each U-shaped placing table (207), a plurality of slide glass pressing plates (209) are rotatably arranged on top tables of the placing table (201) through rotating shaft rods (210) and rotating shaft tubes (211), pressing plates (212) are fixedly arranged at the rear ends of the rotating shaft tubes (211), and pressing springs (213) are arranged between the pressing plates (212) and the placing table (201).

3. A full-automatic rapid slice-dyeing machine according to claim 2, characterized in that: the supporting shaft rod (204) is rotatably connected with the L-shaped frame plate (104) through a bearing seat, the placing table (201) is located above the L-shaped frame plate (104), and the transposition bottom table (205) is located below the L-shaped frame plate (104).

4. A full-automatic rapid slice-dyeing machine according to claim 2, characterized in that: the toggle wheel (102) rotates in a limiting arc groove (202) in a limiting mode, a toggle rod (114) on the toggle arm (115) toggles the transposition bottom table (205) through a toggle sliding groove (203), and the limiting arc groove (202) and the toggle sliding groove (203) are distributed on the transposition bottom table (205) at intervals.

5. A full-automatic rapid slice-dyeing machine according to claim 2, characterized in that: by the pushing of the pushing spring (213), the slide glass pressing plate (209) at the front end of the rotating shaft tube (211) is abutted and pressed against the body of the U-shaped placing table (207), and the slide glass is abutted and pressed between the slide glass pressing plate (209) and the U-shaped placing table (207).

6. A full-automatic fast slide dyeing machine according to claim 2, characterized in that: the slide glass is placed on the U-shaped placing table (207), the dissociated biological tissue is placed on the U-shaped placing table (207) opposite to the central identification point (208), and the staining drip nozzle (106) or the clear drip nozzle (110) is opposite to the center of the central identification point (208).

7. A full-automatic fast slide dyeing machine according to claim 2, characterized in that: when platform (207) was placed to the U type shifted dyeing drip mouth (106) below, dyeing drip mouth (106) formed the dyeing dropping structure to the slide glass, when platform (207) was placed to the U type shifted clear drip mouth (110) below, clear drip mouth (110) formed the dilution dropping structure to the slide glass, inside lining sponge ring pad (117) on second U type frame (108) formed the absorbent structure of dyeing liquor, inside lining sponge ring pad (117) on fourth U type frame (112) formed the absorbent structure of dilution clear water.

8. A full-automatic rapid slice-dyeing machine according to claim 1, characterized in that: through the flexible action of telescopic cylinder (113), inside lining sponge ring pad (117) form the upper and lower action structure of contact slide glass, imbibition pump (111) are connected with inside lining sponge ring pad (117) through the pipeline, through the suction of imbibition pump (111), make inside lining sponge ring pad (117) remain imbibition structure all the time.