CN107976796B - Biological microscope structure for plant quarantine - Google Patents

Abstract

The invention provides a biological microscope structure for plant quarantine, comprising a top fence and a supporting tube; the rear end face of the main body handle frame is provided with a connecting seat with a rectangular structure, one side face of the connecting seat is provided with a metal corrugated connecting pipe, and the other end head of the metal corrugated connecting pipe is provided with a slicing operation table with a circular plate structure; the side surface of the connecting seat is connected with a spray pipe in a penetrating way through a rotary head matched with the side surface of the connecting seat, and a first storage groove and a second storage groove are formed in the side surface of the slicing operation table from outside to inside; the utility model discloses a slicing machine, including main part handle frame, cutting knife and quarantine, main part handle frame, metal ripple connecting pipe, cutting knife and quarantine are used for loading and getting on the side of main part handle frame, on the top side outer wall of main part handle frame, utilize the metal ripple connecting pipe to be connected with the section operation panel of a circular structure, two sample cultivation slide glasses that are used for loading and getting cutting knife and quarantine are offered to the side of piece operation panel, have replaced original operation mode that needs to carry out the section sample on the workstation, practice thrift the space, have saved the operating space on the original operation panel.

Description

Biological microscope structure for plant quarantine

Technical Field

The invention belongs to the technical field of microscope structures and plant quarantine, and particularly relates to a biological microscope structure for plant quarantine.

Background

Microscope is one of the largest inventions in the 20 th century. Before it was invented, human ideas about the surrounding world were limited to what was seen with the naked eye, or with the help of a hand held lens. Microscope reveals a completely new world in human vision, and people first see hundreds of "new" micro animals and plants, and internal structures of various things from human body to plant fiber. Microscopy also helps scientists to find new species and doctors to treat diseases.

The Chinese patent number is: 201210124546.9 a microscope is provided, the basic description of which comprises a base, a support rod, an eyepiece table and a lifting table, wherein the lifting table comprises a platform and a locking device for locking the platform, and the platform is sleeved outside the support rod and adjustably fixed on the support rod through the locking device. The lifting platform of the microscope is integrated with the microscope, and can be adjusted to move up and down on the supporting rod, when the inspection conditions change, the height of an inspected object is not required to be increased by the jig, the inspection height of the microscope is relatively increased, the inspection is not limited by the height and the inspection posture of a person, and therefore the inspection efficiency is improved.

For another example, chinese patent No.: 201080030240.6A microscope device having an illumination device capable of filling an entrance pupil of an imaging optical system with illumination light irrespective of an observation magnification of the imaging optical system and appropriately restricting a pupil conjugate image with a light shielding member, the microscope device (1) comprising: an illumination device (2) that includes a surface light-emitting body (light guide plate (21)) having a light-emitting surface as a planar light-emitting region, and irradiates a sample (S) with light emitted from the light guide plate (21); an objective lens (31) for condensing light from the sample (S); and an imaging optical system (3) including a zoom lens group (32) that zooms and forms an image of the sample (S).

Based on the above, the present inventors have found that, similar to the above-mentioned structure, and various microscopes on the market, most of the microscopes are frame-type, and when applied to plant quarantine sampling detection, it is often necessary to additionally place an experiment table or an operation table for slicing and sampling plant stems, and to use a culture solution for injecting the culture solution into a plant sampling sample placed between a slide glass and a cover glass, and when the microscope leaves the operation table, the operations of these functionalities are difficult to realize.

Accordingly, in view of the above, an object of the present invention is to provide a biological microscope structure for plant quarantine having a slicing function and a culture medium storage structure, which is improved in view of the conventional structure and the drawbacks, and which is more practical.

Disclosure of Invention

The aim and the effect of the biological microscope structure for plant quarantine are achieved by the following specific technical means:

the biological microscope structure for plant quarantine comprises a main body handle frame, a connecting seat, a rotating head, a spray pipe, an observation table, a metal corrugated connecting pipe, a slicing operation table, a leak hole, a dropper, a first storage groove, a limiting ring, a recovery bag, a second storage groove, a hanging piece, a top fence and a supporting pipe; the rear end face of the main body handle frame is provided with a connecting seat with a rectangular structure, one side face of the connecting seat is provided with a metal corrugated connecting pipe, and the other end head of the metal corrugated connecting pipe is provided with a slicing operation table with a circular plate structure; the side surface of the connecting seat is connected with a spray pipe in a penetrating way through a rotary head matched with the side surface of the connecting seat, the other end of the spray pipe is connected with a dropper, and a switch valve is further arranged on the spray pipe; the left side and the right side of the top surface of the slicing operation table are respectively provided with a top fence and a limiting ring, and a rectangular leak hole is formed in the slicing operation table; the bottom surface of the slicing operation table is connected with a recovery bag, and the recovery bag corresponds to the position of the leak hole formed in the top side; the side surface of the slicing operation table is provided with a first storage groove and a second storage groove from outside to inside; a hanging piece with a ring buckle structure is also arranged on the outer wall of the top side of the main body handle frame; the slicing operation table is positioned outside the observation table at the bottom side of the microscope device.

Furthermore, the connecting seat consists of an upper part and a lower part, the upper part is of a cavity box structure, and the spray pipe is connected with the upper part in a penetrating way.

Furthermore, a cavity type bulge structure is arranged in the middle of the pipeline of the dropper, and the bulge structure is in butt joint with the nozzle connector.

Furthermore, the limiting ring is of a circular arc-shaped section structure, and the top fence is of a fence structure made of a circle of transparent plastics on the top surface of the slicing operation table.

Furthermore, the bottom surfaces of the inner cavities of the first storage groove and the second storage groove are of a concave structure, and edges of the concave structure are excessive by adopting fillets.

Further, the support tube is two places, and is left and right direction to install on the right flank of observation platform, and the top surface of support tube is platform formula structure, and its surface all is equipped with anti-skidding protruding structure.

Further, the bottom surface of the slicing operation table is provided with a row of anti-slip textures corresponding to the anti-slip protrusions on the top surface of the support tube.

Further, the bottom surface recovery bag of the slicing operation table is slidably mounted on the bottom surface of the slicing operation table in a sliding way through a sliding groove.

Compared with the prior art, the invention has the following beneficial effects:

the microscope with the original traditional structure is connected with one side of a microscope with the metal corrugated connecting pipe, two sample culture glass slides for loading and taking the cutting knife and quarantining are arranged on the side face of the microscope with the traditional structure, the plant to be sampled and quarantined is sliced by the microscope with the traditional structure, the original operation mode of slicing and sampling on the microscope is replaced, the space is saved, the operation space on the original microscope is saved, the microscope can be taken away together, a special workbench is not needed, the microscope is suitable for various occasions, and the practicability is better.

The connecting seat at the rear side of the microscope is used for installing a metal corrugated connecting pipe, and is different from other connecting seats, the connecting seat of the structure is composed of an upper part and a lower part, the top is of a tank cavity structure for containing culture solution, the bottom is of the connecting seat structure, the outer side of the tank cavity structure at the top is connected with a spray pipe with a valve in a penetrating way, the bottom side of the spray pipe is connected with a dropper in a penetrating way, the valve on the spray pipe is opened, liquid in the tank cavity structure can flow into the dropper downwards, a small amount of liquid in the dropper is dripped onto a plant sampling sample which is already cut on a slicing operation table, the dripping process of the culture solution is synchronously completed on the structure, and the comprehensive functionality is better.

Drawings

Fig. 1 and 2 are schematic views of two-view structures of the present invention.

Fig. 3 is a schematic view of the structure of the support tube of the present invention.

Fig. 4 is a schematic structural view of a first storage tank and a second storage tank according to the present invention.

FIG. 5 is a schematic view of the structure of the dropper and its connection to the nozzle.

FIG. 6 is a schematic view of the bottom surface structure of the slicing station of the present invention.

FIG. 7 is a schematic view of the top chute structure of the recovery bag of the present invention.

Fig. 8 is a schematic view of the bottom view structure of the present invention.

In the figure: the device comprises a main body handle frame-1, a connecting seat-2, a rotating head-3, a spray pipe-4, an observation table-5, a metal corrugated connecting pipe-6, a slicing operation table-7, a leak hole-8, a dropper-9, a first storage groove-10, a limiting ring-11, a recovery bag-12, a second storage groove-13, a hanging piece-14, a top fence-15 and a supporting pipe-16.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

examples:

as shown in fig. 1 to 8:

the invention provides a biological microscope structure for plant quarantine, which comprises a main body handle frame 1, a connecting seat 2, a rotating head 3, a spray pipe 4, an observation table 5, a metal corrugated connecting pipe 6, a slicing operation table 7, a leak hole 8, a dropper 9, a first storage groove 10, a limiting ring 11, a recovery bag 12, a second storage groove 13, a hanging piece 14, a top fence 15 and a supporting pipe 16; the rear end face of the main body handle frame 1 is provided with a connecting seat 2 with a rectangular structure, one side face of the connecting seat 2 is provided with a metal corrugated connecting pipe 6, and the other end head of the metal corrugated connecting pipe 6 is provided with a slicing operation table 7 with a circular plate structure; the side surface of the connecting seat 2 is connected with a spray pipe 4 in a penetrating way through a rotary head 3 matched with the side surface of the connecting seat, the other end of the spray pipe 4 is connected with a dropper 9, and a switch valve is also arranged on the spray pipe 4; the left side and the right side of the top surface of the slicing operation table 7 are respectively provided with a top fence 15 and a limiting ring 11, and a rectangular leak hole 8 is formed in the slicing operation table 7; the bottom surface of the slicing operation table 7 is connected with a recovery bag 12, and the recovery bag 12 corresponds to the position of the leak hole 8 formed in the top side; the side surface of the slicing operation table 7 is provided with a first storage groove 10 and a second storage groove 13 from outside to inside; a hanging piece 14 with a ring buckle structure is also arranged on the outer wall of the top side of the main body handle frame 1; the slicing station 7 is located outside the microscope device bottom side viewing station 5.

Wherein, connecting seat 2 comprises upper and lower two parts, and the upper part is the chamber case structure that is used for storing the culture solution, spray tube 4 and its through connection, utilizes spray tube 4 to overflow the culture solution to burette 9.

The middle position of the pipeline of the burette 9 is provided with a cavity type bulge structure for temporarily storing the culture solution, and the bulge structure is in butt joint with a connector of the spray pipe 4, so that when the burette 9 forms an extrusion operation, the liquid in the bulge structure can flow downwards to form a pump type burette structure.

The limiting ring 11 is of a circular arc-shaped section structure which is convenient for a human hand to stretch into, the top fence 15 is of a fence structure made of a circle of transparent plastic on the top surface of the slicing operation table 7, and the small circle of the top fence 15 is used for blocking the left side so as to prevent a microscope from being influenced when a cut plant is cut.

The bottom surfaces of the inner cavities of the first storage groove 10 and the second storage groove 13 are of concave structures, so that the placed blades or glass slides are prevented from falling out, and the edges of the concave structures adopt fillet transition structures which are convenient for fingers to rub out of the blades and the glass slides.

The support pipes 16 are arranged at two positions and are arranged on the right side surface of the observation table 5 in the left-right direction, the top surfaces of the support pipes 16 are of a platform type structure, and the surfaces of the support pipes 16 are provided with anti-slip protruding structures.

Wherein, the bottom surface of the slicing operation table 7 is provided with a row of anti-slip textures corresponding to the anti-slip protrusions on the top surface of the support tube 16, so that when the bottom surface of the slicing operation table 7 is supported on the support tube 16, the anti-slip textures are meshed with the anti-slip protrusions on the top surface of the support tube 16, and the slicing operation table 7 is prevented from falling off when pressure is applied.

Wherein, the bottom surface recovery bag 12 of section operation panel 7 is through the mode slidable mounting of spout connection on the bottom surface of section operation panel 7 for after recovery bag 12 finishes using, can pull out and take off, utilize the recovery bag 12 of installation, leak into recovery bag 12 downwards from leak hole 8 the residue of cutting plant output on section operation panel 7 top surface, realize recovery processing.

Specific use and action of the embodiment:

in the invention, the metal corrugated connecting pipe 6 is rotated, the metal corrugated connecting pipe 6 is positioned at the front side, the slicing operation table 7 connected with the front end of the metal corrugated connecting pipe 6 is supported on the top surface of a supporting pipe 16 shown in figure 3 by utilizing the anti-slip texture of the bottom surface, the slicing operation table 7 is supported by utilizing the supporting pipe 16, meshing butt joint is realized by utilizing the anti-slip texture and an anti-slip convex structure, plant stems needing quarantine are placed on the top surface of the operation table 7, a blade is taken out from a first storage groove 10, a next small section of sample needing quarantine is intercepted, the sample is coated and pressed on a slide pressing sheet taken out from a second storage groove 13, a spray pipe 4 is rotated leftwards, a valve on the spray pipe 4 is opened, culture solution in the spray pipe 4 is injected into a bulge structure in the middle of a dropper 9 to form a small amount of storage, a rubber extrusion head at the top as shown in figure 5 is extruded, the liquid in the burette 9 bulges on the plant sampling specimen intercepted on the slide glass flowing downwards to finish the specimen culturing and manufacturing process, then the glass culturing specimen is placed on the observation table 5, the normal observation of a microscope is finished by pressing and compacting, the comprehensive utilization of the structures such as a slicing operation table and a burette culture liquid installed on the microscope is realized, the operation treatment on the same device for slicing and dripping the plant to be sampled and quarantined replaces the original operation mode of slicing and sampling on the operation table, the space is saved, the operation space on the original operation table is saved, the microscope function is strengthened, and when the microscope moves, the structures can be taken away together without additionally arranging a special operation table, so that the microscope is suitable for various occasions and has better practicability.

By utilizing the technical scheme of the invention or under the inspired by the technical scheme of the invention, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical scheme falls into the protection scope of the invention.

Claims (6)

1. The biological microscope structure for plant quarantine is characterized in that: the biological microscope structure for plant quarantine comprises a main body handle frame (1), a connecting seat (2), a rotating head (3), a spray pipe (4), an observation table (5), a metal corrugated connecting pipe (6), a slicing operation table (7), a leak hole (8), a dropper (9), a first storage groove (10), a limiting ring (11), a recovery bag (12), a second storage groove (13), a hanging piece (14), a top fence (15) and a supporting pipe (16); the rear end face of the main body handle frame (1) is provided with a connecting seat (2) with a rectangular structure, one side face of the connecting seat (2) is provided with a metal corrugated connecting pipe (6), and the other end head of the metal corrugated connecting pipe (6) is provided with a slicing operation table (7) with a circular plate structure; the side surface of the connecting seat (2) is connected with a spray pipe (4) in a penetrating way through a rotary head (3) matched with the side surface of the connecting seat, the other end head of the spray pipe (4) is connected with a dropper (9), and a switch valve is further arranged on the spray pipe (4); the left side and the right side of the top surface of the slicing operation table (7) are respectively provided with a top fence (15) and a limiting ring (11), and a rectangular leak hole (8) is formed in the slicing operation table (7); the bottom surface of the slicing operation table (7) is connected with a recovery bag (12), and the recovery bag (12) corresponds to the position of the leak hole (8) formed in the top side; the side surface of the slicing operation table (7) is provided with a first storage groove (10) and a second storage groove (13) from outside to inside; a hanging piece (14) with a ring buckle structure is also arranged on the outer wall of the top side of the main body handle frame (1); the slicing operation table (7) is positioned at the outer side of the observation table (5) at the bottom side of the microscope device;

the connecting seat (2) consists of an upper part and a lower part, the upper part is of a cavity box structure, and the spray pipe (4) is connected with the upper part in a penetrating way;

the support pipes (16) are arranged at two positions and are arranged on the right side face of the observation table (5) in the left-right direction, the top faces of the support pipes (16) are of a platform type structure, and anti-slip protruding structures are arranged on the surfaces of the support pipes.

2. The biological microscope structure for plant quarantine according to claim 1, characterized in that: the middle position of the pipeline of the dropper (9) is provided with a cavity type bulge structure, and the bulge structure is in butt joint with a connector of the spray pipe (4).

3. The biological microscope structure for plant quarantine according to claim 1, characterized in that: the limiting ring (11) is of a circular arc-shaped section structure, and the top fence (15) is of a fence structure made of a circle of transparent plastics on the top surface of the slicing operation table (7).

4. The biological microscope structure for plant quarantine according to claim 1, characterized in that: the bottom surfaces of the inner cavities of the first storage groove (10) and the second storage groove (13) are of a concave structure, and edges of the concave structure are excessive by adopting fillets.

5. The biological microscope structure for plant quarantine according to claim 1, characterized in that: the bottom surface of the slicing operation table (7) is provided with a row of anti-skid textures corresponding to the anti-skid bulges on the top surface of the supporting tube (16).

6. The biological microscope structure for plant quarantine according to claim 1, characterized in that: the bottom surface recovery bag (12) of the slicing operation table (7) is slidably arranged on the bottom surface of the slicing operation table (7) in a chute connection mode.