CN112051664A - Pluggable XY objective table and application - Google Patents

Abstract

The invention relates to a pluggable XY objective table and application thereof. The plug part is the basis of this objective table, including 1 total support frame and 1 connecting seat, carries out the plug operation through the strong magnet and the locating pin of installing on total support frame and connecting seat, and the rethread connecting seat is installed pluggable XY objective table and is used on the microscope arm of different specifications. The X-axis direction moving component consists of 1X-axis linkage system and 1X-axis moving plate, and the X-axis linkage system completes the movement of the X-axis moving plate in the X-axis direction after the rotating wheel for controlling the movement of the X-axis direction is adjusted. The Y-axis direction moving part consists of 1Y-axis linkage system and 1Y moving plate, and the Y-axis linkage system completes the movement of the Y moving plate in the X-axis direction after the rotating wheel for controlling the movement of the Y-axis direction is adjusted.

Description

Pluggable XY objective table and application

Technical Field

The invention belongs to the field of biochemical equipment, and particularly relates to a pluggable XY objective table and application thereof.

Background

Microscopes are largely classified into upright microscopes and inverted microscopes. The upright microscope is mainly used for observing and recording living matters attached to the bottom of a culture dish or suspended in a culture medium, and can play a great role in the fields of food inspection, water quality identification, crystal structure analysis, chemical reaction precipitate analysis and the like. The inverted microscope can be used for observing and researching biological slices, biological cells, bacteria, living tissue culture, fluid sediments and the like, and can be used for observing other transparent or semitransparent objects, powder, fine particles and the like. However, for some samples, both upright and inverted microscope observations are required. The forward and inverted integral microscope combines the characteristics of the forward and inverted microscopes, and the forward and inverted lenses are converted by only rotating the microscope arms to complete the conversion of the forward microscope and the inverted microscope. The stage of the microscope, also called as the stage, is located below or above the objective lens and is used for placing the specimen to be observed. The specimen propeller is arranged on the objective table, the spring clamp is arranged on the left side of the propeller and used for clamping the specimen, and the propeller adjusting wheel is arranged below the objective table and can enable the specimen to move in the X-axis direction and the Y-axis direction. The current microscope stage mainly has the following current situations: the three types of microscopes have the common point that the object stages of the microscopes are fixed on the microscope arms of the microscopes and cannot move, and particularly for the upright and inverted integrated microscope, the object stages cannot be used after being inverted when the upright microscope and the inverted microscope are converted. Secondly, most of the common XY object stages in the market are of three-layer structures, namely a fixed supporting layer, an X movable layer and a Y movable layer, the structure is convenient to design and produce, and the whole structure is heavy. The control of the movement in the X-axis direction and the Y-axis direction is that the double control levers are parallel to the moving plane, so that the occupied space of the XY moving platform is too large, and the operation inconvenience and the additional protection cost are brought to a user. The XY moving objective table has two transmission modes of blade-shaped friction transmission and steel wire rope friction transmission, the two transmission modes have higher requirements on processing and assembly, the required labor cost is higher, and the use is influenced due to the phenomenon of slipping easily during use. The XY objective table adopts four crossed roller guide rails to guide and support the movement in the XY axis direction, which easily causes the inaccuracy of the levelness of the objective table.

Disclosure of Invention

In order to solve the defects of the prior art, the invention provides a pluggable XY objective table and application thereof.

The purpose of the invention is realized by the following technical scheme:

in a first aspect, the present invention provides a pluggable XY stage, which includes a plugging member, an X-axis direction moving member, and a Y-axis direction moving member;

the plugging part comprises 1 total support frame and 1 connecting seat; the 1 total support frame consists of 1 support frame H (8) and 1 support frame G (9); the 1 support frame H (8) is vertically arranged at the edge of the 1 support frame G (9); 2 main support frame strong magnetic magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond positioning pin (29) are arranged on the 1 support frame H (8); the 1 connecting seat comprises 1 connecting base (13) and 2 blocking pieces (11); 2 connecting seat strong magnets (30) and 4 connecting seat movable connecting bolts (14) are installed at the front end of the 1 connecting base (13), 1 round positioning pin hole (31) and 1 diamond positioning pin hole (32) are arranged, and 2 connecting seat positioning pins (12) are installed at the rear end of the connecting base (13); the 4 connecting seats are movably connected with the bolts (14) through mounting bolts which can move horizontally;

the X-axis direction moving component comprises 1X-axis linkage system and 1X moving plate (1); the 1X-axis linkage system consists of 2 linear slide rails (6), 1 slide rail cushion block E (7), 1 slide rail cushion block F (10), 2X-moving plate limiting positioning pins (15), 1 rotating shaft (17), 2 flanged bearings (18), 1 synchronizing wheel K (19), 1 helical rack D (20), 1 helical gear B (21), 1 synchronous belt (22), 1 synchronizing wheel J (23) and 1 rotating wheel (25) for controlling the X-axis direction to move;

the Y-axis direction moving component comprises 1Y-axis linkage system and 1Y moving plate (2); the 1Y-axis linkage system is composed of 1 helical rack C (4), 1 helical gear A (5), 2 crossed roller guide rails (16) and 1 rotating wheel (24) for controlling the Y-axis direction to move.

Wherein, 1 control handle is composed of 1 rotating wheel (25) for controlling the movement of the X-axis direction, 1 rotating wheel (24) for controlling the movement of the Y-axis direction and 1 supporting shaft (26); and the 1 control handle is connected with the Y moving plate (2) through the 1 handle fixing seat (3).

Wherein, the X-axis direction moving component is installed together with the Y-axis direction moving component through 2 linear slide rails (6).

The Y-axis direction moving component is installed through 2 crossed roller guide rails (16) and a general support frame of the plugging component to form a layer of integral structure.

The main support frame of the pluggable XY objective table plugging component is aligned, inserted and magnetically connected with the 2 connecting seat strong magnets (30), the 1 circular positioning pin holes (31) and the 1 diamond positioning pin hole (32) at the front end of the connecting base (13) respectively through the 2 main support frame strong magnets (27), the 1 main support frame circular positioning pins (28) and the 1 main support frame diamond positioning pin (29) arranged on the support frame H (8).

In a second aspect, the present invention provides a use of a pluggable XY stage, comprising:

installing pluggable XY object stages on microscope arms of different specifications;

can be plugged and pulled for use after being installed.

Wherein, install pluggable XY objective table on the microscope mirror arm of different specifications, specifically include:

installing connecting seats of a pluggable XY objective table on microscope arms of different specifications through 2 connecting seat positioning pins (12) and 4 connecting seat movable connecting bolts (14) which are installed on a connecting base (13);

2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond-shaped positioning pin (29) which are arranged on a main support frame of the objective table plugging component are aligned, inserted and magnetically attracted with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond-shaped positioning pin hole (32) which are arranged at the front end of a connecting base (13) of a connecting seat which is connected to a microscope arm, and then the objective table is used.

Wherein, can carry out the plug after the installation and use, specifically include:

the main support frame of the pluggable XY objective table is pulled out from 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond positioning pin hole (32) at the front end of a connecting base (13) of a connecting seat;

2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond-shaped positioning pin (29) which are arranged on a main support frame of an objective table plugging component pulled out from a connecting seat are aligned, inserted and magnetically connected with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond-shaped positioning pin hole (32) at the front end of a connecting base (13) respectively for use of the objective table.

The invention has the beneficial effects that: the pluggable XY objective table disclosed by the invention adopts a pluggable fixing mode, so that the XY objective table is convenient to disassemble, independently package and transport, and the complicated operation when a microscope conversion lens is inverted can be avoided. Secondly, the pluggable XY objective table adopts a two-layer structure formed by combining a fixed layer and a Y moving layer, so that the weight of the microscope is reduced, and the production cost is saved. The pluggable XY objective table adopts a one-rod multi-control mode, namely, one control handle controls the movement of two planes of an X axis and a Y axis, and the control rod is perpendicular to the moving surface, so that the occupied space of the device is reduced, the operation of a user is facilitated, the collision risk is prevented, and the transportation cost and the risk of instrument damage caused by transportation are reduced. The pluggable XY objective table provided by the invention adopts the bevel rack and gear transmission to improve the transmission stability, transmission precision and continuity of the device. The pluggable XY objective table provided by the invention adopts 2 crossed roller guide rails and 2 linear slide rails to guide the movement of the supporting platform so as to improve the levelness and the moving accuracy of the XY objective table.

Drawings

For a clearer explanation of the embodiments of the present invention, the drawings used in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for a person skilled in the art that other drawings can be obtained from the drawings without inventive effort

FIG. 1 is a view of the general support frame structure of the objective table plugging component of the present invention

FIG. 2 is a front view of the connecting seat structure of the objective table plugging component of the present invention

FIG. 3 is a rear view of the connecting seat structure of the objective table plugging component of the present invention

FIG. 4 is an overall structure diagram of the objective table plugging component of the invention

FIG. 5 is a view showing the structure of the X-axis moving part of the stage according to the present invention

FIG. 6 is a view showing the structure of a Y-axis direction moving part of the stage according to the present invention

FIG. 7 is a view showing a structure of a driving mechanism of the stage according to the present invention

FIG. 8 is a perspective view of the object stage of the present invention

FIG. 9 is a flow chart of the application of the stage of the present invention to an ECHO REBEL microscope

FIG. 1-X illustrates the plate; 2-Y moving plate; 3-handle fixing seat; 4-helical rack C; 5-helical gear A; 6-linear slide rail; 7-sliding rail cushion block E; 8-scaffold H; 9-support frame G; 10-a slide rail cushion block F; 11-a stop block; 12-connecting seat positioning pin; 13-a connection base; 14-connecting the base with the movable connecting bolt; 15-X moving plate limit positioning pins; 16-cross roller guide rails; 17-a rotating shaft; 18-flanged bearings; 19-synchronizing wheel K; 20-helical rack D; 21-helical gear B; 22-a synchronous belt; 23-synchronizing wheel J; 24-a rotating wheel for controlling the movement in the Y-axis direction; 25-a rotating wheel for controlling the movement in the X-axis direction; 26-a support shaft; 27-total support frame ferromagnetic magnet; 28-general support frame round locating pin; 29-inserting a diamond positioning pin into the main support frame; 30-connecting seat strong magnetic magnet; 31-circular locating pin holes; 32-diamond locating pin holes.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Example 1A pluggable XY stage

A pluggable XY stage comprises a plugging component, an X-axis direction moving component and a Y-axis direction moving component.

As shown in fig. 1 to 4, the plugging member includes 1 total support frame and 1 connecting seat. The total support frame consists of 1 support frame H (8) and 1 support frame G (9), and the 1 support frame H (8) is vertically arranged on the edge of the 1 support frame G (9); 2 main support frame strong magnetic magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond positioning pin (29) are arranged on the support frame H (8); the connecting seat comprises 1 connecting base (13) and 2 blocking pieces (11), wherein 2 connecting seat strong-magnetic magnets (30) and 4 connecting seat movable connecting bolts (14) are installed at the front end of the connecting base (13), 1 round positioning pin hole (31) and 1 diamond positioning pin hole (32) are arranged in the connecting base, and 2 connecting seat positioning pins (12) are installed at the rear end of the connecting base (13); the 4 connecting seat movable connecting bolts (14) are horizontally movable mounting bolts.

As shown in fig. 5, the X-axis direction moving means includes 1X-axis linkage system and 1X-moving plate (1). The X-axis linkage system comprises 2 linear slide rails (6), 1 slide rail cushion block E (7), 1 slide rail cushion block F (10), 2X-moving plate limiting positioning pins (15), 1 rotating shaft (17), 2 flanged bearings (18), 1 synchronizing wheel K (19), 1 helical rack D (20), 1 helical gear B (21), 1 synchronizing belt (22), 1 synchronizing wheel J (23) and 1 rotating wheel (25) for controlling X-axis direction movement.

As shown in fig. 6, the Y-axis direction moving means includes 1Y-axis linkage system and 1Y moving plate (2). The 1Y-axis linkage system consists of 1 helical rack C (4), 1 helical gear A (5), 2 pairs of crossed roller guide rails (16) and 1 rotating wheel (24) for controlling the Y-axis direction to move.

Wherein, 1 runner (25) that 1 control X axle direction removed, 1 runner (24) that control Y axle direction removed, 1 back shaft (26), constitute 1 brake valve lever, brake valve lever is connected with the Y movable plate through 1 handle fixing base (3).

Wherein the X-axis direction moving component is installed with the Y-axis direction moving component through 2 linear slide rails (6).

The Y-axis direction moving component is installed through 2 crossed roller guide rails (16) and a general support frame of the plugging component to form a layer of integral structure.

The main support frame of the pluggable XY objective table plugging component is aligned, inserted and magnetically connected and assembled with the 2 connecting seat strong magnets (30), the 1 circular positioning pin holes (31) and the 1 diamond positioning pin hole (32) at the front end of the connecting base (13) through the 2 supporting frame strong magnets (27), the 1 supporting frame circular positioning pins (28) and the 1 supporting frame diamond positioning pins (29) arranged on the supporting frame H (8) to form the pluggable XY objective table.

Example 2 working principle of a pluggable XY stage

1. The assembled X-axis linkage system and the Y-axis linkage system are shown in figure 7, the overall appearance view of the pluggable XY objective table is shown in figure 8, when a rotating wheel (24) which controls the movement in the Y-axis direction on a control handle of the objective table is rotated, the helical gear A (5) and the helical rack C (4) are driven to be meshed for relative movement, so that the Y moving plate (2) connected with the Y-axis linkage system is driven to move relatively, the movement in the Y-axis direction of the objective table is completed, and because the crossed roller guide rail (16) has the limit of back and forth movement, when the limit of the crossed roller is reached, the hand wheel which controls the movement in the Y-axis direction can be fixed. The lengths of the helical rack C (4) and the helical gear A (5) are longer than those of the crossed rollers, so that the continuity and stability of the movement of the object stage in the Y direction are ensured.

2. Install synchronizing wheel J (23) at brake valve lever's back shaft (26), install synchronizing wheel K (19) and skewed tooth gear B (21) on axis of rotation (17), brake valve lever's back shaft (26) and axis of rotation (17) are connected through hold-in range (22), when runner (25) that control X axle direction removed on rotating brake valve lever, install synchronizing wheel J (23) on brake valve lever and can rotate, and drive synchronizing wheel K (19) through hold-in range (22) and rotate, synchronizing wheel K (19) drive axis of rotation (17) again and rotate, thereby it rotates to drive skewed tooth gear B (21) on axis of rotation (17), when skewed tooth gear B (21) rotate, can take place the meshing motion with skewed tooth rack D (20), thereby accomplish the removal of objective table X axle direction. Two ends of the linear slide rail of the X moving plate are respectively provided with 1X moving plate limiting positioning pin (15) for limiting the moving position of the X moving plate, and meanwhile, the length of the helical rack D (20) is greater than the distance between the two X moving plate limiting positioning pins (15), so that the continuity and the stability of the movement of the objective table in the X direction are ensured.

Example 3 use of a pluggable XY stage

Use of a pluggable XY stage, comprising:

installing pluggable XY object stages on microscope arms of different specifications;

specifically, a connecting seat of a pluggable XY objective table is arranged on microscope arms with different specifications through 2 connecting seat positioning pins (12) arranged at the rear end of a connecting base (13) and 4 connecting seat movable connecting bolts (14);

2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond-shaped positioning pin (29) which are arranged on a main support frame of the objective table plugging component are aligned, inserted and magnetically attracted with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond-shaped positioning pin hole (32) which are arranged at the front end of a connecting base (13) of a connecting seat which is connected to a microscope arm, and then the objective table is used.

Can be plugged and pulled for use after being installed.

Specifically, a general support frame of the pluggable XY objective table is pulled out from 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond positioning pin hole (32) at the front end of a connecting base (13);

2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond-shaped positioning pin (29) which are arranged on a main support frame of an objective table plugging component pulled out from a connecting seat are aligned, inserted and magnetically connected with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond-shaped positioning pin hole (32) at the front end of a connecting base (13) respectively for use of the objective table.

Further, the application of the pluggable XY stage comprises the following specific steps:

s1, mounting the connecting seats of the pluggable XY stage on microscope arms of different specifications through 2 connecting seat positioning pins (12) and 4 connecting seat movable connecting bolts (14) which are mounted at the rear ends of the connecting bases (13);

s2, 2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond positioning pin (29) which are arranged on a main support frame of the objective table plugging component are aligned, inserted and magnetically attracted with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond positioning pin hole (32) which are arranged at the front end of a connecting base (13) of a connecting seat which is connected to a microscope arm, and then the objective table is used. When the objective table is used, when a rotating wheel (24) which is arranged on an objective table control handle and controls the Y-axis direction to move is rotated, the helical gear A (5) and the helical rack C (4) are driven to be meshed for relative motion, so that a Y moving plate (2) connected with the helical gear A is driven to move relatively, the Y-axis direction of the objective table is moved, and the crossed roller guide rail (16) is limited by the front and back movement, so that when the crossed roller is limited, a hand wheel which controls the Y-direction to move can be fixed. The lengths of the helical rack C (4) and the helical gear A (5) are longer than those of the crossed rollers, so that the continuity and stability of the movement of the object stage in the Y direction are ensured. Install synchronizing wheel J (23) at brake valve lever's back shaft (26), install synchronizing wheel K (19) and skewed tooth gear B (21) on axis of rotation (17), brake valve lever's back shaft (26) and axis of rotation (17) are connected through hold-in range (22), when runner (25) that control X axle direction removed on rotating brake valve lever, install synchronizing wheel J (23) on brake valve lever and can rotate, and drive synchronizing wheel K (19) through hold-in range (22) and rotate, synchronizing wheel K (19) drive axis of rotation (17) again and rotate, thereby it rotates to drive skewed tooth gear B (21) on axis of rotation (17), when skewed tooth gear B (21) rotate, can take place the meshing motion with skewed tooth rack D (20), thereby accomplish the removal of objective table X axle direction. Two ends of the linear slide rail of the X-moving plate are respectively provided with 1X-moving plate limiting positioning pin (15) for limiting the movement position of the X-moving plate, and the length of the helical rack D (20) is greater than the distance between the two X-moving plate limiting positioning pins (15), so that the continuity and the stability of the movement of the objective table in the X direction are ensured;

s3, after the use is finished, the general support frame of the pluggable XY objective table is pulled out from 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond positioning pin hole (32) at the front end of the connecting base (13);

s4, 2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond-shaped positioning pin (29) which are arranged on a main support frame of the object stage plugging component pulled out from the connecting seat are aligned, inserted and magnetically attracted with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond-shaped positioning pin hole (32) at the front end of the connecting base (13) for use of the object stage.

EXAMPLE 4 use of a pluggable XY stage in an ECHO REBEL inverted microscope

The application of a pluggable XY stage as shown in fig. 9 on ECHO REBEL positive inverted microscope is as follows:

s1, mounting the connecting seat of the pluggable XY stage on the mirror arm of the ECHO REBEL microscope through 2 connecting seat positioning pins (12) and 4 connecting seat movable connecting bolts (14) which are mounted at the rear end of a connecting base (13);

s2, 2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond positioning pin (29) which are arranged on a main support frame of the objective table plugging component are aligned, inserted and magnetically attracted with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond positioning pin hole (32) which are arranged at the front end of a connecting base (13) of a connecting seat which is connected to a microscope arm, and then the objective table is used. When the objective table is used, when a rotating wheel (24) which is arranged on a control handle of the objective table and controls the Y-axis direction to move is rotated, a helical gear A (5) and a helical rack C (4) are driven to be meshed for relative movement, so that a Y moving plate (2) connected with the helical gear A is driven to move relatively, the Y-axis direction movement of the objective table is completed, and because the crossed roller guide rail (16) is limited by the front and back movement, a hand wheel which controls the Y-direction movement can be fixed when the crossed roller is limited. The lengths of the helical rack C (4) and the helical gear A (5) are longer than those of the crossed rollers, so that the continuity and stability of the movement of the object stage in the Y direction are ensured. Install synchronizing wheel J (23) at brake valve lever's back shaft (26), install synchronizing wheel K (19) and skewed tooth gear B (21) on axis of rotation (17), brake valve lever's back shaft (26) and axis of rotation (17) are connected through hold-in range (22), when runner (25) that control X axle direction removed on rotating brake valve lever, install synchronizing wheel J (23) on brake valve lever and can rotate, and drive synchronizing wheel K (19) through hold-in range (22) and rotate, synchronizing wheel K (19) drive axis of rotation (17) again and rotate, thereby it rotates to drive skewed tooth gear B (21) on axis of rotation (17), when skewed tooth gear B (21) rotate, can take place the meshing motion with skewed tooth rack D (20), thereby accomplish the removal of objective table X axle direction. Two ends of the linear slide rail of the X-moving plate are respectively provided with 1X-moving plate limiting positioning pin (15) for limiting the movement position of the X-moving plate, and the length of the helical rack D (20) is greater than the distance between the two X-moving plate limiting positioning pins (15), so that the continuity and the stability of the movement of the objective table in the X direction are ensured;

s3, when the upright observation mode of the ECHO REBEL microscope is used and needs to be changed into an inverted observation mode, the general support frame of the pluggable XY stage is pulled out from 2 connecting seat strong magnets (30), 1 circular positioning pin hole (31) and 1 diamond positioning pin hole (32) at the front end of the connecting base (13);

s4, 2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond-shaped positioning pin (29) which are arranged on a main support frame of the object stage plugging component pulled out from the connecting seat are aligned, inserted and magnetically attracted with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond-shaped positioning pin hole (32) at the front end of the connecting base (13) for use of the object stage again.

Claims (8)

1. A pluggable XY stage, which comprises a plugging component, an X-axis direction moving component and a Y-axis direction moving component, is characterized in that,

the plugging part comprises 1 total support frame and 1 connecting seat; the 1 total support frame consists of 1 support frame H (8) and 1 support frame G (9); the 1 support frame H (8) is vertically arranged at the edge of the 1 support frame G (9); 2 main support frame strong magnetic magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond positioning pin (29) are arranged on the 1 support frame H (8); the 1 connecting seat comprises 1 connecting base (13) and 2 blocking pieces (11); 2 connecting seat strong magnets (30) and 4 connecting seat movable connecting bolts (14) are installed at the front end of the 1 connecting base (13), 1 round positioning pin hole (31) and 1 diamond positioning pin hole (32) are arranged, and 2 connecting seat positioning pins (12) are installed at the rear end of the connecting base (13); the 4 connecting seats are movably connected with the bolts (14) through mounting bolts which can move horizontally;

the X-axis direction moving component comprises 1X-axis linkage system and 1X moving plate (1); the 1X-axis linkage system consists of 2 linear slide rails (6), 1 slide rail cushion block E (7), 1 slide rail cushion block F (10), 2X-moving plate limiting positioning pins (15), 1 rotating shaft (17), 2 flanged bearings (18), 1 synchronizing wheel K (19), 1 helical rack D (20), 1 helical gear B (21), 1 synchronous belt (22), 1 synchronizing wheel J (23) and 1 rotating wheel (25) for controlling the X-axis direction to move;

the Y-axis direction moving component comprises 1Y-axis linkage system and 1Y moving plate (2); the 1Y-axis linkage system is composed of 1 helical rack C (4), 1 helical gear A (5), 2 crossed roller guide rails (16) and 1 rotating wheel (24) for controlling the Y-axis direction to move.

2. The pluggable XY stage according to claim 1, wherein the 1 wheel (25) for controlling the movement in the X-axis direction, the 1 wheel (24) for controlling the movement in the Y-axis direction, and the 1 supporting shaft (26) constitute 1 control handle; and the 1 control handle is connected with the Y moving plate (2) through the 1 handle fixing seat (3).

3. The pluggable XY stage according to claim 1, wherein the X-direction moving part is installed together with the Y-direction moving part by 2 linear slides (6).

4. The pluggable XY stage according to claim 1, wherein the Y-axis direction moving part is assembled into a one-layer integral structure by a total support frame of 2 cross roller guides (16) and the plugging part.

5. The pluggable XY stage according to claim 1, wherein the total support frame of the pluggable XY stage plugging component is inserted in alignment with and magnetically connected with 2 strong magnets (30) of the connection base, 1 pin hole (31) of the circular support frame and 1 pin hole (32) of the diamond-shaped support frame respectively through 2 strong magnets (27) of the total support frame, 1 circular positioning pin (28) of the total support frame and 1 diamond-shaped positioning pin (29) of the total support frame installed on the support frame H (8).

6. Use of a pluggable XY stage, comprising:

installing pluggable XY object stages on microscope arms of different specifications;

can be plugged and pulled for use after being installed.

7. The use of claim 6, wherein the mounting of the pluggable XY stage on microscope arms of different specifications comprises:

installing connecting seats of a pluggable XY objective table on microscope arms of different specifications through 2 connecting seat positioning pins (12) and 4 connecting seat movable connecting bolts (14) which are installed at the rear end of a connecting base (13);

2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond-shaped positioning pin (29) which are arranged on a main support frame of the objective table plugging component are aligned, inserted and magnetically connected with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond-shaped positioning pin hole (32) which are connected to the front end of a connecting base (13) on a microscope arm, and then the objective table is used.

8. The application of claim 6, wherein the device can be plugged and unplugged after being installed, and specifically comprises:

the method comprises the following steps that (1) a pluggable general support frame of an XY objective table is pulled out from 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond positioning pin hole (32) at the front end of a connecting base (13);

2 main support frame strong magnets (27), 1 main support frame round positioning pin (28) and 1 main support frame diamond-shaped positioning pin (29) which are arranged on a main support frame of an objective table plugging component pulled out from a connecting seat are aligned, inserted and magnetically connected with 2 connecting seat strong magnets (30), 1 round positioning pin hole (31) and 1 diamond-shaped positioning pin hole (32) at the front end of a connecting base (13) respectively for use of the objective table.

Images