CN109894976B - Diamond tool sand feeding micro-sizing device capable of detecting in real time - Google Patents

Abstract

The invention provides a diamond tool sand feeding micro-finishing device capable of detecting in real time, which comprises a rotary structure type diamond tool, a workbench, and a real-time detection assembly and a sand feeding micro-finishing assembly which are arranged on the workbench, wherein the real-time detection assembly comprises: the display screen, the digital amplifying microscope and the light source are fixedly arranged on the universal telescopic bracket, and the output end of the digital amplifying microscope is connected with the input end of the display screen; the sanding micro-trimming assembly comprises a clamping assembly, a radial trimming assembly capable of trimming along the radial direction of the diamond tool and an axial trimming assembly capable of trimming along the axial direction of the diamond tool, wherein the clamping assembly clamps the diamond tool, and the radial trimming assembly and the axial trimming assembly are arranged opposite to the clamping assembly.

Description

Diamond tool sand feeding micro-sizing device capable of detecting in real time

Technical Field

The invention relates to the technical field of superhard abrasive tool manufacturing, in particular to a diamond tool sand feeding micro-finishing device capable of detecting in real time.

Background

Diamond, because of its excellent and stable physical and chemical properties, makes diamond tools an indispensable effective tool for processing hard and brittle materials. The diamond tool prepared by the brazing process has high holding force on diamond, high diamond exposure, strong sharpness and long service life in actual operation, so that the diamond tool becomes a novel diamond tool product. In the current practical production, the brazing diamond tool needs to be subjected to sanding micro-finishing, wherein the sanding micro-finishing refers to slightly finishing diamond particles after the diamond tool finishes sanding. The sanding micro-finishing process of the diamond tool is mainly finished through manual operation, so that the produced diamond tool has unstable diamond contour and appearance, the processed workpiece has poor surface quality, and the sanding micro-finishing for a long time has great damage to the eyesight of workers. Among diamond tools, rotary structural diamond tools are common, so that mechanical sanding micro-finishing of the rotary structural diamond tools is realized, the produced brazed diamond tools are ensured to have stable diamond contour, and great significance is achieved.

In view of this, the present inventors have made intensive studies on the need for a sanding micro-finishing process for a rotary structure type diamond tool, and have produced the present invention.

Disclosure of Invention

The invention aims to provide a diamond tool sand feeding micro-finishing device capable of detecting in real time so as to realize mechanized sand feeding micro-finishing of a rotary structure type diamond tool.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a little integer device of sand on diamond instrument that can real-time detection, includes rotary structure's diamond instrument, workstation and locates real-time detection subassembly and little integer subassembly of sand on the workstation, real-time detection subassembly includes: the display screen, the digital amplifying microscope and the light source are fixedly arranged on the universal telescopic bracket, and the output end of the digital amplifying microscope is connected with the input end of the display screen; the sanding micro-trimming assembly comprises a clamping assembly, a radial trimming assembly capable of trimming along the radial direction of the diamond tool and an axial trimming assembly capable of trimming along the axial direction of the diamond tool, wherein the clamping assembly clamps the diamond tool, and the radial trimming assembly and the axial trimming assembly are arranged opposite to the clamping assembly.

Further, the radial trimming assembly comprises a radial motor, a radial mounting seat and a radial trimming block, the radial motor and the radial mounting seat are fixedly arranged on the workbench, the radial mounting seat is connected with the radial motor, a radial sliding block capable of moving back and forth along the radial direction of the diamond tool is arranged on the radial mounting seat, and the radial trimming block is fixedly arranged on the radial sliding block.

Further, the axial trimming assembly comprises an axial motor, an axial mounting seat and an axial trimming block, the axial motor and the axial mounting seat are fixedly arranged on the workbench, the axial mounting seat is connected with the axial motor, an axial sliding block capable of moving back and forth along the axial direction of the diamond tool is arranged on the axial mounting seat, and the axial trimming block is fixedly arranged on the axial sliding block.

Further, the clamping assembly comprises a moving track, a lifting moving chassis with a lifting moving station, a clamping motor and a universal chuck, wherein the moving track is fixedly arranged on the workbench, the lifting moving chassis is slidably connected to the moving track, the clamping motor is fixedly arranged on the lifting moving chassis, the universal chuck is connected with an output shaft of the clamping motor, and the universal chuck clamps the diamond tool.

Further, the lifting movement chassis comprises a fixed end and a movable end which can be turned over relatively, a connecting part is arranged between the movable end and the fixed end, the movable end turns over relative to the fixed end at the center of the connecting part, the fixed end is connected to the movement track, and the movable end is provided with the clamping motor.

Further, the connecting portion comprises a driving gear rotationally connected with the fixed end, a driven gear fixedly connected with the movable end, and a rotating shaft capable of being rotationally connected with the fixed end and the movable end respectively, the fixed end and the movable end are hinged through the rotating shaft, the driving gear is meshed with the driven gear, and the driving gear is connected with a motor.

Further, the display screen, the digital amplification microscope and the light source are fixedly arranged on the universal telescopic bracket, the universal telescopic bracket comprises a vertical rod, an upper fixed end and a lower fixed end, the vertical rod is fixedly arranged on the workbench, the display screen is fixedly arranged on the upper fixed end, the digital amplification microscope is fixedly arranged on the lower fixed end, and the light source is annularly arranged at the shell of the digital amplification microscope.

Further, the upper end of the vertical rod is sleeved with an upper movable locking block, one end of the upper movable locking block is fixedly provided with an upper cross rod which is vertical to the vertical rod and can rotate relative to the upper movable locking block, the upper fixed end is located on the upper cross rod, the lower end of the vertical rod is sleeved with a lower movable locking block, the lower movable locking block is inserted with a lower cross rod which is vertical to the vertical rod, the upper movable locking block and the lower movable locking block are respectively provided with a locking structure for fixing the lower movable locking block to the vertical rod, the lower movable locking block is also provided with a locking structure for fixing the lower cross rod, and the lower fixed end is connected to the lower cross rod.

Further, one end of the lower cross rod is sleeved with an end movable locking block, the lower end of the end movable locking block is fixedly provided with an adjusting rod parallel to the vertical rod, the lower end of the adjusting rod is sleeved with an adjusting movable locking block, and the adjusting movable locking block is provided with a lifting device; the lifting device comprises a lifting rod which is parallel to the adjusting rod and movably connected with the adjusting movable locking block, a clamping rod which is perpendicular to the lifting rod and fixed at the upper end of the lifting rod, a clamp for clamping the digital amplification microscope is arranged on the clamping rod, a rack is fixedly arranged on one surface of the clamping end of the clamp, opposite to the adjusting movable locking block, a gear meshed with the rack is arranged on the adjusting movable locking block, the adjusting movable locking block and the lifting rod are movably connected through the rack and the gear, and the lifting device further comprises an adjusting knob which is arranged on the adjusting movable locking block and synchronously rotates with the gear.

Further, the display screen is electrically connected with the electronic computer, and the input end of the light source is connected with the output end of the electronic computer; the radial trimming assembly and the axial trimming assembly are fixedly connected to the fixing plate, and the fixing plate is fixedly connected with the workbench.

By adopting the technical scheme, the sand feeding micro-finishing device for the diamond tool, which can be used for detecting in real time, detects and displays the working area of the diamond tool in real time by arranging the real-time detection assembly, and trims the working area of the diamond tool by the sand feeding micro-finishing assembly; the diamond tool sand feeding micro-finishing device capable of detecting in real time is convenient to operate when the diamond tool is subjected to sand feeding micro-finishing, and the digital amplification microscope detection image is displayed through the display screen to be more convenient to observe, so that the sand feeding micro-finishing device is beneficial to improving the accuracy of sand feeding micro-finishing, and meanwhile, the mechanical sand feeding micro-finishing of the rotary structure type diamond tool is realized.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic structural view of the sand dressing assembly of the present invention;

FIG. 3 is a schematic cross-sectional view of a lifting chassis according to the present invention;

FIG. 4 is a schematic structural diagram of a real-time detection assembly according to the present invention;

FIG. 5 is a schematic view of another angle of the real-time detection assembly according to the present invention.

Description of the reference numerals:

diamond tool 1 workbench 2

Digital magnifying microscope 32 of display screen 31

Universal telescopic support 34 for light source 33

Protruding block 3411 of vertical rod 341

Upper movable lock piece 342 upper cross bar 343

Lower movable locking piece 344 and lower cross bar 345

End movable lock 346 adjustment rod 347

Adjusting the lifting device 349 of the movable lock 348

Lifting rod 3491 and clamping rod 3492

Adjusting knob 3493

Clamping assembly 41 moves rail 411

Lifting and moving chassis 412

Fixed end 4121 and movable end 4122

The driving gear 4123 is driven gear 4124

Clamping motor 413

Universal chuck 414 radial trim assembly 42

Radial motor 421 radial mount 422

Radial dressing block 423 axial dressing assembly 43

Axial motor 431 axial mount 432

Axial trimming block 433

Fixing plate 5

Detailed Description

For further explanation of the technical scheme of the present invention, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

The invention relates to a sand feeding micro-finishing device of a diamond tool, which can detect in real time, as shown in figures 1 to 5, and comprises a diamond tool 1 with a rotary structure, a workbench 2, and a real-time detection assembly and a sand feeding micro-finishing assembly which are arranged on the workbench 2, wherein the real-time detection assembly comprises: the display screen 31, the digital amplification microscope 32, the light source 33 and the universal telescopic bracket 34 are fixedly arranged on the workbench 2, the display screen 31, the digital amplification microscope 32 and the light source 33 are fixedly arranged on the universal telescopic bracket 34, and the output end of the digital amplification microscope 32 is connected with the input end of the display screen 31; the sanding micro-assembly comprises a clamping assembly 41, a radial trimming assembly 42 capable of trimming along the radial direction of the diamond tool 1 and an axial trimming assembly 43 capable of trimming along the axial direction of the diamond tool 1, the clamping assembly 41 clamps the diamond tool 1, and the radial trimming assembly 42 and the axial trimming assembly 43 are arranged opposite to the clamping assembly 41.

According to the diamond tool sand feeding micro-finishing device capable of detecting in real time, the real-time detection assembly is arranged to detect and display the working area of the diamond tool 1 in real time, and then the working area of the diamond tool 1 is finished through the sand feeding micro-finishing assembly; the diamond tool sand feeding micro-finishing device capable of detecting in real time is convenient to operate when the diamond tool 1 is subjected to sand feeding micro-finishing, the detection image of the digital amplification microscope 32 is displayed through the display screen 31 to be more convenient to observe, the sand feeding micro-finishing accuracy is improved, and meanwhile the mechanical sand feeding micro-finishing of the rotary structure type diamond tool 1 is realized.

A fixing plate 5 is further arranged between the radial trimming assembly 42 and the axial trimming assembly 43 and the workbench 2, the radial trimming assembly 42 and the axial trimming assembly 43 are fixedly connected to the fixing plate 5, and the fixing plate 5 is fixedly connected with the workbench 2.

The fixing plate 5 is arranged to facilitate the integral disassembly of the radial trimming assembly 42 and the axial trimming assembly 43; meanwhile, the abrasion to the workbench 2 during the disassembly of the radial trimming assembly 42 and the axial trimming assembly 43 can be avoided, and the service life of the workbench 2 is prolonged;

the radial trimming assembly 42 comprises a radial motor 421, a radial mounting seat 422 and a radial trimming block 423, the radial motor 421 and the radial mounting seat 422 are fixedly arranged on the fixed plate 5, the radial mounting seat 422 is connected to the shell of the radial motor 421, a radial sliding block capable of moving back and forth along the radial direction of the diamond tool 1 is arranged on the radial mounting seat 422, and the radial trimming block 423 is fixedly arranged on the radial sliding block.

The axial trimming assembly 43 comprises an axial motor 431, an axial mounting seat 432 and an axial trimming block 433, the axial motor 431 and the axial mounting seat 432 are fixedly arranged on the fixed plate 5, the axial mounting seat 432 is connected to the outer shell of the axial motor 431, an axial sliding block capable of moving back and forth along the axial direction of the diamond tool 1 is arranged on the axial mounting seat 432, and the axial trimming block 433 is fixedly arranged on the axial sliding block.

Preferably, a conventional lead screw nut assembly is mounted on the radial mount 422, wherein a radial slide is fixedly disposed on the nut; a conventional lead screw nut assembly is also mounted on the axial mount 432 with an axial slide secured to the nut.

The clamping assembly 41 comprises a moving rail 411, a lifting moving chassis 412 with a lifting movable station, a clamping motor 413 and a universal chuck 414, wherein the moving rail 411 is fixedly arranged on the workbench 2, and the lifting moving chassis 412 is connected to the moving rail 411 in a sliding manner. The lifting chassis 412 includes a fixed end 4121 and a movable end 4122 that can be turned over relatively, a connection portion is provided between the movable end 4122 and the fixed end 4121, the movable end 4122 turns over with respect to the fixed end 4121 with the connection portion as a center, the fixed end 4121 is connected to the moving rail 411, and the movable end 4122 is provided with a clamp motor 413. The connection part includes a driving gear 4123 rotatably connected to the fixed end 4121, a driven gear 4124 fixedly connected to the movable end 4122, and a rotation shaft rotatably connected to the fixed end 4121 and the movable end 4122, respectively, through which the fixed end 4121 and the movable end 4122 are hinged. The driving gear 4123 meshes with the driven gear 4124, and a conventional motor is connected to the driving gear 4123.

The motor connected to the driving gear 4123 is powered to drive the driving gear 4123 to rotate, the driving gear 4123 further transmits power to the driven gear 4124, and the driven gear 4124 is fixedly connected with the movable end 4122, so that the driven gear 4124 rotates and simultaneously drives the movable end 4122 to synchronously rotate. The movable end 4122 is turned over with respect to the fixed end 4121 centering on the connecting portion.

The clamping motor 413 is fixedly arranged on the lifting and moving chassis 412, the universal chuck 414 is connected with the output shaft of the clamping motor 413, and the universal chuck 414 clamps the diamond tool 1.

The turning angle and position of the diamond tool 1 are adjusted by adjusting the turning angle and position of the movable end 4122 of the lifting movement chassis 412 and further adjusting the angle and position of the clamping electric output shaft relative to the table 2. So as to facilitate the real-time detection of the profile shapes of different angles and different poses of the working area of the diamond tool 1. The position of the clamping electric output shaft relative to the workbench 2 is further adjusted by adjusting the position of the lifting moving chassis 412 on the moving track 411, so that the positions of the universal chuck 414 relative to the radial trimming assembly 42 and the axial trimming assembly 43 are adjusted to meet the requirement of real-time detection of diamond tools 1 with different lengths.

The display screen 31, the digital amplifying microscope 32 and the light source 33 are fixedly arranged on the universal telescopic bracket 34, the universal telescopic bracket 34 comprises an upright rod 341, an upper fixed end 4121 and a lower fixed end 4121, the upright rod 341 is fixedly arranged on the workbench 2, the display screen 31 is fixedly arranged on the upper fixed end 4121, the digital amplifying microscope 32 is fixedly arranged on the lower fixed end 4121, and the light source 33 is annularly arranged at the shell of the digital amplifying microscope 32. The connection part of the vertical rod 341 and the workbench 2 is outwards extended with a bump 3411, and the bump 3411 can increase the contact area of the vertical rod 341 and the workbench 2 so as to improve the connection stability between the vertical rod 341 and the workbench 2.

The upper end of the vertical rod 341 is sleeved with an upper movable lock block 342, one end of the upper movable lock block 342 is fixedly provided with an upper cross rod 343 which is vertical to the vertical rod 341 and can rotate relative to the upper movable lock block 342, and the upper fixed end 4121 is positioned on the upper cross rod 343. The upper movable lock piece 342 is provided with a locking structure for fixing itself to the vertical rod 341.

The display 31 is rotated around the vertical rod 341 by rotating the upper cross bar 343 around the vertical rod 341; the display screen 31 is moved up and down along the vertical bar 341 by sliding up and down around the vertical bar 341 by the upper cross bar 343; the display screen 31 can turn over itself by rotating the upper cross bar 343 relative to the upper movable lock piece 342.

The lower end of the vertical rod 341 is sleeved with a lower movable locking piece 344, the lower movable locking piece 344 is inserted with a lower cross rod 345 perpendicular to the vertical rod 341, a locking structure for fixing the lower movable locking piece 344 on the vertical rod 341 is arranged on the lower movable locking piece 344, a locking structure for fixing the lower cross rod 345 is also arranged on the lower movable locking piece 344, and a lower fixing end 4121 is connected to the lower cross rod 345.

The digital amplification microscope 32 rotates around the vertical rod 341 by rotating the lower cross rod 345 around the vertical rod 341; the digital magnification microscope 32 is moved up and down along the upright 341 by sliding the lower cross bar 345 up and down around the upright 341.

One end of the lower cross bar 345 is sleeved with an end movable locking block 346, the lower end of the end movable locking block 346 is fixedly provided with an adjusting rod 347 parallel to the vertical rod 341, the lower end of the adjusting rod 347 is sleeved with an adjusting movable locking block 348, and the adjusting movable locking block 348 is provided with a lifting device 349.

The lifting device 349 comprises a lifting rod 3491 which is parallel to the adjusting rod 347 and is movably connected with the adjusting movable locking block 348, a clamping rod 3492 which is perpendicular to the lifting rod 3491 and is fixed at the upper end of the lifting rod 3491, the clamping rod 3492 is provided with a conventional clamp for clamping the digital amplifying microscope 32, and the clamping end of the clamp is the lower fixed end. A rack is fixedly arranged on one surface of the lifting rod 3491 opposite to the adjusting movable locking block 348, a gear meshed with the rack is arranged on the adjusting movable locking block 348, and the adjusting movable locking block 348 is movably connected with the lifting rod 3491 through the rack and the gear. The elevating device 349 further includes an adjusting knob 3493 provided on the adjusting movable lock 348 to rotate in synchronization with the gear.

The rotation of the adjusting knob 3493 is converted into the up-and-down movement of the lifting rod 3491, namely the lifting movement of the clamping rod 3492 through the rotation of the adjusting knob 3493 driving the gear to rotate and the transmission of the gear and the rack.

The adjustable distance of the digital amplification microscope 32 is increased through the connection of the lower cross rod 345, the adjusting rod 347, the adjusting movable lock block 348 and the lifting device 349; by providing the elevating device 349, the operator can realize the fine adjustment function when the digital magnifying microscope 32 moves up and down along with the elevating rod 3491 by rotating the adjusting knob 3493.

Therefore, the universal telescopic bracket 34 can realize the telescopic operation of the digital amplifying microscope 32 in 360 degrees in space, and can adjust the lifting position and the pose of the digital amplifying microscope 32.

The invention relates to a diamond tool sand-feeding micro-finishing device capable of detecting in real time, which also comprises an electronic computer, wherein a display screen 31 is electrically and mechanically connected with the electronic computer, and the input end of a light source 33 is connected with the output end of the electronic computer.

When real-time detection is performed: firstly, mounting the diamond tool 1 on the universal chuck 414, and then adjusting the universal telescopic bracket 34 to enable the digital amplifying microscope 32 to be just positioned in the working area of the diamond tool 1; the outline morphology of the diamond tool 1 is detected in real time through the digital amplification microscope 32, information is transmitted to the display screen 31, an electronic computer connected with the display screen 31 can analyze the information detected by the digital amplification microscope 32, elements such as points, lines, circles, distances and angles of the diamond tool 1 are measured, measurement data are displayed in real time, and real-time monitoring guidance is provided for sand dressing and finishing of the diamond tool 1.

When the diamond tool 1 is modified, the position of the radial modification block 423 is controlled by the radial motor 421 to adjust the relative position of the radial modification block 423 and the working area of the diamond tool 1. After the clamping motor 413 is started to drive the diamond tool 1 to rotate, the radial trimming block 423 is gradually close to the working area of the diamond tool 1, and the radial trimming block 423 gradually polishes the working area of the diamond tool 1, so that trimming on the radial direction of the diamond tool 1 is realized.

The axial trimming block 433 is controlled to be positioned through the axial motor 431 so as to adjust the relative position of the axial trimming block 433 and the working area of the diamond tool 1, and after the clamping motor 413 is started to drive the diamond tool 1 to rotate, the axial trimming block 433 is gradually close to the working area of the diamond tool 1, and the axial trimming block 433 gradually polishes the working area of the diamond tool 1, so that trimming of the diamond tool 1 in the axial direction is realized.

The present invention has been described in detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited to the above embodiments, and those skilled in the art can make various modifications to the present invention according to the prior art, which fall within the scope of the present invention.

Claims (3)

1. Sand micro-finishing device on diamond instrument that can real-time detection, its characterized in that: including rotary structure's diamond instrument, workstation and locate real-time detection subassembly and the little whole subassembly of sand of going up on the workstation, real-time detection subassembly includes: the display screen, the digital amplifying microscope and the light source are fixedly arranged on the universal telescopic bracket, and the output end of the digital amplifying microscope is connected with the input end of the display screen; the sanding micro-trimming assembly comprises a clamping assembly, a radial trimming assembly and an axial trimming assembly, wherein the radial trimming assembly can trim along the radial direction of the diamond tool, the axial trimming assembly can trim along the axial direction of the diamond tool, the clamping assembly clamps the diamond tool, and the radial trimming assembly and the axial trimming assembly are arranged opposite to the clamping assembly;

the radial trimming assembly comprises a radial motor, a radial mounting seat and a radial trimming block, wherein the radial motor and the radial mounting seat are fixedly arranged on the workbench, the radial mounting seat is connected with the radial motor, a radial sliding block capable of moving back and forth along the radial direction of the diamond tool is arranged on the radial mounting seat, and the radial trimming block is fixedly arranged on the radial sliding block;

the axial trimming assembly comprises an axial motor, an axial mounting seat and an axial trimming block, the axial motor and the axial mounting seat are fixedly arranged on the workbench, the axial mounting seat is connected with the axial motor, an axial sliding block capable of moving back and forth along the axial direction of the diamond tool is arranged on the axial mounting seat, and the axial trimming block is fixedly arranged on the axial sliding block;

the clamping assembly comprises a moving track, a lifting moving chassis with a lifting moving station, a clamping motor and a universal chuck, wherein the moving track is fixedly arranged on the workbench, the lifting moving chassis is connected to the moving track in a sliding manner, the clamping motor is fixedly arranged on the lifting moving chassis, the universal chuck is connected with an output shaft of the clamping motor, and the universal chuck clamps the diamond tool;

the lifting movable chassis comprises a fixed end and a movable end which can be turned over relatively, a connecting part is arranged between the movable end and the fixed end, the movable end turns over relative to the fixed end by taking the connecting part as the center, the fixed end is connected to the movable track, and the movable end is provided with the clamping motor;

the connecting part comprises a driving gear rotationally connected with the fixed end, a driven gear fixedly connected with the movable end and a rotating shaft rotationally connected with the fixed end and the movable end respectively, the fixed end and the movable end are hinged through the rotating shaft, the driving gear is meshed with the driven gear, and the driving gear is connected with a motor;

the display screen, the digital amplification microscope and the light source are fixedly arranged on the universal telescopic bracket, the universal telescopic bracket comprises a vertical rod, an upper fixed end and a lower fixed end, the vertical rod is fixedly arranged on the workbench, the display screen is fixedly arranged on the upper fixed end, the digital amplification microscope is fixedly arranged on the lower fixed end, and the light source is annularly arranged at the shell of the digital amplification microscope;

the pole setting upper end cover is equipped with movable locking piece, go up movable locking piece one end set firmly with pole setting looks vertically and can be relative go up movable locking piece pivoted last horizontal pole, go up the stiff end and be located go up on the horizontal pole, pole setting lower extreme cover is equipped with movable locking piece down, movable locking piece down alternate have with pole setting looks vertically lower horizontal pole, go up movable locking piece with all be provided with on the movable locking piece down fix its own locking structure in the pole setting, movable locking piece still is provided with down and fixes the locking structure of lower horizontal pole, lower stiff end connect in on the lower horizontal pole.

2. The diamond tool sand dressing device capable of detecting in real time according to claim 1, wherein: an end movable locking block is sleeved at one end of the lower cross rod, an adjusting rod parallel to the vertical rod is fixedly arranged at the lower end of the end movable locking block, an adjusting movable locking block is sleeved at the lower end of the adjusting rod, and a lifting device is arranged on the adjusting movable locking block; the lifting device comprises a lifting rod which is parallel to the adjusting rod and movably connected with the adjusting movable locking block, a clamping rod which is perpendicular to the lifting rod and fixed at the upper end of the lifting rod, a clamp for clamping the digital amplification microscope is arranged on the clamping rod, a rack is fixedly arranged on one surface of the clamping end of the clamp, opposite to the adjusting movable locking block, a gear meshed with the rack is arranged on the adjusting movable locking block, the adjusting movable locking block and the lifting rod are movably connected through the rack and the gear, and the lifting device further comprises an adjusting knob which is arranged on the adjusting movable locking block and synchronously rotates with the gear.

3. The diamond tool sand dressing device capable of detecting in real time according to claim 1, wherein: the display screen is electrically connected with the electronic computer, and the input end of the light source is connected with the output end of the electronic computer; the radial trimming assembly and the axial trimming assembly are fixedly connected to the fixing plate, and the fixing plate is fixedly connected with the workbench.