CN105277487A

CN105277487A - Metallographic analysis method

Info

Publication number: CN105277487A
Application number: CN201510629967.0A
Authority: CN
Inventors: 张义勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-09-29
Filing date: 2015-09-29
Publication date: 2016-01-27

Abstract

The invention discloses a metallographic analysis method. A liquid crystal display mechanism and a microscopic observation mechanism are arranged to form one body, a rotating workbench is arranged to improve the metallographic analysis convenience, and a plurality of metallographic structures to be analyzed are respectively put in station grooves; the observation angle and the observation distance of the microscopic observation mechanism are adjusted to make object lenses correspond to the metallographic structures to be analyzed in the station grooves; a liquid crystal display is adjusted to an appropriate observation angle; the fine adjustment and coarse adjustment are adjusted according to analysis needs to carry out metallographic analysis; and the rotating workbench is rotated to analyze different samples. The metallographic analysis method solves a problem that present metallographic analyzers must by connected with a computer in the use process, greatly improves the use convenience of the metallographic analyzers, and accords with market demands; and the design of the rotating workbench avoids raising of ocular lenses in the discharge process, so the monitoring analysis time is greatly shortened, and modernized large-batch production demands are met.

Description

A kind of metallographic analysing method

Technical field

The present invention relates to metal inside fabric analysis field, be specially a kind of metallographic analysing method.

Background technology

Existing metallographic examination instrument often needs to be combined with computer, limit the environment for use of metallographic examination instrument, and need to lift eyepiece during each blowing of existing metallographic examination instrument, sometimes also eyepiece can be broken, substantially prolongs detection time, the restriction of its environment for use and the restriction of detection time, make it be difficult to adapt to the demand of modernization production in enormous quantities.

Summary of the invention

The object of the present invention is to provide a kind of metallographic analysing method, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the invention provides following technical scheme: a kind of metallographic analysing method, is characterized in that: liquid crystal display mechanism and microscopic observation mechanism are wholely set, and set up rotary table, improve metallographic examination convenience, its concrete analysis step is:

Step one: the station groove multiple metallographic structure to be analyzed being put into respectively rotary table;

Step 2: by observation angle, the distance of the dove-tail form guide rail adjustment microscopic observation mechanism of slipping mechanism, make object lens corresponding with the metallographic structure to be analyzed in station groove on rotary table;

Step 3: adjustment is hingedly coupled to the liquid crystal display of the liquid crystal display mechanism of supporting mechanism crossbeam rear end to suitable observation angle;

Step 4: need to adjust the burnt spiral of thin standard of slipping mechanism according to analyzing, thick accurate burnt spiral carries out metallographic examination;

Step 5: the panoramic table rotating rotary table carries out the analysis of different sample successively.

Preferably, described rotary table is connected in the back up pad of supporting mechanism by back shaft, described microscopic observation mechanism is fixed on the inside of slipping mechanism, the objective lens parts of described microscopic observation mechanism can Relative sliding mechanism rotate, described slipping mechanism is connected to the front end of the crossbeam of supporting mechanism by dove-tail form guide rail, described liquid crystal display mechanism is hinged through the hinge to the rear end of the crossbeam of supporting mechanism, and described liquid crystal display mechanism can rotate around hinge.

Preferred further, described rotary table comprises back shaft, station groove and panoramic table, and described back shaft is welded in back up pad, and there are six axial grooves on described back shaft top, and described panoramic table is connected to the top of back shaft by bearing.

Preferred further, described microscopic observation mechanism comprises eyepiece, optical tube length adjusting knob, lens barrel, turning axle, object lens dish and object lens, described eyepiece is installed on the front end of lens barrel, described turning axle is installed on the bottom of slide unit by bearing, described object lens dish is connected to the bottom of turning axle, and described three object lens become circumferencial direction to be installed on the lower end of object lens dish.

Preferred further, described slipping mechanism comprises dovetail groove, dove-tail form guide rail, thin accurate burnt spiral, slide unit, thick accurate burnt spiral, little axle, gear and tooth bar, the front end in crossbeam opened by described dovetail groove, described slide unit is connected to dovetail groove by dove-tail form guide rail, the burnt spiral of described thin standard is installed on the front end of little axle, described gear is connected on little axle by key, and described tooth bar is connected by screw the rear end in slide unit, described gear and tooth bar engagement.

Preferred further, described liquid crystal display mechanism comprises liquid crystal display, input USB, exports USB and hinge, described liquid crystal display is hinged through the hinge to the rear end of crossbeam, and described input USB and output USB are positioned at the right side of liquid crystal display.

Preferred further, described supporting mechanism comprises crossbeam, column and back up pad, and described crossbeam and column are made into integration, and described column is welded in the rear end of back up pad.

Compared with prior art, the invention has the beneficial effects as follows: the liquid crystal display mechanism of this metallographic examination instrument can rotate around hinge, regulate viewing angle, the LCDs of this metallographic examination instrument and metallographic examination instrument one simultaneously, solve existing metallographic examination instrument must be connected with computer use a difficult problem, substantially increase the convenience of the use of metallographic examination instrument, the design of its rotary table, need to lift eyepiece when avoiding each blowing, substantially reduce the time of monitoring analysis, meet the demand that modernization is produced in enormous quantities.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is slide unit cut-open view of the present invention;

Fig. 3 is partial enlarged drawing of the present invention.

In figure: 1 rotary table, 2 microscopic observation mechanisms, 3 slipping mechanisms, 4 liquid crystal display mechanisms, 5 supporting mechanisms, 101 back shafts, 102 station grooves, 103 panoramic tables, 201 eyepieces, 202 optical tube length adjusting knobs, 203 lens barrels, 204 turning axles, 205 object lens dishes, 206 object lens, 301 dovetail grooves, 302 dove-tail form guide rails, 303 thin accurate burnt spirals, 304 slide units, 305 thick accurate burnt spirals, 306 little axles, 307 gears, 308 tooth bars, 401 liquid crystal display, 402 input USB, 403 export USB, 404 hinges, 501 crossbeams, 502 columns, 503 back up pads.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.

Refer to Fig. 1-3, the invention provides following technical scheme: liquid crystal display mechanism 4 and microscopic observation mechanism 2 are wholely set, and set up rotary table 1, improve metallographic examination convenience, its concrete analysis step is:

Step one: the station groove 102 multiple metallographic structure to be analyzed being put into respectively rotary table 1;

Step 2: the observation angle, the distance that are adjusted microscopic observation mechanism 2 by the dove-tail form guide rail 302 of slipping mechanism 3, makes object lens 206 corresponding with the metallographic structure to be analyzed in station groove 102 on rotary table 1;

Step 3: adjustment is hingedly coupled to the liquid crystal display 401 of the liquid crystal display mechanism 4 of supporting mechanism 5 crossbeam 501 rear end to suitable observation angle;

Step 4: need to adjust the burnt spiral of thin standard 303 of slipping mechanism 3 according to analyzing, thick accurate burnt spiral 305 carries out metallographic examination;

Step 5: the panoramic table 103 rotating rotary table 1 carries out the analysis of different sample successively.

Described rotary table 1 comprises back shaft 101, station groove 102 and panoramic table 103, described back shaft 101 is welded in back up pad 503, there are six axial grooves on described back shaft 101 top, described panoramic table 103 is connected to the top of back shaft 101 by bearing, the design of its rotary table 103, need to lift eyepiece when avoiding each blowing, substantially reduce the time of monitoring analysis, described microscopic observation mechanism 2 is fixed on the inside of slipping mechanism 5, comprise eyepiece 201, optical tube length adjusting knob 202, lens barrel 203, turning axle 204, object lens dish 205 and object lens 206, described eyepiece 201 is installed on the front end of lens barrel 203, described turning axle 204 is installed on the bottom of slide unit 304 by bearing, described object lens dish 205 is connected to the bottom of turning axle 204, described three object lens 206 are installed on the lower end of object lens dish 205 with circumferencial direction, described slipping mechanism 3 comprises dovetail groove 301, dove-tail form guide rail 302, the burnt spiral 303 of thin standard, slide unit 304, the burnt spiral 305 of thick standard, little axle 306, gear 307 and tooth bar 308, the front end in crossbeam 501 opened by described dovetail groove 301, described slide unit 304 is connected to dovetail groove 301 by dove-tail form guide rail 302, the burnt spiral of described thin standard 303 is installed on the front end of little axle 306, described gear 307 is connected on little axle 306 by key, described tooth bar 308 is connected by screw the rear end in slide unit 304, described gear 307 and tooth bar 308 engage, described liquid crystal display mechanism 4 comprises liquid crystal display 401, input USB 402, export USB 403 and hinge 404, described liquid crystal display 401 is connected to the rear end of crossbeam 501 by hinge 404, the liquid crystal display 401 of this metallographic examination instrument can rotate around hinge 404, regulate viewing angle, the LCDs of this metallographic examination instrument and metallographic examination instrument one simultaneously, solve existing metallographic examination instrument must be connected with computer use a difficult problem, substantially increase the convenience of the use of metallographic examination instrument, described input USB 402 and output USB 403 are positioned at the right side of liquid crystal display 401, described supporting mechanism 5 comprises crossbeam 501, column 502 and back up pad 503, described crossbeam 501 and column 502 are made into integration, described column 502 is welded in the rear end of back up pad 503.

Although illustrate and describe embodiments of the invention, for the ordinary skill in the art, be appreciated that and can carry out multiple change, amendment, replacement and modification to these embodiments without departing from the principles and spirit of the present invention, scope of the present invention is by claims and equivalents thereof.

Claims

1. a metallographic analysing method, is characterized in that: liquid crystal display mechanism (4) and microscopic observation mechanism (2) are wholely set, and set up rotary table (1), improve metallographic examination convenience, and its concrete analysis step is:

Step one: the station groove (102) multiple metallographic structure to be analyzed being put into respectively rotary table (1);

Step 2: by observation angle, the distance of the dove-tail form guide rail (302) adjustment microscopic observation mechanism (2) of slipping mechanism (3), makes the metallographic structure to be analyzed in the upper station groove (102) of object lens (206) and rotary table (1) corresponding;

Step 3: adjustment is hingedly coupled to the liquid crystal display (401) of the liquid crystal display mechanism (4) of supporting mechanism (5) crossbeam (501) rear end to suitable observation angle;

Step 4: need the burnt spiral of thin standard (303), the thick accurate burnt spiral (305) adjusting slipping mechanism (3) to carry out metallographic examination according to analysis;

Step 5: the panoramic table (103) rotating rotary table (1) carries out the analysis of different sample successively.

2. metallographic analysing method according to claim 1, it is characterized in that: described rotary table (1) is connected in the back up pad (503) of supporting mechanism (5) by back shaft (101), described microscopic observation mechanism (2) is fixed on the inside of slipping mechanism (5), the objective lens parts of described microscopic observation mechanism (2) can Relative sliding mechanism (3) rotate, described slipping mechanism (3) is connected to the front end of the crossbeam (501) of supporting mechanism (5) by dove-tail form guide rail (302), described liquid crystal display mechanism (4) is connected to the rear end of the crossbeam (501) of supporting mechanism (5) by hinge (404), described liquid crystal display mechanism (4) can rotate around hinge (404).

3. metallographic analysing method according to claim 2, it is characterized in that: described rotary table (1) comprises back shaft (101), station groove (102) and panoramic table (103), described back shaft (101) is welded in back up pad (503), there are six axial grooves on described back shaft (101) top, and described panoramic table (103) is connected to the top of back shaft (101) by bearing.

4. metallographic analysing method according to claim 2, it is characterized in that: described microscopic observation mechanism (2) comprises eyepiece (201), optical tube length adjusting knob (202), lens barrel (203), turning axle (204), object lens dish (205) and object lens (206), described eyepiece (201) is installed on the front end of lens barrel (203), described turning axle (204) is installed on the bottom of slide unit (304) by bearing, described object lens dish (205) is connected to the bottom of turning axle (204), described three object lens (206) become circumferencial direction to be installed on the lower end of object lens dish (205).

5. metallographic analysing method according to claim 2, it is characterized in that: described slipping mechanism (3) comprises dovetail groove (301), dove-tail form guide rail (302), the burnt spiral of thin standard (303), slide unit (304), the burnt spiral of thick standard (305), little axle (306), gear (307) and tooth bar (308), the front end in crossbeam (501) opened by described dovetail groove (301), described slide unit (304) is connected to dovetail groove (301) by dove-tail form guide rail (302), the burnt spiral of described thin standard (303) is installed on the front end of little axle (306), described gear (307) is connected on little axle (306) by key, described tooth bar (308) is connected by screw the rear end in slide unit (304), described gear (307) and tooth bar (308) engagement.

6. metallographic analysing method according to claim 2, it is characterized in that: described liquid crystal display mechanism (4) comprises liquid crystal display (401), input USB (402), exports USB (403) and hinge (404), described liquid crystal display (401) is connected to the rear end of crossbeam (501) by hinge (404), and described input USB (402) and output USB (403) are positioned at the right side of liquid crystal display (401).

7. metallographic analysing method according to claim 2, it is characterized in that: described supporting mechanism (5) comprises crossbeam (501), column (502) and back up pad (503), described crossbeam (501) and column (502) are made into integration, and described column (502) is welded in the rear end of back up pad (503).