CN102514375A - Central jet printing device for nondestructive examination - Google Patents
Central jet printing device for nondestructive examination Download PDFInfo
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- CN102514375A CN102514375A CN2011104077846A CN201110407784A CN102514375A CN 102514375 A CN102514375 A CN 102514375A CN 2011104077846 A CN2011104077846 A CN 2011104077846A CN 201110407784 A CN201110407784 A CN 201110407784A CN 102514375 A CN102514375 A CN 102514375A
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- slide bar
- vertical shift
- sensor block
- support body
- screw
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Abstract
The invention relates to a central jet printing device for nondestructive examination, which is formed by combining a jet printing device, a longitudinally moving device and a horizontally moving device, wherein the longitudinally moving device is under manual control, and the horizontally moving device comprises a manual adjustment part and an electric adjustment part. With the movement of a sliding rod assembly, a defect position can be accurately positioned, and both ends of a lever are used as contacts so that the central jet printing device controls a spray head of a liquid storage tank by electrifying and switching off a restoring spring type electromagnet. Liquid in the liquid storage tank has selectable colors, when the electromagnet is electrified, the spray head sprays the liquid to mark a sign, and when the electromagnet is switched off, a spring automatically restores the normal position. The central jet printing device has the advantages that the device is simple in structure, convenient in installation, flexible in use, and low in technique requirement. The jet printing color is selectable and the marks are obvious.
Description
Technical field
The present invention relates to the marking device that a kind of Non-Destructive Testing is used, the center nameplate spraying device of a kind of usefulness that makes marks when relating to a kind of nondestructive inspection defectiveness specifically and taking place.
Background technology
In nondestructive inspection detects; Particularly in X ray real time imagery dynamic detection system, when detecting the object defectiveness, usually require to stamp tangible mark in the defective position of object; To be different from qualified products; So that position and reason to producing defective are searched, improve product technology, improve the qualification rate of product.Make marks with the slate pencil line at present, workpiece must rotate just can do marked, if workpiece does not rotate, then beats not marked.
Summary of the invention
To the weak point of marking aspect in the existing Non-Destructive Testing, the center nameplate spraying device that the present invention provides a kind of and processes simply, conveniently installs, uses Non-Destructive Testing flexibly to use.
Solve the problems of the technologies described above the concrete technical measures of being taked:
The center nameplate spraying device that a kind of Non-Destructive Testing is used; It is characterized in that: combine by nameplate spraying device 1, longitudinal-moving device 2 and Traverse Displacement Unit 3; Wherein: nameplate spraying device 1 is made up of lever 11, anti-attrition cap 12, back-moving spring formula electromagnet 13, transposase 11 4, jar fastener 15, fluid reservoir 16: transposase 11 4 is fixed on the front end of the slide bar assembling 32 in the Traverse Displacement Unit 3; Standing tank fastener 15 on the transposase 11 4, an end of jar fastener 15 is fluid reservoir 16 fixedly, other end fixed reset spring electromagnet 13; The middle of jar fastener 15 connects lever 11 through bearing pin; The contact of lever 11 1 ends is arranged on the top of fluid reservoir 16 shower nozzle buttons, and the other end is positioned at the top of back-moving spring formula electromagnet 13, is fixing anti-attrition cap 12 on the back-moving spring formula electromagnet 13; Longitudinal-moving device 2 is made up of handwheel 21, upper bracket 22, two guide pillars 23, vertical shift piece 24, pole 25, vertical shift leading screw 26, undersettings 27: upper bracket 22, undersetting 27 are used for fixing two guide pillars 23 and vertical shift leading screw 26; Vertical shift leading screw 26 is installed in the middle of two guide pillars 23; Handwheel 21 is installed on the top of vertical shift leading screw 26; Pole 25 is fixed on the vertical shift piece 24; With vertical shift piece 24 together in vertical shift piece 24 two guide pillars 23 in drive lower edge of screw move, Traverse Displacement Unit 3 is installed on the pole 25 in the longitudinal-moving device 2, can be on pole 25 shift position; Traverse Displacement Unit 3 by support body component 31, slide bar assembling 32, screw 33, screw mandrel 34, micromachine 35, driving gear 36, gear end shield 37, driven gear 38, bearing block 39, slide bar positioning sleeve 40, sensor block pull bar 41, two form near switch 42, two sensor block guide posts 43, sensor blocks 44: screw mandrel 34 is installed in support body component 31; Screw 33 on the screw mandrel 34 links together with slide bar assembling 32; The front end of support body component 31 is being fixed bearing block 39; The slide bar positioning sleeve 40 that has square hole is being fixed in the rear end, and micromachine 35 is housed on the bearing block 39, on the axle of micromachine 35 driving gear 36 is housed; Driving gear 36 is meshed with driven gear 38; Driven gear 38 links together with support body component 31 interior screw mandrels 34, and driving gear 36 is equipped with gear end shield 37 with the outside of driven gear 38, on support body component 31, fixes two respectively near switch 42; Two sensor block guide posts 43 are housed on the support body component 31; One end of sensor block pull bar 41 is sensor block 44 fixedly, and the other end is fixed on the front end side of slide bar assembling 32, and sensor block 44 moves in company with slide bar assembling 32 between two sensor block guide posts 43 together.
Beneficial effect of the present invention: the present invention is combined by nameplate spraying device, longitudinal-moving device and Traverse Displacement Unit, and is simple in structure, uses flexibly, and easy for installation, specification requirement is not high, and spray mark color is optional, and sign obviously.Through moving of slide bar assembly parts, can carry out accurate in locating to defective locations, the two ends that utilize lever are as the contact, and energising and outage through back-moving spring formula electromagnet can realize the control to the fluid reservoir shower nozzle.The color of liquid is optional in the fluid reservoir, and during energising, shower nozzle ejection liquid marks, and during outage, spring sets back automatically.
Description of drawings
Fig. 1 is a structural representation of the present invention;
Fig. 2 is the scheme of installation of sensor block among the present invention.
The specific embodiment
Below in conjunction with accompanying drawing the present invention is elaborated.
The center nameplate spraying device that a kind of Non-Destructive Testing is used; Combine by nameplate spraying device 1, longitudinal-moving device 2 and Traverse Displacement Unit 3 three parts; Longitudinal-moving device is manually control; Traverse Displacement Unit 3 not only can laterally move in electronic control, but also manual adjustment laterally moves, and it is to lean on moving on the pole 25 of support body component 31 in longitudinal-moving device 2 in the Traverse Displacement Unit 3 to realize that manual adjustment laterally moves.Generally speaking, after adjusting when manual adjustment is partly installed, do not need to have adjusted again.Electronic adjustment member need be controlled adjustment at any time in testing process; Through moving of the assembling of the slide bar in the Traverse Displacement Unit 3 32; Can carry out accurate in locating to defective locations; The two ends that utilize lever through the energising and the outage of back-moving spring formula electromagnet, are realized the control to the fluid reservoir shower nozzle as the contact.The color of liquid is optional in the fluid reservoir, and during energising, shower nozzle ejection liquid marks, and during outage, spring sets back automatically.
Its concrete structure such as Fig. 1, shown in Figure 2, it is made up of nameplate spraying device 1, longitudinal-moving device 2 and Traverse Displacement Unit 3, and wherein: nameplate spraying device 1 is made up of lever 11, anti-attrition cap 12, back-moving spring formula electromagnet 13, transposase 11 4, jar fastener 15, fluid reservoir 16.Transposase 11 4 is fixed on the front end of slide bar assembling 32 of Traverse Displacement Unit 3, and through bolt jar fastener 15, jar direction of fastener 15 on transposase 11 4 can be adjusted on the transposase 11 4, adjust to the position that needs after, use bolted.One end of jar fastener 15 is fluid reservoir 16 fixedly, other end fixed reset spring electromagnet 13, and the back-moving spring formula electromagnet 13 that we select for use is the back-moving spring formula electromagnet GS30/57 pushing-type of DC24V.The middle of jar fastener 15 connects lever 11 through bearing pin, and the contact of lever 11 1 ends is arranged on the top of fluid reservoir 16 shower nozzle buttons, and the other end is positioned at the top of back-moving spring formula electromagnet 13, is fixing anti-attrition cap 12 on the back-moving spring formula electromagnet 13.During energising, back-moving spring formula electromagnet 13 drives anti-attrition caps 12 and releases, and an end that promotes lever 11 lifts, and the other end of lever 11 falls simultaneously, by on the shower nozzle button of fluid reservoir 16, makes fluid reservoir 16 ejection liquid, marks at the defective locations of workpiece.
Longitudinal-moving device 2 is made up of handwheel 21, upper bracket 22, two guide pillars 23, vertical shift piece 24, pole 25, vertical shift leading screw 26, undersettings 27.Upper bracket 22, undersetting 27 are used for fixing two guide pillars 23 and vertical shift leading screw 26; Vertical shift leading screw 26 is installed in the middle of two guide pillars 23, and vertical shift leading screw 26 is that the diameter of Tr16 * 4, two guide pillar 23 is the feed rod of φ 40; Handwheel 21 is installed on the top of vertical shift leading screw 26; The pole 25 of φ 20 is fixed on the vertical shift piece 24, with vertical shift piece 24 together in vertical shift piece 24 two guide pillars 23 in drive lower edge of screw move lengthwise position that can regulated at will fluid reservoir 16; Under the normal condition, adjust behind the position no longer moving it.
Traverse Displacement Unit 3 is installed on the pole 25 in the longitudinal-moving device 2, can be on pole 25 shift position.Traverse Displacement Unit 3 by support body component 31, slide bar assembling 32, screw 33, screw mandrel 34, micromachine 35, driving gear 36, gear end shield 37, driven gear 38, bearing block 39, slide bar positioning sleeve 40, sensor block pull bar 41, two form near switch 42, two sensor block guide posts 43, sensor blocks 44.Screw mandrel 34 is installed in support body component 31, and screw mandrel 34 is Tr10 * 2, and the screw 33 that is mated links together with slide bar assembling 32; The front end of support body component 31 is being fixed bearing block 39; The slide bar positioning sleeve 40 that has square hole is being fixed in the rear end, and support body component 31 is 30 * 30 * 2 square tube, and slide bar assembling 32 is 20 * 20 * 2 square tube; 4 sunk screws of slide bar assembling 32 usefulness are fixed on the screw 33; Screw 33 profiles be 25 * 25 * 25 square, screw 33 slides in support body component 31, one 21 * 21 square hole is opened in the centre of slide bar positioning sleeve 40; Slidably, so the square hole of the inwall of support body component 31 and slide bar positioning sleeve 40 all plays a part guiding in the square hole of slide bar positioning sleeve 40 in slide bar assembling 32.Micromachine 35 is housed on the bearing block 39; Model is LD755; On the axle of micromachine 35 m=0.5 is housed, the driving gear 36 of z=50, driving gear 36 is meshed with driven gear 38; Driven gear 38 links together with support body component 31 interior screw mandrels 34, and driving gear 36 is equipped with gear end shield 37 with the outside of driven gear 38.Micromachine 35 rotates, and through gear drive, makes screw mandrel 34 rotations, moves along support body component 31 thereby drive screw 33, and slide bar assembly parts 32 and jar fastener 15 fixing on the screw 33 move together, can adjust the accurate position of shower nozzle.On support body component 31, fix two respectively near switch 42; Two sensor block guide posts 43 also are housed on the support body component 31; One end of sensor block pull bar 41 is sensor block 44 fixedly; The other end is fixed on the front end side of slide bar assembling 32, and sensor block 44 moves in company with slide bar assembling 32 between two sensor block guide posts 43 together, thereby realizes the control to micromachine 16.After Non-Destructive Testing is accomplished, this device is moved to the defectiveness place mark and get final product.When detecting, this device is removed the position, can not stop the light path of X ray, in order to avoid influence detects.
Claims (1)
1. center nameplate spraying device that Non-Destructive Testing is used; It is characterized in that: combine by nameplate spraying device (1), longitudinal-moving device (2) and Traverse Displacement Unit (3); Wherein: nameplate spraying device (1) is made up of lever (11), anti-attrition cap (12), back-moving spring formula electromagnet (13), swivel base (14), jar fastener (15), fluid reservoir (16): swivel base (14) is fixed on the front end of the slide bar assembling (32) in the Traverse Displacement Unit (3); Swivel base (14) is gone up standing tank fastener (15); One end of jar fastener (15) is fluid reservoir (16) fixedly; Other end fixed reset spring electromagnet (13), the middle of jar fastener (15) connects lever (11) through bearing pin, and the contact of lever (11) one ends is arranged on the top of fluid reservoir (16) shower nozzle button; The other end is positioned at the top of back-moving spring formula electromagnet (13), is fixing anti-attrition cap (12) on the back-moving spring formula electromagnet (13); Longitudinal-moving device (2) is made up of handwheel (21), upper bracket (22), two guide pillars (23), vertical shift piece (24), pole (25), vertical shift leading screw (26), undersetting (27): upper bracket (22), undersetting (27) are used for fixing two guide pillars (23) and vertical shift leading screw (26); Vertical shift leading screw (26) is installed in the middle of two guide pillars (23); Handwheel (21) is installed on the top of vertical shift leading screw (26); Pole (25) is fixed on the vertical shift piece (24), with vertical shift piece (24) together in vertical shift piece (24) two guide pillars in drive lower edge (23) of screw move; Traverse Displacement Unit (3) is installed on the pole (25) in the longitudinal-moving device (2); Can go up the shift position pole (25); Traverse Displacement Unit (3) by the assembling of support body component (31), slide bar (32), screw (33), screw mandrel (34), micromachine (35), driving gear (36), gear end shield (37), driven gear (38), bearing block (39), slide bar positioning sleeve (40), sensor block pull bar (41), two form near switch (42), two sensor block guide posts (43), sensor block (44): screw mandrel (34) is installed in the support body component (31); Screw (33) on the screw mandrel (34) links together with slide bar assembling (32); The front end of support body component (31) is being fixed bearing block (39); The slide bar positioning sleeve (40) that has square hole is being fixed in the rear end; Micromachine (35) is housed on the bearing block (39); On the axle of micromachine (35) driving gear (36) is housed, driving gear (36) is meshed with driven gear (38), and driven gear (38) links together with the interior screw mandrel (34) of support body component (31); Driving gear (36) is equipped with gear end shield (37) with the outside of driven gear (38); On support body component (38), fix two respectively and near switch (42) two sensor block guide posts (43) are housed on the support body component (31), an end of sensor block pull bar (41) is sensor block (44) fixedly; The other end is fixed on the front end side of slide bar assembling (32), and sensor block (44) moves in company with slide bar assembling (32) between two sensor block guide posts (43) together.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110407784.6A CN102514375B (en) | 2011-12-09 | 2011-12-09 | Central jet printing device for nondestructive examination |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110407784.6A CN102514375B (en) | 2011-12-09 | 2011-12-09 | Central jet printing device for nondestructive examination |
Publications (2)
| Publication Number | Publication Date |
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| CN102514375A true CN102514375A (en) | 2012-06-27 |
| CN102514375B CN102514375B (en) | 2014-05-14 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201110407784.6A Expired - Fee Related CN102514375B (en) | 2011-12-09 | 2011-12-09 | Central jet printing device for nondestructive examination |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111811380A (en) * | 2020-07-14 | 2020-10-23 | 徐梅 | Elliptical pipeline port detection device and using method thereof |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR101865726B1 (en) * | 2016-05-04 | 2018-06-08 | 현대자동차 주식회사 | Brazing post-process tool for roof laser brazing system |
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| JPS5467279A (en) * | 1977-11-09 | 1979-05-30 | Toyoda Mach Works Ltd | Appratus for detecting breakage of a tool |
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| US20070019786A1 (en) * | 2005-07-22 | 2007-01-25 | Nuctech Company Limited | Collimation and calibration integrative apparatus for container inspection system |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN111811380A (en) * | 2020-07-14 | 2020-10-23 | 徐梅 | Elliptical pipeline port detection device and using method thereof |
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| CN102514375B (en) | 2014-05-14 |
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| C06 | Publication | ||
| PB01 | Publication | ||
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| CB02 | Change of applicant information | ||
| CB02 | Change of applicant information |
Address after: 118009 No. 46 Fumin Avenue, Lingang Industrial Park, Liaoning, Dandong Applicant after: Dongdan Aolong Radiative Instrument Group Co., Ltd. Address before: 118009 No. 46 Fumin Avenue, Lingang Industrial Park, Liaoning, Dandong Applicant before: Dandong Aolong Radiative Instrument Co., Ltd. |
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| COR | Change of bibliographic data |
Free format text: CORRECT: APPLICANT; FROM: DANDONG AOLONG RADIATIVE INSTRUMENT CO., LTD. TO: DANDONG AOLONG RADIATIVE INSTRUMENT GROUP CO., LTD. |
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| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140514 Termination date: 20151209 |
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| EXPY | Termination of patent right or utility model |