CN211318253U - Intelligent industrial steel structure X-ray nondestructive testing defectoscope - Google Patents

Abstract

The utility model discloses an intelligent industrial steel structure X ray nondestructive test defectoscope, including the defectoscope main part, the fixed plate that passes through threaded connection in defectoscope main part bottom is connected with branch, and branch passes through bottom fixed connection's first slider sliding connection in the first slide rail upper end that first diaphragm, second diaphragm upper end outside set up, first diaphragm, the inboard equidistance in second diaphragm upper end are provided with the screw, and the inside threaded connection of screw has sharp inserted bar, second diaphragm bottom is close to a set of walking wheel of first diaphragm both sides fixedly connected with, there is the second slider first diaphragm, the inboard lower part of second diaphragm through second slide rail sliding connection, and the inboard mounting panel swing joint of second slider has the locating plate. The utility model discloses a set up locating plate, first diaphragm, second diaphragm, sharp inserted bar, first slider and first slide rail structure, have the advantage that improves steel construction detection efficiency, keep steel structural stability in detecting.

Description

Intelligent industrial steel structure X-ray nondestructive testing defectoscope

Technical Field

The utility model relates to a steel construction inside and outside defect detection associated plant technical field specifically is an intelligent industrial steel construction X ray nondestructive test defectoscope.

Background

One of the main building structure types of steel construction engineering is one of the more ordinary structural style in modern building engineering, and the steel construction is in the in-process that uses, need carry out the detection of inside and outside defect to it, in order to ensure the security of steel construction material, and the defectoscope is one of the means that is used for carrying out inside and outside defect detection to the steel construction, at present, exist among the prior art, the defectoscope is when using, generally carry out the removal of position to it through the manual work, in order to realize the detection to different position steel construction, it is inconvenient to use, and to the in-process that the steel construction detected, self structure and to the fixed inconvenience of steel plate structure, the result of use has been influenced, the limitation is great, therefore it is necessary to improve prior art, in order to solve above.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides an intelligent industrial steel structure X ray nondestructive test defectoscope to solve the problem that proposes in the above-mentioned background art.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: an intelligent industrial steel structure X-ray nondestructive inspection flaw detector comprises a flaw detector main body, wherein a cooling water pipe is arranged at the inner part and the outer part of the flaw detector main body, the bottom end of the flaw detector main body is connected with a support rod through a fixing plate in threaded connection, the support rod is connected to the upper end of a first slide rail arranged at the outer side of the upper end of a first transverse plate and a second transverse plate in a sliding manner through a first slide block fixedly connected with the bottom end, the first transverse plate and the second transverse plate are connected through brackets welded at the two sides of the inner side, screw holes are arranged at the inner sides of the upper ends of the first transverse plate and the second transverse plate at equal intervals, a sharp insertion rod is connected in the screw holes in a threaded manner, a rotating handle is welded at the central position of the upper end of the sharp insertion rod, a group of travelling wheels are fixedly connected at the bottom, and the inner side of the second sliding block is movably connected with a positioning plate through a mounting plate.

Preferably, the center positions of the front surfaces of the first transverse plate and the second transverse plate are provided with positioning holes at equal intervals, positioning bolts are connected to the inner portions of the positioning holes in a threaded mode, and the inner ends of the positioning bolts are connected with the outer side surface of the mounting plate in a threaded mode.

Preferably, the central position of the front surface of the flaw detector main body is connected with a controller in an embedded mode, and two sides of the middle end of the upper portion of the front surface of the flaw detector main body are connected with a group of alarms in an embedded mode.

Preferably, the central position of the top of the flaw detector main body is fixedly connected with a DC-DC converter, and the middle section of the top end of the DC-DC converter is provided with a power line and is electrically connected with the input end of the DC-DC converter.

Preferably, a cooling water injection port is formed in the upper portion of one side of the flaw detector main body, a cooling water discharge port is formed in the lower portion of the other side of the flaw detector main body, and a plug screw is connected to the inside of the cooling water discharge port in a threaded manner.

Preferably, the middle part of the inner side of the positioning plate is connected with a steel plate in a clamping manner, the positioning plate is connected with the inner side of the mounting plate through a group of push rods in threaded connection with the upper end and the lower end of the outer side, and the push rods extend out of the mounting plate.

Preferably, the first slide rail and the second slide rail are respectively arranged in the middle sections inside the first groove and the second groove, the first groove is formed in the outer sides of the upper ends of the first transverse plate and the second transverse plate, and the second groove is formed in the lower portions of the inner sides of the first transverse plate and the second transverse plate.

(III) advantageous effects

The utility model provides an intelligent industrial steel structure X ray nondestructive test defectoscope possesses following beneficial effect:

(1) the utility model has the advantages that the travelling wheels, the first transverse plate, the second transverse plate, the first slide block and the first slide rail are arranged, the effect of conveniently moving the position of the flaw detector is achieved, the problem that the flaw detector generally moves the position by people to cause lower detection efficiency of the steel structure is solved, the support rods slide on the upper ends of the first slide rails arranged outside the upper ends of the first transverse plate and the second transverse plate under the action of the first slide block through the support rods on the two sides of the bottom end of the fixing plate, the flaw detector main body is convenient to move, the flaw detector main body carries out structural detection of different positions on steel plates clamped and connected inside the positioning plate, the use is convenient, the structural detection of the steel plates is improved, meanwhile, a group of travelling wheels are fixedly connected to the bottom end of the second transverse plate and used for moving the whole flaw detector main body in structure, the use is convenient.

(2) The utility model discloses a set up the locating plate, the push rod, first slider, first slide rail and sharp inserted bar, have the effect of being convenient for carry out the fixed structure to steel sheet and flaw detector bottom connection structure, the inconvenient problem of flaw detector and steel sheet structure fixed is solved, carry out the position to the flaw detector main part and remove, exert clockwise power to the turning handle, the structure after adjusting the position is fixed to first diaphragm, the second diaphragm, carry out the regulation of position by first diaphragm, the second diaphragm, satisfy the placing and the detection to different length steel sheet, simultaneously, the inboard of mounting panel has the locating plate through push rod swing joint in first diaphragm, the second diaphragm, the centre gripping of steel sheet is connected by the locating plate, the steel sheet when detecting is fixed in structure, and the flexible promotion of push pedal to the locating plate, drive the back and forth slip of mounting panel in the second slide rail inboard by the second slider, the positioning plate can fix the steel plate at different positions.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is an enlarged schematic view of the present invention at A in FIG. 1;

FIG. 3 is a schematic side view of the first cross plate of the present invention;

fig. 4 is a schematic view of the first cross plate as viewed from above.

The reference numbers in the figures are: 1. a cooling water inlet; 2. an alarm; 3. a power line; 4. a cooling water pipe; 5. a DC-DC converter; 6. a controller; 7. a flaw detector main body; 8. a cooling water discharge port; 9. a plug screw; 10. a push rod; 11. mounting a plate; 12. a first transverse plate; 13. a strut; 14. a fixing plate; 15. positioning holes; 16. a second transverse plate; 17. a screw hole; 18. rotating the handle; 19. a traveling wheel; 20. a sharp inserted rod; 21. a first slider; 22. a first groove; 23. positioning a plate; 24. a support; 25. a steel plate; 26. a first slide rail; 27. positioning the bolt; 28. a second slide rail; 29. a second groove; 30. and a second slider.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-4, the utility model provides a technical solution: an intelligent industrial steel structure X-ray nondestructive testing flaw detector comprises a flaw detector main body 7, a cooling water pipe 4 is arranged outside the flaw detector main body 7, the cooling water is placed through the cooling water pipe 4, the cooling effect on the inside of the flaw detector main body 7 is realized through the cooling water, a supporting rod 13 is connected to the bottom end of the flaw detector main body 7 through a fixing plate 14 in threaded connection, the supporting rod 13 is connected to the upper ends of a first slide rail 26 arranged outside the upper ends of a first transverse plate 12 and a second transverse plate 16 in a sliding manner through a first slide block 21 fixedly connected to the bottom end, the upper ends of the first slide rail 26 outside the upper ends of the first transverse plate 12 and the second transverse plate 16 are slid through the first slide block 21, the position of the flaw detector main body 7 is moved, the flaw detector main body 7 can conveniently carry out structural testing on a steel plate 25 at different positions, the first transverse plate 12 and the second transverse plate 16 are connected through brackets 24 welded, the second transverse plate 16 is structurally connected through a welded bracket 24, so that the structural connection of the first transverse plate 12 and the second transverse plate 16 is ensured, screw holes 17 are equidistantly arranged on the inner sides of the upper ends of the first transverse plate 12 and the second transverse plate 16, a sharp inserting rod 20 is connected in the screw holes 17 in a threaded manner, the sharp inserting rod 20 is connected in the first transverse plate 12 and the second transverse plate 16 through the screw holes 17, on one hand, the first transverse plate 12 and the second transverse plate 16 after being adjusted in position are structurally connected, on the other hand, the bottom end structure of the flaw detector main body 7 is fixed, a rotating handle 18 is welded in the central position of the upper end of the sharp inserting rod 20, a group of traveling wheels 19 are fixedly connected at the bottom end of the second transverse plate 16 close to the two sides of the first transverse plate 12, the sharp inserting rod 20 is convenient to rotate through the set rotating handle 18, and the overall structure of the flaw detector main body 7, the lower portions of the inner sides of the first transverse plate 12 and the second transverse plate 16 are slidably connected with a second slider 30 through a second slide rail 28, the inner side of the second slider 30 is movably connected with a positioning plate 23 through a mounting plate 11, the steel plate 25 is structurally fixed through the positioning plate 23, the second slider 30 drives the mounting plate 11 to be slidably connected with the lower portion of the inner side of the second slide rail 28, and the positioning plate 23 is convenient to structurally fix different positions of the steel plate 25.

Furthermore, positioning holes 15 are equidistantly formed in the center positions of the front surfaces of the first transverse plate 12 and the second transverse plate 16, positioning bolts 27 are screwed into the positioning holes 15, the inner ends of the positioning bolts 27 are screwed with the outer side surface of the mounting plate 11, and the mounting plate 11 which is moved in position at the lower part of the inner sides of the first transverse plate 12 and the second transverse plate 16 is structurally fixed through the positioning holes 15 which are formed through the positioning bolts 27.

Further, the positive surperficial central point of defectoscope main part 7 is inlayed and is connected with controller 6, and the positive surperficial upper portion middle-end both sides of defectoscope main part 7 are inlayed and are connected with a set of siren 2, the controller 6 model is KY02S, belong to prior art, the siren 2 model is TX3301, belong to prior art, through the electric connection of controller 6 with the 7 inner structure of defectoscope main part, control defectoscope main part 7 by controller 6, when detecting the inside defect that exists of steel sheet 25 at defectoscope main part 7, controller 6 controls siren 2, carry out the alarm by siren 2 and remind.

Further, a DC-DC converter 5 is fixedly connected to the central position of the top of the flaw detector main body 7, a power line 3 is arranged in the middle section of the top end of the DC-DC converter 5 and is electrically connected with the input end of the DC-DC converter 5, the arranged DC-DC converter 5 is used for increasing a high-voltage power supply to the flaw detector main body 7, and the power line 3 is used for conveying commercial power to the DC-DC converter 5.

Further, a cooling water injection port 1 is formed in the upper portion of one side of the flaw detector main body 7, a cooling water discharge port 8 is formed in the lower portion of the other side of the flaw detector main body 7, a plug screw 9 is connected to the inner portion of the cooling water discharge port 8 in a threaded manner, cooling water is injected into the cooling water pipe 4 through the cooling water injection port 1, the flaw detector main body 7 is cooled by the cooling water, and the plug screw 9 is opened to discharge cooling water excessively used through the cooling water discharge port 8.

Further, the inboard middle part centre gripping of locating plate 23 is connected with steel sheet 25, and a set of push rod 10 and the 11 inboard connections of mounting panel of locating plate 23 through end threaded connection about the outside, and inside push rod 10 extended mounting panel 11, extend mounting panel 11 with push rod 10 inside, be convenient for operate push rod 10, through applying inside or outside power to push rod 10, according to the difference of steel sheet 25 vertical diameter, carry out the fixed of structure to it by locating plate 23.

Further, the first slide rail 26 and the second slide rail 28 are respectively arranged in the first groove 22 and the inner middle section of the second groove 29, the first groove 22 is arranged on the outer side of the upper end of the first transverse plate 12 and the outer side of the upper end of the second transverse plate 16, the second groove 29 is arranged on the first transverse plate 12 and the inner lower portion of the second transverse plate 16, the first slide rail 26 and the second slide rail 28 are structurally installed and fixed by the arranged first groove 22 and the second groove 29, the first slider 21 and the second slider 30 slide in the available space are realized, and the first groove 22 and the second groove 29 are arranged on the outer side of the upper end of the first transverse plate 12 and the outer side of the upper end of the second transverse plate 16.

The working principle is as follows: when the device is used, the traveling wheels 19 move the specified position of the flaw detector main body 7, when the flaw detector main body 7 moves to the specified position, the transverse diameter of the first transverse plate 12 and the second transverse plate 16 is adjusted according to the length requirement of the steel plate 25, the screw holes 17 structurally fix the first transverse plate 12 and the second transverse plate 16 after the position is adjusted through the pointed insertion rods 20, at the moment, clockwise force is applied to the rotating handle 18, the pointed insertion rods 20 extend into the deep part of a foundation, the bottom end of the flaw detector main body 7 is structurally fixed, at the moment, inward force is applied to the push rods 10, the positioning plates 23 move inwards, the positioning plates 23 structurally fix the steel plate 25, meanwhile, the device is powered on, the controller 6 controls the flaw detector main body 7, the flaw detector main body 7 detects a structure on the surface of the steel plate 25, after the structure at one end of the steel plate 25 is detected, the first slider 21 is moved to the upper end of the first slide rail 26, the second slider 30 is moved to the inner side of the second slide rail 28, the positioning holes 15 fix the position of the second slider by the positioning bolts 27, the flaw detector main body 7 fixes the structure of the other part of the surface of the steel plate 25, and the above processes are repeated until the structure of the surface of the steel plate 25 is detected completely.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an intelligent industrial steel structure X ray nondestructive test defectoscope, includes defectoscope main part (7), its characterized in that: the inside outside of defectoscope main body (7) is provided with cooling water pipe (4), the fixed plate (14) through threaded connection in defectoscope main body (7) bottom is connected with branch (13), and branch (13) through bottom fixed connection's first slider (21) sliding connection in first slide rail (26) upper end outside setting up in first diaphragm (12), second diaphragm (16) upper end, first diaphragm (12), second diaphragm (16) are connected through inboard both sides welded support (24), first diaphragm (12), second diaphragm (16) upper end inboard equidistance is provided with screw (17), and screw (17) internal thread is connected with sharp inserted bar (20), sharp inserted bar (20) upper end central point welded connection has rotation handle (18), second diaphragm (16) bottom is close to first diaphragm (12) both sides fixedly connected with a set of walking wheel (19), the lower parts of the inner sides of the first transverse plate (12) and the second transverse plate (16) are connected with a second sliding block (30) in a sliding mode through a second sliding rail (28), and the inner side of the second sliding block (30) is movably connected with a positioning plate (23) through a mounting plate (11).

2. The intelligent industrial steel structure X-ray nondestructive testing flaw detector of claim 1, characterized in that: positioning holes (15) are formed in the center positions of the front surfaces of the first transverse plate (12) and the second transverse plate (16) at equal intervals, positioning bolts (27) are connected to the inner portions of the positioning holes (15) in a threaded mode, and the inner ends of the positioning bolts (27) are connected with the outer side surface of the mounting plate (11) in a threaded mode.

3. The intelligent industrial steel structure X-ray nondestructive testing flaw detector of claim 1, characterized in that: the central position of the front surface of the flaw detector main body (7) is connected with a controller (6) in an embedded mode, and two sides of the middle end of the upper portion of the front surface of the flaw detector main body (7) are connected with a group of alarms (2) in an embedded mode.

4. The intelligent industrial steel structure X-ray nondestructive testing flaw detector of claim 1, characterized in that: the top center position of the flaw detector main body (7) is fixedly connected with a DC-DC converter (5), and the middle section of the top end of the DC-DC converter (5) is provided with a power line (3) and is electrically connected with the input end of the DC-DC converter (5).

5. The intelligent industrial steel structure X-ray nondestructive testing flaw detector of claim 1, characterized in that: the flaw detector is characterized in that a cooling water injection port (1) is formed in the upper portion of one side of the flaw detector main body (7), a cooling water discharge port (8) is formed in the lower portion of the other side of the flaw detector main body (7), and a screw plug (9) is connected to the inner portion of the cooling water discharge port (8) in a threaded mode.

6. The intelligent industrial steel structure X-ray nondestructive testing flaw detector of claim 1, characterized in that: the middle part of the inner side of the positioning plate (23) is connected with a steel plate (25) in a clamping manner, the positioning plate (23) is connected with the inner side of the mounting plate (11) through a group of push rods (10) which are connected with the upper end and the lower end of the outer side in a threaded manner, and the push rods (10) extend out of the inner part of the mounting plate (11).

7. The intelligent industrial steel structure X-ray nondestructive testing flaw detector of claim 1, characterized in that: the first sliding rail (26) and the second sliding rail (28) are respectively arranged in the middle sections of the inner parts of the first groove (22) and the second groove (29), the first groove (22) is formed in the outer sides of the upper ends of the first transverse plate (12) and the second transverse plate (16), and the second groove (29) is formed in the lower parts of the inner sides of the first transverse plate (12) and the second transverse plate (16).

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