CN221100726U - Nondestructive testing flaw detection device for metal material - Google Patents
Nondestructive testing flaw detection device for metal material Download PDFInfo
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- CN221100726U CN221100726U CN202321781426.6U CN202321781426U CN221100726U CN 221100726 U CN221100726 U CN 221100726U CN 202321781426 U CN202321781426 U CN 202321781426U CN 221100726 U CN221100726 U CN 221100726U
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- 239000007769 metal material Substances 0.000 title claims abstract description 37
- 238000001514 detection method Methods 0.000 title claims abstract description 24
- 238000009659 non-destructive testing Methods 0.000 title abstract description 6
- 230000007246 mechanism Effects 0.000 claims abstract description 28
- 238000007689 inspection Methods 0.000 claims description 12
- 230000005540 biological transmission Effects 0.000 claims description 3
- 238000012360 testing method Methods 0.000 claims description 2
- 239000000463 material Substances 0.000 abstract description 4
- 230000001788 irregular Effects 0.000 abstract description 3
- 230000009286 beneficial effect Effects 0.000 abstract description 2
- 239000000523 sample Substances 0.000 description 4
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
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Abstract
The utility model discloses a nondestructive testing flaw detection device for metal materials, which comprises a base and an analyzer body, wherein an electric sliding rail is fixedly connected to the top of the base, a movable plate is connected to the electric sliding rail in a sliding manner, a fixed plate is fixedly connected to the top of the base at one end far away from the movable plate, a support is fixedly connected to the top of the base, a rotating sleeve is rotationally connected to the movable plate and the fixed plate, a clamping mechanism is arranged in the rotating sleeve, and a power mechanism for driving the rotating sleeve to rotate is arranged on one side of the fixed plate. The beneficial effects are that: the clamping mechanism is realized through hydraulic pressure, the piston plate is pushed by the electric push rod to move to apply pressure to oil, so that the plurality of piston clamping rods extend out, the extending lengths of the piston clamping rods are different according to the shape of the metal material, and the force on each piston clamping rod is kept consistent, so that irregular materials are stably clamped, and the applicability is improved.
Description
Technical Field
The utility model relates to the technical field of metal material detection, in particular to a nondestructive testing flaw detection device for metal materials.
Background
After the metallic materials are welded together, they need to be subjected to nondestructive inspection using an inspection apparatus.
Through retrieval, chinese patent publication No. CN216285254U discloses a nondestructive testing flaw detection device for metal materials, which comprises a support frame, a workbench body, an analyzer body and a detection probe, wherein a first clamping device is arranged at the output end of a first motor, a second clamping device is arranged at one end of a rotating shaft, a groove is arranged at the top of the support frame, a mobile device is arranged in the groove, the analyzer body is arranged above the mobile device, the detection probe is arranged below the mobile device through an electric lifting rod, an indication assembly is arranged on the mobile device, and a graduated scale is arranged on the front surface of the top of the support frame; above-mentioned patent is through setting up mobile device drive analysis appearance body and detection probe and remove on the support frame in step, can realize detecting the position of metal material difference, and the in-process need not the manual work to remove detection probe and detects the position of metal material difference, and the convenience promotes greatly, but the clamping device of above-mentioned patent is through manual rotation regulation pole with the material centre gripping, and can only carry out the centre gripping to pole class work piece, to the irregular metal material of shape, is difficult to be suitable.
Disclosure of utility model
The present utility model has been made to solve the above-mentioned problems, and an object of the present utility model is to provide a nondestructive inspection apparatus for a metal material.
The utility model realizes the above purpose through the following technical scheme:
The utility model provides a metal material nondestructive test flaw detection device, includes base and analysis appearance body, base top fixedly connected with electronic slide rail, sliding connection has the fly leaf on the electronic slide rail, the base top is kept away from the one end fixedly connected with fixed plate of fly leaf, base top fixedly connected with support, the fly leaf with the fixed plate internal rotation is connected with the rotation sleeve pipe, be provided with fixture in the rotation sleeve pipe, fixed plate one side is provided with and is used for the drive rotation sleeve pipe pivoted power unit, the roof is provided with position adjustment mechanism in the base, analysis appearance body fixedly connected with is in on the position adjustment mechanism.
Preferably, the clamping mechanism comprises an oil cylinder, the oil cylinders are fixedly connected in the rotating sleeve, a plurality of oil pipes are fixedly connected to opposite faces of the two oil cylinders, a piston clamping rod is connected in a sliding mode in the oil pipes, a piston plate is connected in the oil cylinder in a sliding mode, an electric push rod is fixedly connected in the rotating sleeve, and an output shaft of the electric push rod is fixedly connected with the piston plate.
Preferably, the power mechanism comprises a first motor, the first motor is fixedly connected to the top of the base, an output shaft of the first motor is fixedly connected with a driving belt pulley, a driven belt pulley is connected above the driving belt pulley through a transmission belt, and the driven belt pulley is fixedly connected to the rotating sleeve.
Preferably, the diameter of the driving pulley is smaller than the diameter of the driven pulley.
Preferably, the position adjusting mechanism comprises a second motor, the second motor is fixedly connected to one side of the support, an output shaft of the second motor is fixedly connected with a screw rod, the screw rod is connected in the support through a bearing, a sliding block is connected to the screw rod through threads, the sliding block is in sliding connection with the inner top wall of the support, and an electric lifting rod is fixedly connected to the bottom of the sliding block.
Preferably, the analyzer body is fixedly connected to one side of the sliding block, and the detection head on the analyzer body is fixedly connected to the bottom of the output shaft of the electric lifting rod.
The beneficial effects are that: the clamping mechanism is realized through hydraulic pressure, the piston plate is pushed by the electric push rod to move to apply pressure to oil, so that the plurality of piston clamping rods extend out, the extending lengths of the piston clamping rods are different according to the shape of the metal material, and the force on each piston clamping rod is kept consistent, so that irregular materials are stably clamped, and the applicability is improved.
Additional features and advantages of the utility model will be set forth in the description which follows, or may be learned by practice of the utility model.
Drawings
The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the description serve to explain, without limitation, the utility model. In the drawings:
FIG. 1 is a perspective view of a nondestructive inspection apparatus for metallic materials according to the present utility model;
FIG. 2 is a front view of a nondestructive inspection apparatus for metallic materials according to the present utility model;
FIG. 3 is an enlarged view of the structure at A of a nondestructive inspection apparatus for metallic materials according to the present utility model;
Fig. 4 is a front view showing the internal structure of a clamping mechanism of the nondestructive inspection device for metal materials.
The reference numerals are explained as follows: 1. a base; 101. an electric slide rail; 102. a movable plate; 103. a fixing plate; 104. a bracket; 2. rotating the sleeve; 3. a clamping mechanism; 301. an oil cylinder; 302. an oil pipe; 303. a piston clamping rod; 304. a piston plate; 305. an electric push rod; 4. a power mechanism; 401. a first motor; 402. a driving pulley; 403. a driven pulley; 5. a position adjusting mechanism; 501. a second motor; 502. a screw rod; 503. a slide block; 504. an electric lifting rod; 6. an analyzer body.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.
In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.
The utility model is further described below with reference to the accompanying drawings:
examples
As shown in fig. 1-4, a nondestructive testing flaw detection device for metal materials comprises a base 1 and an analyzer body 6, wherein the top of the base 1 is connected with an electric sliding rail 101 through a screw, a movable plate 102 is connected onto the electric sliding rail 101 in a sliding manner, one end, far away from the movable plate 102, of the top of the base 1 is connected with a fixed plate 103 through a screw, the top of the base 1 is connected with a bracket 104 through a screw, rotating sleeves 2 are connected into the movable plate 102 and the fixed plate 103 through bearings in a rotating manner, clamping mechanisms 3 are arranged in the rotating sleeves 2, a power mechanism 4 for driving the rotating sleeves 2 to rotate is arranged on one side of the fixed plate 103, the rotating sleeves 2 rotate to drive the clamping mechanisms 3 to rotate the metal materials, a position adjusting mechanism 5 is arranged on the inner top wall of the base 1, and the analyzer body 6 is fixedly connected onto the position adjusting mechanism 5.
In this embodiment, the clamping mechanism 3 includes an oil cylinder 301, the oil cylinder 301 is welded in the rotating sleeve 2, opposite surfaces of the two oil cylinders 301 are welded with a plurality of oil pipes 302, piston clamping rods 303 are slidably connected in the oil pipes 302, a piston plate 304 is slidably connected in the oil cylinder 301, an electric push rod 305 is connected in the rotating sleeve 2 through a screw, an output shaft of the electric push rod 305 is fixedly connected with the piston plate 304, the piston plate 304 is driven to move through the electric push rod 305, the piston plate 304 extrudes oil, so that the plurality of piston clamping rods 303 extend out together to clamp metal materials, and after the piston clamping rods 303 clamp the metal materials, stress on each piston clamping rod 303 is basically consistent, so that the clamping stability is ensured.
In this embodiment, the power mechanism 4 includes a first motor 401, the first motor 401 is connected to the top of the base 1 through a bolt, an output shaft of the first motor 401 is fixedly connected with a driving pulley 402, a driven pulley 403 is connected to the upper side of the driving pulley 402 through a transmission belt, the driven pulley 403 is fixedly connected to the rotating sleeve 2, the first motor 401 drives the rotating sleeve 2 to rotate through the driving pulley 402 and the driven pulley 403, and the rotating sleeve 2 drives the clamping mechanism 3 to rotate, so that the metal material rotates.
In this embodiment, the diameter of the driving pulley 402 is smaller than that of the driven pulley 403, so that the driving pulley is made to perform a decelerating motion, and the metallic material is ensured to be able to stably rotate.
In this embodiment, the position adjusting mechanism 5 includes a second motor 501, the second motor 501 is connected to one side of the bracket 104 through a bolt, an output shaft of the second motor 501 is connected to a screw rod 502 through a coupling, the screw rod 502 is connected to the bracket 104 through a bearing, a sliding block 503 is connected to the screw rod 502 through a thread, the sliding block 503 is slidably connected to an inner top wall of the bracket 104, and an electric lifting rod 504 is fixedly connected to the bottom of the sliding block 503.
In this embodiment, the analyzer body 6 is fixedly connected to one side of the slider 503, the detection head on the analyzer body 6 is fixedly connected to the bottom of the output shaft of the electric lifting rod 504, the second motor 501 drives the screw rod 502 to rotate, and the screw rod 502 drives the slider 503 to translate, so as to drive the analyzer body 6 and the electric lifting rod 504 to move, and the detection head moves downwards to be close to the metal material when the electric lifting rod 504 stretches, so that each part of the metal material is detected.
Working principle: firstly, the position of the movable plate 102 is adjusted through the electric sliding rail 101, a metal material is placed between two clamping mechanisms 3, an electric push rod 305 is started, the electric push rod 305 pushes a piston plate 304 to move to squeeze oil, so that the piston clamping rods 303 extend out of an oil pipe 302 to be longer, when one piston clamping rod 303 is firstly contacted with the material and then is not moved, the other piston clamping rods 303 continue to move until all the piston clamping rods 303 are abutted against the metal material, so that the metal material is stably clamped, then a detection head is driven by an electric lifting rod 504 to approach the metal material for detection, a screw rod 502 is driven by a second motor 501 to rotate, a sliding block 503 is driven by the screw rod 502 to translate, an analyzer body 6 is driven by the sliding block 503 to move, the detected position is adjusted, meanwhile, a driving pulley 402 is driven by a first motor 401 to rotate, a driven pulley 403 is driven by a driving belt to rotate, and the driven pulley 403 drives a rotating sleeve 2 to rotate, so that the metal material is rotated, and all-dimensional detection is realized.
The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and their equivalents.
Claims (6)
1. The utility model provides a metal material nondestructive test flaw detection device, includes base (1) and analyzer body (6), its characterized in that: the utility model discloses a portable electronic device, including base (1), fixed plate (103), rotation sleeve (2) are connected with in fixed plate (103) rotation, be provided with fixture (3) in rotation sleeve (2), fixed plate (103) one side is provided with and is used for the drive rotation sleeve (2) pivoted power unit (4), the roof is provided with position adjustment mechanism (5) in base (1), analysis appearance body (6) fixed connection is in on position adjustment mechanism (5).
2. The nondestructive inspection flaw detection device for metal materials according to claim 1, wherein: the clamping mechanism (3) comprises oil cylinders (301), the oil cylinders (301) are fixedly connected in the rotating sleeve (2), a plurality of oil pipes (302) are fixedly connected to opposite surfaces of the two oil cylinders (301), piston clamping rods (303) are connected in the oil pipes (302) in a sliding mode, piston plates (304) are connected in the oil cylinders (301) in a sliding mode, electric pushing rods (305) are fixedly connected in the rotating sleeve (2), and output shafts of the electric pushing rods (305) are fixedly connected with the piston plates (304).
3. The nondestructive inspection flaw detection device for metal materials according to claim 1, wherein: the power mechanism (4) comprises a first motor (401), the first motor (401) is fixedly connected to the top of the base (1), an output shaft of the first motor (401) is fixedly connected with a driving belt wheel (402), a driven belt wheel (403) is connected above the driving belt wheel (402) through a transmission belt, and the driven belt wheel (403) is fixedly connected to the rotating sleeve (2).
4. A nondestructive inspection apparatus for metallic materials as set forth in claim 3 wherein: the diameter of the driving pulley (402) is smaller than the diameter of the driven pulley (403).
5. The nondestructive inspection flaw detection device for metal materials according to claim 1, wherein: the position adjusting mechanism (5) comprises a second motor (501), the second motor (501) is fixedly connected to one side of the support (104), an output shaft of the second motor (501) is fixedly connected with a screw rod (502), the screw rod (502) is connected into the support (104) through a bearing, a sliding block (503) is connected onto the screw rod (502) through threads, the sliding block (503) is in sliding connection with the inner top wall of the support (104), and an electric lifting rod (504) is fixedly connected to the bottom of the sliding block (503).
6. The nondestructive inspection flaw detection device for metal material according to claim 5, wherein: the analyzer body (6) is fixedly connected to one side of the sliding block (503), and a detection head on the analyzer body (6) is fixedly connected to the bottom of an output shaft of the electric lifting rod (504).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321781426.6U CN221100726U (en) | 2023-07-07 | 2023-07-07 | Nondestructive testing flaw detection device for metal material |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321781426.6U CN221100726U (en) | 2023-07-07 | 2023-07-07 | Nondestructive testing flaw detection device for metal material |
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Publication Number | Publication Date |
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CN221100726U true CN221100726U (en) | 2024-06-07 |
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CN202321781426.6U Active CN221100726U (en) | 2023-07-07 | 2023-07-07 | Nondestructive testing flaw detection device for metal material |
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2023
- 2023-07-07 CN CN202321781426.6U patent/CN221100726U/en active Active
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