CN217820178U - Nondestructive testing device for aviation metal material - Google Patents

Abstract

The utility model discloses an aviation metallic material nondestructive test device, relate to aviation metallic material nondestructive test device technical field, the utility model discloses a box, all install the support through the bolt on the outer wall of box both sides, and install the conveyer belt that passes the box through the bearing between two supports, install the scanning subassembly, upset subassembly and the detection subassembly that extend to the box inside through the bolt respectively on the outer wall of box top, install ultrasonic detection module through the bolt on box top outer wall one side, and ultrasonic detection module is electric connection through wire and detection subassembly, box one side outer wall is close to top department embedding and has the glass board, box one side outer wall is close to an angle department and installs the control cabinet through the bolt; the utility model discloses a support, conveyer belt, the current aviation metallic material nondestructive test device of having solved can't be favorable to improving the speed that this detection device detected to metallic material to the problem that metallic material detected in succession.

Description

Nondestructive testing device for aviation metal material

Technical Field

The utility model relates to an aviation metallic material nondestructive test technical field especially relates to an aviation metallic material nondestructive test device.

Background

The aviation material is a general name of various materials used for manufacturing aircrafts, aeroengines, airborne equipment and the like, is a material guarantee for developing and producing aviation products, and is a technical basis for enabling the aviation products to achieve performance, service life and reliability expected by people;

the existing nondestructive testing device for aviation metal materials has the following problems: the continuous detection that can't realize when detecting aviation metallic material leads to the detection efficiency to aviation metallic material lower, and detection effect is relatively poor, can't satisfy the demand of current metallic material's detection.

Therefore, it is necessary to design a nondestructive testing apparatus for aviation metal materials to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides an aviation metallic material nondestructive test device, the technical problem who has solved.

In order to solve the technical problem, the utility model provides a pair of aviation metallic material nondestructive test device, the power distribution box comprises a box body, all install the support through the bolt on the outer wall of box both sides, and install the conveyer belt that passes the box through the bearing between two supports, install the scanning subassembly, upset subassembly and the detection subassembly that extend to box inside through the bolt respectively on the outer wall of box top, the ultrasonic detection module is installed through the bolt to box top outer wall one side, and the ultrasonic detection module is electric connection through wire and detection subassembly, box one side outer wall is close to top department embedding and has the glass board, box one side outer wall is close to an angle department and installs the control cabinet through the bolt.

Preferably, the scanning assembly comprises a third air cylinder, and an infrared scanner is installed at the output end of the third air cylinder through a bolt.

Preferably, the detection assembly comprises a first air cylinder, and a probe is installed at the output end of the first air cylinder through a bolt.

Preferably, the overturning assembly comprises a second air cylinder, the frame is installed at the output end of the second air cylinder through a bolt, and a first motor is installed on the outer wall of one side of the frame through a bolt.

Preferably, the slide bar is installed through the bolt inside the frame, the lead screw that is located the slide bar top is installed through the bearing inside the frame, and lead screw one end is fixed connection through the output of parallel key and motor one.

Preferably, the screw rod is externally threaded with two clamping plates which are in sliding connection with the sliding rod, the outer wall of one side of each clamping plate is close to the bottom, a second motor is installed on the outer wall of the other side of each clamping plate through bolts, and the rotary table is installed at the output end of the second motor through a flat key.

Compared with the prior art, the utility model provides a pair of aviation metallic material nondestructive test device has following beneficial effect:

the utility model provides an aviation metallic material nondestructive test device, through support, conveyer belt, the current aviation metallic material nondestructive test device who has solved can't be to the problem that metallic material detected in succession, is favorable to improving the speed that this detection device detected to metallic material.

The utility model provides an aviation metallic material nondestructive test device adopts scanning subassembly, detection subassembly and ultrasonic detection module, and the current aviation metallic material nondestructive test device poor problem of testing effect that has solved makes it when examining, and the detection structure that scanning subassembly cooperation detection subassembly, ultrasonic detection module constitute carries out nondestructive test to metallic material's outward appearance, inside.

The utility model provides an aviation metallic material nondestructive test device utilizes the upset subassembly, and the current aviation metallic material nondestructive test device degree of automation poor problem of having solved makes it when examining, and the upset subassembly can carry out the centre gripping to metallic material and turn to in the better detection of scanning equipment, reduced the amount of labour of artifical regulation direction of detection, improve the degree of automation of this equipment.

Drawings

FIG. 1 is a schematic structural diagram of a front view of a nondestructive testing device for aviation metal materials;

FIG. 2 is a schematic structural diagram of a scanning assembly of the nondestructive testing device for aviation metal materials;

FIG. 3 is a schematic structural diagram of a turnover assembly of the nondestructive testing device for aviation metal materials;

FIG. 4 is a schematic structural diagram of a probe assembly of the nondestructive testing device for aviation metallic materials.

Reference numbers in the figures: 1. the device comprises a box body, 2, a scanning assembly, 3, a turnover assembly, 4, a detection assembly, 5, an ultrasonic detection module, 6, a control console, 7, a glass plate, 8, a support, 9, a conveying belt, 10, a first cylinder, 11, a probe, 12, a second cylinder, 13, a frame, 14, a screw rod, 15, a sliding rod, 16, a first motor, 17, a clamping plate, 18, a second motor, 19, a rotary table, 20, a third cylinder, 21 and an infrared scanner.

Detailed Description

Embodiment one, given by fig. 1-4, the utility model discloses a box 1, all install support 8 through the bolt on the outer wall of box 1 both sides, support 8 is convenient for support conveyer belt 9, and install the conveyer belt 9 that passes box 1 through the bearing between two supports 8, conveyer belt 9 comprises the roller, belt and motor drive, be convenient for detect the metal material automatic transportation that awaits measuring to box 1 inside, install the scanning component 2 that extends to box 1 inside through the bolt on the outer wall of box 1 top respectively, upset subassembly 3 and detection component 4, scanning component 2 can detect the metal material surface, upset subassembly 3 can be so that wait to detect metal material angle and direction change, so that scanning component 2 better detection, install ultrasonic detection module 5 through the bolt on box 1 top outer wall one side, ultrasonic detection module 5 is supersonic generator and receiver, can cooperate detection module 4 to constitute an electromagnetic ultrasonic detection equipment, and ultrasonic detection module 5 is electric connection through wire and detection component 4, box 1 one side outer wall is close to top department embedding has glass board 7, glass board 7 is convenient for watch the workman in 1 outside, box 1 one side is close to the detection condition, this box outer wall can be close to the workman 6 and establish this operation control platform under this operation control equipment control.

In the second embodiment, on the basis of the first embodiment, the scanning assembly 2 includes a third cylinder 20, the third cylinder 20 is convenient for providing power for the movement of the infrared scanner 21, the infrared scanner 21 is installed at the output end of the third cylinder 20 through a bolt, and the infrared scanner 21 can scan the appearance of the metal material.

Preferably, the detection assembly 4 comprises a first cylinder 10, the first cylinder 10 is convenient for providing power for the movement of the probe 11, the probe 11 is installed at the output end of the first cylinder 10 through a bolt, and the probe 11 can be in contact with a metal material, so that the ultrasonic detection module 5 detects the metal.

Preferably, the turnover assembly 3 includes a second cylinder 12, a frame 13 is installed at an output end of the second cylinder 12 through a bolt, a first motor 16 is installed on an outer wall of one side of the frame 13 through a bolt, the first motor 16 is convenient for providing power for rotation of the screw rod 14, a slide rod 15 is installed inside the frame 13 through a bolt, the slide rod 15 is convenient for guiding movement of the clamping plate 17, a screw rod 14 located above the slide rod 15 is installed inside the frame 13 through a bearing, the screw rod 14 is convenient for transmission movement, so that the metal material clamped by the rotary plate 19 rotates, one end of the screw rod 14 is fixedly connected with an output end of the first motor 16 through a flat key, two clamping plates 17 slidably connected with the slide rod 15 are connected to the outside of the screw rod 14 through threads, the clamping plates 17 can rotate under the action of the screw rod 14, so that the metal material clamped by the rotary plate 19 is clamped by the rotary plate 19, a second motor 18 is installed at a position, which is close to the bottom, the second motor 18 is convenient for driving the rotary plate 19 to rotate, and the rotary plate 19 can drive the metal material clamped by the rotary plate 19 to better scan the appearance of the infrared scanner 21.

In this embodiment: the model number of the first cylinder is preferably SC 40X 200, the model number of the second cylinder is 12 is preferably SC 40X 100, the model number of the third cylinder is preferably SC 40X 200, the model number of the first motor is preferably 57CM23, and the model number of the second motor is preferably 86 stepping motors.

The working principle is as follows:

the first innovation point implementation step:

the first step is as follows: in using the apparatus, the metallic material to be detected can be placed on the conveyor belt 9;

the second step is that: then, the control console 6 controls the conveyor belt 9 to start, so that the conveyor belt 9 conveys the metal material to be detected into the box body 1, detection equipment in the box body 1 can conveniently detect the metal material, and the conveyor belt 9 stops moving during detection;

the third step: after the detection is finished, the conveyor belt 9 continues to move, so that the metal material which is detected to be finished is conveyed to the other support 8, and the outflow of the material is realized.

The implementation step of the second innovation point:

the first step is as follows: when the detection equipment in the box body 1 detects, the detection assembly 4 is started at the moment, so that the first cylinder 10 is started, the probe 11 is contacted with the metal material, and then the ultrasonic detection module 5 is started, so that the metal material is subjected to ultrasonic detection, and the state in the metal material is detected conveniently;

the second step is that: after the detection of the detection assembly 4 is finished, the first cylinder 10 enables the probe 11 to be lifted, then the conveyer belt 9 transports the metal material to the turnover assembly 3, the second cylinder 12 is started at the moment, the position of the frame 13 is lowered, then the first motor 16 is started, the lead screw 14 drives the two clamping plates 17 to clamp the metal material on the conveyer belt 9, and then the second cylinder 12 is lifted, so that the position of the metal material is raised;

the third step: after the last step is finished, the scanning assembly 2 can be started, the cylinder three 20 drives the infrared scanner 21 to move, so that the metal material appearance can be scanned, the motor two 18 can be started during scanning, the turntable 19 drives the metal material to rotate, so that the infrared scanner 21 can scan and detect other parts of the metal material, the detection is finished, the opposite process of the first step is repeated, the metal material is placed on the conveying belt 9, and the detection of the metal material is finished.

Claims (6)

1. The utility model provides an aviation metallic material nondestructive test device, includes box (1), its characterized in that: all install support (8) through the bolt on box (1) both sides outer wall, and install conveyer belt (9) that pass box (1) through the bearing between two supports (8), install scanning subassembly (2), upset subassembly (3) and detection subassembly (4) that extend to box (1) inside through the bolt respectively on box (1) top outer wall, box (1) top outer wall one side is installed ultrasonic detection module (5) through the bolt, and ultrasonic detection module (5) are electric connection through wire and detection subassembly (4), box (1) one side outer wall is close to top department embedding and has glass board (7), box (1) one side outer wall is close to an angle department and installs control cabinet (6) through the bolt.

2. The nondestructive testing device for the aviation metal material as recited in claim 1, wherein the scanning assembly (2) comprises a cylinder III (20), and an infrared scanner (21) is mounted at the output end of the cylinder III (20) through a bolt.

3. The nondestructive testing device for the aviation metal material as recited in claim 1, wherein the detection assembly (4) comprises a first air cylinder (10), and a probe (11) is mounted at the output end of the first air cylinder (10) through a bolt.

4. The nondestructive testing device for the aviation metal material as recited in claim 1, wherein the overturning component (3) comprises a second air cylinder (12), the output end of the second air cylinder (12) is provided with a frame (13) through a bolt, and the outer wall of one side of the frame (13) is provided with a first motor (16) through a bolt.

5. The nondestructive testing device for the aviation metal material as claimed in claim 4, wherein a sliding rod (15) is mounted inside the frame (13) through a bolt, a screw rod (14) located above the sliding rod (15) is mounted inside the frame (13) through a bearing, and one end of the screw rod (14) is fixedly connected with the output end of the first motor (16) through a flat key.

6. The nondestructive testing device for the aviation metal material as claimed in claim 5, wherein two clamping plates (17) slidably connected with the sliding rods (15) are connected to the exterior of the screw rod (14) in a threaded manner, a second motor (18) is mounted on the outer wall of one side of each clamping plate (17) close to the bottom of the clamping plate through a bolt, and a rotary table (19) is mounted at the output end of the second motor (18) through a flat key.

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