CN219348749U - Automatic flaw detection equipment for container - Google Patents

Abstract

The utility model discloses automatic container flaw detection equipment which comprises a moving assembly, wherein a flaw detection assembly is movably inserted in the moving assembly, an extension assembly is detachably connected in the middle of the flaw detection assembly, the moving assembly comprises two moving plates, inserting grooves are formed in the upper ends of the two moving plates, a plurality of wheel seats are fixedly arranged at the lower ends of the two moving plates, and moving wheels are rotatably connected between the plurality of wheel seats. According to the utility model, the moving assembly is matched with the flaw detection assembly, so that the labor intensity can be reduced, the working efficiency can be improved, and in addition, the moving assembly is matched with the flaw detection assembly and the extension assembly, so that the container can be subjected to comprehensive flaw detection, and the accuracy of the detection equipment is improved.

Description

Automatic flaw detection equipment for container

Technical Field

The utility model relates to the field of flaw detection equipment, in particular to automatic flaw detection equipment for a container.

Background

The damage detection of the container is applied to various inspections such as entrance and exit inspection and quarantine, entrance and exit handover inspection, and the like, in order to detect the quality of the container conveniently, automatic flaw detection equipment is generally needed to detect whether the surface or the interior of the container is damaged, when the conventional flaw detection equipment is used, because the size of the container is large, a user is required to frequently move so that the handheld flaw detection equipment is needed to detect the container.

Disclosure of Invention

The utility model aims to provide automatic container flaw detection equipment so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the automatic container flaw detection device comprises a moving assembly, wherein a flaw detection assembly is movably inserted in the moving assembly, and an extension assembly is detachably connected in the middle of the flaw detection assembly;

the movable assembly comprises two movable plates, the upper ends of the two movable plates are provided with inserting grooves, the lower ends of the two movable plates are fixedly provided with a plurality of wheel seats, and the plurality of wheel seats are connected with movable wheels in a rotating mode.

As a preferable scheme of the utility model, the two ends of the upper surface of the movable plate are fixedly provided with the support, the two ends of the support are fixedly connected with the inserting shaft, the two ends of the support are rotatably connected with the concave blocks, the two ends of the concave blocks are fixedly provided with the bearings, and the two bearings are respectively rotatably connected with the side surfaces of the inserting shaft at the two ends of the support.

As a preferable scheme of the utility model, the surface of the concave block is fixedly connected with a push rod, and the upper end of the push rod is fixedly connected with a holding rod.

As a preferable scheme of the utility model, the flaw detection assembly comprises an L-shaped plate inserted into the insertion grooves at the upper ends of two movable plates, two first mounting grooves are formed in the inner side walls of the two L-shaped plates, and ultrasonic detectors are fixedly arranged in the two first mounting grooves.

As a preferable scheme of the utility model, one ends of the two L-shaped plates are fixedly connected with a first connecting plate, the surfaces of the first connecting plates are provided with two first screw holes, and the interiors of the two first screw holes are connected with first bolts in a threaded manner.

As a preferable scheme of the utility model, the extension assembly comprises an extension plate arranged at one end of two L-shaped plates, a second mounting groove is formed in the lower end of the extension plate, and an ultrasonic detector is fixedly arranged in the second mounting groove.

As a preferable scheme of the utility model, the two ends of the extension plate are fixedly connected with second connecting plates, the two second connecting plates are respectively connected with first connecting plates at one ends of the two L-shaped plates, two second screw holes are formed in the surfaces of the two second connecting plates, second bolts are connected with the inner parts of the two second screw holes in a threaded manner, and the second bolts penetrate through the second screw holes and are connected with the inner parts of the first screw holes in a threaded manner.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the moving assembly is matched with the flaw detection assembly to detect the container, so that the labor intensity is reduced, the working efficiency is improved, two testers are required to stand at two sides of the flaw detection device and hold holding rods to push the flaw detection device to move so as to stop at one end of the container, then the flaw detection device is pushed to longitudinally pass through the container, the top and two sides of the container can be subjected to flaw detection simultaneously, an extension plate and an L-shaped plate are connected, the flaw detection device is controlled to stop at one side of the container, and then the flaw detection device is pushed simultaneously so as to perform flaw detection on the top and two ends of the container, so that the flaw detection on the container can be completed rapidly; the utility model can not only push the flaw detection equipment to carry out mobile flaw detection by the operation, reduce the labor intensity, but also improve the working efficiency, thereby enhancing the practicability of the flaw detection equipment.

2. According to the utility model, the moving assembly is matched with the flaw detection assembly and the extension assembly, so that the container can be comprehensively detected, when the container is used, a detector pushes the flaw detection device to move, in the moving process, two ultrasonic detectors on the inner side walls of the two L-shaped plates and two ultrasonic detectors on the upper ends of the two L-shaped plates can detect flaws on the two sides and the top plate of the container, after the container is longitudinally detected, the extension plate is connected with the two L-shaped plates, the flaw detection device is pushed to transversely detect the container, so that the flaw detection device can detect the two ends of the container, and the comprehensive flaw detection work of the container can be completed, and the purpose of comprehensively detecting the container can be achieved through the operations.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of the overall structure of the present utility model;

FIG. 3 is a disassembled view of the moving assembly structure of the present utility model;

FIG. 4 is a structural exploded view of the flaw detection assembly of the present utility model;

fig. 5 is a disassembled view of the structure of the extension assembly of the present utility model.

In the figure: 1. a moving assembly; 11. a moving plate; 12. a plug-in groove; 13. a wheel seat; 14. a moving wheel; 111. a support; 112. a plug-in shaft; 113. a concave block; 114. a bearing; 121. a push rod; 122. a grip; 2. a flaw detection assembly; 21. an L-shaped plate; 22. a first mounting groove; 23. an ultrasonic detector; 211. a first connection plate; 212. a first screw hole; 213. a first bolt; 3. an extension assembly; 31. an extension plate; 32. a second mounting groove; 311. a second connecting plate; 312. a second screw hole; 313. and a second bolt.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the automatic container flaw detection device comprises a moving assembly 1, wherein a flaw detection assembly 2 is movably inserted in the moving assembly 1, and an extension assembly 3 is detachably connected in the middle of the flaw detection assembly 2;

the moving assembly 1 comprises two moving plates 11, the upper ends of the two moving plates 11 are provided with inserting grooves 12, the lower ends of the two moving plates 11 are fixedly provided with a plurality of wheel seats 13, and the wheel seats 13 are rotatably connected with moving wheels 14 in pairs.

Specifically, not only can reduce intensity of labour through moving subassembly 1 cooperation subassembly 2 of detecting a flaw, can also improve work efficiency simultaneously, in addition, can carry out comprehensive flaw detection to the container through moving subassembly 1 cooperation subassembly 2 of detecting a flaw and extension subassembly 3 to improve check out test set's accuracy, move through moving wheel 14 and move board 11 and can take the inside subassembly 2 of detecting a flaw of jack groove 12 to can carry out quick flaw detection to the container, and then improve work efficiency, reduce intensity of labour simultaneously.

In this embodiment: the upper surface both ends of movable plate 11 all fixed mounting have support 111, and the both ends of support 111 all fixedly connected with grafting axle 112, and the both ends of support 111 rotate and are connected with concave piece 113, and the both ends of concave piece 113 all fixed mounting have bearing 114, and two bearings 114 rotate respectively and connect the grafting axle 112 side surface at support 111 both ends.

Specifically, the push rod 121 can be mounted and fixed by the support 111 and the plug shaft 112 in cooperation with the concave block 113.

In this embodiment: the surface of the concave block 113 is fixedly connected with a push rod 121, and the upper end of the push rod 121 is fixedly connected with a holding rod 122.

Specifically, after the bearing 114 is mounted on the side surface of the socket shaft 112, when the grip 122 is gripped and pushed, the inclination angle of the push rod 121 can be changed at will under the action of the bearing 114, so that the push rod can be suitable for inspectors of various heights.

In this embodiment: the flaw detection assembly 2 comprises L-shaped plates 21 inserted into insertion grooves 12 at the upper ends of two movable plates 11, two first mounting grooves 22 are formed in the inner side walls of the two L-shaped plates 21, and ultrasonic detectors 23 are fixedly mounted in the two first mounting grooves 22.

Specifically, the L-shaped plate 21 and the movable plate 11 can be fixed by inserting the L-shaped plate 21 into the inserting groove 12, so that the movable wheel 14 can move with the L-shaped plate 21, and in the moving process, the ultrasonic detector 23 on the inner side wall and the upper end of the L-shaped plate 21 can detect the flaw of the top plate and the two sides of the container, thereby completing the longitudinal flaw detection of the container.

In this embodiment: two first screw holes 212 are formed in the surface of the first connecting plate 211, and first bolts 213 are connected to the inner portions of the two first screw holes 212 in a threaded mode.

Specifically, the two L-shaped plates 21 can be screwed by screwing the first bolts 213 inside the two first screw holes 212 formed in the surfaces of the first connection plates 211 at one ends of the two L-shaped plates 21, so that the container can be inspected longitudinally.

In this embodiment: the extension assembly 3 comprises an extension plate 31 arranged at one end of the two L-shaped plates 21, a second mounting groove 32 is formed in the lower end of the extension plate 31, and an ultrasonic detector 23 is fixedly arranged in the second mounting groove 32.

Specifically, the extension plate 31 and the two L-shaped plates 21 are connected, so that the top and the two ends of the container are subjected to flaw detection by the cooperation of the extension plate 31 and the two L-shaped plates, and the transverse flaw detection work is completed, so that the comprehensive flaw detection work of the container can be completed.

In this embodiment: two ends of the extension plate 31 are fixedly connected with second connecting plates 311, the two second connecting plates 311 are respectively connected with first connecting plates 211 at one ends of the two L-shaped plates 21, two second screw holes 312 are formed in the surfaces of the two second connecting plates 311, second bolts 313 are connected with the inner parts of the two second screw holes 312 in a threaded mode, and the second bolts 313 penetrate through the second screw holes 312 to be connected with the inner parts of the first screw holes 212 in a threaded mode.

Specifically, the extension plate 31 and the L-shaped plates 21 can be screwed by connecting the second connection plates 311 at both ends of the extension plate 31 with the first connection plates 211 at one end of the two L-shaped plates 21 and then screwing the second bolts 313 inside the first screw holes 212 and the second screw holes 312.

Working principle: when the ultrasonic flaw detector is used for carrying out longitudinal flaw detection on a container, two inspectors are required to hold holding rods 122 at one ends of two movable plates 11 respectively, push L-shaped plates 21 to stop at one ends of the container, push L-shaped plates 21 to pass through the container, in the process, two ultrasonic detectors 23 on the inner walls of the two L-shaped plates 21 and two ultrasonic detectors 23 on the upper ends can carry out flaw detection on the top and two sides of the container simultaneously, after the longitudinal flaw detection is finished, an extension plate 31 is connected to one ends of the two L-shaped plates 21 through second bolts 313 in a threaded manner, then hold the holding rods 122 to push flaw detection equipment to pass through the container transversely, so that the ultrasonic detectors 23 on the top and the ultrasonic detectors 23 on the lower ends of the extension plate 31 can carry out flaw detection on the two ends and the top of the container respectively, and thus the comprehensive flaw detection on the container can be completed, the comprehensive flaw detection on the container can be carried out through the mutual matching of the structures, the labor intensity can be reduced, and the practicability of the flaw detection equipment can be enhanced.

Claims (7)

1. Container automation is visited and is hindered equipment, including moving subassembly (1), its characterized in that: the inside of the moving assembly (1) is movably inserted with a flaw detection assembly (2), and the middle of the flaw detection assembly (2) is detachably connected with an extension assembly (3);

the movable assembly (1) comprises two movable plates (11), the upper ends of the two movable plates (11) are provided with inserting grooves (12), the lower ends of the two movable plates (11) are fixedly provided with a plurality of wheel seats (13), and the plurality of wheel seats (13) are rotatably connected with movable wheels (14) in pairs.

2. A container automated flaw detection apparatus according to claim 1, wherein: the utility model discloses a movable plate, including movable plate (11), support (111) are all fixed mounting at upper surface both ends, the both ends of support (111) are all fixedly connected with grafting axle (112), the both ends of support (111) rotate and are connected with spill piece (113), the both ends of spill piece (113) are all fixed mounting have bearing (114), two bearing (114) rotate respectively and connect grafting axle (112) side surface at support (111) both ends.

3. A container automated flaw detection apparatus according to claim 2, wherein: the surface of the concave block (113) is fixedly connected with a push rod (121), and the upper end of the push rod (121) is fixedly connected with a holding rod (122).

4. A container automated flaw detection apparatus according to claim 1, wherein: the flaw detection assembly (2) comprises an L-shaped plate (21) inserted into insertion grooves (12) at the upper ends of two movable plates (11), two first mounting grooves (22) are formed in the inner side walls of the L-shaped plate (21), and ultrasonic detectors (23) are fixedly mounted in the two first mounting grooves (22).

5. The automated container flaw detection apparatus according to claim 4, wherein: two one end of L shaped plate (21) all fixedly connected with first connecting plate (211), two first screw (212) have all been seted up on the surface of first connecting plate (211), two the inside of first screw (212) is all threaded connection has first bolt (213).

6. The automated container flaw detection apparatus according to claim 4, wherein: the extension assembly (3) comprises an extension plate (31) arranged at one end of the two L-shaped plates (21), a second mounting groove (32) is formed in the lower end of the extension plate (31), and an ultrasonic detector (23) is fixedly arranged in the second mounting groove (32).

7. The automated container flaw detection apparatus according to claim 6, wherein: two ends of extension board (31) are all fixedly connected with second connecting plate (311), two second connecting plate (311) are connected with first connecting plate (211) of two L shaped plate (21) one ends respectively, two second screw (312) have been seted up on the surface of second connecting plate (311), the inside of two second screw (312) is equal threaded connection has second bolt (313), second bolt (313) run through second screw (312) threaded connection in the inside of first screw (212).

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