CN217638852U - Aluminum alloy pipe cold processing detection device - Google Patents

Abstract

The utility model provides an aluminum alloy pipe cold processing detection device belongs to the metalworking field. The device comprises a main body fixing device, a sound wave generating assembly, a sound wave receiving assembly, wherein the sound wave generating assembly is arranged on the main body fixing device, the sound wave receiving assembly is arranged on the main body fixing device in an overturning manner and is located above the sound wave generating assembly, the main body fixing device comprises a base, telescopic rods, a fixed plate, supporting rods and arc-shaped supporting plates, the two telescopic rods are arranged on the base vertically, the fixed plate is a subject telescopic rod, the supporting rods are arranged on the fixed plate vertically, the arc-shaped supporting plates are arranged on the supporting rods, the two supporting rods are coaxial, the sound wave generating assembly is arranged on the fixed plate and is located between the supporting rods, and the aluminum alloy pipe can be inspected through continuous collision and is driven and detected by utilizing aluminum alloy pipe transmission power.

Description

Aluminum alloy pipe cold processing detection device

Technical Field

The utility model provides an aluminum alloy pipe cold processing detection device belongs to the metalworking field.

Background

At present, when cold processing is carried out on an aluminum alloy pipe, drawing deformation or bending is carried out through an extrusion die, defects such as uneven wall thickness of the pipe body or cracking are easy to occur in the processing process, the inspection is needed, the outflow of defective products is avoided, the subsequent processing and assembling quality are influenced, the existing inspection is sampling inspection, the sample is inspected through extracting the sample, omission easily occurs, and continuous online inspection cannot be carried out.

The existing detection equipment has high maintenance cost, and has professional requirements on use, and radiation hazard due to adoption of ray detection.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an aluminum alloy tube cold processing detection device, the installation of one kind that provides is dismantled through dust screen, and the cooperation mount carries out the change of the dust screen of different shapes, prevent wind the network structure who presses down dirt. Simple structure and convenient use.

The utility model relates to an aluminum alloy pipe cold processing detection device is realized like this, the utility model relates to an aluminum alloy pipe cold processing detection device: the sound wave generating assembly comprises a main body fixing device, a sound wave generating assembly and a sound wave receiving assembly, wherein the sound wave generating assembly is arranged on the main body fixing device, the sound wave receiving assembly is arranged on the main body fixing device in a turnover mode and is positioned above the sound wave generating assembly, the main body fixing device comprises a base, telescopic rods, a fixing plate, support rods and arc-shaped support plates, the two groups of telescopic rods are vertically arranged on the base, the main language telescopic rods of the fixing plate are vertically arranged on the fixing plate, the support rods are arranged on the fixing plate, the two groups of the support rods are coaxial, the sound wave generating assembly is arranged on the fixing plate and is positioned between the support rods, the sound wave generating assembly comprises a bearing seat, a vertical frame, a bevel gear, a face gear, a driving wheel, a bearing, a spring, a metal ball, a crankshaft and a balance wheel, the two groups of the bearing seats are oppositely arranged on the fixing plate and are positioned between the support rods, and the inner side of the bearing seat is provided with the vertical frame, two crankshafts are correspondingly arranged between a bearing seat and a vertical frame, two ends of the crankshafts are fixed through bearings, a driving wheel is arranged on a fixed plate and positioned between the crankshafts, bevel gears are arranged at the ends of the crankshafts, a face gear is arranged on one side of the driving wheel, the face gear and the bevel gears are correspondingly meshed, the highest point of the driving wheel is higher than the lowest point of an arc-shaped supporting plate, a plurality of springs are arranged on the crankshafts in an equidistant mode, the springs extend along the radial direction of the crankshafts and are arranged at the end parts of the springs, balance wheels are arranged on the crankshafts, a sound wave receiving assembly comprises slide rods, slide sleeves, suspension rods, supports, fixed sleeves and receivers, the two ends of each slide rod are correspondingly arranged on the outer sides of the arc-shaped supporting plates, the slide rods are horizontally arranged, the slide sleeves are arranged on the slide rods, one ends of the supports are arranged on the slide sleeves, the other ends of the supports are suspended above the fixed plates, and the side walls of the fixed sleeves are hinged on the supports, the fixing sleeve is of a cylindrical structure, the rotating rod is arranged in the fixing sleeve, the two ends of the rotating rod extend out of the fixing sleeve, the rotating rod is in threaded connection with the fixing sleeve, and the receiver is arranged on the suspension rod;

the spring clamp is arranged on the crankshaft and can stretch out and draw back along the radial direction of the crankshaft;

the metal balls have different masses and are increased or decreased along the axial direction of the crankshaft;

the driving wheel is a concave wheel, and the surface of the driving wheel is provided with a plurality of rubber bumps;

the radius of gyration of the metal ball is larger than the radius of the driving wheel;

the bottom of the arc-shaped supporting plate is semicircular, and two sides of the arc-shaped supporting plate extend along a tangent line to form linear guide parts;

a protective adhesive tape is arranged on the inner side wall of the arc-shaped supporting plate;

and a reinforcing plate is arranged on the bearing seat.

Has the advantages that:

1. the aluminum alloy pipe can be inspected through continuous collision;

2. driving detection is carried out by utilizing the power transmitted by the aluminum alloy pipe;

3. simple structure and convenient use.

Drawings

FIG. 1 is the utility model relates to an aluminum alloy pipe cold processing detection device's schematic structure.

FIG. 2 is the structural schematic diagram of the receiver of the aluminum alloy pipe cold working detection device of the present invention.

FIG. 3 is the utility model relates to an aluminum alloy pipe cold processing detection device's vibration subassembly's schematic structure.

In the drawings:

1. a base; 2. a telescopic rod; 3. a support lever; 4. an arc-shaped supporting plate; 5. a receiver; 6. a suspension rod; 7. a support; 8. a sliding sleeve; 9. a slide bar; 10. a sound wave generating assembly; 11. a fixing plate; 12. fixing a sleeve; 13. a bearing seat; 14. erecting a frame; 15. a bevel gear; 16. a face gear; 17. a drive wheel; 18. a bearing; 19. a spring; 20. a metal ball; 21. a crankshaft; 22. a balance wheel.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

According to the illustrations in FIGS. 1-3: the utility model relates to an aluminum alloy pipe cold processing detection device is realized like this, the utility model relates to an aluminum alloy pipe cold processing detection device: the acoustic wave generating device comprises a main body fixing device, an acoustic wave generating assembly 10 and an acoustic wave receiving assembly, wherein the acoustic wave generating assembly 10 is arranged on the main body fixing device, the acoustic wave receiving assembly is arranged on the main body fixing device in a turnover mode and is positioned above the acoustic wave generating assembly 10, the main body fixing device comprises a base 1, telescopic rods 2, a fixing plate 11, support rods 3 and arc-shaped support plates 4, the two groups of telescopic rods 2 are vertically arranged on the base 1, the fixing plate 11 is arranged on the telescopic rods 2, the support rods 3 are vertically arranged on the fixing plate 11, the arc-shaped support plates 4 are arranged on the support rods 3, the support rods 3 are two groups, the arc-shaped support plates 4 on the support rods 3 are coaxial, the acoustic wave generating assembly 10 is arranged on the fixing plate 11 and is positioned between the support rods 3, the acoustic wave generating assembly 10 comprises a bearing 18 seat 13, a vertical frame 14, a bevel gear 15, a face gear 16, a driving wheel 17, a bearing 18, a spring 19, a metal ball 20, a crankshaft 21 and a balance wheel 22, two groups of bearings 18 seats 13 are oppositely arranged on the fixed plate 11 and positioned between the support rods 3, the inner sides of the bearings 18 seats 13 are provided with vertical frames 14, two crankshafts 21 are correspondingly arranged between the bearings 18 seats 13 and the vertical frames 14, two ends of the crankshafts 21 are fixed through the bearings 18, a driving wheel 17 is arranged on the fixed plate 11 and positioned between the crankshafts 21, the end parts of the crankshafts 21 are provided with bevel gears 15, one side of the driving wheel 17 is provided with a face gear 16, the face gear 16 is correspondingly meshed with the bevel gears 15, the highest point of the driving wheel 17 is higher than the lowest point of the arc-shaped supporting plate 4, the crankshafts 21 are provided with a plurality of springs 19, the springs 19 are equidistantly arranged on the crankshafts 21, the connecting rod parts are provided with the springs 19 radially extending along the crankshafts 21, metal balls 20 are arranged at the end parts of the springs 19, the crankshafts 21 are provided with balance wheels 22, and the sound wave receiving assembly comprises slide rods 9, slide sleeves 8, suspension rods 6, supports 7, fixed sleeves 12, the receiver 5, the two ends of the sliding rod 9 are correspondingly arranged outside the arc-shaped supporting plate 4, the sliding rod 9 is horizontally arranged, the sliding sleeve 8 is arranged on the sliding rod 9, one end of the bracket 7 is arranged on the sliding sleeve 8, the other end of the bracket is suspended above the fixed plate 11, the side wall of the fixed sleeve 12 is hinged on the bracket 7, the fixed sleeve 12 is of a cylindrical structure, the rotating rod is arranged in the fixed sleeve 12, the two ends of the rotating rod extend out of the fixed sleeve 12, the rotating rod and the fixed sleeve 12 are in threaded connection, and the receiver 5 is arranged on the suspension rod 6;

the spring 19 is clamped on the crankshaft 21 and can expand and contract along the radial direction of the crankshaft 21;

the metal balls 20 have different masses and are increased or decreased in the axial direction along the crankshaft 21;

the driving wheel 17 is a concave wheel, and the surface of the driving wheel is provided with a plurality of rubber bumps;

the radius of gyration of the metal ball 20 is larger than the radius of the driving wheel 17;

the bottom of the arc-shaped supporting plate 4 is semicircular, and two sides of the arc-shaped supporting plate extend along a tangent line to form linear guide parts;

a protective adhesive tape is arranged on the inner side wall of the arc-shaped supporting plate 4, so that an aluminum alloy pipe can be protected;

a reinforcing plate is arranged on the bearing 18 seat 13;

when the aluminum alloy cold machining device is used, the aluminum alloy cold machining device is installed on an aluminum alloy extrusion pipe conveying line through the base 1, the aluminum alloy extrusion pipe is guided and conveyed through the arc-shaped supporting plate 4, the aluminum alloy pipe moves along the arc-shaped supporting plate 4 and drives the driving wheel 17 to rotate, the driving wheel 17 rotates and drives the bevel gear 15 to rotate through the face gear 16, the crankshaft 21 is driven to rotate, the spring 19 on the crankshaft 21 is driven to rotate, the aluminum alloy pipe is impacted through the metal ball 20, the aluminum alloy pipe is matched with the annular structure of the aluminum alloy to form vibration and generate sound, the receiver 5 is attached to the wall of the aluminum alloy pipe, the support 7, the fixing sleeve 12 and the suspension rod 6 are used for adjusting, the receiver 5 is attached to an external radio processing device, the receiver 5 is used for receiving the vibration sound waves and comparing the preset sound waves, the quality of the aluminum alloy pipe is judged through the tone quality defects generated by vibration, when the aluminum alloy pipe has cracks and uneven wall thickness, the sound waves received by the receiver 5 are incomplete, the external device is used for judging, online monitoring of aluminum alloy cold machining, and the purpose of cold machining detection is achieved.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (7)

1. The utility model provides an aluminum alloy tube cold working detection device which characterized in that: comprises a main body fixing device, a sound wave generating assembly (10) and a sound wave receiving assembly, wherein the sound wave generating assembly (10) is arranged on the main body fixing device, the sound wave receiving assembly is arranged on the main body fixing device in a turnover mode and is positioned above the sound wave generating assembly (10), the main body fixing device comprises a base (1), telescopic rods (2), a fixed plate (11), support rods (3) and arc-shaped support plates (4), the two groups of telescopic rods (2) are vertically arranged on the base (1), the fixed plate (11) is arranged on the telescopic rods (2), the support rods (3) are vertically arranged on the fixed plate (11), the arc-shaped support plates (4) are arranged on the support rods (3), the support rods (3) are divided into two groups, the arc-shaped support plates (4) on the support rods (3) are coaxial, the sound wave generating assembly (10) is arranged on the fixed plate (11) and is positioned between the support rods (3), the sound wave generating assembly (10) comprises a bearing seat (13), a vertical frame (14), bevel gears (15), face gears (16), driving wheels (17), bearings (18), springs (19), metal balls (20), a crankshaft (21), balance wheels (22), the two groups of balance wheels (13) are arranged on the support rods (13) and are arranged on the inner side of the support rods (13), two crankshafts (21) are correspondingly arranged between a bearing seat (13) and a vertical frame (14), two ends of each crankshaft (21) are fixed through a bearing (18), a driving wheel (17) is arranged on a fixing plate (11) and positioned between the crankshafts (21), a bevel gear (15) is arranged at the end part of each crankshaft (21), a face gear (16) is arranged on one side of the driving wheel (17), the face gear (16) is correspondingly meshed with the bevel gear (15), the highest point of the driving wheel (17) is higher than the lowest point of an arc-shaped supporting plate (4), a plurality of springs (19) are arranged on each crankshaft (21), the springs (19) are equidistantly arranged on the crankshafts (21), the springs (19) radially extend along the crankshafts (21), metal balls (20) are arranged at the end parts of the springs (19), balance wheels (22) are arranged on the crankshafts (21), a sound wave receiving assembly comprises a sliding rod (9), a sliding sleeve (8), a suspension rod (6), a support (7), a fixed sleeve (12) and a receiver (5), two ends of the sliding rod (9) are correspondingly arranged on the outer side of the supporting plate (4), the sliding sleeve (8), the other end of the sliding sleeve (9) is arranged above the sliding rod (7), and the fixing sleeve (11), the side wall of the fixed sleeve (12) is hinged on the support (7), the fixed sleeve (12) is of a cylinder structure, the rotating rod is arranged in the fixed sleeve (12), the two ends of the rotating rod extend out of the fixed sleeve (12), the rotating rod and the fixed sleeve (12) are in threaded connection, and the receiver (5) is arranged on the suspension rod (6).

2. The aluminum alloy pipe cold working detection device of claim 1, wherein: the spring (19) is clamped on the crankshaft (21) and can expand and contract along the radial direction of the crankshaft (21).

3. The aluminum alloy pipe cold working detection device of claim 1, wherein: the metal balls (20) have different masses and are increased or decreased in the axial direction of the crankshaft (21).

4. The aluminum alloy pipe cold working detection device of claim 1, wherein: the driving wheel (17) is a concave wheel, and a plurality of rubber bumps are arranged on the surface of the driving wheel.

5. The aluminum alloy pipe cold working detection device of claim 1, wherein: the radius of gyration of the metal ball (20) is larger than the radius of the driving wheel (17).

6. The aluminum alloy pipe cold working detection device of claim 1, wherein: the bottom of the arc-shaped supporting plate (4) is semicircular, and two sides of the arc-shaped supporting plate extend along a tangent line to form linear guide parts.

7. The aluminum alloy pipe cold working detection device of claim 1, wherein: and a protective adhesive tape is arranged on the inner side wall of the arc-shaped supporting plate (4).

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