CN212111271U - Ultrasonic bearing type transmission device for small-diameter pipe rod - Google Patents

Abstract

The utility model discloses a formula transmission is born to small diameter pipe stick supersound, include the drive base plate and be located a plurality of bearing wheels on the drive base plate. The transmission substrate is also provided with an angle adjusting mechanism for adjusting the offset angle of the bearing wheels and a synchronous driving mechanism for driving the bearing wheels to synchronously deflect at an angle. The synchronous driving mechanism comprises a first bracket component and a second bracket component which are arranged side by side, and a main synchronous adjusting plate for driving synchronous deflection angles of the first bracket component and the second bracket component is arranged on the first bracket component and the second bracket component together. The first bracket component and the second bracket component respectively comprise a front mounting bracket and a rear mounting bracket which are hinged on the transmission substrate, and auxiliary synchronous adjusting plates for driving the front mounting bracket and the rear mounting bracket to synchronously move are arranged on the front mounting bracket and the rear mounting bracket together. The utility model discloses a transmission has not only simplified the regulation operation of eccentric angle, has realized the synchro-control of eccentric angle moreover, reduces the pipe rod transmission and beats and unstable phenomenon.

Description

Ultrasonic bearing type transmission device for small-diameter pipe rod

Technical Field

The utility model relates to a stick ultrasonic testing equipment technical field especially relates to a formula transmission is born to small diameter stick supersound.

Background

Before leaving the factory, the pipe and the bar must be subjected to ultrasonic nondestructive testing to comprehensively know whether various cracks, slag inclusions, micro cavities and layering defects are generated in the product in the production or rolling heat treatment process and the like. In order to adapt to the detection of longer products, a roller type conveying device is generally adopted to lead the pipe and the bar to spirally advance according to a certain pitch so as to complete full-coverage detection through a probe scanning mechanism.

According to the requirements of different coverage scanning requirements of products and different production processes of the products and the requirements of detection speed by the ultrasonic detection and the change of the specification and the diameter of the products, the conveying device needs to achieve a proper screw pitch by changing the eccentric angle of the roller when conveying the pipes and the bars. However, the adjustment of the eccentric angle of the existing roller is complex, and the eccentric angles of a plurality of rollers are difficult to ensure to be the same, so that the phenomena of jumping and instability of the pipe and bar materials are easy to occur during conveying.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a small-diameter pipe stick supersound bears formula transmission not only has simplified the regulation operation of eccentric angle, has realized the synchro-control of eccentric angle moreover, reduces the pipe rod transmission and beats and unstable phenomenon.

In order to achieve the above purpose, the utility model discloses a technical scheme is: the utility model provides a small diameter pipe stick supersound bears formula transmission, includes drive substrate and is located a plurality of bearing wheels on the drive substrate. The transmission substrate is also provided with an angle adjusting mechanism for adjusting the offset angle of the bearing wheels and a synchronous driving mechanism for driving the bearing wheels to synchronously deflect at an angle. The synchronous driving mechanism comprises a first bracket component and a second bracket component which are arranged side by side, and a main synchronous adjusting plate for driving synchronous deflection angles of the first bracket component and the second bracket component is arranged on the first bracket component and the second bracket component together. A bracket component, No. two bracket components all including articulate preceding installing support, back installing support on the transmission base plate, be equipped with its synchronous motion's of drive vice synchronous regulation board on preceding installing support, the back installing support jointly. The front mounting bracket and the rear mounting bracket are both provided with the bearing wheels.

The beneficial effects of the utility model reside in that: the adjustment operation of the eccentric angle of the bearing wheel is simplified through the arrangement of the angle adjusting mechanism; synchronous adjustment of the eccentric angle of the bearing wheel is realized through the synchronous driving mechanism, and when the first support assembly or the second support assembly is driven by the angle adjusting mechanism to perform deflection angle movement, synchronous deflection angle movement of the first support assembly and the second support assembly is realized through the main synchronous adjusting plate; meanwhile, synchronous deflection angle movement of a front mounting bracket and a rear mounting bracket in the first bracket assembly/the second bracket assembly is realized through the auxiliary synchronous adjusting plate, so that synchronous deflection angle movement of the bearing wheels mounted on the front mounting bracket and the rear mounting bracket is guaranteed. The utility model discloses a transmission has not only simplified the regulation operation of eccentric angle, has realized the synchro-control of eccentric angle moreover, reduces the pipe rod transmission and beats and unstable phenomenon.

Further, the front mounting bracket comprises a front bracket bottom plate hinged to the transmission substrate, a front bracket vertical plate used for mounting the bearing wheel is integrally arranged at one end of the front bracket bottom plate, and a front extension plate attached to the transmission substrate is integrally arranged at the other end of the front bracket bottom plate.

Further, the main synchronous adjusting plate is perpendicular to the front mounting brackets, one end of the main synchronous adjusting plate is hinged to a front extending plate of one front mounting bracket, and the other end of the main synchronous adjusting plate is hinged to a front extending plate of the other front mounting bracket. When a fore-stock bottom plate rotated along the transmission base plate, its fore-stock riser that corresponds, preceding extension board take place to rotate in step, and the setting through main synchronous adjusting plate can be with on this preceding extension board rotate the transmission to another preceding extension board this moment, and then drives another preceding installing support and take place to rotate, realizes two preceding installing support's synchronous rotation.

Furthermore, one end of one front extension plate, which is far away from the front support bottom plate, is provided with a waist-shaped hole, and an adjusting screw connected with the angle adjusting mechanism penetrates through the waist-shaped hole.

Further, the angle adjusting mechanism comprises a waist-shaped slot formed in the transmission substrate and a driving component for driving the adjusting screw to move along the waist-shaped slot. The driving assembly comprises an adjusting screw rod which is positioned below the transmission substrate and is parallel to the waist-shaped groove, and a nut seat fixedly connected to the transmission substrate is sleeved on the adjusting screw rod. And one end of the adjusting screw rod is fixedly connected with a locking block in threaded connection with the adjusting screw, and the other end of the adjusting screw rod is fixedly connected with an adjusting knob. The adjusting screw is driven to move along the waist-shaped groove through the driving assembly, so that one front mounting bracket is driven to rotate, and the front mounting brackets and the rear mounting bracket are driven to synchronously rotate through the main synchronous adjusting plate and the auxiliary synchronous adjusting plate.

Further, the angle adjusting mechanism further comprises a scale plate fixedly connected to the transmission substrate, and a scale pointer corresponding to the scale plate is fixedly connected to the front extension plate.

Further, the lower end of the transmission substrate is also provided with a height adjusting mechanism for driving the transmission substrate to move up and down. The height adjusting mechanism comprises an adjusting base fixedly connected to the bottom plate, a screw rod arranged in the vertical direction is arranged in the adjusting base in a penetrating mode, one end of the screw rod is fixedly connected with the transmission base plate, and the other end of the screw rod is arranged on the bottom plate in a penetrating mode. The adjusting base is further provided with a limiting groove, and an adjusting nut sleeved on the screw rod is arranged in the limiting groove. The height adjustment of the transmission substrate is realized through the height adjusting mechanism so as to meet the requirements of conveying pipe bars with different specifications and diameters.

Further, one side of the adjusting base is further provided with a locking rod for locking the height of the screw rod, and one end of the locking rod is provided with a locking pin which can be abutted to the screw rod. And one side of the adjusting base is fixedly connected with a locking nut sleeved on the locking rod.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

fig. 2 is a schematic perspective view of another view angle according to an embodiment of the present invention;

fig. 3 is a top view of a transmission base plate according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of the front mounting bracket connected to the angle adjusting mechanism in the embodiment of the present invention.

In the figure:

1-a transmission substrate; 11-waist-shaped slotting; 2-a carrier wheel; 3-main synchronous adjusting plate; 4-front mounting a bracket; 41-front bracket bottom plate; 42-front support vertical plate; 43-a front extension plate; 431-kidney shaped hole; 5, mounting a bracket at the back; 51-rear bracket bottom plate; 52-rear support vertical plate; 6-auxiliary synchronous adjusting plate; 7-adjusting screws; 81-adjusting screw rod; 82-nut seats; 83-a locking block; 84-adjusting knob; 85-scale plate; 86-a scale pointer; 91-a base plate; 92-an adjustment base; 921-limiting and slotting; 93-screw rod; 94-an adjusting nut; 95-a locking lever; 96-lock nut.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Examples

Referring to fig. 1-3, the utility model discloses a small diameter pipe stick supersound bears formula transmission, including transmission base plate 1 and be located a plurality of bearing wheel 2 on transmission base plate 1. The transmission substrate 1 is further provided with an angle adjusting mechanism for adjusting the offset angle of the bearing wheels 2 and a synchronous driving mechanism for driving the bearing wheels 2 to synchronously offset angles. Synchronous actuating mechanism is including a bracket component, No. two bracket components that set up side by side, be equipped with the main synchronous regulating plate 3 of its synchronous declination of drive on a bracket component and No. two bracket components jointly. A bracket component, No. two bracket components all including articulate preceding installing support 4, back installing support 5 on the transmission base plate 1, be equipped with its synchronous motion's of drive vice synchronous regulation board 6 on preceding installing support 4, the back installing support 5 jointly. The front mounting bracket 4 and the rear mounting bracket 5 are both provided with the bearing wheels 2.

The adjustment operation of the eccentric angle of the bearing wheel 2 is simplified through the arrangement of the angle adjusting mechanism; synchronous adjustment of the eccentric angle of the bearing wheel 2 is realized through the synchronous driving mechanism, and when the first bracket assembly or the second bracket assembly is driven by the angle adjusting mechanism to perform deflection angle movement, synchronous deflection angle movement of the first bracket assembly and the second bracket assembly is realized through the main synchronous adjusting plate 3; meanwhile, synchronous deflection angle movement of the front mounting bracket 4 and the rear mounting bracket 5 in the first bracket assembly/the second bracket assembly is realized through the auxiliary synchronous adjusting plate 6, and further synchronous deflection angle movement of the bearing wheels 2 mounted on the front mounting bracket 4 and the rear mounting bracket 5 is ensured.

In the present embodiment, referring to fig. 4, the front mounting bracket 4 includes a front bracket bottom plate 41 hinged on the transmission substrate 1, one end of the front bracket bottom plate 41 is integrally provided with a front bracket upright plate 42 for mounting the bearing wheel 2, and the other end is integrally provided with a front extension plate 43 attached on the transmission substrate 1. The rear mounting bracket 5 comprises a rear bracket bottom plate 51 hinged on the transmission substrate 1, and a rear bracket vertical plate 52 used for mounting the bearing wheel 2 is integrally arranged at one end of the rear bracket bottom plate 51. When the bearing wheels 2 are sequentially installed on the front bracket vertical plate 42 and the rear bracket vertical plate 52, the upper ends of the bearing wheels 2 jointly form a bearing channel for supporting a pipe rod.

In this embodiment, the primary synchronization adjusting plate 3 is disposed perpendicular to the front mounting brackets 4, and has one end hinged to the front extension plate 43 of one of the front mounting brackets 4 and the other end hinged to the front extension plate 43 of the other front mounting bracket 4. In operation, when one front bracket bottom plate 41 rotates along the transmission substrate 1, the corresponding front bracket vertical plate 42 and the front extension plate 43 rotate synchronously; at this moment, the rotation of the front extension plate 43 can be transmitted to the other front extension plate 43 through the arrangement of the main synchronous adjusting plate 3, so that the other front mounting bracket 4 is driven to rotate, and the synchronous rotation of the two front mounting brackets 4 is realized.

In this embodiment, one end of the secondary synchronization adjusting plate 6 is hinged to the front bracket bottom plate 41 of the front mounting bracket 4, and the other end is hinged to the corresponding rear bracket bottom plate 51 of the rear mounting bracket 5. During operation, when the front mounting bracket 4 rotates, the rotation of the front mounting bracket 4 can be transmitted to the rear mounting bracket 5 through the arrangement of the auxiliary synchronous adjusting plate 6, and then the rear mounting bracket 5 is driven to rotate synchronously.

In this embodiment, referring to fig. 4, a waist-shaped hole 431 is formed at one end of one of the front extension plates 43 away from the front bracket bottom plate 41, and an adjusting screw 7 connected with the angle adjusting mechanism penetrates through the waist-shaped hole 431.

The angle adjusting mechanism comprises a waist-shaped slot 11 formed in the transmission substrate 1 and a driving component for driving the adjusting screw 7 to move along the waist-shaped slot 11. The driving assembly comprises an adjusting screw 81 which is positioned below the transmission substrate 1 and is parallel to the waist-shaped slot 11, and a nut seat 82 fixedly connected to the transmission substrate 1 is sleeved on the adjusting screw 81. One end of the adjusting screw rod 81 is fixedly connected with a locking block 83 in threaded connection with the adjusting screw 7, and the other end is fixedly connected with an adjusting knob 84.

The adjusting screw 7 sequentially penetrates through the waist-shaped hole 431 and the waist-shaped slot 11 and is in threaded connection with the locking block 83, the adjusting knob 84 is rotated, the adjusting screw rod 81 moves along the nut seat 82, and the locking block 83 is driven to move synchronously; at this time, the adjusting screw 7 can move along the waist-shaped slot 11 and drive a front mounting bracket 4 to rotate along the transmission base plate 1. The adjusting screw 7 is driven by the driving assembly to move along the waist-shaped slot 11, so that the front mounting bracket 4 is driven to rotate, and the front mounting brackets 4 and the rear mounting bracket 5 are driven to synchronously rotate by the main synchronous adjusting plate 3 and the auxiliary synchronous adjusting plate 6. The provision of the kidney-shaped hole 431 provides space for the front mounting bracket 4 to rotate.

In order to improve the accuracy of the deflection angle adjustment, the angle adjustment mechanism further comprises scale marks 85 fixedly connected to the transmission substrate 1, and a scale pointer 86 corresponding to the scale marks 85 is fixedly connected to one of the front extension plates 43.

In this embodiment, the lower end of the transmission substrate 1 is further provided with a height adjusting mechanism for driving the transmission substrate to move up and down. The height adjusting mechanism comprises an adjusting base 92 fixedly connected to the bottom plate 91, a screw 93 arranged in the vertical direction is arranged in the adjusting base 92 in a penetrating mode, one end of the screw 93 is fixedly connected with the transmission substrate 1, and the other end of the screw is arranged on the bottom plate 91 in a penetrating mode. The adjusting base 92 is further provided with a limiting slot 921, and an adjusting nut 94 sleeved on the screw rod 93 is arranged in the limiting slot 921. When the adjusting nut 94 is rotated, the screw 93 moves up and down along the adjusting nut 94, thereby driving the transmission substrate 1 to move up and down. The height adjustment of the transmission substrate 1 is realized through the height adjusting mechanism so as to meet the requirements of the transmission of pipe bars with different specifications and diameters.

In this embodiment, a locking rod 95 for locking the height of the screw 93 is further disposed on one side of the adjusting base 92, and a locking pin capable of abutting against the screw 93 is disposed at one end of the locking rod 95. A locking nut 96 sleeved on the locking rod 95 is fixedly connected to one side of the adjusting base 92.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (8)

1. A small-diameter pipe rod ultrasonic bearing type transmission device comprises a transmission substrate and a plurality of bearing wheels positioned on the transmission substrate; the method is characterized in that: the transmission substrate is also provided with an angle adjusting mechanism for adjusting the offset angle of the bearing wheels and a synchronous driving mechanism for driving the synchronous offset angles of the bearing wheels; the synchronous driving mechanism comprises a first bracket component and a second bracket component which are arranged side by side, and a main synchronous adjusting plate for driving synchronous deflection angles of the first bracket component and the second bracket component are jointly arranged on the first bracket component and the second bracket component; the first bracket assembly and the second bracket assembly respectively comprise a front mounting bracket and a rear mounting bracket which are hinged on the transmission substrate, and the front mounting bracket and the rear mounting bracket are provided with auxiliary synchronous adjusting plates for driving the front mounting bracket and the rear mounting bracket to synchronously move; the front mounting bracket and the rear mounting bracket are both provided with the bearing wheels.

2. The transmission of claim 1, wherein: the front mounting bracket comprises a front bracket bottom plate hinged to the transmission substrate, a front bracket vertical plate used for mounting the bearing wheel is integrally arranged at one end of the front bracket bottom plate, and a front extension plate attached to the transmission substrate is integrally arranged at the other end of the front bracket bottom plate.

3. The transmission of claim 2, wherein: the main synchronous adjusting plate is perpendicular to the front mounting support, one end of the main synchronous adjusting plate is hinged to the front extending plate of the front mounting support, and the other end of the main synchronous adjusting plate is hinged to the front extending plate of the front mounting support.

4. A transmission according to any one of claims 2 to 3, wherein: one end of the front extension plate, which is far away from the front support bottom plate, is provided with a waist-shaped hole, and an adjusting screw connected with the angle adjusting mechanism penetrates through the waist-shaped hole.

5. The transmission of claim 4, wherein: the angle adjusting mechanism comprises a waist-shaped slot arranged on the transmission substrate and a driving component for driving the adjusting screw to move along the waist-shaped slot; the driving assembly comprises an adjusting screw rod which is positioned below the transmission substrate and is arranged in parallel with the waist-shaped slot, and a nut seat fixedly connected to the transmission substrate is sleeved on the adjusting screw rod; and one end of the adjusting screw rod is fixedly connected with a locking block in threaded connection with the adjusting screw, and the other end of the adjusting screw rod is fixedly connected with an adjusting knob.

6. The transmission of claim 5, wherein: the angle adjusting mechanism further comprises a scale plate fixedly connected to the transmission substrate, and a scale pointer corresponding to the scale plate is fixedly connected to the front extension plate.

7. The transmission of claim 1, wherein: the lower end of the transmission substrate is also provided with a height adjusting mechanism for driving the transmission substrate to move up and down; the height adjusting mechanism comprises an adjusting base fixedly connected to the bottom plate, a screw rod arranged in the vertical direction penetrates through the adjusting base, one end of the screw rod is fixedly connected with the transmission base plate, and the other end of the screw rod penetrates through the bottom plate; the adjusting base is further provided with a limiting groove, and an adjusting nut sleeved on the screw rod is arranged in the limiting groove.

8. The transmission of claim 7, wherein: a locking rod for locking the height of the screw rod is further arranged on one side of the adjusting base, and a locking pin capable of being abutted to the screw rod is arranged at one end of the locking rod; and one side of the adjusting base is fixedly connected with a locking nut sleeved on the locking rod.

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