CN216201958U - Special cloud platform of tire building machine optical instrument - Google Patents

Abstract

The utility model relates to a special holder for an optical instrument of a tire building machine, wherein: comprises a base, a deflection adjusting seat, an instrument clamping seat, an adjusting bolt and a fixing plate; the lower part of the deflection adjusting seat is erected above the base, and two sides of the deflection adjusting seat are fixedly clamped on the base through adjusting jackscrews; the instrument clamping seat can be rotatably positioned on the deflection adjusting seat and is driven to rotate by an adjusting bolt movably positioned on the fixing plate; the fixed plate is locked at the top of the deflection adjusting seat; the base is used for being locked on the sliding block and driven by the servo motor to move along the linear guide rail. The utility model has the characteristics of reasonable design, simple structure, convenient adjustment and reliable positioning; the device is particularly suitable for the scheme that a plurality of optical instruments are arranged side by side so as to adjust the distance and the parallelism of a vertical plane, and the device is not easy to deviate when being adjusted in place and locked with a belt, and is particularly suitable for being applied to a tire forming machine.

Description

Special cloud platform of tire building machine optical instrument

The technical field is as follows:

the utility model belongs to the technical field of cloud platforms, and particularly relates to a cloud platform special for an optical instrument of a tire building machine, which is particularly suitable for adjusting the distance and the vertical plane of a plurality of parallel optical instruments.

Background art:

the pan-tilt is mostly needed to be adjusted for single equipment, has double-shaft adjustable function, and can realize direction adjustment, namely adjustment of a third shaft by means of the relation between the pan-tilt and the support. However, when a plurality of vertical planes are used side by side, the adjustment of the vertical planes is difficult to realize, and the coordination adjustment is troublesome. Particularly, on a tire building machine, three optical instruments are generally needed for real-time monitoring, and particularly, the parallelism between vertical planes is utilized to ensure the dimensional positioning precision and the parallelism precision of the building machine, which is also an important basis for ensuring the flatness of the tire. At present, the positioning holder is rough in parallel and symmetrical adjustment, the technical standard is that the distance and the vertical parallelism are both +2mm, the generated variables can not be adjusted in time and rapidly and often due to the overlarge existing adjustment clearance, and the adjustment time is different from 30 minutes to 2 hours.

How to overcome the defects of the existing holder and provide a holder scheme suitable for being used side by side, namely the utility model is the object of research.

The utility model content is as follows:

the utility model aims to design a special holder for an optical instrument of a tire building machine, which can adjust the vertical surface of the optical instrument through a bolt.

The technical scheme of the utility model is realized as follows: the utility model provides a special cloud platform of tire building machine optical instrument which characterized in that: comprises a base, a deflection adjusting seat, an instrument clamping seat, an adjusting bolt and a fixing plate; the lower part of the deflection adjusting seat is erected above the base, and two sides of the deflection adjusting seat are fixedly clamped on the base through adjusting jackscrews; the instrument clamping seat can be rotatably positioned on the deflection adjusting seat and is driven to rotate by an adjusting bolt movably positioned on the fixing plate; the fixed plate is locked at the top of the deflection adjusting seat; the base is used for being locked on the sliding block and driven by the servo motor to move along the linear guide rail.

The base middle part is convexly provided with a reference beam, the lower part of the deflection adjusting seat is processed with a groove, the width of the groove is larger than that of the reference beam, and the adjusting jackscrew rotates inwards from two sides of the deflection adjusting seat to be capable of abutting against the side surface of the reference beam.

And a pair of adjusting jackscrews are respectively arranged at the front and the back of the two sides of the base and the deflection adjusting seat.

The instrument clamping seat is provided with a cylindrical embedded column and a clamping ring, the clamping ring is provided with jackscrew holes at two adjacent quadrant points, and the optical instrument is locked in the clamping ring by means of jackscrews; the embedded column penetrates through a cylindrical cavity of the deflection adjusting seat to form a rotatable positioning structure; the clamping ring is provided with a driving arm in an extending mode at a third quadrant point, a circular hole parallel to the axis of the embedded column is machined in the driving arm, a long slotted hole is formed in the vertical direction of the circular hole, an adjusting bolt penetrates through the long slotted hole and is in radial threaded fit with a cylindrical bolt movably embedded in the circular hole, and the adjusting bolt rotates to drive the instrument clamping seat to rotate through the cylindrical bolt.

The adjusting bolt is movably arranged on the fixing plate through the following two structures: a limiting plate is arranged above a fixed plate, a gap with the thickness of the bolt head of an adjusting bolt is formed between the limiting plate and the fixed plate, and the adjusting bolt is restrained to move only in the gap; the limiting plate is directly locked on the fixing plate, and the limiting plate and the fixing plate are provided with long holes corresponding to the long slotted holes on the driving arm; and a snap ring or double nuts are arranged on the lower side of the fixing plate of the adjusting bolt.

The utility model has the characteristics of reasonable design, simple structure, convenient adjustment and reliable positioning; the device is particularly suitable for the scheme that a plurality of optical instruments are arranged side by side so as to adjust the distance and the parallelism of a vertical plane, and the device is not easy to deviate when being adjusted in place and locked with a belt, and is particularly suitable for being applied to a tire forming machine.

Description of the drawings:

the utility model is further illustrated with reference to the following specific figures:

FIG. 1 is a schematic view of a holder dedicated for an optical instrument of a tire building machine

FIG. 2 is an exploded view of the optical instrument head of the tire building machine

Wherein

1-base 11-reference beam 2-deflection adjusting base 21-groove

22-cylindrical cavity 3-instrument holder 31-embedded column 32-clamping ring

33-jackscrew hole 34-driving arm 35-circular hole 36-slotted hole

4-adjusting bolt 5-fixing plate 51-limiting plate 52-long hole

6-adjusting jackscrew 7-cylindrical bolt

The specific implementation mode is as follows:

referring to fig. 1 and 2, the special holder for the optical instrument of the tire building machine comprises a base 1, a deflection adjusting seat 2, an instrument clamping seat 3, an adjusting bolt 4 and a fixing plate 5; the lower part of the deflection adjusting seat 2 is overlapped above the base 1, and two sides of the deflection adjusting seat are fixedly clamped on the base 1 through adjusting jackscrews 6; more specifically, a reference beam 11 is convexly arranged in the middle of the base 1, a groove 21 is processed at the lower part of the deflection adjusting seat 2, the width of the groove 21 is larger than that of the reference beam 11, and the adjusting jackscrew 6 rotates inwards from two sides of the deflection adjusting seat 2 and can abut against the side surface of the reference beam 11; furthermore, a pair of adjusting jackscrews 6 are respectively arranged at the front and the back of the two sides of the base 1 and the deflection adjusting seat 2, so that the orientation of the deflection adjusting seat 2 is adjusted, and a plurality of seats can face the same direction.

The instrument clamping seat 3 can be rotatably positioned on the deflection adjusting seat 2 and is driven to rotate by an adjusting bolt 4 movably positioned on the fixing plate 5, and the angle change is generated relative to the deflection adjusting seat 2, so that the adjustment of a vertical surface is realized; the fixing plate 5 is locked on the top of the deflection adjusting base 2 and provides a support for the adjusting bolt 4.

The base 1 is used for being locked on the sliding block and driven by the servo motor to travel along the linear guide rail, namely, the bearing optical instrument moves left and right, and the distance between a plurality of optical instruments is adjusted. When the vertical planes among the optical instruments are adjusted to be parallel, the distance can be remotely adjusted.

The instrument holder 3 is provided with a cylindrical embedded column 31 and a clamping ring 32, the clamping ring 32 is provided with jackscrew holes 33 at two adjacent quadrant points, the optical instrument is locked in the clamping ring 32 by means of jackscrews, and the optical instrument can be also arranged into a square ring and the like according to optical instruments with different shapes and is positioned by extruding two jackscrews; the embedded column 31 is arranged in the cylindrical cavity 22 of the deflection adjusting seat 2 in a penetrating way to form a rotatable positioning structure; the clamping ring 32 is provided with a driving arm 34 extending from the third quadrant point, the driving arm 34 is provided with a circular hole 35 parallel to the axis of the embedded column 31, a long slot hole 36 is arranged in the vertical direction of the circular hole 35, the adjusting bolt 4 penetrates through the long slot hole 36 and is in radial threaded fit with a cylindrical bolt 7 movably embedded in the circular hole 35, and the adjusting bolt 4 rotates to drive the instrument clamping seat 3 to rotate through the cylindrical bolt 7, so that the purpose of adjusting the vertical surface is achieved.

Further, the adjusting bolt 4 is movable on the fixing plate 5 by two structures:

firstly, a limiting plate 51 is arranged above the fixed plate 5, a gap with the thickness equivalent to that of the bolt head of the adjusting bolt 4 is formed between the limiting plate 51 and the fixed plate 5, and the adjusting bolt 4 is restrained to move only in the gap; the limit plate 51 is directly locked on the fixed plate 5, and the limit plate 51 and the fixed plate 5 are provided with long holes 52 corresponding to the long slotted holes 36 on the driving arm; the long hole on the fixing plate 5 provides a space for the adjusting bolt 4 to move left and right, and the long hole on the limiting plate 51 provides insertion of a tool to realize the adjusting operation.

Secondly, the adjusting bolt 4 is provided with a snap ring or double nuts at the lower side of the fixing plate 5, so that the adjusting bolt 4 only allows the rotation motion relative to the fixing plate 5.

Claims (5)

1. The utility model provides a special cloud platform of tire building machine optical instrument which characterized in that: comprises a base, a deflection adjusting seat, an instrument clamping seat, an adjusting bolt and a fixing plate; the lower part of the deflection adjusting seat is erected above the base, and two sides of the deflection adjusting seat are fixedly clamped on the base through adjusting jackscrews; the instrument clamping seat can be rotatably positioned on the deflection adjusting seat and is driven to rotate by an adjusting bolt movably positioned on the fixing plate; the fixed plate is locked at the top of the deflection adjusting seat; the base is used for being locked on the sliding block and driven by the servo motor to move along the linear guide rail.

2. The specialized cloud deck of optical instrument of the tire building machine according to claim 1, characterized by: the middle part of the base is convexly provided with a reference beam, the lower part of the deflection adjusting seat is provided with a groove, the width of the groove is larger than that of the reference beam, and the adjusting jackscrew rotates inwards from two sides of the deflection adjusting seat to be capable of abutting against the side surface of the reference beam.

3. The specialized cloud deck of tire building machine optical instrument of claim 2, characterized by: a pair of adjusting jackscrews are respectively arranged at the front and the back of the two sides of the base and the deflection adjusting seat.

4. The specialized cloud deck of optical instrument of the tire building machine according to claim 1, characterized by: the instrument clamping seat is provided with a cylindrical embedded column and a clamping ring, the clamping ring is provided with jackscrew holes at two adjacent quadrant points, and the optical instrument is locked in the clamping ring by means of jackscrews; the embedded column penetrates through a cylindrical cavity of the deflection adjusting seat to form a rotatable positioning structure; the clamping ring is provided with a driving arm in an extending mode at a third quadrant point, a circular hole parallel to the axis of the embedded column is machined in the driving arm, a long slotted hole is formed in the vertical direction of the circular hole, an adjusting bolt penetrates through the long slotted hole and is in radial threaded fit with a cylindrical bolt movably embedded in the circular hole, and the adjusting bolt rotates to drive the instrument clamping seat to rotate through the cylindrical bolt.

5. The specialized cloud deck of tire building machine optical instrument according to claim 1 or 4, characterized by: the adjusting bolt is movably arranged on the fixing plate through the following two structures: a limiting plate is arranged above a fixed plate, a gap with the thickness of the bolt head of an adjusting bolt is formed between the limiting plate and the fixed plate, and the adjusting bolt is restrained to move only in the gap; the limiting plate is directly locked on the fixing plate, and the limiting plate and the fixing plate are provided with long holes corresponding to the long slotted holes on the driving arm; and a snap ring or double nuts are arranged on the lower side of the fixing plate of the adjusting bolt.

Images