RU172990U1 - ONE-MODULE MECHANISM OF POSITIONING AND MOTION CONTROL OF THE ROLLING HEAD - Google Patents

Abstract

The single-module positioning and motion control mechanism includes a traction rod, on the outer circumference of which a cone is provided, the module of which interacts with the cone and slides with it, mounted on the outer circumference of the cone by means of a long T-shaped key; the cone and module are fixed on a long T-key with clamps; the support ring is also mounted on the outer circumference of the traction rod; a short T-key is installed between the end surfaces of the support ring and the module; a guide ring is mounted on the other end surface of the module by means of a slide assembly; several T-shaped and square grooves are provided on the annular surface of the guide ring at regular intervals. The guide ring effectively ensures the uniformity of the aligned gaps between the contact surfaces of the long T-shaped key and the T-shaped grooves on the cone and the aligned gaps between the contact surfaces of the short T-shaped key and the T-shaped grooves on the supporting ring. The accuracy of uniform distribution of the long T-key, T-grooves on the cone, T-grooves on the support ring and the module on the outer circumference can be effectively ensured by adopting the traction rod as the axis. extension of its service life.

Description

FIELD OF TECHNOLOGY

[1] The present invention relates to the technical field of milling equipment, in particular to a single-module mechanism for positioning and controlling the movement of the milling head.

BACKGROUND

[2] Currently, the milling head is a key component in the field of milling equipment. Rolling reinforcement is equipped with a rolling head of complex shape with limited space and internal structure. Fixation of the rolling reinforcement ensures uniform tension on the rolling head. The tension in the rolling process is as follows: the longitudinal movement of the traction rod is converted into the radial movement of the module directly in contact with the tube sheet of the steel pipe in order to achieve a discharge of the working pressure created during the forming process and the welding voltage created during welding of the steel pipe, as well as to ensure correspondence of diameters along the entire length of the steel pipe.

[3] In existing technology, the milling head includes a cone, a module, long and short T-shaped keys, a base plate, an external module and other fittings assembled together and then directly mounted on the milling machine. The parts below must be lubricated with a sufficient amount of grease: the contact surface between the module and the cone, as well as the contact surface between the module and the slider. The pressure between the above contact surfaces is high, therefore, in the case of insufficient lubrication, an increase in friction and even damage to the contact surface of parts occurs. In the existing technology, a detection device is not installed on the top head of the module, the motion control is ineffective, the accuracy of the division of the circle cannot achieve the optimal controlled state, the utilization coefficient is low, and the gap between the components cannot be ensured.

Disclosure of the implementation of the present invention

TECHNICAL PROBLEM

Given the shortcomings of the aforementioned existing production technology, the applicant provides for a rational design of a single-module positioning and motion control mechanism, thereby ensuring effective positioning and control of the rolling head movement, and the gap between the sliders, prolonging their service life.

TECHNICAL SOLUTION

A single-module positioning and motion control mechanism includes a traction rod, on the outer circumference of which a cone is provided, the module of which interacts with the cone and slides with it, mounted on the outer circumference of the cone by means of a long T-shaped key; the cone and module are fixed on a long T-key with clamps; the support ring is also mounted on the outer circumference of the traction rod; a short T-key is installed between the end surfaces of the support ring and the module; a guide ring is mounted on the other end surface of the module by means of a slide assembly; several T-shaped and square grooves are provided on the annular surface of the guide ring at equal intervals.

To further improve the above technical solution:

the slider assembly includes a square slider in which a first bolt hole is provided, and a T-shaped slider in which an additional bolt hole is provided; square and T-shaped sliders are fixed to the module end with bolts.

T-grooves provided on the guide ring are aligned with the T-shaped slider, and square grooves provided on the guide ring are aligned with the square slider.

Positive effects

The present invention has a rational and compact design, effectively ensures the uniformity of the aligned gaps between the contact surfaces of the long T-shaped key and the T-shaped grooves on the cone and the aligned gaps between the contact surfaces of the short T-shaped key and the T-shaped grooves on the support ring. You can effectively ensure the accuracy of the uniform distribution of the long T-key, T-grooves on the cone, T-grooves on the support ring and the module on the outer circumference, taking the pull rod as an axis. The motion control is effective, the reliability of the milling head is enhanced and its service life is extended.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 is a structural schematic diagram of the present invention.

In FIG. 2 is a front view of a guide ring of the present invention.

In FIG. 3 shows a full sectional view along section AA of FIG. 2.

In FIG. 4 is a front view of a square slider of the present invention.

In FIG. 5 is a right side view of FIG. four.

In FIG. 6 is a front view of a T-slide of the present invention.

In FIG. 7 is a right side view of FIG. 6.

In the figures: 1. Cone; 2. Guide ring; 3. Slider assembly; 4. Long T-shaped key; 5. Module; 6. Short T-shaped key; 7. Support ring; 8. T-shaped groove; 9. Square groove; 10. Square slider; 11. The first hole for the bolt; 12. T-shaped slider; 13. The second hole for the bolt; 14. Drawbar.

DETAILED DESCRIPTION OF THE INVENTION

As shown in FIG. 1, a single-module positioning and motion control mechanism of an embodiment includes a traction rod 14, on the outer circumference of which 14 a cone 1 is provided, a module 5 of which interacts with the cone and slides with it 1, mounted on the outer circumference of the cone 1 by means of a long T-shaped key 4; cone 1 and module 5 are mounted on a long T-key 4 with clamps; the support ring 7 is also mounted on the outer circumference of the traction rod 14; a short T-shaped key 6 is installed between the end surfaces of the support ring 7 and module 5; a guide ring 2 is mounted on the other end surface of the module 5 by means of a slider assembly 3; and, as shown in FIG. 2 and 3, several T-shaped 8 and square grooves 9 are provided on the annular surface of the guide ring 2 at regular intervals.

As shown in FIG. 4, 5, 6 and 7, the slider assembly 3 includes a square slider 10 in which a first hole for the bolt 11 is provided, and a T-shaped slider 12 in which an additional hole for the bolt 13 is provided; a square slider 10 and a T-shaped slider 12 are fixed to the end of the module 5 with bolts.

T-grooves 8 provided on the guide ring 2 are aligned with the T-shaped slider 12, and square grooves 9 provided on the guide ring 2, with a square slider 10.

In the actual process of use, the guide ring 2, module 5 and the support ring 7 are connected together, forming a closed space for controlling movement on the outer circumference of the traction rod 14, and effectively ensure the uniformity of the aligned gaps between the contact surfaces of the long T-key 4 and T-grooves on the cone 1 and between the contact surfaces of the short T-shaped key 6 and the T-shaped grooves on the support ring 7. A high level of safety coefficient and reliability is ensured. Ia, the efficiency of motion control properties and uniform distribution between the parts installed on the outer circumference of the pull rod 14.

The preceding description is given as a description of the present invention, but does not limit it. The scope of the present invention is defined by the claims, and any changes may be made to the present invention within the scope of its protection.

Claims (1)

A single-module mechanism for positioning and controlling the movement of the rolling head, characterized in that it contains a traction rod (14), a cone (1), a support ring (7), a guide ring (2), a short T-key (6) and a module (5 ), made with the possibility of interaction with the cone (1) and slip with it and mounted on its outer circumference by means of a long T-shaped key (4), while the cone (1) and module (5) are fixed on a long T-shaped key (4) with clamps, the cone (1) and the support ring (7) are mounted on the outer circumference traction rod (14), a short T-key (6) is installed between the end surfaces of the support ring (7) and the module (5), the guide ring (2) is installed on the other end surface of the module (5) by means of the slide assembly (3) comprising a square slider (10), in which a first hole for the bolt (11) is provided, and a T-shaped slider (12), in which a second hole for the bolt (13) is provided, wherein the square (10) and T-shaped sliders ( 12) are fixed on the end surface (5) of the module with bolts, and the T-shaped (8) and square grooves (9) are made on the annular surface of the guide ring (2) at equal intervals with the possibility of combining with a T-shaped slider (12) and a square slider (10), respectively.

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