RU31214U1 - Device for boring grooves and pipe sections from the inside - Google Patents

Description

2003107182

Device for boring grooves and pipe sections from the inside.

B 23 d 21/06

The utility model relates to devices for processing pipes from the inside and can be used in mechanical engineering, oil production, chemical and other industries where disassembly of pipelines is impossible, for example, in the repair of wells, channels, etc.

A device is known for pipe sections, comprising a housing with cutting elements disposed in it and a device for attaching them, as well as a feed mechanism for the cutters.

A. s. USSR No. 1215889 class B 23 D 21/14.

However, this device has several disadvantages: there is no rigid fixation of the device in the pipe, the rigidity of the fixture-tool-component system is not provided. The device requires a fluid pressure source.

The closest (prototype) to the proposed utility model is a device that contains a housing, a mechanism for fixing it in a pipe, a cutting head and a feed mechanism.

A. s. USSR No. 421440 cells B 23 d 21/06.

The disadvantages of this device are: insufficient rigidity of the fixture-tool-component system, design complexity, in addition, for the operation of the device a source of liquid or air pressure is required.

The purpose of the utility model is to increase the rigidity of the fixture-tool-component system and simplify the design.

The posed problem is solved by the fact that in the device containing the housing, the cutting head kinematically associated with it, the wedge feed mechanism of the cutter and the locking mechanism of the device in the pipe, the locking mechanism is made in the form of three wedge crackers evenly located on the surface of the housing in inclined grooves with the possibility longitudinal movement, thrust sleeve, movably mounted on the rear of the housing and interacting with wedge crackers, a flywheel, movably screwed on the rear of the housing and interacting a second retaining sleeve, the return spring disposed between the housing and the retaining sleeve, and the circlip covering crackers wedge and the wedge feed mechanism is designed as a T-shaped profile, interacting with the T-shaped groove of the guide sleeve 1m of the cutting unit.

Figure 1 shows the device, a General view; figure 2 is a section along aa in figure 1; figure 3 is a section bB in figure 1.

The device for boring grooves and pipe sections from the inside consists of a housing 1, with a drive sleeve 2 located therein, a mechanism for fixing the device in the pipe, a cutting head and a feed mechanism. The locking mechanism of the device in the pipe contains at least three wedge crackers 3, evenly located on the surface of the housing 1 in inclined grooves 4 with the possibility of longitudinal movement, a thrust sleeve 5, movably mounted on the rear of the housing 1 and interacting with the wedge crackers 3, a flywheel b, movably screwed onto the tail of the housing 1 and interacting with the thrust sleeve 5, a return spring 7 located between the housing 1 and

thrust sleeve 5, a spring ring 8, covering the wedge crackers 3 and the thrust washer 9,

The cutter head includes a guide sleeve 10 with a T-groove 11, in which a cutter 12 is mounted, fixed by a screw 13. and a spring 14 located between the support sleeve 15 and the threaded plug 16. The cutter head is located in the transverse hole 17 of the drive sleeve 2. The drive sleeve 2, in addition to the hole 17, contains a longitudinal groove 18 and is mounted in the housing 1 by a circlip 19 for rotation. The feed mechanism consists of a spindle 20, one end of which is made in the form of a wedge 21 of the T-shaped profile, interacting with the T-shaped groove 11 of the guide sleeve 10. The other end of the spindle 20 is made in the form, for example, of a Morse taper for connection to the spindle of a mechanical-feed drilling machine 22 . In the transverse hole of the spindle 20, a stud 23 is fixedly mounted, freely moving in the longitudinal groove 18 of the drive sleeve 2 and interacting with a return spring 24 located between the drive sleeve 2 and the pin 23.

The device operates as follows.

A drilling machine with a mechanical feed 22 is installed on the device and brought to its original position, for which, by moving the flywheel b, wedge crackers 3 are installed along the inner diameter of the pipe, and the spindle 20 is set to the extreme rear position. Then insert the device into the pipe to a predetermined depth. By rotating the flywheel b, the thrust sleeve 5 is brought into translational motion, which, acting through the thrust washer 9 on

wedge crackers 3, moves them in inclined grooves 4, thereby rigidly fixing the device in the pipe.

Then include a drilling machine with a mechanical feed 22 and through the spindle 20 and the drive sleeve 2 rotate the cutting head with the cutter 12. At the same time, the feed wedge 21, moving translationally with a T-shaped profile along the T-shaped groove 11 of the guide sleeve 10, the feed of the cutter 12. The vibration of the guide sleeve 10 and the cutter 12 arising during the cutting process is extinguished by the spring 14, which ensures smooth cutting. After the operation, the pipe segments, with the reverse feed of the drilling machine 22, the return spring 24 acts on the pin 23 and returns the spindle 20 with the feed wedge 21 to its original position, while the guide sleeve 10, moving along the T-shaped profile of the feed wedge 21, returns together with a cutter 12 to its original position. Then, during the reverse rotation of the flywheel 6, the return spring 7 moves the thrust sleeve 5 to its original position, and the spring ring 8 moves the wedge crackers 3 in the direction of the thrust sleeve 5, thereby reducing the diameter of the locking device. After that, the cut pipe is freely removed from the device, and in the case of grooving the device is removed from the pipe.

The device allows to increase the rigidity of the fixture-tool-component system, to simplify its design and use in operation.

Claims (1)

A device for grooving the grooves and pipe sections from the inside, comprising a housing, a cutter head kinematically associated with it, a wedge feed mechanism of the cutter and a device fixing mechanism in the pipe, characterized in that the device fixing mechanism is made of at least three wedge crackers uniformly located on the housing surface in inclined grooves with the possibility of longitudinal movement, a thrust sleeve movably mounted on the rear of the housing and interacting with wedge crackers, a flywheel, movably navin of the casing on the tail of the housing and interacting with the thrust sleeve, a return spring located between the housing and the thrust sleeve, a spring ring covering the wedge crackers, and the wedge of the feed mechanism is made in the form of a T-shaped profile interacting with the T-shaped groove of the guide sleeve of the cutting head .