RU71579U1 - PIPE CUTTING DEVICE - Google Patents

Abstract

The device for cutting pipes is designed to restore used pipes during installation and dismantling of pipelines and oil pipelines. The annular stationary body 1 is equipped with an internal rotating element 5, with two toolholders 6 rigidly fixed on it, on one of which a cutting tool 7 is fixed, and on the other a tool 8 for forming a welding chamfer. The feed mechanism of the cutters is made in the form of a ratchet wheel 9, made in one piece with the feed screw 10 of the slider on which the cutter 7 or 8 is mounted. On the ring stationary body 1, a stop 11 is made rigidly made in the form of a tooth repeating the tooth profile of the ratchet wheel 9, with the possibility of turning the ratchet wheel by one tooth, turning the screw for the radial feed of the tool holder slide, which guarantees the coincidence of the beginning and end of the cut with a significant reduction in time, by simultaneously cutting and forming welding chamfer for subsequent docking straight and corner pipes of large diameter. 4 ill.

Description

The utility model relates to devices for metal cutting and can be used during installation and dismantling works on trunk and oil pipelines to process the ends of large diameter pipes, including angular ones, with the formation of a welding chamfer for subsequent joining.

Known methods and devices for cutting pipes and forming a welding chamfer by means of cutters for their subsequent joining, for example on turning or by milling machines on milling machines by rotating the pipes relative to the tool. However, in the field, the cutting of stationary pipes of large diameter, and even more so of angle pipes, on stationary devices, on which it would also be impossible to center the angle pipes due to their large dimensions, is not possible.

The closest in design features and the achieved effect and taken as a prototype is a device for cutting large diameter pipes (see certificate on PM No. 13475 according to class B23D 21/06, application. 14.09.99, publ. 20.04.2000), containing a cart, with a cutting tool mounted on it, equipped with a drive for its rotation, and a tool feed mechanism made in the form of drive sprockets with chains spanning the pipe.

The disadvantages of the known device include the unreliability of its work, especially when cutting stationary pipes of large diameter, because in the process of cutting, a trolley acts on the trolley, which appears due to the cutting forces on the milling cutter mounted cantilever outside the track of the trolley, the feed force of which is significant, because The cutting area is wide. Under the influence of torque, the trolley turns around, makes a spiral movement, and as a result, the end of the cut does not coincide with its beginning, and an increase from vibrational variable loads leads to chipping of the cutter teeth and its failure.

In addition, it is impossible to obtain an end cut in the lower part of the pipe thickness perpendicular to the pipe axis, which is ideal for pipe joining (when the welding chamfer is formed approximately on the end conical mill, which is used to cut the end part of the pipe and form the weld bevel). 2/3 of the thickness of the pipe).

These fundamental design flaws are characteristic of both devices manufactured by various Russian enterprises and the well-known German company Fine.

In various modifications of devices for cutting stationary pipes, mainly large diameters, including angular ones, they strive with unequal success to reduce the mismatch between the beginning and end of the cut (by increasing the tightness of the chains (USSR AS No. 1366324), by increasing the angle of the girth of the pipe by chains (PM No. 13475 and etc.), however, the root cause - the presence of torque turning the trolley, remains unchanged.

The task to which the claimed utility model is directed is to increase the reliability and durability of the device, as well as reduce the time of cutting pipes.

The technical result is the creation of an optimal device for cutting pipes, which guarantees the coincidence of the beginning and end of the cut, and simultaneously with the cutting of the pipe, forming a chamfer to a predetermined depth for welding, to obtain a lower chamfer of a given end in the lower part of the pipe thickness perpendicular to the pipe axis, which is an ideal condition for docking it with another pipe, while there is a significant reduction in time by simultaneously cutting and forming a welding chamfer for subsequent docking straight large and angular pipes of large diameter.

The problem is solved due to the fact that in the known device for cutting pipes containing the mounting unit of the cutting tool with a drive for its rotation in the form of an engine with a planetary gear and a mechanism

according to the utility model, the attachment point of the cutting tool is made in the form of an annular fixed body equipped with supports, inside of which a rotating element is mounted with two tool holders rigidly mounted on it, on one of which a cutting tool is fixed, and on the other a cutter for forming welding chamfer, while the feed mechanism of the cutters is made in the form of a ratchet mounted on bearings, made in one piece with the feed screw of the slider on which the cutter is mounted C, while on the annular stationary body, a stop is rigidly fixed, made in the form of a tooth that repeats the profile of the tooth of the ratchet wheel, with the possibility of turning the ratchet wheel by one tooth to rotate the screw for radial feed of the tool holder slide.

In addition, an asynchronous electric motor can be mounted on the ring-shaped stationary body as a drive for rotating the tool, and the support of the ring stationary body can be made in the form of a rectangular element in which a slider is placed integrally with the support shoe repeating the pipe profile along the generatrix, with the possibility of centering the pipe relative to the device.

The essential features of a utility model are:

- the implementation of the mounting attachment of the cutting tool in the form of an annular fixed body equipped with supports, inside of which a rotating element is mounted with two toolholders rigidly mounted on it, on one of which a cutting tool is fixed, and on the other - a tool for forming a welding chamfer, allows first, to cut off a stationary tube, including a corner pipe, and secondly, simultaneously with its cutting, a chamfer is formed to a depth set for welding, to obtain a lower chamfer given at the bottom end of the pipe thickness, perpendicular with respect to the tube axis, which is the ideal condition for joining it to other

pipe during welding, and the combination of the operation of simultaneous cutting of the pipe and the formation of the welding chamfer significantly reduces the time of preliminary preparation of pipes for joining;

- supply of tool holders with cutter feed mechanisms, each of which is made in the form of a ratchet wheel mounted on bearings, made in one piece with the feed screw of the slider on which the cutter is mounted, ensures reliable radial movement of the latter to a predetermined stepwise cut depth, and ratchet made in one piece wheels with a feed screw for the tool holder slider reduces vibrations with the force of cutting the tool into an uneven surface, for example, a used pipe, ensuring cutting durability My instrument

- the installation on the ring stationary body of a rigidly fixed stop in the shape of a tooth, repeating the profile of the tooth of the ratchet wheel, provides the ability to rotate the screw for radial feed of the cutter when the ratchet wheel is rotated by one tooth interacting with the stop tooth;

- in addition, the use of an asynchronous electric motor mounted on a ring-shaped stationary housing as a rotation drive makes it possible to organize two and three-shift operation of the device, and each of the supports of the stationary cylindrical housing is in the form of a rectangular element, in which a slider made in one piece is placed with a support shoe repeating the profile of the pipe along the generatrix, provides support that eliminates the negative impact of torque on it, which reduces vibration ju to cutters, and also provides reliable centering of the pipe relative to the device.

Thus, the set of essential design features of the utility model ensures the achievement of a technical result, namely, the creation of an optimal device for cutting pipes, ensuring the coincidence of the beginning and end of the cut, and simultaneous with cutting the pipe

forming a chamfer to a predetermined depth for welding, to obtain a lower chamfer of a given end in the lower part of the pipe thickness, perpendicular to the axis of the pipe, which is ideal for joining it with another pipe, while there is a significant reduction in time by simultaneously cutting and forming a welding chamfers for the subsequent joining of straight and angular pipes of large diameter.

Studies conducted on the sources of patent and scientific and technical literature have shown that the proposed utility model is unknown and does not follow explicitly from the material studied, i.e. meets the criterion of "novelty."

The proposed device for cutting pipes can find application for the restoration of used pipes during installation and dismantling works on trunk and oil pipelines and can be manufactured at any enterprise specializing in this industry, as this requires known materials and standard equipment, etc. e. utility model meets the criterion of "industrial applicability".

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a General view of the device, side view; in Fig.2 is a General view of the device, front view; figure 3 is a General view of the device, rear view; figure 4 is a General view of the tool holder in section.

The pipe cutting device comprises a cutting tool mount, made in the form of an annular fixed housing 1, with a drive for its rotation in the form of an asynchronous motor 2 with a planetary gear 3. An annular fixed housing equipped with four supports 4, the housing 1, is made inside with a rotating element 5, on which two toolholders 6 are rigidly mounted, while one of them has a cutting tool 7 fixed, and on the other a tool 8 for forming a welding chamfer. The feed mechanism of the cutters 7 and 8 is made in the form of a ratchet wheel 9 mounted on bearings, made in one piece with the feed screw 10 of the slider 11, on which the cutter 7 or 8. is mounted

the fixed housing 1 is rigidly fixed stop 12, shaped in the form of a tooth repeating the tooth profile of the ratchet wheel 9, with the possibility of implementation when turning the ratchet wheel 9 on one tooth rotate the screw 10 for radial feed of the slide of the tool holder 6. In addition, each of the supports 4 made in the form of a rectangular element in which the slider 13 is placed, made in one piece with the support shoe 14, repeating the profile of the pipe along the generatrix, with the possibility of centering the pipe relative to the device.

The device is used as follows.

Before starting the process, the cutting device by means of four supports 4 is installed and centered by means of shoes 14 relative to the axis of the pipe at a certain distance from the place of its cutting. The asynchronous motor 2 through the planetary gear 3 communicates the rotational movement to the element 5, which provides rotation to the tool holders 6, with cutters 7 and 8 mounted on them. The ratchet wheel 9, when interacting with the stop tooth 12, rotates 30 ° and moves the cutters 7 and 8 by 0,083 mm with a screw thread pitch of 1 mm, while the cut-off times with a pipe wall thickness of 8 mm are 12.5 minutes.

At the request of the customer, setting the thread pitch, it is possible to change the radial feed of the cutters from a given value of 0.083 mm in one direction or another.

In addition, the device can be equipped with a hydraulic actuator for operation in an explosive atmosphere.

Compared with the prototype, the proposed utility model provides increased reliability and durability of the device, as well as reduced pipe cutting time. So a pipe segment with a wall thickness of 8 mm with the simultaneous formation of a chamfer is carried out in 12.5 minutes. (in the prototype - in 1 hour).

Claims (3)

1. A device for cutting pipes, containing the attachment of the cutting tool with a drive of its rotation in the form of an engine with a planetary gear and a feed mechanism of the cutting tool, characterized in that the attachment of the cutting tool is made in the form of an annular stationary body equipped with supports, inside of which a rotating an element with two toolholders rigidly mounted on it, on one of which a cutting tool is fixed, and on the other - a tool for forming a welding chamfer, while the feed mechanism The tsov is made in the form of a ratchet wheel mounted on bearings, made in one piece with the feed screw of the slide on which the cutter is mounted, and an emphasis is fixed on the annular fixed body in the form of a tooth repeating the profile of the tooth of the ratchet wheel, with the possibility of when turning the ratchet wheel by one tooth turning the screw for radial feed of the tool holder slider. 2. The pipe cutting device according to claim 1, characterized in that an induction motor can be mounted on the ring-shaped stationary body as a drive for rotating the tool. 3. The pipe cutting device according to claim 1, characterized in that each of the supports is made in the form of a rectangular element in which a slider is placed integrally with a support shoe repeating the pipe profile along the generatrix, with the possibility of centering the pipe relative to the device.