RU2179099C2 - Machine for oxygen cutting of tubes - Google Patents

Abstract

FIELD: gas-flame cutting of tubes, possibly cutting tubes of main gas pipeline. SUBSTANCE: machine includes mechanism for fixing cutter; said mechanism is arranged symmetrically relative to cross plane of cart with runners. Mechanism for tensioning flexible metallic belt has double-arm levers supporting tension rollers. Screw of tensioning mechanism is arranged over lengthwise axis of cart. Tightening members of tensioning mechanism are in the form of rollers mounted with possibility of rotation. Handle of drive unit may be in the form of flexible drive shaft. EFFECT: enhanced design of machine, high accuracy of cutting, increased useful life and improved labor condition. 2 cl, 3 dwg

Description

 The invention relates to devices for flame cutting of pipes and can be used for ring cutting of pipes of main gas pipelines.

 A known portable machine for flame cutting pipes (patent N 2117559, Russia, 23K 7/00, 37/02), containing a trolley with a drive and a handle, with a cutter mounted on it, a cutter mounting mechanism, a flexible metal belt in the form of a chain, covering the cut pipe, the tension mechanism, the screw of the tension mechanism is offset relative to the longitudinal axis of the trolley along the transverse axis of the trolley.

 This arrangement of the screw of the tension mechanism causes an uneven distribution of the load on the machine components, for example, rollers and tension rollers. This causes the trolley to skew, which increases the wear of machine components that perceive uneven loads and reduces the service life of the machine, and also reduces the accuracy of the cut.

 A ZINSER pipe cutting machine for oxygen is also known (Zinser catalog, "Pipe cutting machine for oxygen cutting", Fr. N 70132-82, 1982) (the catalog sheet of the company and the nameplate from the machine are attached to the application materials) accepted for the prototype and containing a trolley with two rollers, a drive with a handle, with a cutter and a mounting mechanism for the cutter, the longitudinal axis of the mechanism is located in the transverse plane of the trolley above the axis of one of the pairs of rollers, a flexible metal tape, a belt tension mechanism including two shoulders with tired they inventive clamping elements are constructed as pins rigidly fixed to the two-armed levers, with the screw spring, tension rollers, levers mounted with stazhnymi elements made in the form of studs, rigidly fixed on the arms. The screw of the tension mechanism is installed parallel to the longitudinal axis of the trolley and is offset relative to it along the transverse axis.

 This arrangement of the mounting mechanism of the torch and the screw of the tension mechanism causes an uneven distribution of the load on the rollers and idler rollers. This causes the trolley to skew, which increases the wear of the machine components that perceive uneven loads, and reduces the service life of the machine, and also reduces the accuracy of the cut.

 In addition, due to the rigid fastening of the studs on the levers of the tension mechanism during operation of the machine, the friction of the slipping of the tape on the studs occurs, which increases its wear, reducing the life of the machine.

 The task of the invention is to increase the service life of the machine by reducing the wear of its individual nodes and increasing the accuracy of the cut by evenly distributing the load on the machine nodes.

 The inventive machine for oxygen cutting of pipes contains a trolley with rollers, a drive with a handle, a cutter with a mechanism for attaching it, a flexible metal tape, a mechanism for its tension, including two-arm levers with tension rollers and coupling elements mounted on them, a screw with a spring. Unlike the prototype, the torch attachment mechanism is placed symmetrically relative to the transverse plane of the trolley, the tension mechanism screw is placed above the longitudinal axis of the trolley, and the tension mechanism tensioning elements are made in the form of rollers mounted for rotation.

 In addition, the handle of the drive can be made in the form of a flexible drive shaft.

 This allows you to improve the centering of the machine, namely to evenly distribute the loads on the machine components, which eliminates the overload of the nodes and reduces their wear, as well as eliminate the distortions of the trolley, which increases the accuracy of the cut.

 In contrast to the prototype, the coupling elements of the tension mechanism are made in the form of rollers mounted for rotation. This allows you to replace the sliding friction with the rolling friction of the metal tape on the rollers, which reduces its wear, ultimately increasing the life of the machine.

 Thus, all the distinguishing features of the invention are essential and solve the problem.

 In FIG. 1 shows a general view of an oxygen pipe cutting machine; in FIG. 2 is a top view of an oxy-fuel pipe cutting machine; in FIG. 3 is a kinematic diagram of a pipe cutting machine.

 The machine comprises a trolley 1 with a drive, including a drive shaft 2 with handles 3, connected through a worm pair 4 to the rollers 5 of the trolley 1. The trolley 1 is fixed to the trolley 6 using a torch mounting mechanism containing an arm 7, the longitudinal axis of which is located in the transverse plane of the trolley and equidistant from the axes of the rollers, in which a horizontal ruler 8 with a scale is installed with the possibility of longitudinal movement (for horizontal movement of the torch), at the end of which a bracket 9 with a vertical ruler 10 is fixed (for vertical eremescheniya cutter). The bracket 9 and the vertical ruler 10 are equipped with hinges 11 and 12, respectively, allowing the cutter 6 to be installed at the required cutting angles.

 The machine also contains a flexible metal strip 13 and its tensioning mechanism, comprising a screw 14 located above the longitudinal axis of the trolley 15, two pairs of two-arm levers 16 that can be rotated on the axes 17, and a crosshead 18 and 19 mounted on the short shoulders of the levers 16. On the long shoulders of the levers 16 on the bearings are mounted tension rollers 20 and coupling elements (21), made in the form of rollers.

 The machine operates as follows.

 The machine is mounted on top of the cut pipe 22. By turning the screw 14, the levers 16 are turned around the axis 17, lowering the tension rollers 20 until it touches the pipe 22. Install the metal tape 13 on the pipe, covering the tension rollers 20, and fix its ends together with a known device, for example using locking elements (not shown). By turning the screw 14 to the other side, the levers 16 are turned, raising the tension rollers 20, providing a tight pressing of the rollers 5 to the pipe 22. The tension is made so that the rollers 5 of the trolley 1 do not slip when moving along the pipe 22. At the same time, the spring 23 is compressed, Shocks shock from bumps in the pipe when moving the machine. When the machine moves relative to the belt 13, the tension rollers 20 and the coupling elements 21 rotate. The drive shaft 2 is rotated by the handles 3 manually from one or the other side of the machine, and it moves between the belt 13 and the pipe, making a transverse cut of the pipe with a cutter 6. The torch 6 is adjusted to the required distance from the tape 13 by rotating the handwheel 24, while the ruler 8 is advanced. Using the hinges 11 and 12, the torch 6 is adjusted (tilted) in two planes relative to the surface of the pipe being cut.

 The implementation of the machine for oxygen cutting of pipes in the described manner provides an increase in the accuracy of the cut, an increase in the service life of the machine, and ease of working conditions.

 As a result of this, it becomes possible to reduce labor costs for welding pipes by reducing the time for further preparation (after cutting) of the pipe end for welding, as well as reduce the cost of repair and maintenance of the machine.

Claims (2)

 1. Machine for oxygen cutting of pipes, containing a trolley with rollers, a drive with a handle, a cutter with a mechanism for attaching it, a flexible metal tape, a mechanism for its tension, including two-arm levers with tension rollers and coupling elements mounted on them, a screw with a spring, characterized in that the torch attachment mechanism is placed symmetrically with respect to the transverse plane of the trolley, the tension mechanism screw is placed above the longitudinal axis of the trolley, and the coupling elements of the tension mechanism are made in the form of rollers mounted with the possibility of rotation.  2. The machine according to p. 1, characterized in that the drive handle is made in the form of a flexible drive shaft.

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