RU2028882C1 - Pipes cutting machine - Google Patents

Abstract

FIELD: pipes cutting. SUBSTANCE: turning part of support is provided with two-positioned chisel holder, made in the form of T-shaped member 18, mounted in cone, fixed on turning part of body and support, additional movable rest 26, engaged with sprockets 12 and 13, that are kinematically connected with lead screws 11 of supports by turning of spring-loaded rods. EFFECT: pipes cutting machine is used in pipes welding and mounting processes. 6 dwg

Description

 The invention relates to the processing of metals by pressure, in particular to devices for cutting pipelines and cutting pipe joints for welding in the conditions of their installation, as well as the selection of defects in ring welds, and can be used in the energy industry for the installation of process pipelines at TPPs and nuclear power plants.

 A device is known for cutting pipes made in the form of two horseshoe-shaped plates, between which there is a pipe gripping mechanism with a rotator mounted on one of the plates, and a cutter feed mechanism made in the form of a gear connected with a rotator having a tool holder with an asterisk mounted with the possibility of interaction with the emphasis located on the horseshoe-shaped plate.

 The closest in technical essence is a pipe-cutting machine containing a housing, a drive plate located in it, at least three calipers with a tool holder with the ability to rotate, fix and move in the angular direction installed in it, lead screws installed in the tool holders, and a movable stop.

 The disadvantage of this pipe cutter is the impossibility of installing it on pipelines during their cutting during dismantling, the lack of ingenuity, the inclusion of caliper feeds, the inability to complete cutting with a "mustache" for welding at the ends of the pipes, and the absence of automatic caliper removal.

 The aim of the invention is to increase productivity and accuracy, expanding technological capabilities.

 This is achieved by the fact that the proposed pipe cutting machine is equipped with an additional stop for removal of the tool, while the housing is detachable in two parts, the faceplate is made in two sectors, respectively located in the said parts of the housing, one of the calipers is made in the form of two sectors, a reading mechanism , guide, shaft, and one of the caliper sectors is rigidly fixed to the faceplate with the ability to interact with the movable stop by means of an asterisk, said shaft is mounted on it, and the second of the sect The caliper ditch is mounted by means of an axis fixed on the fixed sector with the possibility of rotation around it, the spindle is installed in this sector and connected to the guide and kinematically connected with the fixed sector shaft, the tool holder is mounted in the movable sector by the axis rotatable with the conical side surface relative to the specified sector and moving along it along the guide, the reading mechanism is mounted on the tool holder, and an additional emphasis is placed on one of the housing parts with the possibility of interaction by means of sprockets and connected with spindles by means of spring-loaded rods mounted in sprockets.

 In FIG. 1 shows a device, a General view; in FIG. 2 - view of the machine from the side of the faceplate; in FIG. 3 is a view along arrow A in FIG. 1; in FIG. 4 is a section BB in FIG. 3; in FIG. 5 is a section BB of FIG. 4; in FIG. 6 - cutting with a "mustache", performed on pipes with a diameter of 133-1020 mm

 The device includes a housing consisting of lower 1 and upper 2 halves, interconnected by two bolts arranged in pairs in the plane of the connector. Inside the upper and lower halves of the housing are rolling bearings with rolling balls made in the form of twelve segments. On the rolling bearings inside the body there is a faceplate consisting of two sectors; top 3 and bottom 4, made with four flanges 5 located in the plane of the connector and connected by two bolts. The flanges of the faceplate sectors are equipped with four spring-loaded clamps that fit into the corresponding holes of the upper and lower halves of the pipe cutter with the combined planes of the connector of the faceplate and the body, which eliminates the displacement of the upper sector 3 of the faceplate in the upper half of the body and the lower sector 4 in the lower half of the pipe cutter when it is connected.

 The faceplate of the pipe cutter carries three calipers: two of which (detachable 7 and rotary 8) are installed on the lower sector 4, and the third - detachable 9 - on the upper sector 3. The cut-off calipers 7 and 9 consist of a housing and a tool holder 10 enclosed therein, operating in paired with a lead screw 11, driven into rotation mounted on it by an asterisk 12.

 The rotary caliper 8 consists of two housings, one of which is fixed 13 mounted on the lower sector 4 of the faceplate, and the other 14 is made to rotate relative to the axis 15 connecting the fixed and movable housing. The axis 15 is locked with a nut 16 through a sleeve 17 integrated in the movable housing 14, holding it in the desired position.

 In the movable housing 14 there is a tool holder in the form of a T-shaped element 18 mounted on a cone 19, placed in guides 20 (such as a dovetail) interacting with a spindle 21 kinematically connected to a shaft 22 enclosed in a stationary housing 13 and driven into rotation an asterisk 23 mounted on it.

 The sprockets 12 and 23 of the calipers 7, 8, 9 are equipped with a disconnecting device, which is a spring-loaded rod 24, rigidly connecting the sprocket 23 with the shaft 22 of the caliper 8, and the sprockets 12 with the spindles of the calipers 7 and 9.

 The lower half of the housing 1 has a movable stop 25, the interaction of which with all the sprockets automatically feeds the calipers (with a rotating faceplate, the sprocket runs against the stop).

 An additional movable spring-loaded stop 26 is installed on the support of the lower half of the housing, the interaction of which with the sprockets 12 and 23 provides accelerated automatic removal of the calipers 7, 8, 9.

 The pipe cutter body is equipped with three clamping mechanisms 27 for mounting pipe cutters on the pipes being machined, a multi-speed drive 28 with an electric motor 29, which rotates the plate of the pipe cutting machine. To set the processing direction, the stationary case 13 is equipped with a readout device 30. The T-shaped tool holder 18 carries a readout device 31. The tool holder 18 is mounted on the case 19 with a nut 32.

 The device operates as follows.

 The device is installed on the pipe being processed and fixed using three clamping mechanisms 27.

 When carrying out pipe sections, it is necessary by means of spring-loaded rods 24 to connect the sprockets 12 of the cutting calipers 7, 9 with their spindles 11, and to turn off the sprocket 23 by turning the spring-loaded rod 24. Then, the machine drive 28 and the movable rotary spring-loaded stop 25 are engaged, interacting with the sprockets 12 detachable calipers 7 and 9 and the working stroke.

 At the end of processing, the movable spring-loaded stop is turned off, an additional spring-loaded stop 26 located on the support is turned on, the interaction of which with the sprockets 12 causes the calipers 7, 9 to return to their original position, while the additional stop 26 and the drive 28 are turned off.

 When performing an external or internal groove of a chamfer or cutting with a "mustache" (Fig. 6), a rotary caliper 8 is used.

 The most difficult process is to perform the cutting with a "mustache". To perform this operation, it is necessary to turn off the asterisks 12 of the cutting calipers 7, 9, by turning on the asterisk 23 of the rotary caliper 8.

 The tool holder 18 is mounted in the tool holder 18 of the rotary caliper 8. By turning the movable part of the housing 14, the processing direction is established on the reading scale, by turning the tool holder 18, the angle corresponding to the angle of the bore on the reading device 31. The position of the moving case 14 is fixed by the nut 16, and the tool holder 18 by the nut 32. Then the process repeats: the drive rotates faceplate, movable stop 25, which feeds the support 8. The rotating faceplate runs the sprockets 12 and 23 on the stop 25, turning the spindles at an angle corresponding to the rotation of these stars a check for one tooth, thereby feeding the caliper with the tool 18.

 When the stop 25 is turned off and the additional stop 26 is turned on, the rotating faceplate runs on the sprockets 23 and 12 on the spring-loaded stop 26, causing them to rotate one tooth in one revolution, giving the screws 21, 11 the opposite rotation, providing automatic caliper retraction with the tool.

Claims (1)

 TUBE-CUTTING MACHINE, comprising a housing, a drive plate located therein, at least three calipers installed in it with toolholders with the ability to rotate, fix and move in the angular direction, spindles installed in the toolholders, a movable stop, characterized in that, for the purpose expanding technological capabilities, increasing productivity and accuracy, it is equipped with an additional emphasis for tool retraction, while the case is made detachable in two parts, the faceplates are made in the form of two sectors, respectively located in the said parts of the housing, one of the mentioned calipers is made in the form of two sectors, a reading mechanism, a guide, a shaft, and one of the sectors of the caliper is rigidly fixed to the faceplate with the possibility of interaction with the movable stop by means of an asterisk, said shaft is mounted on it, and the second of the caliper sectors is mounted by means of an axis fixed to the stationary sector with the possibility of rotation around it, the lead screw is installed in this sector and is connected with the guide and the kinemat Personally, with a fixed sector shaft, the tool holder is installed in the moving sector by means of an axis made with a conical lateral surface with the possibility of rotation relative to the specified sector and moving along it along the guide, the reading mechanism is mounted on the tool holder, and an additional stop is mounted on one of the housing parts with the possibility of interacting with calipers by means of sprockets and connected with spindles by means of spring-loaded rods mounted in said sprockets.

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