RU2534630C2 - Pipeline sealing device - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to the devices for pipelines internal sealing for the process purposes. The device contains body 1 on rolling bearings 2, in the body the sealing assembly and its drive are installed. The sealing assembly is in form of row of O-rings 3 assembled out of the segments 4 and installed concentrically with the pipeline flowing section on movable elements 5 of the supporting split ring with the possibility of pressing to the internal surface of the pipeline. The movable component 5 are connected with the drive, the drive has drive shaft 6, nut-cover 7, cone sleeve 8 with internal cone surface, split cone ring 9 and stands 10. The cone sleeve 8 is secured on the drive shaft 6 containing worm part 11 and cone 12. The worm part 11 is inserted in the nut-cover 7, secured in the body. Between the cone surfaces of the drive shaft and cone sleeve the split cone ring 9 is installed. The spring 9 elements and movable components 5 are connected by stands 10. The drive shaft 6 and nut-cover 7 are installed in the body borings. The stands 10 are rigidly secured on the ring 9 elements, and are connected by axles 15 with the movable components 5. The stands 10 are connected by return springs 16. The shaft is rotated by flywheel 17.

EFFECT: failure-free operation of device under low temperatures, and decreasing of the expenses for the pipeline maintenance.

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Description

The invention relates to pipeline transport and can be used to seal the pipeline from the inside for technological purposes (installation, repair, inspection, testing, etc.).

Known mobile device according to patent RU No. 2220362, IPC F16L 55/18, published on 27.12. 2003. The device consists of a tubular cylindrical body on rolling bearings, a locking assembly, a hydraulic drive of the locking assembly, covering the housing of inflatable elastic sealing assemblies and a pneumatic actuator. The device is equipped with an electric current source, an engine and propulsion device for moving, as well as a remote control system.

The device uses two working media: liquid and gas, which complicates the design, and the use of inflatable elastic sealing units reduces the reliability of the device.

As a prototype, a mobile device for technological overlapping of the pipeline was selected, comprising a housing on rolling bearings, a locking assembly, a sealing assembly and their hydraulic drive. The sealing assembly is made in the form of a series of rings assembled from sealing segments. The sealing segments of adjacent rings are offset by half of their circumferential pitch and mounted concentrically to the flowing part of the pipeline on the movable elements of the support split ring with the possibility of compression to the inner surface of the pipeline. The movable elements of the support split ring and the hard disk are connected to the rods of the hydraulic cylinders.

The device has a complex design with a hydraulic actuator, which makes it difficult to use it at low negative temperatures and increases the cost of servicing the pipeline.

The problem solved by the invention is to ensure trouble-free operation of the device at low negative temperatures and reduce the cost of maintaining the pipeline through the use of a mechanical drive.

The technical result from the use of the invention is to increase the reliability of the device and reduce the cost of technological overlap of the pipeline.

The proposed pipeline sealing device comprises a housing on rolling bearings, in which a sealing assembly and its drive are installed. The sealing unit is made in the form of a series of sealing rings assembled from segments and mounted concentrically to the flowing part of the pipeline on the movable elements of the support split ring with the possibility of compression to the inner surface of the pipeline. The movable elements of the support split ring are connected to the drive, which includes a drive shaft, a cover nut, a conical cup with an internal conical surface, a split conical ring, and racks.

The drive shaft contains a screw section and a cone. The screw section of the drive shaft is inserted into the nut-cover, which is fixed in the housing. A conical cup is fixed on the shaft. A split conical ring is installed between the conical surfaces of the shaft and the conical cup. Elements of the split taper ring and elements of the split support ring are connected by struts.

Figure 1 presents a General view of the preferred design of the sealing device in the mounting position, Figure 2 is a General view of the preferred design of the sealing device in the working position, Figure 3 is a section aa in Figure 2.

The device comprises a housing 1 on the rolling bearings 2, in which a sealing unit and its drive are installed. The sealing assembly is made in the form of a series of sealing rings 3 assembled from segments 4 and mounted concentrically to the flowing part of the pipeline on the movable elements 5 of the support split ring with the possibility of pressing it to the inner surface of the pipeline. The movable elements of the supporting split ring are connected to the drive, which includes a drive shaft 6, a nut-cover 7, a conical cup 8 with an inner conical surface, a split conical ring 9 and the strut 10.

The drive shaft 6 contains a screw section 11 and a cone 12. A screw section 11 of the drive shaft is inserted into the nut-cover 7, which is fixed in the housing 1. A conical cup 8 with an inner conical surface is fixed to the drive shaft. Between the conical surfaces of the drive shaft and the conical cup, a split conical ring 9. The elements of the split conical ring 9 and the elements 5 of the split support ring are connected by the struts 10.

The housing 1 is made of two parts, tightened by studs 13 and nuts 14. The drive shaft 6 and the nut-cover 7 are installed in the bores of the housing. Racks 10 are rigidly fixed to the elements of the split taper ring 9 and are connected by axes 15 to the movable elements 5 of the split support ring. Racks 10 are connected by return springs 16. The rotation of the shaft is provided by the flywheel 17.

The device is used as follows.

The sealing device in the mounting position, see figure 1, is rolled into the flow part of the pipeline. From the rotation of the flywheel 17, the drive shaft 6 is moved by the nut-cap 7 along the axis of the pipeline. The shaft cone 12 distributes the elements of the split taper ring 9, the strut 10 and the movable elements 5 of the split support ring. The return springs 17 provide synchronous movement of the movable elements of the split taper ring 9 and prevent jamming of the mechanism. The movable elements 5 of the split support ring push the rows of sealing rings 3 to the inner surface of the pipeline.

Upon completion of pipeline maintenance operations, the device is returned to the mounting position.

The sealing device with rows of sealing rings pressed against the inner surface of the pipeline is in the working position, see Fig. 2. From the rotation of the flywheel 17 in the opposite direction, the drive shaft 6 is moved by the nut-cap 7 along the axis of the pipeline so that the conical shaft 8 of the shaft with its inner conical surface brings together the elements of the split conical ring 9, the strut 10 and the movable elements 5 of the split support ring. The return springs 16 provide synchronous movement of the movable elements of the split taper ring 9 and prevent jamming of the mechanism. The movable elements 5 divert the rows of sealing rings 3 from the inner surface of the pipeline. The sealing device is brought into the mounting position and rolled out from the flowing part of the pipeline.

The industrial applicability of the invention is confirmed by bench tests and the operation of the installation series.

The production of the proposed device is implemented in a metalworking plant.

The present invention improves the reliability of the device and reduce the cost of technological overlap of the pipeline.

Claims (1)

A pipeline sealing device, comprising a housing on rolling bearings, in which the sealing assembly and its drive are installed, the sealing assembly is made in the form of a series of sealing rings assembled from segments and mounted concentrically to the flowing part of the pipeline on the movable elements of the support split ring with the possibility of compression to the inner surface of the pipeline , the movable elements of the support split ring are connected with the drive, characterized in that the drive includes a drive shaft, a nut-cover, a conical cup with internal conical surface, a split conical ring and racks, the drive shaft contains a screw section and a cone, a screw section of the drive shaft is inserted into the nut-nut, which is fixed in the housing, a conical cup is fixed on the drive shaft, a split conical surface is installed between the conical surfaces of the shaft and the cone the ring, the elements of the split taper ring and the elements of the split support ring are connected by struts.

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