RU76030U1 - PIPELINE WELL - Google Patents

Abstract

Welded metal well from a stacked frame and sheet sheathing, forming a duct 1, parallel necks 2 and 3, closed by hatches 4 and located on both sides of the pipeline 5. Holes for the pipeline 5 and necks 2, 3 are made in the walls and the ceiling of the duct. Under the hatches 4 ladders are fixed 6. A pipe 7 is welded into each neck for supplying the cable and walls 8 from the outside, forming channels for laying the cable to the devices installed in the well. For the organization of supply and exhaust ventilation, hoods 11 are installed on the covers 10 of the manholes, and the covers and the framing of each manhole form channels connected to the cable channels. Pipe holes in the walls of the well are equipped with stuffing box seals that cover the pipeline and are attached to the wall with the possibility of pulling the packing o-rings from the inside of the well. The box is equipped with jacks 15 for leveling the well in a horizontal plane and centering the holes of the well with the pipeline. Box 1 of the well and stuffing box parts are made with a connector. The packing housing is installed in the hole under the pipe with a gap and is attached to the wall of the well by means of a sealed flange connection. Improved operating conditions, reduced the complexity of the construction and maintenance of pipelines. 7 ill.

Description

The utility model relates to linear structures of underground pipelines, namely to inspection and production wells.

Known wells made of precast concrete, as well as prefabricated wells with elements of cast concrete. See Installation of external water supply and sewage systems / A.K. Pereshivkin, A.A. Aleksandrov, E.D. Bulynin and others; Ed. A.K. Pereshivkina. - 4th ed., Revised. And additional - M.: Stroyizdat, 1988 .-- 653 p.: Ill. - (Handbook of the builder).

The well is assembled on a slab or monolithic base and is a vertical set of reinforced concrete rings or frames covered by a slab. A set of throat rings closed by a hatch is installed on the floor slab. In the walls and ceiling of the well, holes for pipes and a neck are made. Inside the well, a ladder is installed under the hatch. The joints of the mating elements and the holes for the pipes are sealed with clay, tar and mastics, and the inner surfaces of the walls and the base are covered with waterproofing. Seals and waterproofing are made in the field during construction.

Wells of this type have long cycles of construction and repair with the use of lifting machines, as well as the high complexity of construction and installation works. Seals and waterproofing performed in the field does not provide the necessary tightness, which leads to the ingress of waste product filtrate into the surrounding soil, and groundwater infiltrate into the well.

Closest to the proposed utility model is a metal welded well, consisting of a stacked frame and sheet sheathing, forming a box and a neck closed by a hatch. See patent US 6385913 B1, 05/14/2002, E02D 29/14, STEEL MANHOLE. Openings for pipes and a neck are made in the walls and ceiling of the duct. The well can be covered

waterproofing in the conditions of the production room and is supplied to the installation site in assembled form. The construction is distinguished by good tightness, but is not sufficiently adapted to work with instrumentation, ventilation and installation on an existing pipeline.

The problem solved by the utility model is to ensure the convenience and safety of work in the well for at least two specialists with instrumentation, as well as reducing the volume and terms of construction, installation and maintenance work.

The technical result from the use of the utility model is to improve the conditions of service, reducing the complexity of the construction and operation of pipelines.

The specified result is achieved as follows.

A metal welded well, covered with waterproofing and consisting of a stacked frame and sheet sheathing, forming a duct with holes in the walls and floors, is made with at least two parallel necks for joint work of two specialists. The necks are installed in parallel above the holes in the ceiling of the duct on both sides of the pipeline. The necks are closed by hatches, and stairs are installed under the hatches. Pipes are welded into each neck for supplying the cable and walls from the outside, forming channels for laying the cable to the devices installed in the well. Exhaust pipes are installed on the manhole covers for organizing supply and exhaust ventilation, and the covers and the framing of each manhole form channels connected to the cable channels. The holes for the pipes in the walls of the well are equipped with stuffing box seals that cover the pipeline and are attached to the wall with the possibility of pulling the packing o-rings 14 from the inside of the well.

The well box and stuffing box parts are made with a connector, which allows the well to be installed on the existing sections of the pipeline. The box is equipped with jacks for leveling the well in horizontal

the plane and centering of the holes of the well with the pipeline. The packing housing is installed in the hole under the pipe with a gap and is attached to the wall of the well by means of a sealed flange connection.

Figure 1 presents a General view of the preferred design of the well. Views and sections in figure 1 are presented: in figure 2 - view A; figure 3 is a view of B; figure 4 - view In; figure 5 is a section GG; figure 6 is a view of D; Fig.7 is a view of E, Fig.8 is a view of G. View And in Fig.2 is shown in Fig.9.

Welded metal well from a stacked frame and sheet sheathing, forming a duct 1, parallel necks 2 and 3, closed by hatches 4 and located on both sides of the pipeline 5. Holes for the pipeline 5 and necks 2, 3 are made in the walls and the ceiling of the duct. Under the hatches 4 ladders are fixed 6. A pipe 7 is welded into each neck for supplying cable and walls 8, forming channels 9 for laying the cable to devices installed in the well. For the organization of supply and exhaust ventilation, hoods 11 are installed on the covers 10 of the manholes, and the covers 10 and the frame 12 of each manhole form channels 13 connected to the cable channels. The holes for the pipes 5 in the walls of the well are equipped with stuffing box seals that cover the pipeline and are attached to the wall with the possibility of pulling up the packing o-rings 14 from the inside of the well. The box is equipped with jacks 15 for leveling the well in a horizontal plane and centering the holes of the well with the pipeline.

The box 1 of the well, the housing 16 and the pressure flanges 17 of the stuffing box seals are made with a connector in the diametrical plane of the pipe.

The housing 16 of the packing is installed in the hole under the pipe with a gap and is attached to the wall of the well by means of a sealed flange connection 18.

Installation and operation of the well are as follows.

The lower part of the box 1 by means of lifting mechanisms is brought under the pipeline and installed in the pit on the base plate. Then, the upper part is installed on the lower part of the box. By means of jacks 15, the holes in the box wall are centered with the pipe. Then, the detachable parts 16 and 17 of the packing gland are assembled on the pipes with the packing o-rings packing 14. Then the box connector is tightened and welded, the flange 18 of the seal housing 15 is tightened or welded on the well wall. Next, the structure is fixed to the base and backfilled.

If necessary, work with devices lift the manhole covers and the performers descend through the necks 2, 3 along the stairs 6 on the bottom of the well.

After completing the work, the performers rise to the surface and lower the manhole covers.

In a closed well, air circulates through the channels formed by the cover and the frame of the hatch, cable channels and exhaust pipe. Supply and exhaust ventilation eliminates gas contamination of the well and the rapid drying of condensate in the cable ducts.

The industrial applicability of the utility model is confirmed by prototype tests.

Well production was implemented in a metalworking plant.

The proposed utility model allows to improve the service conditions of the well, reduce construction and operating costs of the pipeline.

Claims (1)

A metal welded well of the pipeline, covered with waterproofing and consisting of a stacked frame and sheet sheathing, forming a box with holes in the walls and the ceiling of the box, two necks installed above the holes in the ceiling, the necks are closed by hatches, and ladders are installed under the hatches, characterized in that the necks installed parallel to both sides of the pipeline, in each neck are welded pipes for supplying the cable from the outside and walls forming channels for laying the cable, hoods are installed on the manhole covers e pipes, and the covers and frames of each hatch form channels connected to channels for cable for organizing supply and exhaust ventilation, openings for the pipeline in the walls of the box are equipped with stuffing box seals that cover the pipeline and are attached with the possibility of pulling the sealing rings from the inside of the well, the box of the well and stuffing box parts are made with connectors, which allows you to install the well on the existing sections of the pipeline, the box is equipped with jacks to align the well horizontally th plane and centering the holes of the well with the pipeline, the packing box is installed in the hole under the pipe with a gap and is attached to the wall of the well by means of a tight flange connection.