RU185037U1 - Docking device for galvanized profiled sheet - Google Patents

Abstract

The proposed utility model is intended for the manufacture of air ducts and gas pipelines of various sections - round, rectangular, square - from a galvanized profiled sheet having significant bearing capacity in the longitudinal direction compared to a flat sheet.

Sheet thickness, diameter and dimensions, wave height are calculated according to the quantity of product passed and the bearing capacity of standard galvanized profiled sheets.

A longitudinal joint of galvanized profiled sheets is performed by overlapping through a wave with filling with fiberglass impregnated with epoxy resin.

The transverse joint of round, square or rectangular elements is made by bandages of the main material with the same thickness, wave size, 200 mm long with laying along the contour of the joint of fiberglass impregnated with epoxy resin.

In the manufacture of flanges, welding, specialized equipment are not required, which significantly reduces the complexity and cost of products.

Description

Longitudinal and transverse joints of galvanized profiled sheets using fiberglass impregnated with epoxy resin.

Prior art;

The use of a smooth galvanized sheet in air ducts and gas pipelines is carried out with the device of folds (single, double) for longitudinal joining and patch braces for joining rolled elements along the length.

When arranging gas pipelines and vertical chimneys, standard or rolled sections of a steel sheet are used, joined by welds. The use of a profiled sheet in the construction of chimneys, ducts and gas pipelines is not used due to the failure to connect along the length and ends. An analogue of the proposed utility model can be considered invention No. 1590032 C. V29D 9/00 1986, "Method for the production of reinforced corrugated sheets." The present invention describes the manufacture of multilayer reinforced sheets using 2 layers of fiberglass, magnesia binder, vibration exposure, waving and, accordingly, obtaining corrugated sheets. There is a similarity with the proposed utility model in the materials used - fiberglass, but the difference is in the final product and technology.

The difference of the proposed utility model is:

- the possibility of using a galvanized profiled sheet having a significant longitudinal bearing capacity compared to a smooth sheet in connection with the device of their joining through fiberglass gaskets impregnated with epoxy resin. At the same time, the longitudinal joints, which are usually performed by overlapping through the wave, are filled with a fiberglass liner impregnated with epoxy resin, and the transverse joints are fixed with a bandage of 200 mm long profiled sheets with a fiberglass liner impregnated with epoxy resin.

The technical result of the proposed utility model:

The proposed utility model uses the bearing capacity of a galvanized profiled sheet in the longitudinal direction and greatly simplifies and cheapens the manufacture of air ducts and gas pipelines, eliminates the use of flange braces and welding work in gas pipelines.

The objective of the technical result when using:

Production of air ducts and gas pipelines without the use of flange bandages and welding.

Simplification of the manufacture of products due to the non-use of specialized equipment and highly qualified welders.

Docking device for ductwork, consisting of bent galvanized profiled sheets with longitudinal bearing capacity, the longitudinal joint of which is overlapped through a wave filled with fiberglass impregnated with epoxy resin, and the transverse joint of bent galvanized profiled sheets is made of a galvanized profiled bandage with its contour of fiberglass impregnated with epoxy resin.

Utility Model Feature.

The proposed utility model provides the possibility of using a longitudinally-bearing galvanized profiled sheet as air ducts and gas pipelines.

Sheet thickness, diameter and dimensions, wave height are calculated according to the quantity of product passed and the bearing capacity of standard galvanized profiled sheets.

The design can be round, rectangular or square.

A longitudinal joint of galvanized profiled sheets is performed by overlapping through a wave with filling with fiberglass impregnated with epoxy resin.

The transverse joint of rolled (round) or bent (rectangular or square) elements is performed by bandages from the main material with the same thickness and wave dimensions, 200 mm long.

Joint along the contour of the bandage from both sides is laid fiberglass (glass tape), impregnated with epoxy resin.

Inserts into straight sections of products from galvanized profiled sheet are made through transition elements from flat galvanized sheet.

Implementation of a utility model:

The proposed utility model provides the installation of products for air ducts, gas pipelines - round, rectangular, square - using the load-bearing capacity of a galvanized profiled sheet without flanges, welding and specialized equipment at facilities with engineering support systems (air, steam, gas, water).

Blueprints:

The Figure 1 shows a longitudinal joint of two sheets of poses. 1 and pos. 2. Pos. 3 - gasket made of fiberglass impregnated with epoxy resin.

The Figure 2 shows the transverse joint of two sheets of poses. 4 and pos. 5, using a brace pos. 6.

The figure 3 shows a segment of the bandage with a length of 200 mm

The Figure 4 shows a cross section of a round and square duct indicating the locations of the longitudinal joints.

The figure 5 shows the insertion of a pipe of a smaller diameter with the device of the patch element pos. 7 gaskets pos. 3 and lining made of fiberglass impregnated with epoxy resin, pos. 8.

Claims (1)

Docking device for ductwork, consisting of bent galvanized profiled sheets with longitudinal bearing capacity, the longitudinal joint of which is overlapped through a wave filled with fiberglass impregnated with epoxy resin, and the transverse joint of bent galvanized profiled sheets is made of a galvanized profiled bandage with its contour of fiberglass impregnated with epoxy resin.

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