RU2516330C2 - Method to obtain blank for pipeline lock - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: method includes half-yoke manufacturing of sheet metal and producing in it holes for connection bolts. In this process, half-yoke manufacturing and producing holes in it is performed by cutting sheet material with hydroabrasive jet at feed water pressure of 3800-3900 bar, compressed air for abrasive feed pressure - 4.5-5.0 bar, distance from hydroabrasive unit nozzle to sheet material being cut - 3-5 mm and abrasive material consumption of 650-700 g/min. As abrasive material for jet formation the garnet sand with particle size of 0.16-0.2 mm is used.

EFFECT: higher bonding strength.

5 cl, 1 dwg, 1 ex

Description

The invention relates to pipeline transport, and in particular to methods for producing blanks of a pipeline lock, which can be used to connect and seal pipes of a collapsible pipeline (CPT).

A method is known from the prior art for manufacturing a pipe lock preform (half clamp) by cutting a half clamp preform from sheet metal material, bending it and making holes for connecting bolts in it (see the description of the RF patent RU 2449200). The resulting workpieces according to this method do not have the necessary surface roughness, and require additional mechanical surface treatment. In addition, the workpieces have low dimensional accuracy.

The objective of the claimed invention is to create an economical method for producing blanks of the pipeline lock.

The technical result of the invention is to provide the required level of surface roughness of the workpiece (Ra = 3.2) while increasing the productivity of the process of its manufacture, as well as to increase efficiency and reduce the complexity of the method.

The specified technical result is achieved due to the fact that the method of obtaining a blank of the pipeline lock includes the manufacture of a half-clamp from sheet metal material and the formation of holes for connecting bolts in it, characterized in that the manufacture of a half-clamp and formation of holes in it is carried out by cutting the sheet material with a waterjet jet, the pressure of the supplied water is 3800-3900 bar, the pressure of compressed air to supply the abrasive is 4.5-5.0 bar, the distance from the nozzle of the waterjet installation to the cut th sheet material - 3.5 mm, and at a flow rate of abrasive 650-700 g / min, and as the abrasive jet is used to form garnet sand with a particle size of 0.16-0.2 mm.

In addition, the specified technical result is achieved in private forms of the invention due to the fact that:

- cutting by a hydro-jet is carried out at a speed of movement of the nozzle relative to the sheet material 3-4 mm / min.

- cutting by a hydro-jet is carried out when the nozzle rotates around a circle with a radius of 0.5 mm with a linear speed of 18-22 mm / min.

- cutting by a hydro-jet is carried out with a cut width of 0.5-1 mm.

- as a sheet metal material use a sheet of steel 09G2S with a thickness of 55 mm.

The technology of waterjet cutting of materials has, in particular, the following advantages:

- the absence of thermal effects on the material (temperature in the cut zone 60-90 ° C),

- less material loss,

- a wide range of cut materials and thicknesses,

- the absence of burnout of alloying elements in alloy steels and alloys,

- lack of fusion and burning of material on the edges of the machined parts and in the adjacent area,

- complete fire and explosion safety of the process,

- environmental cleanliness and the complete absence of harmful gas emissions,

- high quality of a cut.

The technology of waterjet cutting is based on the principle of erosion of a mixture of a high-speed water jet and solid abrasive particles on the processed material. The physical essence of the hydroabrasive cutting mechanism consists in the separation and entrainment of material particles from the cutting cavity by a high-speed flow of solid-phase particles. In this case, the effectiveness of the two-phase jet is ensured by the optimal choice of cutting parameters, including air and water pressure, flow rate and particle size of the abrasive material, etc.

To obtain a blank of the pipeline lock, according to the present invention, waterjet cutting is carried out at the following parameters:

the pressure of the supplied water is 3800-3900 bar, the pressure of compressed air for feeding the abrasive is 4.5-5.0 bar, the distance from the nozzle of the waterjet installation to the cut sheet material is 3-5 mm,

- abrasive material - pomegranate sand with a particle size of 0.16-0.2 mm,

- consumption of abrasive material 650-700 g / min.

The inventors of the present invention unexpectedly found that the above modes of waterjet cutting together allow you to get the blank of the pipeline lock (in the form of a half-clamp), having the required level of roughness for this part (Ra = 3.2, due to the features of the operation of the part) without additional surface treatment operations . However, these modes can reduce the time of waterjet processing and increase its efficiency.

When the values of the waterjet cutting parameters fall outside the indicated ranges, the cutting efficiency is significantly reduced and / or the necessary surface roughness of the workpiece is not provided.

It should also be noted that these cutting modes are not obvious to a specialist, since the influence of waterjet cutting modes on its productivity, as well as on the resulting surface roughness, is multifactorial and is characterized by unexpected effects. Moreover, this complex effect is not known from the prior art.

The design of the pipeline lock is shown schematically in FIG. The lock consists of two parts: the upper half-clamp 1 and the lower half-clamp 2, which are interconnected using two bolts 3.

The claimed method of manufacturing a blank of the pipeline lock (half clamp) is as follows.

Sheet metal products are placed on the table of a waterjet cutting machine. Then set the zero point for cutting, carry out a control rolling of the installation nozzle along the contour of the future cut to identify a safe cutting height (distance from the nozzle of the waterjet installation to the cut sheet material) and return the nozzle to the zero point. The distance from the nozzle to the surface of the sheet is set within 3-5 mm. Then they load the program of the technological process into the installation and carry out the cutting of sheet material according to the specified program with the formation of a half-clamp of the required size with holes for connecting bolts. In this case, the cutting is carried out at a supplied water pressure of 3800-3900 bar, a compressed air pressure for supplying an abrasive - 4.5-5.0 bar, and a nozzle moving speed of 3-4 mm / min relative to the sheet material. Pomegranate sand with a particle size of 0.16-0.2 mm at a flow rate of 650-700 g / min is used as an abrasive material for forming a jet. For insertion of abrasive material, it is preferable to use dynamic drilling: rotation of the nozzle of the installation around a circle with a radius of 0.5 mm with a linear speed of 18-22 mm / min, which provides a cutting width of 0.5-1 mm. In this case, the nozzle approach to the workpiece is carried out along the radius R3.

An example implementation of the method.

A sheet of steel 09G2S with a thickness of 55 mm is used as the starting material for the preparation of the workpiece. Abrasive cutting is carried out under the following conditions:

- the distance from the nozzle to the surface of the sheet 3 mm,

- pressure of supplied water 3850 Bar,

- compressed air pressure for supplying an abrasive 5.0 Bar,

- the speed of movement of the nozzle relative to the sheet material 3 mm / min,

- abrasive - pomegranate sand with a particle size of 0.16 mm,

- consumption of abrasive 700 g / min,

- insert type dynamic drilling: speed of 18-20 mm / min, 1 nozzle revolution along the radius of 0.5 mm,

- cutting width 1 mm.

The result is a blank of the pipeline lock with the required level of roughness Ra 3.2.

Thus, the claimed method allows to increase the efficiency of waterjet cutting and the method of obtaining the castle blanks in general, and provides the required surface roughness of the castle blanks without additional surface treatment operations.

Claims (5)

1. A method of obtaining a blank of a pipeline lock, including the manufacture of a half-clamp from sheet metal material and the formation of holes for connecting bolts in it, characterized in that the manufacture of a half-clamp and formation of holes in it is carried out by cutting the sheet material with a waterjet jet, at a supplied water pressure of 3800-3900 bar, the pressure of compressed air for feeding the abrasive is 4.5-5.0 bar, the distance from the nozzle of the waterjet installation to the cut sheet material is 3-5 mm, and with the consumption of abrasive Container material of 650-700 g / min, and as the abrasive jet is used to form garnet sand with a particle size of 0.16-0.2 mm. 2. The method according to claim 1, characterized in that the jet cutting is carried out at a speed of movement of the nozzle relative to the sheet material 3-4 mm / min 3. The method according to claim 1, characterized in that the jet cutting is carried out when the nozzle rotates around a circle with a radius of 0.5 mm with a linear speed of 18-22 mm / min. 4. The method according to claim 1, characterized in that the cutting by a hydro-jet is carried out with a cut width of 0.5-1 mm 5. The method according to any one of claims 1 to 4, characterized in that a sheet of steel 09G2S with a thickness of 55 mm is used as a sheet metal material.