RU123706U1 - TOOL FOR DRILLING HOLES IN CONFINED CONDITIONS - Google Patents

Abstract

A tool for drilling holes in the outer pipe when assembling tube-in-pipe heat exchangers, including the outer and inner pipes, characterized in that it contains a circular saw blade with circular-type teeth assembled with a holder, with a rod fixed to the center of the circular saw blade with teeth a rounded end, in which the excess over the teeth of the saw blade is equal to the distance between the outer and inner tubes of the heat exchanger, reduced by 1-1.1 mm

Description

The utility model relates to the field of mechanical engineering, namely to a tool for drilling large diameter holes in cramped conditions, in particular, during the assembly of pipe-in-pipe heat exchangers when drilling holes in an external pipe.

It is known that during the assembly of pipe-in-pipe heat exchangers, overflows are organized between the external pipes, the insertion point of which is difficult to calculate. Typically, the specified location is in place during assembly, i.e. when the central pipes are joined with the required interference fit, the overflow is installed and the location of the holes for it is found (see, for example, Vitorsky Y.M. et al. “Bending the shirt covering the high pressure pipe.” Procurement in engineering. No. 5. 2009. pg. 20-25). Drilling these holes presents a certain difficulty, since they are usually large in diameter and the inner pipe cannot be touched.

A known method of producing such a hole is when a small diameter drill is used to drill many holes around the perimeter of the resulting hole, which are then connected to each other, forming a continuous cut. It is very laborious and time consuming.

A tool is known under the name "circular saw" (see, for example, USSR patent No. 730286). With this tool it is possible to produce holes of large diameter, but in the case of manufacturing a heat exchanger such as a pipe in a pipe, its inner pipe may be touched by a center drill of a hole saw, therefore it is impossible to use this tool in a patented form.

The problem to which the claimed utility model is directed is to create a tool for drilling large diameter holes in cramped conditions, for example, when assembling tube-in-tube heat exchangers.

The technical result, the achievement of which is claimed by the claimed utility model, is to ensure a guaranteed trouble-free, i.e. excluding damage to the inner pipe, drilling holes in cramped conditions, including during the assembly of pipe-to-pipe heat exchangers when drilling holes in the outer pipe.

To achieve the specified technical result, it is proposed to use a tool for drilling holes in cramped conditions, including when assembling pipe-in-pipe heat exchangers, including the external and internal pipes, which contains a saw ring blade with teeth assembled with a holder, and which has a center a saw blade with teeth is fixed to a rod with a rounded end, the excess of which over the teeth of a circular saw is equal to the distance between the outer and inner tubes of the heat exchanger 1-1.1 mm.

The inventive tool for drilling holes in cramped conditions, including during the assembly of heat exchangers such as pipe in pipe when drilling holes in the outer pipe, can guarantee a trouble-free drilling of holes in the outer pipe without touching the inner tube of the heat exchanger, because saw ring blade with teeth will always not reach the inner pipe due to the presence of this rod.

Figure 1 schematically depicts the inventive tool, figure 2 - shows a cross section of the inner and outer tubes of the heat exchanger type pipe in the pipe.

To drill holes in cramped conditions, in particular, during assembly of a pipe-type heat exchanger in a pipe, including external 1 and internal 2 pipes, when drilling holes in the external 2 pipe, it is advisable to use the inventive tool that contains a circular saw blade with 3 teeth assembled with a holder 4, in which a rod 5 with a rounded end 6 is fixed in the center of the saw ring blade with teeth 3, and the excess dimension L over the teeth of the saw blade 3 is equal to the distance C, i.e. the gap between the outer 1 and inner 2 pipes of the heat exchanger, reduced by 1-1.1 mm

When working, when it is necessary to drill a hole in the outer pipe 1 of a pipe-type heat exchanger in a pipe without touching the inner pipe 2, first make a central hole in a required place with a small drill (not shown in the figures), then pass through it a shaft 5 having the corresponding the excess over the teeth of the saw ring blade 3, calculated on the basis of the gap between the outer 1 and inner 2 pipes of the heat exchanger and taking into account a decrease of 1-1.1 mm, first drill the saw ring blade with Byam surface 3 in the outer tube 1, and then, when the shaft 5 abuts on the inner tube 2, is carried out in the swinging direction perpendicular arrangement of the outer tube 1 and the pulling of the corresponding portion of the bore of the outer tube 1.

As an example, consider the manufacture of a refrigerator installation for the production of high pressure polyethylene. After the sections are assembled, they are connected with the required interference through the lenses, then an overflow is assembled, consisting of two branches to the flanges welded to them and the prepared joints with the section shirts. The overflow is applied to the shirts at the place of the intended connection, the contours of the connection are outlined, the center of the contour is located, the central hole is drilled and the saw ring 3 with the inserted rod 5 is cut through the desired hole.

Claims (1)

A tool for drilling holes in the outer pipe when assembling tube-in-pipe heat exchangers, including the outer and inner pipes, characterized in that it contains a circular saw blade with circular-type teeth assembled with a holder, with a rod fixed to the center of the circular saw blade with teeth a rounded end, in which the excess over the teeth of the saw blade is equal to the distance between the outer and inner tubes of the heat exchanger, reduced by 1-1.1 mm

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