RU188272U1 - HEAT EXCHANGE PIPE WITH PROFILED RIBS - Google Patents

Abstract

The utility model relates to the field of heat engineering, namely to heat exchangers with pipes, and can be designed for use in air cooling apparatus for various industries. The heat exchanger tube is equipped with profiled ribs in which the grooves are made, and through holes are made in the grooves, and the location of the holes changes alternately along the radius of the circle from rib to rib. Each rib has three gutters and eight holes in the gutter around the circumference of the rib, the depth of the gutter is at least 1.5 times the thickness of the rib, and the diameter of the holes in the gutter is equal to the width of the gutter. The proposed utility model allows to increase the efficiency of heat transfer by improving air circulation around the pipes. 4 s.p. f-ly, 3 ill.

Description

The utility model relates to the field of heat engineering, namely to heat exchangers with pipes, and can be designed for use in air cooling apparatus for various industries.

Known finned tube bundle of heat exchange pipes of the apparatus for air cooling of gas, containing the actual body and the outer fins. The body and fins create in the transverse cooling stream of the external heat-transfer medium, aerodynamic shading sections of different intensities in the conventional plane. (Pat. RF No. 2266496, IPC F28F 1/10, op. 20.12.2005).

The disadvantage of this heat-exchange bundle from the finned tubes of the air-cooling apparatus is the low heat exchange rate due to insufficient flow turbulence.

A heat exchange tube is known, equipped with ribs in the form of transverse plates on which three-dimensional concavities are made and the convexities corresponding to them from the opposite side of the ribs. Concavities and bulges are placed on concentric circles with angular displacement on adjacent circles. (Pat. RF No. 2044248, IPC F28F 1/24, op. September 20, 1995)

The design drawback is the insufficient air circulation between the ribs.

Known heat exchanger pipe with profiled ribs, adopted as a prototype (Pat. RF №2494330, IPC F28F 1/24, op. 09.27.2013).

Each rib contains a heat exchange surface that surrounds the pipe and extends in a certain radial direction relative to the pipe and is embossed, forming grooves spaced apart from each other in the radial direction.

A disadvantage of the known pipe with profiled ribs is also the lack of air circulation between the ribs with grooves.

The objective of the claimed utility model is to increase the efficiency of heat transfer by improving air circulation around the pipes.

This problem is solved by a heat exchange pipe with profiled ribs with grooves, in which, according to a utility model, through holes are made in the grooves, while the location of the holes changes alternately along the radius of the circle from edge to edge.

Each rib can have three grooves and one row of holes in the groove around the circumference of the rib.

It is advisable to make eight holes in one groove of each rib.

The depth of the gutter, it is advisable to perform at least 1.5 thickness of the ribs. The diameter of the holes in the gutter is equal to the width of the gutter.

In FIG. 1 shows a pipe section with profiled ribs with holes, where 1 is a pipe, 2 are ribs, 3 are grooves, 4 are holes.

In FIG. 2 (view AA of FIG. 1), a variant of arrangement of holes 4 along the circumference of the rib 2 of pipe 1 is shown.

In FIG. 3 shows the movement of air flows between profiled ribs 2 with holes 4 in the grooves 3.

The holes in the grooves on the ribs may be located as shown in FIG. 1 and FIG. 2. The size, number and location of holes may vary. The number of holes on one edge in this particular example is eight. The angle between the axis of the holes from the center is 45 degrees. In a circle of 360 degrees. 360: 45 = 8 The diameter of the holes is equal to the width of the gutter. The location of the holes changes alternately along the radius of the circle from rib to rib as shown in FIG. 1. Each rib has three rows of grooves and one row of holes made on one of the rows of grooves along the circumference. The depth of the gutter is at least 1.5 times the thickness of the rib. This alternate arrangement of holes on the ribs allows air flows to more efficiently cover the heat transfer surface.

The gutters on the ribs increase the heat transfer surface. The holes in the ribs allow air to flow into adjacent heat exchange zones. Air flows passing through openings in neighboring zones change their directions. Passing through the holes, the air is directed at an angle to the rib and mixes with other flows. There is additional air circulation. As a result of this multidirectional movement of air flows, all parts of the heat exchange surface are covered, including stagnant, dead-end zones between the pipe ribs. All this allows you to increase the efficiency of the heat transfer process.

Thus, the proposed utility model allows to increase the heat transfer process due to:

- Improving air circulation;

- exclusion of dead-end, stagnant zones;

- maximum use of the entire surface of the profiled ribs of the tubes of the heat exchange section.

Claims (5)

1. A heat exchange pipe with profiled ribs in which the grooves are made, characterized in that through holes are made in the grooves, while the location of the holes changes alternately along the radius of the circumference from rib to rib. 2. The heat exchange pipe according to claim 1, characterized in that each rib has three grooves and one row of holes in the groove around the circumference of the rib. 3. The heat exchange pipe according to claim 1, characterized in that eight holes are made in one groove of each rib. 4. The heat exchange pipe according to claim 1, characterized in that the depth of the trough is at least 1.5 thicknesses of the ribs. 5. The heat exchange pipe according to claim 1, characterized in that the diameter of the holes in the gutter is equal to the width of the gutter.

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