SU4160A1 - Heat exchange device - Google Patents

Description

The vapor or gaseous medium that is the carrier of heat used in heaters, condensers, refrigerators, etc., is often delivered in large masses and at high speed. Under these conditions, certain measures are necessary to eliminate the direct impact of a jet of vaporous or gaseous medium into the pipe system, because otherwise the force of this medium is alive at high mass and speed and sometimes very high temperatures will cause pipe bends, loosening them in lattices and even their breakage. Under such conditions, for example, steam-operated preheaters, steam hammers and steam presses and other similar machines with low steam expansion work. The proposed device for heat exchange is intended to carry out the introduction of a vapor or gaseous medium so that the kinetic energy of the jet cannot have consequences detrimental to the strength of the device.

The essence of the invention is explained in the drawing as applied to water heaters, and FIG. 1 and 2 show longitudinal and transverse sections of one embodiment of the preheater, and FIG. 3 and 4-modified device per se.

The cylindrical housing 4 with a bundle of tubes O inserted into the grilles 16 and 17 of the drum is provided with an eccentric tide 3 forming a gently tapering distribution chamber 2 for steam (or other medium) flowing through the nozzle (tide) 1. The steam fills this chamber 3, moving in it while maintaining a constant speed, and then radially penetrates through evenly distributed slots / A of casing 4 into the inter tubular space of the preheater, moves along pipes O and leaves through uniformly distributed slots 9 into chamber 8 formed tide eccentric 7 and leaves it through the nozzle opening 6. The total cross-section of the slits 5 is not less than the cross-section of the inlet pipe /, and the number of these slits is made as large as the increase in their number and reduction of their cross-section reduces the harmful effect of each radial trickle on the pipe system O, and in addition all the pipes of this system. An environment that perceives heat (in this example, water) is introduced through pipe 9 and out of the device through pipe 19, after making forward and backward movement. For such a passage of water through the piping system, the box 20 is divided by a partition into two chambers, while the box 21 serves to direct water to the second section, the pipes. By dividing box 20 into four parts and box 21 into three parts, the path of the heat-absorbing medium can be lengthened threefold, which will make it possible to improve heat transfer. Boxes 20 and 21 stand together with the help of a central rod 11 and a number (a drawing is shown in the drawing), evenly distributed rods 10.

In order to ensure, where possible, perfect heat transfer to the vapor by gaseous medium, this latter can be made to move in the inter tubular space along an elongated, for example, helical path. To achieve this, the intertubular space is partitioned off at intervals known for its length, for example, 12, 13, etc., displaced in cross section relative to each other so that the pair, meeting the first sector 12 and rejected by it, come across the next sector and . e. These sectors, having holes

for the passage of pipes O and being mounted on the crust rods 10 and 11 (Figs. 1, 2), increase, in addition, the rigidity of the pipes, eliminating, in particular, the sagging of very long pipes under the influence of their own weight.

The modification of the preheater shown in FIG. 3 and 4, differs from that described in that it is inlet. pipe J and exhaust pipe 6 are located in the same cross section. Such an arrangement of these connections facilitates the connection of the proposed device to an existing direct pipeline. The structural difference caused by the just-indicated arrangement of the nozzles 1 VI 6 at the same end of the device consists in the use of a partition 15 dividing the annular space of the casing 4 into two chambers, with pipes O in the first and pipes O in the second. Further, each of the two chambers can have its sectors displaced both in the transverse and in the longitudinal direction (in Figs. 3 and 4, sectors 12 and 12 are shown) to deflect the vapor-or-gaseous carrier of heat from the straight path. Sin 2 8 8, directly adjacent to the inlet pipe / and, respectively, to the exhaust pipe 6, have a semi-cylindrical shape and cross-section, gradually tapering so that through the slits 5 and through the slits pass a uniform force of the trickle at the same speed.

The subject of the patent.

1. A device for heat exchange consisting of a tubular drum with flow tubes divided into groups for direct and reverse fluid movement, characterized in that eccentric tides 5 and 7 serve for admitting steam into the inter tubular space and for communicating with the intertube space in the casing 4 has cracks .9,