RU9643U1 - COOLER IRRIGATOR - Google Patents

Abstract

ESSAY

The utility model relates to the field of power engineering, in particular, to devices for cooling water in circulating water supply systems, namely, to sprinklers of heat-exchange structures.

The sprinkler made of polymeric materials contains a monolithic casing in the form of a hollow direct prism, the base of which has the shape of a regular polygon with rows of plates perpendicular to the base of the sprinkler housing located inside the casing, and the channels formed by the plates have a shape similar to the shape of the external contour of the sprinkler casing.

The sprinkler can be made in the form of a trihedral, tetrahedral, hexagonal prism or with a large number of faces.

The proposed sprinkler allows you to: improve the operational characteristics of the sprinkler by increasing its strength, reduce the level of biological fouling and the formation of blockages in the channels of the sprinkler, improve maintainability and reduce the complexity of installation and replacement, as well as provide the possibility of using sprinklers as supporting elements when performing work above the level of sprinklers .

Description

Description of the utility model OROSPTE.TP I R.4D11RSHG

The utility model relates to tenoenergetics, in particular, to devices for cooling water in circulating water supply systems, which include water sprinkler irrigation systems.

Various orosteln cooling towers are known, with a flailing form, and a small number of materials. the configuration of the channels, the design of the blocks and the heeling elements.

For example, in Posobtigno design, it is traditional for SNGT 2.04.02.84 Water supply External networks and facilities. The research institute of the Gosstroy SCHR, M., TsIN1, 1989, reflects the most frequently occurring in the Nredydutzna method of the spawn of the Gelt ir and Dresvest TI asbestos cement, which are significant in the obsolete wall and are also unreliable due to the unfortunate unfortunate effect mounting n repair.

Sprinklers of metal, ceramics, and n-dimensional materials are also known. Last but not least, the most important distillation.

This is due to the fact that it is entirely technologically advanced, resistant to operating factors, and the possibility of irrigating practically any teometric form.

Most of the well-known technical regions for sprays from elastic masses are oriented towards the interest of mass transfer due to the ontymic protection of irrigated elements, supplying them with tubes, perforations, and other means, and cooling of the circulating water.

However, do not find in bust the flowing water of tar, tar, petroleum products, and solid inclusions, suspensions that are harmful to them, which is expressed in particular on the irrigated surfaces of saline, biologic fouling, and clogging of the channels, resulting in the turn to the reduction of the cross-section of the channels of the irrigator, the age of the aerodnamtian roads, and in the long run to the deterioration in cooling of the circulating water, and, consequently, to the decrease in the efficiency of the entire system of circulating water supply.

(For example, Somov V.A. Water supply systems and structures, -M., St15osh1zdat, 1988, p. 323).

IPC F28F 25 08

bends below - 10 ° C, which leads to a sprinkling of the irrigator due to uve.: and 1spspiya loads from growing ice. Such weather conditions are typical for most regions of Rossggp.

Known are quick methods of dealing with these phenomena, and of which the repair and preventive work with irrigators is most dispersed, as well as such KOHCipvTKTHBHoe and irrigation of irrigation, which allows the possibility of sore regression, biologic growth. frost and sedimentation of Lelezia at the working and upper parts of the irrigator.

From the point of zreggy of remoistability, it is advisable to carry out irrigation blocks in one detail, which can be 1) neJoiKOM is replaced.

Nairimer, orosggel gradri according to RF patent .L22065129, IPC F28 F 25 08 uggubshkovanny 10.08.96, bulletin No. 22, which is made in the form of a matrix (block) of T15ub of a triangular profile, forming channels, is known.

Such a device satisfies the requirements of repairing; 1 and by replacing the blocks, odiako has a number of features that worsen the performance of the drive. So, sometimes there are laurels between the fastened pipe walls. in which moisture runs inevitably, the condition of which leads to biological fouling at positive temperatures, and in case of freezing, in case of freezing, it is often damaged or unlucky when connected to adjacent coarsely. In addition, this device has a lack of pennies for the outer walls of the housing, since they are not supported.

It is also known that the device contains voices that are connected with lateral faces by means of connecting and matching elements (Ggo USSR author's certificate .N91201663, ШЖ. F28F25 / 08, publ. 1985). () As such, the irrigation discharge has a great deal of effort Irimenegggem of connecting elements of distaggtsyugggugyugy elements, in addition, the low cost of soy / tspn and distanting elements provides for easy gaps in the joints, which reduces the penniness and rigidity of the device.

A similarly shy scooter of the irisiacs is characterized by the utilitarianism of io A.S. USSR No. 1370426, MnK.F28F25 / 08,. 1988, No. 1442806, IvinK.F28F25 03, oiub. 1988, io patent R.F. No. 2011946, MnK.F28F25 08, .1994

Their differences are differentiated between the first and second steggeas and steggeia ag1 | 5e1atirovagtia o;

So in tehnggicheskoy solution by A.S. USSR No. 1442806 will give the fitting and fasteners are made directly on the irrigated plate and at the same time with it.

Odagako such a pemeraie doesn’t happen (leooxo days put the plates in the block and, therefore, do not solve the remaining problem cardically.

The closest technical and suidiost and achievable e (}) feck is the sprinkler hailstones io Iateshu R.F. No. 2 () 08606, MPK.P28P25 / 08, oiubl. 1994, with () holding an 11-centimeter vertically mounted, folded sheet of chiipajni made of a polymeric material, forming an iris-resistant three-dimensional sheet whose vertical ribs are reinforced. and the bases are in the form of equilateral treutolpses.

In this device, all the elements of the irrigator are superior in the form of one part, which makes the convenience and speed of mobilization more general.

However, the need to use as an attachment opocHieini fasteners for the pins for welding the external ribs is necessary and that the T17 is more resistant to installation work when replacing the sprinklers, and in the case of welding, the construction tool is not separable.

At the same time, the connection of separate sprinklers with each other is necessary in this case, since their syllabic scheme does not deplete a sufficiently small, but multiple insertion element of the sprinkler is exposed in the form of a spiral cantilever baseline that does not nodify the shell of the external corius. and by loading it with its own weight and the weight of the moisture located on it, and upon excillation in the conditions described below and by the weight of deposits, blockages, ice.

The small number of prototype irrigators O1rai1 sparses its term, hardships of repair and irrigation works, especially the replacement of the irrigated ones.

In addition to this, it is also possible and practical to use such an orosigel as a support for co-workers to carry out work in a radius above the sprinklers (remoit, inspection, adjustment of water-distributing devices).

The purpose of the proposed utility model is to remedy these shortcomings, and I have: st} reading the performance characteristics of the irrigator by increasing its irreducibility, increasing the level of boltless fouling and the formation of blockages in the irrigation channels, improving the repairability and reducing the complexity of installation and replacement, as well as providing and using irrigators as oior elements of irrigation works above the level of irrigators.

The specified goal is achieved by that. that in a well-known sprinkler made of submeasured materials, containing a monolithic body in the form of a hollow direct prism, which, in particular, has the shape of a regular polygon with dimensions of fnl

housing rows of plates perpendicular to the base of the body of the sprinkler, and the channels formed by the plates have a shape similar to the shape of the outer contour of the body of the sprinkler.

The sprinkler can be made in the form of a trihedral, tetrahedral, hexagonal prism or with a large number of faces.

Examples of specific performance are illustrated by drawings:

In Fig 1. - View of the sprinkler from the end (trihedral prism).

In Fig 2.- End view of the sprinkler (tetrahedral prism).

In Fig 3.- End view of the sprinkler (hexagonal prism).

In Fig 4. - View of a perspective view of an irrigator having

triangular prism shape.

In Fig. 5. — A view of an axonometric image of an irrigator having

the shape of a tetrahedral prism.

In Fig 6. - View of an axonometric image of an irrigator having

hexagonal prism shape.

In Fig. 7. A schematic sectional view of a fan cooling tower.

In Fig. 8. Axonometric image of a hexagonal sprinkler.

The sprinkler consists of a housing 1 made in the form of a direct prism, irrigated elements-plates 2, made integral with the housing 1, which form channels 3, the shape of which is similar to the shape of the outer contour of the housing 1 of the sprinkler.

In tower 4, sprinkler 5 is located below water distributor 6.

Installation of sprinklers 5 on the cooling tower 4 is carried out by laying the sprinkler on the support elements mounted on the frame elements of the tower.

Sprinklers 5 are laid on the supporting elements of the tower in tiers, while to reduce material consumption while ensuring the operational properties of the tower, each subsequent row is shifted relative to the previous one by an amount shorter than the length of the sprinkler block, and a gap equal to the distance between the plates in the sprinkler block is made between the blocks.

During operation of the cooling tower, water droplets fall on the irrigator plates and, flowing down them, turn into a film, which is effectively cooled by the oncoming air stream.

The manufacture of such a sprinkler can be carried out using conventional technological equipment in accordance with known technological processes for molding plastic products, for example by injection molding, which ensures high mechanical properties and the quality of the manufactured sprinkler.

the casing with rows of plates perpendicular to the base of the sprinkler body, and the channels formed by the plates are made in the form of equal prisms having a shape similar to the shape of the outer contour of the sprinkler body.

Bibliographic dates of information sources.

1.Snip 2.04.02.84 “Water supply. External networks and facilities. A guide for the design of cooling towers, VNR1IVODGEO VNII Gosstroy USSR- M., TsITP, 1989.

2.Somov V.A. Water supply systems and structures, -M., Stroyizdat, 1988,

p. 323).

3. RF patents:

3.1.№2065129, IPC F28 F 25/08 published on 08/10/96, Bulletin No. 22. R.F.

3.2.№ 2011946, IPC.R28R25 / 08, publ. 1994

3.3.№2008606, IPC.R28R25 / 08, publ. 1994 - a prototype.

4.Authority certificate of the USSR:

4.1.№1201663, IPC. F28F25 / 08, publ. 1985).

4.2.№1370426, IPC.R28R25 / 08, publ. 1988.,

4.3.№1442806, MPK.R28R25 / 03, publ. 1988.,

Claims (3)

1. The sprinkler of a cooling tower made of polymeric materials, comprising a solid-shaped body in the form of a hollow direct prism, the base of which has the shape of a regular polygon, with rows of plates placed inside the body perpendicular to the base of the sprinkler body, characterized in that the channels formed by the plates are made in equal between themselves prisms having a shape similar to the outer contour of the sprinkler body.  2. The sprinkler according to claim 1, characterized in that the linear dimensions of the sides of the polygons of the base of the sprinkler and its channels are multiples of each other. 3. The sprinkler according to claim 1, characterized in that the height of the sprinkler body has a size insufficient to form a biofouling film.