RU119444U1 - RADIATOR NIPPLE - Google Patents

Abstract

Radiator nipple containing a cylindrical tubular body, limited by end surfaces, from the ends on the outer surface of the body there are left and right threads, characterized in that it is made of a heat-resistant polymer composite material, an annular separating groove is made between the threads to accommodate the radiators extruded during the screwing process part of the mass of a sealing elastic gasket, for example, made of silicone, the threaded ends are equipped with lead-in chamfers, and the hole is made with multifaceted or semi-oval or diametrically located protrusions-bulges, while the end surface of the left thread is equipped with radially located hemispherical protrusions.

Description

The proposed utility model relates to heating systems, namely, to the means of connecting radiators to sectional batteries.

Known nipple, consisting of a housing, on the outer surface of which in its middle part a hexagon is made, and along the edges at the ends there is a thread with a right and left direction of the turn. (Polytechnical Dictionary, "Soviet Encyclopedia", M. 1980, p. 330).

The disadvantage of this nipple is an increase in the dimensions of the assembled sections of the radiator batteries, additional seals are required that are installed on both sides of the hexagon, as well as additional costs for performing the hexagon.

Known nipple, consisting of a cylindrical body with a multifaceted key hole. The thread on the body is right and left counterclockwise to the middle butt. Material - cast steel. (Certificate for utility model RU No. 22524, F24C 15/24, 04/02/2001).

The disadvantage of the casting design is that the casting material has porosity, the billet is brittle, a high percentage of chipped threads along the profile, a significant manufacturing cost, typical for foundry, a high percentage of rejects due to the technology of the casting process.

The closest technological solution is a steel casting nipple according to GOST 8967-75, USSR. It consists of a cast cylindrical tubular body, on the outer surface with counter-directed left and right threads from the edges to the middle in the joint. It is characterized by the disadvantages inherent in the mentioned nipple according to PM No. 22524. The absence of an annular ring separating between the threads complicates the sealing of the batteries collected in the section.

This nipple has a “sticking” factor to the thread of the nipple to the thread of the battery due to rust. For aluminum radiators with repeated unscrewing-wrapping of nipples with great effort, the thread in the fitting of the connecting threaded hole is partially destroyed, which often requires replacement of the radiators. For cast iron radiators, usually after each inversion of the nipple they are replaced with new ones. Therefore, radiator cleanings are rarely done and radiators are used most of the time contaminated. The central hole of metal, cast-iron or steel nipples rusts, is enveloped with scale, reducing its cross section, which leads to a slowdown in the circulation of warm water. As a result, the efficiency of the radiator decreases. In addition, the cost of ferrous metal nipples is significantly high due to mechanical processing, including turning, grooving or lingering and other operations.

The basis of this utility model is the task of improving the operational properties of the nipple, increasing the manufacturability of its manufacture and reducing costs.

The problem is solved in that the radiator nipple contains a cylindrical tubular body bounded by end surfaces, from the ends on the outer surface of the body there is a left and right thread. The novelty lies in the fact that the nipple is made of heat-resistant polymer composite material, a separating annular groove is made between the threads to accommodate the mass portion of the sealing elastic gasket extruded during the making of the radiators, for example, silicone, the threaded ends are provided with lead-in chamfers, and the hole is made multifaceted or semi-oval or with diametrically located protrusions-puklevki, while the end surface of the left thread is provided with radially located hemispheres eral projections.

The design of the nipple is illustrated in the drawing, where figure 1 shows a top view; figure 2, 3 and 4 is a side view showing the profile of the hole.

The radiator nipple includes a cylindrical tubular body 1, bounded by the end surfaces 2 and 3, on the outer surface from the ends 2 and 3 of the body 1 there are left 4 and right 5 threads, a separating annular groove 6 is made between the threads 4 and 5 to accommodate the radiators extruded during make-up part of the mass of the elastic gasket, for example, made of silicone, the threaded ends are provided with inlet chamfers 7 and 8. The hole 9 for the passage of the heat carrier, for example, steam, liquid and turnkey, is made multifaceted 10 or floor oval 11 or with diametrically located protrusions-puklevki 12. On the end surface 2 of the left thread are made radially spaced hemispherical protrusions 13 or radial notches for its determination. The protrusions 13 should be visible or tangible to the touch as defining the left thread. Case material 1 is heat-resistant polymer, composite, for example, ASB 30 tav. A method of manufacturing is injection molding.

The hole 9 due to the polymer, composite material is smooth, without burrs, not subject to corrosion, which contributes to a good constant flow of coolant.

The use of a polymer, composite material saved the nipple’s hole from rust, enveloping with scum, keeping its cross section constant, without slowing down the coolant circulation, significantly simplifies the manufacturing technology, instead of machining metal by casting, the finished product is obtained without technological redistribution. The annular groove allows the use of a plastic thread sealant, the excess part of which, when screwed, flows into the annular groove.

Since the material does not form galvanic pairs with a heating radiator (bimetallic, aluminum, cast iron), corrosion on threaded joints is absent or significantly less.

Information materials used when applying for a utility model.

1. Kerber M.L. Polymer and composite materials. SPb. Profession, 2008.

2. Fedotov A.A. et al. Plumber: a new construction directory. Rostov-on-Don. Phoenix, 2008.

3. Utility Model Certificate RU No. 22524, F24C 15/24, 02/02/2001.

4. Polytechnical dictionary. "Soviet Encyclopedia" M. 1980, p. 330.

5. GOST 8967-75. THE USSR. Nipples.

Claims (1)

Radiator nipple, containing a cylindrical tubular body bounded by end surfaces, from the ends on the outer surface of the body there are left and right threads, characterized in that it is made of heat-resistant polymer composite material, a separating annular groove is made between the threads to accommodate the radiators extruded during screwing up parts of the mass of the elastic gasket, for example, made of silicone, the threaded ends are provided with lead-in chamfers, and the hole is multi-faceted th or semi-oval or diametrically located protrusions-beetles, while the end surface of the left thread is provided with radially located hemispherical protrusions.