RU2042891C1 - Heating device - Google Patents

Abstract

FIELD: heat engineering. SUBSTANCE: sections and finned piping members inside each section are interconnected by way of adapters made up as hollow housing 3 with four threaded openings 4, the opening being axially alined in pair and arranged on its worked sides. The outer side of both the ends of each piping member has three locking bosses inclined at 90° to each other. The face worked sides of the adapter housing have two locking bosses 12 between pairs of openings 4 opposite to each other. The design allows sections of heating device to be assembled both in one plane and as three-dimensional units. EFFECT: improved design. 8 dwg

Description

 The invention relates to heat engineering and can be used in heating systems of rooms with water or steam-like coolant.

 Known heating device, which is a cast iron ribbed pipe with round fins [1] Fins on the pipes increase the heating surface and lower the temperature of the heating surface.

 However, low sanitary and hygienic qualities do not allow recommending the installation of ribbed pipes in residential and public buildings.

 The closest in technical essence and the achieved result to the proposed invention is a convector heating device containing a section of two tubular elements connected by a common fin and placed in a casing [2] By connecting the section using tubular outlets, two- and three-row heating devices can be obtained.

 However, sections of such a convector can be connected and located in only one plane, which narrows the functionality of the heating device.

 The present invention is aimed at solving the problem of providing the ability to assemble sections of the heating device both in one plane and in volume units. This will expand the scope of the heating device by using it not only for space heating, but also as a clothes dryer and shoes in the cabins of builders and gas workers, as well as a water heating boiler for individual housing construction or for heating small objects located far from heating mains.

To achieve the desired technical result in the proposed heating device, the connection of the finned tubular elements in each section and sections between each other is made by means of adapters, each of which is a hollow body with four threaded holes pairwise coaxially located on its end machined surfaces, while the outer surface of both ends of each tubular element 3 has fixing tide angle ⁹⁰ to each other, and the treated surface of the housing Mechanical n rehodnika two fixing tide between the pairs of aligned openings opposite each other. Small-sized initial sections of two finned tubular elements make it possible to assemble heating devices of any predetermined thermal power in one plane or into volume units using adapters.

 In FIG. 1 shows a section of a heating device; in FIG. 2 design of tubular elements with a finning system; in FIG. 3 same side view; in FIG. 4 adapter design; in FIG. 5 same side view; in FIG. 6 single row connection sections; in FIG. 7 multi-row connection of sections; in FIG. 8 volumetric connection sections.

 The heating device comprises sections connected to the heating system and interconnected, each of which consists of two parallel tubular elements 1, interconnected by a vertical finning system 2 (Fig. 1, 2). Closing the coolant flow in each section and connecting the sections to each other with their multi-row and volumetric arrangement (Fig. 7, 8) is carried out by means of adapters, each of which (Fig. 4, 5) is a hollow body 3 having four threaded holes 4, paired coaxially located on the machined end surfaces 5 of the housing, while one pair of holes has a right-hand thread and the other a left-hand one. At the ends of the tubular elements 1, threaded holes 6 are made, having right and left threads in pairs, respectively, for connecting sections of the heating device to each other by means of nipples 7 and gaskets 8, while the diameter of the threaded holes 6 of the sections is equal to the diameter of the threaded holes 4 of the adapter, and the center-to-center distance of the pair of holes 4 adapter is equal to the center-to-center distance between the holes of 6 sections. To close the flow of coolant in the section, one of the pairs of holes 4 in the housing 3 of the adapter is closed with plugs 9 with gaskets 10.

For fixing the position of the adapter 3 in the assembly of sections of the heating device in the multi-row and solid blocks on the outer surface of the tubular element 1 with both their ends formed by three arranged along the central axis 90 ^of the locking tide 11, and the treated end faces 5 of the body 3 of the adapter formed two fixing tides 12 located between the holes 4 opposite each other. For tight joining sections of the heating device, the end surface 13 of the tubular elements is machined.

 All elements of the heating device are made of gray cast iron by casting. The end surfaces 5 of the housing 3 of the adapter with threaded holes 4 are mechanically machined to make a tight connection of the adapter with the tubular elements of 1 sections.

 Sections of the heater, assembled in one plane in one or more rows (Fig. 6, 7), can be used for heating rooms for industrial and civil purposes.

 When assembling sections in volumetric blocks (Fig. 8), the heating device can be used as a dryer of workwear and shoes in the cabins of builders, gas workers, etc.

 The volumetric version (Fig. 8) of the heating device, assembled on copper gaskets between the elements, can be mounted in the furnace of a household oven and used as a boiler for water heating or to produce hot water.

 The heater operates as follows.

 With a single-row arrangement of the section (Fig. 6), the tubular elements 1 of one section are connected respectively to the inlet and outlet pipes of the heating system, while the sections are joined together by means of hollow nipples with gaskets. The coolant passes sequentially, for example, through all the upper tubular elements of the sections connected to each other, and then through the adapter cavity enters the lower tubular elements connected to each other by means of nipples and connected to the outlet pipe.

 In the case of a two-row arrangement of sections (Fig. 7), the first and last section 1 of the heating device are connected respectively to the inlet and outlet pipes of the heating system (not shown).

 The coolant enters, for example, in the upper tubular element 1 of the upper section, then passes through the cavity of the adapter and enters the lower tubular element 1 of the section, from where it goes through the connecting adapter to the lower section.

 The movement of the coolant in the second section is similar to the first. When the coolant passes through the tubular elements 1, their surface and the surface of the fin 2 are heated, which ensures heat transfer to the surrounding space.

 With the volumetric arrangement of the sections of the heating device (Fig. 8), the latter can be used as a dryer, since the heat-exchange surface area is significantly increased.

 The heat carrier, passing through the tubular elements of section 1, connected by means of adapters, heats the heat exchange surface of the heating device, while a significant surface area of the heat exchange provides high heat transfer and thereby intensive drying of workwear placed on the sections of the heating device.

 A heater with a volumetric arrangement of sections (Fig. 8) using copper gaskets between the elements can be mounted in the furnace of a household oven and used as a boiler. In this case, source water is supplied through the inlet pipe, which, as the tubular elements 1 and adapters heated by fuel combustion pass, is heated and discharged through the outlet pipe to the consumer.

Claims (1)

A HEATING DEVICE comprising interconnected sections of two finned tubular elements each connected to a heating system, characterized in that the tubular elements in each section and section are interconnected using adapters, each of which is made in the form of a hollow body with four threaded holes pairwise coaxially located on its end machined surfaces, while the outer surface of both ends of each tubular element has three fixing tides at an angle of 90 ^{o to} each other to each other, and the end machined surfaces of the adapter housing are two fixing tides between pairs of coaxial holes opposite each other.

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