RU2408824C2 - Heat convector and installation method of its heat thermostatic heat carrier flow regulator - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: heat convector includes heater made in the form of two pipes equipped with transverse cooling ribs, L-shaped casing fixed on brackets, heat regulator of heat carrier flow, which is made in the form of valve with thermostat and angular pipe coupling, which are connected by means of threaded connection to ends of heater tubes. Ends of heater tubes are provided with branch pipes fixed on the appropriate pipes. Branch pipes have external annular shoulders and are equipped with coupling nuts with possibility of interacting with them and with threads of the valve and angular pipe coupling of heat carrier flow regulator respectively. Installation method of heat thermostatic heat carrier flow regulator involves attachment of heater tubes prior to the installation of heat regulator to working ends in one and the same plane and at arrangement of their geometrical axes at the distance corresponding to the distance between geometrical axes of inlet holes in connection elements respectively of valve and angular pipe coupling of heat regulator and their further connection to heater tubes. Branch pipes with external shoulders prior to their welding to heater tube ends are fixed by means of coupling nuts on the bosses having external thread and rigidly connected to each other with clamp of installation device and distance between geometrical axes of which corresponds to the distance between geometrical axes of connection elements of heat regulator; the appropriate ends of branch pipes are pressed to heater tube ends, and they are rigidly connected; after that, coupling nuts are removed from bosses and installation device is removed, and instead of it there installed is heat regulator by fixing coupling nuts on its connection elements.

EFFECT: improving reliability and operating life and cost effectiveness at the manufacture.

2 cl, 11 dwg

Description

The invention relates to the field of heat supply of residential, industrial and other buildings with a central water heating system, in particular to convection-type heating devices with thermal regulation of the coolant.

A convector is known (SU 207375, IPC F24H 3/10, 12/22/1967) having a casing and a finned heater in the form of a curved pipeline consisting of two parallel rectilinear sections equipped with a common set of rectangular cooling plates with two openings each and one arcuate section. A disadvantage of the known convector is the low specific heat transfer due to the unformed air stream flowing around the fins of its heater.

More advanced convection-type heating devices are known (GB 2248923, 04/22/1992 and GB 2277986, 16.11 / 1994, F24D 19/00, F24D 19/06), containing each heater mounted on brackets, made in the form of at least one row located one above another pipe for supplying coolant, equipped with cooling fins, and a casing covering the heater with a lower air intake and an upper grille for the exit of heated air. Due to the presence of the casing, an ordered air flow is formed with draft from the bottom up due to the difference in atmospheric pressures, which increases the blowing of the cooling fins of the heater, and hence the efficiency of the heater. However, they do not allow targeted regulation of thermal power to create comfortable living conditions for consumers.

A convection-type heater similar to the construction described above is also known, but the casing is equipped with an air flow regulator made in the form of a rotary damper installed above the heater (RU 9508 U1, 03.16.1999, F24D 19/00). The known device allows you to purposefully change the efficiency of heat transfer by regulating the heat capacity at the request of the consumer to create comfortable conditions in the room, but eliminates the ability to automatically maintain its heat capacity at a given level depending on the temperature of the coolant and the environment.

Closest to the proposed technical essence and the achieved result and adopted as a prototype is a heating convector according to patent RU 49195 U1 (10.11.2005; F24D 19/00, F24D 19/06). It contains a heater in the form of two parallel pipes for supplying coolant (hot water) located in one vertical plane and provided with transverse cooling fins in the form of rectangular plates with two holes, brackets connected to the heater, an L-shaped casing fixed to them, containing a front a panel with sidewalls and an upper horizontal grill, a heat regulator, one of the modifications of which is represented by a flow rate regulator installed behind the heater, made in the form of a valve with rmostatom and angled sleeves which are joined by means of threaded connections sealed sealing gaskets. The disadvantage of this known convector is the premature failure of the sealing gaskets due to their uneven deformation, which is due to the skewness of the axes of the joined elements and deviations from the perpendicularity to these axes of their planes during the assembly process, especially in small-scale production, when increasing accuracy by tightening tolerances becomes expensive with their technological implementation.

Known methods for assembling heat exchangers, including making cooling fins in the form of plates, making holes in them, equipping a parallel row of pipes with cooling fins and then fixing the finned tubes in the heater (for example, as a solution according to patent RU 2199067, F28D 9/00, F28F 3/08 ; 06/20/2003), do not contain operations to install a thermal flow rate regulator. Such a final operation includes methods for the manufacture of heat convectors controlled by the flow of heat carrier, for example, according to the above-mentioned patent RU 49195 U1, and before assembly, external threads are pre-cut at the ends of the heat transfer pipes, and the elements of the heat controller are connected using threaded couplings. The disadvantage of the known installation is the same as that of the heating convector itself.

The objective of the invention is the creation of a heating convector of increased reliability of tight connection of the flow rate controller by ensuring uniform distribution of specific pressure on the gaskets of the elements of the threaded connection.

To solve the problem with the specified technical result, the heating convector includes a heater, at least in the form of two parallel pipes for supplying coolant, mainly hot water, located in the same plane and provided with transverse cooling fins in the form of rectangular plates with two holes, brackets, associated with the heater pipes, an L-shaped casing fixed to them, comprising a front panel, sides and a grill located on its horizontal part, a heat a heat carrier flow regulator installed behind the heater and made in the form of a valve with a thermostat and an angular bend, which are detachably connected using threaded sealed gaskets with gaskets, respectively, to the ends of the heater pipes. A distinctive feature of the present invention is that the ends of the heater tubes are provided with connecting nozzles, one-piece, for example by welding, connected with the corresponding pipes, and the nozzles are made with external annular flanges and equipped with union nuts with the possibility of interaction with them and with the threads of the valve and the angle heating medium flow regulator.

To make it possible to create a device that provides the specified technical result, the proposed method of mounting a thermal thermostatic flow rate regulator in the manufacture of a heating convector with a heater in the form of two parallel pipes equipped with transverse cooling fins includes the fixation of the heater pipes with working ends in one plane preceding the installation of the heat regulator and when placing their geometric axes at a distance corresponding to (within the tolerance) races -being between the geometric axes of inlet openings in the connecting elements provided with seals respectively and a valve angular Squeegee thermal regulator, and their subsequent attachment to the heater tubes. A distinctive feature of the proposed installation method is that the connecting pipes with external flanges before welding with the corresponding ends of their heater pipes are secured with union nuts on the bosses that are externally threaded, which are rigidly connected, for example, by welding, to the mounting device bracket and the distance between the geometrical axes of which correspond (within the tolerance) to the distance between the geometrical axes of the connecting elements of the heat controller, press the corresponding The existing ends of the connecting pipes to the ends of the heater pipes make their one-piece connection, for example, by welding, after which the union nuts are screwed from the bosses and the mounting device is removed, and a heat regulator with sealing gaskets is installed instead, fixing the union nuts on its connecting elements.

The inventive group of inventions of one inventive concept (device and method of mounting its block) is not known from the prior art, therefore, they meet the criterion of "novelty."

They also do not explicitly follow from the prior art, therefore, they meet the criterion of "inventive step".

Their implementation is possible according to the degree of disclosure of the technical and technological solution, which gives a positive effect during operation and is technologically feasible in small-scale production, i.e. they satisfy the criterion of "industrial applicability".

The invention is illustrated by drawings, which depict:

figure 1 - heating convector, a General view with a partial section;

figure 2 is the same, view a in figure 1 (part of the image);

figure 3 is the same, a section bB in figure 1;

figure 4 is the same, the cooling fin of the heater;

figure 5 is the same, the connection node of the valve (or angular discharge) of the thermal regulator of the flow of coolant to the pipes of the heater (part of a longitudinal section);

Fig.6 is a method of mounting a thermal thermostatic flow rate controller in the manufacture of a heating convector (mounting device, general view);

7 ... 11 - the same phase of the method.

The invention as a device is a single-section single-row end heating convector, consisting of a heater 1 (Figs. 1, 2 and 3), a heat regulator 2, a casing 3 and two brackets 4 and 5.

The heater 1 is made in the form of two parallel pipes 6 and 7, horizontally oriented in the same vertical plane, for supplying a heat carrier, equipped with common cooling fins 8. The cooling fins 8 (Fig. 4) are identical rectangular plates with two holes 9 and 10 identical in diameter d located on one longitudinal (vertical) geometric axis of symmetry 11 and symmetrically relative to the transverse (horizontal) geometric axis 12. For example, with a nominal outer diameter of pipes 6 and 7 of size d _t = 0,024 ... 0,030 m the initial mounting size of the diameters d of their holes 9 and 10 is made smaller than the outer diameter d _{t of} pipes 6 and 7 by Δd = 0,0004 ... 0,0005 m, i.e. plates 8 are fixed to the pipes 6 and 7 of the heater 1 due to the fit (tightness).

The heat carrier flow rate controller 2 is made in the form of a valve 13 with a thermostat 14 and an angled chuck 15. It is installed behind the heat carrier 1 and connected to its pipes 6 and 7 using threaded connections 16 and 17 in the form of union nuts 16a and 17a screwed onto their threaded the ends 18 and 19 of the valve 13 and the angular bore 15, respectively (figure 5). To this end, the ends of the pipes 6 and 7 have respectively outer annular flanges 20 and 21. The annular flanges can be made on pipes 6a and 7a, which are inseparable, for example by welding, connected to the pipes 6 and 7, respectively. The tightness of the joints is ensured with the help of O-rings 22 and 23.

The casing 3 is made of sheet material, has an L-shaped shape and contains a vertical front panel 24, sidewalls 25 (left with cutouts 25a and 25b for pipes 6 and 7 and right with a cutout 25b for thermostat 14), as well as a horizontal part 26 with mounting flanging 26a and grill 27 for the release of heated air. The lattice 27 can be made in the form of transverse elongated holes 28 with flanging 29.

The brackets 4 and 5 are made of sheet material and are bent in two mutually perpendicular planes, forming each front part 30 (with mounting holes 31 for fasteners and a bent end 30a for mounting flanging 26a of the casing 3) and the transverse part 32 (with cutout 33 and stop 34 to cover the pipe 7 of the heater 1).

Before the heater 1, its pipes 6 and 7 can be connected by a pipe 35 of a smaller diameter than the diameter of these pipes (bypass connection).

It is possible to modify the thermal end single-section convector of two-row design in width and two-tier in vertical with tiers in horizontal planes with cooling fins in the form of plates with four holes (not shown in the drawing), while the regulator is located horizontally.

The method of mounting a thermal thermostatic flow rate controller in the manufacture of a heating convector with a heater in the form of two parallel pipes equipped with transverse cooling fins is carried out in the following sequence.

Pre-fabricated mounting device 36 (Fig.6), which is two identical bosses 37 and 38 having an external thread 39 under the union nuts 16A and 17A and rigidly connected, for example by welding, with a bracket 40, and the distance L between the geometric axes 41 and 42 bosses 37 and 38 corresponds to the distance L ₀ between the geometric axes 43 and 44 of the pipes 6 and 7 of the heater 1 and the connecting elements of the heat controller 2, i.e. up to a tolerance L = L ₀ . Then the connecting pipes 6a and 7a with the outer flanges 20 and 21 before welding with the corresponding ends of the heater pipes 1 are fixed on the bosses 37 and 38 of the mounting fixture 36 (Fig. 7) using the union nuts 16a and 17a, the ends 45 and 46 of the connecting pipes are pressed 6a and 7a to the ends 47 and 48 of the pipes 6 and 7 of the heater 1 (Fig. 8) after fixing the cooling fins 8 and carry out their permanent connection, for example by welding, through welds 6b and 7b (Fig. 9). Next, the union nuts 16a and 17a are screwed from the bosses 37 and 38 and the mounting device 36 is removed (FIG. 10). Instead, a thermal regulator 2 equipped with sealing gaskets 22 and 23 is installed (Fig. 5), fixing the union nuts 16a and 17a on its connecting elements, i.e. at the threaded ends 18 and 19 of the valve 13 and the angular run 15 respectively (Fig.11). Thus, the mounting accuracy of the heat controller 2 is ensured by the manufacturing accuracy of the mounting device 36, which compensates for the errors Δ of the manufacture of the heater 1 (by the parallelism of the pipes 6 and 7 and the perpendicularity of their ends), and even transcendent errors Δ do not affect the accuracy of mounting of the controller 2.

When using a heating convector of a two-row two-tier modification, the method of mounting the controller is similar, only it is installed horizontally at the outlet of the upper tier.

The work of the invention is as follows.

The heating convector is fixedly fixed using fasteners 49 on the wall 50 of the heated room at a height of H = 0.090 ... 0.150 m from floor 51 (Figs. 1 and 3) and the threaded ends 6b and 7b of the pipes 6 and 7 are respectively hydraulically connected using couplings 52 and 53 heater 1 with pipes 54 and 55 of the heating line. The coolant (hot water) 56 is supplied to the pipe 6 of the heater 1 with the subsequent removal of its waste stream 57 through the pipe 7. The coolant 56 transfers heat through the cooling fins 8 to the air flow 58 passing between them, the casing 3 and the wall 50, which enters through the lower gap 59 between the casing 3 and the floor 51 and emerging in the form of a heated air stream 60 through the holes 28 of the lattice 27 of the casing 3 (in its upper part). Heated air stream 60, mixing with the surrounding air, heats the room. In this case, due to the difference in atmospheric pressures in the lower and upper parts of the casing 3 creates a constant draft of air and the intensification of heat transfer. Comfort is ensured by automatic regulation of thermal power using thermostat 14 of the heat controller 2.

The proposed thermal convector allows to increase the reliability and durability in operation by tightness of the threaded connections of its thermal regulator and reduce operating costs. It is cost-effective in manufacturing in small batch production.

Claims (2)

1. A heating convector comprising a heater in the form of at least two parallel pipes for supplying a heat carrier, mainly hot water, located in one plane and provided with transverse cooling fins in the form of rectangular plates with two holes, brackets connected to the heater pipes, mounted on brackets L-shaped casing containing a front panel, sidewalls and a grill on the horizontal part, a thermal flow rate regulator installed behind the heater and made in the form of a valve and with a thermostat and a corner bend, which are detachably connected by means of a threaded connection, respectively, to the ends of the heater tubes, characterized in that the ends of the heater tubes are provided with nozzles, one-piece, for example by welding, connected to the corresponding tubes, the nozzles being made with outer annular collars and equipped with union nuts with the possibility of interaction with them and threads, respectively, of the valve and the angular bend of the flow rate controller. 2. A method of mounting a thermal thermostatic flow rate controller in the manufacture of a heating convector with a heater in the form of two parallel pipes equipped with transverse cooling fins, including fixing the heater tubes with working ends in the same plane prior to installing the heat controller and placing their geometric axes at a distance corresponding to (within tolerance) the distance between the geometrical axes of the inlets in the connecting gaskets equipped elements of the valve and the angular slope of the heat regulator and their subsequent connection to the heater pipes, characterized in that the connecting pipes with external flanges before welding with the corresponding ends of the heater pipes are secured with union nuts to the male threads that are rigidly connected, for example by welding, between each other with a mounting device bracket and the distance between the geometric axes of which corresponds (within the tolerance) to the distance between the geome with the axes of the connecting elements of the heat controller, press the corresponding ends of the connecting pipes to the ends of the heater pipes, carry out their permanent connection, for example by welding, after which the union nuts are screwed from the bosses and the mounting device is removed, and instead the heat controller is installed with gaskets, fixing union nuts on its connecting elements.

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