RU2075704C1 - Central water heating plant - Google Patents

Abstract

FIELD: heating systems or hot water supply systems. SUBSTANCE: plant is equipped with sanitary hot water supply loop, heating loop made in form of flattened tubes 2 interconnected by means of elbows and sanitary hot water supply loop made in form of tubular U-shaped elements also interconnected by means of elbows, tubes 1 of sanitary hot water supply loop being located inside flattened tubes. Tubes 1 of coil of sanitary hot water supply loop have form of U-shaped elements. This coil is made by bending the tube at 90 deg relative to previous one and so on. Above-mentioned coil is made by successively bending the tube in two relatively perpendicular planes without welding or soldering. Connection at one of common ends of system formed by hot water supply loop and flattened tubes 2 of heating loop is made with the aid of header 4 mounted on flattened tubes 2 and closed with cover 6. EFFECT: enhanced reliability. 6 cl, 6 dwg

Description

 The present invention relates to a central water heating installation, equipped with a special hot water circuit, supplying heated water for use in domestic or sanitary purposes. This installation includes a heating device comprising a housing, the lower inner part of which is equipped with a burner, for example, a gas one. A pipe with water circulating in it of the heating circuit of the installation is wound or not wound onto this body, and the pipeline of this circuit then passes through a stack of heat-exchange fins located in the upper part of the body mentioned above on the path of movement of hot gases from the burner. After washing the aforementioned stack of heat exchange fins, partially cooled gases are sent to the exhaust pipe.

 European patent N 0329508 describes a installation intended for the organization of central water heating. This installation uses a mixed type heat exchanger. Its main part is a system of pipes used to heat sanitary water for a hot water supply system and made in the form of a coil with U-shaped elements. In this case, the pipes of the above-mentioned element are located inside the flattened channels or pipes. These flattened channels with the help of cranked connecting elements and a system of heat exchange ribs are combined into a block that forms the water circuit of the heating system. This hot heating water in turn heats the sanitary water in the hot water supply circuit of the heat exchanger.

 This configuration of the installation mentioned above ensures that there is no direct contact between the pipes of the sanitary hot water circuit made in the form of U-shaped elements and located inside the tapered channels of the heating circuit, and the walls of these channels having an oval cross section.

 The dimensions of the aforementioned flattened channels and the above-mentioned pipelines of the sanitary hot water circuit are selected so that the volume of water contained between the walls of the flattened channels and the bends of the piping of the water circuit coil is as small as possible.

 Such a device of the unit forces to install special nozzles at each end of the straight sections of pipes in order to close or close the heating circuit and the hot water supply. These nozzles are welded or soldered to the corresponding piping.

 Installation in accordance with the aforementioned European patent has a number of very significant drawbacks. On the one hand, it turns out to be quite time-consuming and uneconomical operations to perform tight welded or soldered joints of pipelines, and on the other hand, metal (solder) introduced during welding or soldering, which has lower chemical and mechanical resistance compared to copper from which the above-mentioned are made pipelines. The likelihood of proper operation of such mixed-type heat exchangers is reduced in the event of periodic descaling.

 The invention presented here is intended to offer an improved design of a central water heating installation, while providing sanitary hot water and free from the above disadvantages.

 So, the object of the invention is the installation of central water heating, equipped with a special hot water circuit that supplies heated water for use in domestic or sanitary purposes. This installation includes a heating device comprising a housing, the inner part of which is equipped with a burner, for example, a gas one, and on which the heating circuit pipe is wound (or not wound). This conduit then penetrates the stack of heat exchange fins located in the upper part of the aforementioned body, in the path of movement of hot gases from the burner.

 The heating circuit in the zone of its intersection with the package of heat exchange fins is made in the form of a group of flattened pipes of oval cross-section, connected to each other using elbow tubular connecting elements, and the circuit of the sanitary hot water supply system is made in the form of a pipe system in the form of U-shaped elements connected interconnected by cranked tubular sections, and the pipelines of the sanitary hot water circuit are located inside the aforementioned flattened pipes of the heating circuit.

The installation of central water heating in accordance with the invention is characterized in that:
pipelines of the coil of the sanitary hot water circuit are U-shaped and this coil is made by bending the pipe in a direction under 90 ^o in a vertical plane, then by another bending under 90 ^o to the previous one and so on;
the manufacture of the aforementioned coil is carried out by sequentially bending the pipe in two mutually perpendicular planes without the use of welding or a nut;
the connection at one of the common ends of the system formed by the coil of the sanitary hot water circuit and the flattened pipes of the heating circuit is carried out using a collector that is mounted on the flattened pipes mentioned above, and this collector, in turn, is closed by a lid.

 Other characteristics and advantages of the invention will be better understood from the following description, which provides links to the figures in the appendix, illustrating examples of practical implementation of the invention, without, however, limiting nature.

 In the appendix to the above description, FIG. 1, which shows a general spatial view of a plant in accordance with the invention, showing in cross section various components of a mixed type A heat exchanger; FIG. 2, which shows a spatial view of a system of pipes forming a series of U-shaped coil elements, in which a single pipe bends in two mutually perpendicular planes; FIG. 3, which shows a plan view of a mixed type A heat exchanger in accordance with the invention; FIG. 4, which shows a flat side view of a mixed type A heat exchanger; FIG. 5, which shows a flat front view of a mixed type A heat exchanger during installation.

According to a preferred embodiment of the practical implementation of this mixed type heat exchanger, a suitably curved coil is used inside the block of flattened pipes of oval cross-section, used as a sanitary hot water supply circuit. Moreover, the above-mentioned mixed-type heat exchanger is arranged in such a way that:
the dimensional parameters of the aforementioned flattened pipes of the heating circuit and the aforementioned pipes of the coil of the sanitary hot water circuit are selected so that the volume of water contained in the annular space between the housing and the pipes of the coil is as small as possible;
the heat exchanger unit consists of a package of heating circuit strung on flattened pipes and plates or heat exchanger fins soldered to them. The pipes mentioned above are connected at one of their ends by elbow tubular elements made by bending these pipes without soldering or welding.

 In FIG. 1-4 it is seen that the heating installation, which is the object of the invention, comprises a first pipe 2, intended for heating water in the heating circuit, and a second pipe 1, intended for heating sanitary water of the hot water supply circuit of the heat exchanger.

 From the same figures it can be seen (see, for example, Fig. 1) that the sanitary hot water circuit, made in the form of U-shaped elements connected to the coil, is inserted inside the flattened pipes 2 of the heating circuit, also having the shape of a coil formed by a series of U-shaped elements .

 In the upper part of the heating installation, where the object of the invention is located, the heating circuit pipe 2 is made in the form of a coil, which is a series of U-shaped elements connected to each other from flattened pipes having an oval cross-section and arranged so that the major axis of this section has horizontal directions. These pipes are connected at one of their ends by cranked tubular elements obtained by bending the same pipes.

 The piping of the sanitary hot water circuit 1 is formed by a pipe with a preferably circular cross-section located inside the flattened pipes 2 of the heating circuit of the heat exchanger. This pipeline is made in the form of a series of U-shaped elements obtained by bending the aforementioned pipe in two mutually perpendicular planes. Thus, it becomes possible to increase the surface area of the heat exchange between the two circuits of the considered heat exchanger of the mixed type in accordance with the invention, since the bends of the pipes of the sanitary hot water circuit are entirely inside the heating circuit, and not outside.

 The positioning of the pipes of the sanitary hot water circuit made in the form of a series of U-shaped elements located inside the flattened pipes of the heating circuit is carried out in such a way that any physical contact between the walls of pipelines 1 and 2 is excluded, and so that the volume of water contained in the residual annular space between the walls of these pipes was possibly smaller.

 From this configuration of the mixed type heat exchanger it also follows that almost all the heat transported by the water in the heating circuit is transferred or can be transferred to the sanitary hot water circuit.

 When assembling such a mixed-type heat exchanger, the sequence of connecting its constituent elements is described below: pipes 1, bent in a series of U-shaped elements and equipped with plastic sleeves 6, are inserted inside the flattened pipes 2 of the heating circuit, while the heat exchange fins 3 and the collector 4 are worn outside on flattened pipes 2 of the heating circuit. Cover 5 completely covers the entire unit. The collector mentioned above directs the movement of water in the heating circuit properly and ensures the tightness of this heat exchanger.

 The collector 4 mentioned above also provides support for both circuits of the heat exchanger of the type in question. It is soldered to the pipes of the heating circuit of the heat exchanger. Two partitions 7 cause the water in the heating circuit to pass sequentially through all flattened pipes of this circuit. From above, this collector itself is closed by a cover 5, which ensures the tightness of the joints made during the assembly of the heat exchanger.

 In an embodiment of the invention, shown in FIG. 6, sleeves made of special heat-resistant and moisture-resistant plastic can be strung on the pipe system of the sanitary hot water circuit. The preferred material for this in this case is silicone rubber. These bushings are strung on the pipe 1 at regular intervals. This design has a double space. First of all, it allows you to exclude any contacts of the walls of the pipes 1 with the walls of the flattened pipes 2, forming the heating circuit of the heat exchanger. On the other hand, this design makes it possible to eliminate vibrations of hydraulic origin that can occur in a plant of this type in those cases when the water in the U-shaped elements of the sanitary hot water circuit undergoes intensive circulation.

 From the above description it can be seen that the present invention provides a water heating installation that provides a sufficiently efficient and perfect heat exchanger process between two hot water supply and heating circuits integrated in one another, due to the large surface area of the heat exchanger due to the U-shaped configuration of the coil elements of both of the above contours.

 The absence of connected cranked elements, since the change in the direction of the pipeline is ensured by bending them, simplifies the method of practical implementation of this type of heat exchangers. In addition, the absence of welded or soldered pipe joints eliminates the possibility of water leaks through such joints.

 Of course, the present invention cannot be limited by the examples of its practical implementation described above and allows various modifications and variations not mentioned here.

Claims (6)

1. Installation of central water heating, equipped with a hot water supply circuit for domestic or sanitary use, comprising a heating device including a housing, the inside of which is provided with a burner, in particular a gas burner, and onto which a heating circuit pipe is wound, which then passes through the bag heat exchange fins located in the upper part of the housing along the path of the passage of hot gases, moreover, in the area of the heat exchange fins package through which the heating nth circuit, this circuit is made in the form of a plurality of flattened pipes connected to each other by elbow tubular elements, and the sanitary hot water supply circuit is made in the form of a series of pipes having a U-shape, interconnected by elbow tubular elements, said sanitary pipes hot water supply are located inside the flattened pipes related to the heating circuit, characterized in that the pipes of the coil of the sanitary hot water circuit are U-shaped, and the coil made without welding and contains a number of consecutive sections of pipes bent in two perpendicular planes so that alternating sections are formed in which the pipe is first bent in a direction at an angle of 90 ^o in a vertical plane, and then at an angle of 90 ^o relative to the previous direction, and installation contains a collector mounted on flattened pipes and having a cover, for combining at one of the common ends of a system consisting of tubular U-shaped elements and flattened pipes.  2. Installation according to claim 1, characterized in that the collector is equipped with baffles for circulating water sequentially through flattened pipes.  3. Installation according to claims 1 and 2, characterized in that the pipes of the sanitary hot water supply circuit are located in the form of a series of U-shaped elements inside the flattened pipes of the heating circuit and at a distance from them.  4. Installation according to claims 1 to 3, characterized in that the dimensions of the tapered pipes and pipes of the sanitary hot water supply circuit are selected taking into account the formation of a minimum gap between the walls of these pipes, which is sufficient at the same time for unhindered water circulation through the heating circuit pipe.  5. Installation according to claims 1 to 4, characterized in that the elbow tubular elements connecting the flattened pipes of the heating circuit to each other are made integrally with these pipes and are also sections of these pipes that are also flattened and bent in the plane of the pipes.  6. Installation according to claims 1 to 5, characterized in that the pipes located inside the flattened pipes are provided with a plurality of bushings made of heat-resistant and moisture-resistant material, such as, for example, silicone rubber, these bushings being worn on the pipe and installed at regular intervals .

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