RU181093U1 - DEVICE FOR HEATING AND COOLING, IN PARTICULAR, FOR WATER CENTRAL HEATING - Google Patents

Abstract

The device for heating and cooling is used for water central heating. The device comprises a heat exchanger consisting of several rows of pipes (3) located at an angle of no more than 65 ° and having an aerodynamic profile. On the sides of the heat exchanger are collectors (4), which communicate with the pipe (3). Each collector is equipped with an inlet pipe (5) and / or an outlet pipe (5) with a control element. The heat exchanger is made of copper or aluminum and may contain a corrugated element. The device contains an electric fan (8) with a regulator (9) to ensure air flow and is equipped with a casing.

Description

Technical field

A utility model relates to a device for heating and cooling, in particular for water central heating. The device is suitable for use in residential areas where efficiency and at the same time aesthetics of heat and cooling sources are important.

State of the art

Heat sources, in particular central heating radiators, are made of steel sheets welded around the perimeter. Their disadvantage is low efficiency, the relatively large size required to transfer additional heat. Also known are heat sources made of cast iron, which are heavy and inefficient.

Utility Model Disclosure

These disadvantages are largely eliminated in the device for heating and cooling, in particular for water central heating, in accordance with the present invention, the essence of which is that the device consists of at least one heat exchanger equipped with a casing. The heat exchanger consists of at least one row of pipes located at an angle α of no more than 65 ° to the horizontal. Each row of pipes consists of at least two pipes with an aerodynamic profile formed by a substantially rectangle or substantially oval in cross section with a length of the major axis (a) of at least two times the length of its smaller axis (b) . The distance h between at least some of the pipes is not more than 13 mm. At least one side of the heat exchanger is equipped with a collector with which at least some pipes are in communication, and which is equipped with an inlet pipe and / or outlet pipe.

The essence of the utility model also lies in the fact that the heat exchanger is made of a material containing copper. In addition, it is essential that the heat exchanger is made of a material containing aluminum. It is also significant that at least a portion of the metal corrugated element is located between some rows of pipes. It is also essential that the inlet pipe and / or inlet pipe is equipped with a control element. In addition, it is important that at least one electric fan is installed above and / or below the heat exchanger. And finally, it is essential that the electric fan is equipped with a regulator to adjust the speed of rotation.

The following is an explanation of the individual terms used in this technical solution.

A device for heating and cooling is a device that removes heat from the space in which this device is located, or delivers heat to this space. Heat transfer occurs through the fluid that passes through this device.

Pipes with an aerodynamic profile formed by a substantially rectangle or substantially oval in cross section with a major axis at least two times the length of its minor axis are pipes whose cross section is of an aerodynamically preferred shape when a slight aerodynamic resistance to the air flow directed to this pipe is provided. The ideal solution is a streamlined, drop-shaped pipe section. However, a technologically simpler oval cross-sectional shape with a greater axis is at least twice as long as the length of the short axis. In principle, a pipe shape with a cross section in the shape of a rectangle in which the length of its major axis is at least twice the length of the short axis is also allowed.

A corrugated metal element is a metal heat-conducting element with a large surface that is in contact with the pipes and, thus, transfers heat supplied through the pipes to its surface, which is significantly larger than the surface of the pipes. This provides better heat transfer to the air from the fluid flow in the pipes.

The technical result provided by the utility model is to increase the efficiency of a device for heating or cooling air in residential premises, reducing the size of such a device and reducing its weight. The increase in efficiency is achieved through the use of a heat exchanger containing several horizontal and several vertical rows of pipes having an aerodynamic profile of elongated cross-section, which helps to increase heat transfer between the coolant and the environment, through the use of collectors that ensure uniform heating of the pipes, as well as by performing a heat exchanger from a material with high thermal conductivity containing copper or aluminum. The use of a metal corrugated element located between some rows of pipes and having thermal contact with the pipes also contributes to an increase in efficiency, which increases the effective heat transfer surface area. In addition, the use of one or more electric fans, also improving heat transfer between the coolant and the environment, contributes to an increase in efficiency by creating a turbulent air flow in the space bounded by the casing of the device. The reduction in size of the claimed device is achieved by reducing the distance between the pipes; downsizing is also a direct result of increased heat exchanger efficiency. The weight reduction of the claimed device is ensured by the use of relatively light materials containing copper or aluminum; weight reduction is also a direct result of downsizing.

Brief Description of the Drawings

In FIG. 1 schematically shows a heat exchanger equipped on each side with a collector with which pipes communicate. An inlet pipe and an outlet pipe with a control element are connected to the collector. The heat exchanger is equipped with pipes located at an angle α of 40 ° to the horizontal.

In FIG. 2 schematically shows a heat exchanger with a row of four pipes, equipped with inlet and outlet pipes, in which the pipes are located at an angle α of 0 ° to the horizontal. A fan with a control element is also shown.

In FIG. 3 shows a cross section of an oval-shaped tube with an aerodynamic profile with a length of a larger axis (a) of a cross section of at least two times the length of its smaller axis (b).

In FIG. 4 is a cross-sectional view of a heat exchanger with four rows of pipes, where each row also consists of four pipes. The figure shows the distance h between the pipes. Between some rows of pipes are two parts of the metal corrugated element.

In FIG. 5 schematically shows a heat exchanger equipped with a casing.

Utility Model Examples

The cottage decided to implement central water heating with a 40 kW gas boiler and five radiators, each with a capacity of approximately 12 kW. It is required to equip individual rooms with compact, but powerful heaters that can transfer heat from the boiler to separate rooms. To implement each of the five radiators, a heat exchanger is used, consisting of four rows of pipes 3 located at an angle α = 35 ° to the horizon. The length of each pipe 3 is 720 mm. Each row of pipes 3 consists of eight pipes 3 with an aerodynamic profile in the form of a rectangle with rounded corners. The length of the long axis of the cross section of the pipe 3 is 20 mm, and the length of the short axis is 8 mm.

The distance h between the lower row of pipes 3 and the row of pipes 3 located above it is 10 mm. Between the other rows of pipes 3, the distance h = 22 mm. All materials used are made of brass. On both sides, the heat exchanger 1 ends with collectors 4, with which separate pipes 3 communicate. Between the second and third rows of pipes 3, a metal corrugated element 6 is inserted. The collectors 4 are equipped with an inlet pipe 5 and also an outlet pipe 5. All pipes 5 are made of copper. The exhaust pipe 5 is equipped with a control element 7. Under the heat exchanger 1 there are fixed two axial electric fans 8, each of which is equipped with a regulator 9. The heat exchanger is equipped with a casing 2, which has an aesthetic design.

Industrial applicability

The invention can be used in the implementation of central heating systems. It may also be applicable for use in cooling equipment.

Legend:

1 - heat exchanger;

2 - a casing;

3 - pipe;

4 - collector;

5 - pipe;

6 - metal corrugated element;

7 - regulatory element;

8 - electric fan;

9 - regulator.

Claims (7)

1. A device for heating and cooling, in particular for water central heating, comprising at least one heat exchanger (1) provided with a casing (2), the heat exchanger (1) consisting of at least two rows of pipes ( 3) located at an angle α of no more than 65 ° to the horizontal, each row of pipes (3) consists of at least two pipes (3) with an aerodynamic profile formed by a substantially rectangle or essentially oval in cross section with a length major axis (a) at least twice the length of its smaller axis (b), the distance h between the pipes (3) in height is not more than 13 mm, the heat exchanger (1) is equipped with at least one collector (4), which pipes (3) communicate with and which is equipped with an inlet pipe ( 5) and / or exhaust pipe (5). 2. The device according to claim 1, characterized in that the heat exchanger (1) is made of a material containing copper. 3. The device according to claim 1, characterized in that the heat exchanger (1) is made of a material containing aluminum. 4. The device according to p. 1, characterized in that at least a portion of the metal corrugated element (6) is located between some rows of pipes (3). 5. The device according to claim 1, characterized in that the inlet pipe (5) and / or inlet pipe (5) is equipped with a control element (7). 6. Device according to any one of the preceding paragraphs, characterized in that at least one electric fan (8) is installed above and / or below the heat exchanger (1). 7. Equipment according to claim 6, in which the electric fan (8) is equipped with a regulator (9) for adjusting the rotation speed.

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