RU163403U1 - BOILER HEATING GAS WATER-HEATING STEEL "ISHMA" - Google Patents

Abstract

A gas-fired steel heating boiler containing a casing, a receiving device, a heat exchanger, a combustion device, a smoke exhaust device, characterized in that the channels of the heat exchanger pipes for the passage of exhaust gases and for the passage of the heat carrier are rectangular in cross section and are welded one after another to improve the process heat transfer, and turbulators have a curved zigzag shape with the same pitch along their entire length and are located in the channel of the exhaust gas heat exchangers so that one turbulator is at the top of the next.

Description

The utility model relates to the field of communal and industrial heat power.

A known heating gas apparatus with a water circuit, in which the heat exchanger is a four-row packet of pipes through which the products of combustion move, and from the outside are washed with water filling the apparatus (G. Kyazimov, Fundamentals of gas economy. M. Higher School, 1987, p. . 240).

The disadvantage of this device is the difficulty of manufacturing and achieving the optimal ratio between the amount of heat transfer and the required amount of traction.

The closest in technical essence to the proposed utility model is a household gas heating apparatus with a water circuit manufactured by CJSC “Rostovgazapparat” AOGV-17, 4, 3, model 2210, GOST 20219-74, TU 51-20-25-92 (see. Manual manual "Gas household heating apparatus with a water circuit", p. 6-7).

The heat exchanger of the gas apparatus contains a vertical casing with an inlet and outlet pipe, tube sheets, in which heat-exchange pipes are fixed, evenly spaced around the circumference, turbulators are inserted in the pipes, which are single plates with bent (in different directions) semicircular vanes blocking the pipe section, with the manufacture of which holes are formed for the passage of combustion products.

The heated medium enters the housing through the inlet pipe, washes the pipes and exits through the outlet pipe. The coolant - combustion products, enters the pipes, passes through the turbulators and, as a result of heat exchange, giving heat to the heated medium, leaves the apparatus.

The disadvantage of this apparatus is that with sufficiently large diameters of the heat transfer pipes to overlap the pipe section, the blades are made of the appropriate size, therefore, in the manufacture they get large openings for the passage of the coolant, which leads to an increase in the rate of passage of the combustion products and a deterioration in heat transfer.

Reducing the diameter of the pipes leads to an increase in their number and an increase in the complexity of manufacturing and cost of products.

In addition, the need to obtain the desired heat transfer at high gas velocities leads to an increase in heat transfer area and installation dimensions.

The objective of the utility model is to intensify the heat transfer process of the heating apparatus, optimizing the geometric parameters of the turbulators and reducing the dimensions of the heating apparatus.

The technical result is achieved by the fact that the channels of the heat exchange pipes for the passage of exhaust gases and for the passage of the coolant are rectangular in cross section and are welded one after another to improve the heat transfer process, and the turbulators have a curved zigzag shape with the same pitch along their entire length and are located in the channel of the heat-exchange pipes of the exhaust gases so that the top of one turbulator is at the level of the peak of the subsequent one, which allows you to slow down the movement of exhaust gases, increase intensity of heat transfer, and consequently reduce the heat exchanger area and the size of the boiler.

In FIG. 1 shows a gas heating apparatus with a water circuit (longitudinal section).

In FIG. 2 - channels for the passage of exhaust gases and coolant.

In FIG. 3 - arrangement of turbulators in the exhaust gas channel.

The heating gas apparatus with a water circuit contains a casing 1, a receiving device 2 of a heat exchanger 5, a furnace device 3, a smoke exhaust device 4, a gas supply valve 13. The housing of the heat exchanger 5 has a supply pipe 6 and a discharge pipe 7 of the heat carrier 10, tube sheets 8, 9, which installed heat exchange pipes 14 for the passage of exhaust gases and pipes 15 for the passage of coolant, have a rectangular shape in cross section and are welded alternately one after another to improve heat transfer.

In the channels of the heat exchanger pipes 14 for exhaust gases, turbulizers 11 are placed having a curved zigzag shape with the same pitch along their entire length and are located so that the top of one turbulator is at the level of the peak of the subsequent one, which allows to slow down the movement of exhaust gases, increase the heat transfer intensity, and therefore , reduce the area of the heat exchanger and the dimensions of the boiler.

The heating apparatus operates as follows. The coolant 10 enters the heat exchanger housing 5 through the inlet pipe 6, washes the heat exchange pipes 15 and exits through the pipe 7. The flow of combustion products enters from the combustion device 3 into the heat exchangers 14 for exhaust gases, passes through the turbulators 11, while the turbulators create a sinusoidal movement of the exhaust gases, thereby increasing the intensity of heat transfer during heating of the coolant 10. The exhaust gases 12 leave the heating device through a flue device 4.

The heater can be mounted on the wall of the house with the help of brackets 16.

Claims (1)

A gas-fired steel heating boiler containing a casing, a receiving device, a heat exchanger, a combustion device, and a smoke exhaust device, characterized in that the channels of the heat exchange pipes for the passage of exhaust gases and for the passage of the heat carrier are rectangular in cross section and are welded one after another to improve the process heat transfer, and turbulators have a curved zigzag shape with the same pitch along their entire length and are located in the channel of the heat-exchange pipes of the exhaust gases so that the top one turbulator is at the top of the next.

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