RU62172U1 - LIQUID HEATER BOILER (OPTIONS) - Google Patents

Abstract

The utility model relates to heat power equipment, in particular, to devices for heating diesel engines and internal combustion engines in preparation for operation at low temperatures, as well as for heating vehicle interiors. The liquid heater boiler is made in the form of a heat exchanger having an outer 1 and an inner 2 liquid shirts. The outer liquid jacket 1 is formed by the outer and inner wall of the housing, and the inner liquid jacket 2 is made in the form of a system of tubes evenly spaced in the annular gas channel 6, their axes are parallel to the axis of the boiler. The flame tube 3 has an open outlet end from the bottom of the boiler and forms an inner, direct gas channel, and its outer wall forms an annular gas channel 6 with an inner wall of the outer liquid jacket 1 with a 180 ° rotation of the flow. According to the first embodiment, the input of the heated fluid into the outer fluid jacket 1 and the inner fluid jacket 2 is carried out through the collector 4 with the input pipe 7 from the bottom of the boiler. The outlet of the heated liquid is carried out by means of the outlet pipe 9, located on the front of the boiler. In this case, the inner fluid jacket 2 communicates with the outer fluid jacket 1 by means of an annular manifold 8. With this variant of the boiler, the supply of heated fluid is possible both in the forward and in the opposite direction. In the second embodiment, the outer fluid jacket 1 communicates only with the inner fluid jacket 2 by means of an annular manifold 8. The inner fluid jacket 2 communicates with a manifold 4 on which an inlet pipe 11 is arranged through which a heated fluid is introduced. The output of the heated liquid is carried out by means of a branch pipe 10, located on the bottom of the boiler. At the entrance to the boiler, a burner device is mounted on the flange 12, which can operate on both gas and liquid fuel.

2 n.p.f.p.m., 2 z.p.f.p.m., 6 fig.

Description

The utility model relates to heat power equipment, in particular, to devices for heating diesel engines and internal combustion engines in preparation for operation at low temperatures, as well as for heating the salons of vehicles, including cars, helicopters and residential and industrial premises.

There are known boilers for liquid heaters (Nikolaev L.A., Stashkevich A.P., Zakharov I.A. Tractor diesel engine heating systems at start-up, M., "Mechanical Engineering", 1977, p. 42), in the form of various types of heat exchangers with an external liquid jacket.

Known liquid heaters of internal combustion engines in which the coolant is heated due to the heat of combustion of fuel, containing a boiler - heat exchanger, burner, water and fuel pump, fan and control unit (AS USSR No. 1035270, F 02 N 17 / 02, 1983, BI No. 30; patent No. 465800, F 02 N 17/04, 1973, BI No. 12, 75).

Known liquid heater for thermal preparation of the engine (Starting automobile engines. - M .: Transport, 1979, 38-54), containing a recuperative heat exchanger, burner, solenoid valve with nozzle and electric fuel heater, pump unit with electric motor, fan, liquid and fuel pumps, systems of electric spark ignition of the fuel mixture and remote control of the heater. The heater heat exchanger boiler has two cooling jackets, interconnected by windows for coolant passage and a gas duct with a 180 ° turn. The known design is characterized by low efficiency, since the coolant, entering the inner jacket through the windows, forms stagnation zones and boils, as a result of which heat transfer is worsened, local overheating zones are formed.

A well-known boiler of a liquid heater company Webasto, (brochure. Company ATW, official dealer, 123363, Moscow, Novoposelovskaya, 6, room 216, office 701), containing an external liquid jacket, a heat pipe with an open outlet end. However, in this design, the heater boiler has only one cooling jacket, therefore, it has significant dimensions to obtain the necessary heat transfer surface and thermal power.

Known boiler Noviter NST (advertising brochure Noviter OY Moscow representative office of JSC NOVITER, 121069, Moscow, B. Nikitinskaya St., 52-1), which has a traditional three-way, fire tube design, the advantages of which are simplicity of construction, long service life, reliability in work, ease of maintenance and repair. However, the described constructions have one common drawback, which is that the combustion products formed during the combustion of fuel come into direct contact with the cold walls of the heat exchanger boiler. This leads to incomplete burning of fuel, as well as the appearance of harmful substances such as soot, carbon monoxide and others near the walls of the heat exchanger boiler.

Known boiler liquid heater (RF patent No. 52944, IPC F 02 N 17/02 F 02 N 17/04 published 04/27/2006), closest to the claimed utility model and adopted for the prototype (options 1 and option 2), made in the form of a heat exchanger and comprising an external liquid jacket with a nozzle for introducing a heated liquid, a flame tube with an open outlet end from the side of its bottom, forming an annular gas channel with an outlet for combustion products, an outlet pipe for heated liquid, an outlet pipe for heated liquid, a device for I fasten the burner at the boiler inlet. The inner liquid jacket is made in the form of a spiral collector located between the flame tube and the outer jacket in the flow path of the combustion products, which significantly increases

heat transfer surface with the same dimensions of the boiler, and heat transfer is also significantly intensified due to the turbulization of combustion products. As a disadvantage of this boiler, it is worth noting the high hydraulic resistance of the liquid path due to the large length of the spiral collector and the small area of its passage section.

The technical result, the achievement of which the proposed utility model is aimed at, consists in a significant reduction in hydraulic resistance, and as a result, a decrease in the temperature difference of the coolant at the inlet and outlet of the boiler and a decrease in power consumption, as well as an increase in the efficiency and reliability of the boiler, due to the intensification of heat transfer.

The technical result (option 1) is achieved by the fact that in the boiler of the liquid heater, made in the form of a heat exchanger having an external liquid jacket, a heat pipe with an open outlet end from the side of its bottom, forming an annular gas channel with the inner wall of the external liquid jacket in which inner liquid jacket, outlet pipe for combustion products, inlet / outlet pipe on the bottom of the boiler, outlet / input pipe, on the front side, burner mounting flange, new i The fact that the inner liquid jacket is made in the form of tubes uniformly located in the annular gas channel around the flame tube, their axes are parallel to the boiler axis, the input / output pipe is communicated through a collector with the external and internal liquid jackets, and the output / input pipe is from the front parts communicated with the inner fluid jacket through the annular manifold.

The tubes of the inner liquid jacket are equipped with turbulators in the form of flat annular protrusions, the pitch between which is 5 ... 10 of their heights.

The technical result (option 2) is achieved by the fact that in the boiler of a liquid heater, made in the form of a heat exchanger having

an external liquid jacket, a heat pipe with an open outlet end from the bottom side, forming an annular gas channel with the inner wall of the external liquid jacket, in which the internal liquid jacket, the outlet pipe for combustion products, the inlet pipe from the bottom of the boiler, the outlet pipe, mounting flange burner device, new is that the inner liquid jacket is made in the form of tubes evenly spaced in the annular gas channel around the flame tube, their axes are parallel to the axis the boiler, the inlet pipe is communicated through the collector with the inner liquid jacket, the inner liquid jacket is communicated with the outer liquid jacket through the annular collector in the front of the boiler, and the outlet of the heated fluid is located on the bottom of the boiler.

The tubes of the inner liquid jacket are equipped with turbulators in the form of flat annular protrusions, the pitch between which is 5 ... 10 of their heights.

The essence of the utility model is illustrated in figure 1, figure 2 and figure 3.

Figure 1 - boiler liquid heater (option 1).

Figure 2 - boiler liquid heater top view (option 1).

Figure 3 - boiler liquid heater section AA.

Figure 4 - boiler liquid heater (option 2).

Figure 5 - boiler liquid heater top view (option 2).

6 - turbulators on the tubes of the inner liquid jacket.

Here: 1 - outer liquid shirt; 2 - inner liquid shirt; 3 - flame tube; 4 - collector; 5 - input / output pipe (option 1); 6 - annular gas channel; 7 - pipe outlet of the products of combustion from the annular gas channel 6; 8 - ring collector; 9 - pipe output / input (option 1); 10 - output pipe (option 2); 11 - input pipe (option 2); 12 - mounting flange of the burner device.

The liquid heater boiler is made in the form of a heat exchanger having an outer 1 and an inner 2 liquid shirts. The outer liquid jacket 1 is formed by the outer and inner wall of the housing, and the inner liquid jacket 2 is made in the form of tubes uniformly located in the annular gas channel around the flame tube, their axes are parallel to the axis of the boiler. The flame tube 3 has an open outlet end from the bottom of the boiler and forms an inner, direct gas channel, and its outer wall forms an annular gas channel 6 with an inner wall of the outer liquid jacket 1 with a 180 ° rotation of the flow. The annular gas channel 6 has a pipe outlet for the combustion products 7. The inner liquid jacket 2 in the form of a tube system is located in the annular channel 6.

According to the first embodiment, the input of the heated fluid into the outer fluid jacket 1 and the inner fluid jacket 2 is carried out through the inlet pipe 5 from the bottom of the boiler and the collector 4. The heated liquid is discharged through the outlet pipe 9 located on the front of the boiler. The inner fluid jacket 2 is in communication with the outer fluid jacket 1 by means of an annular manifold 8. With this embodiment of the boiler, the supply of heated fluid is possible in both forward and reverse directions. Then the liquid is supplied to the input pipe 9 from the front of the boiler, and is discharged through the output pipe 5 from the bottom of the boiler.

In the second embodiment, the outer fluid jacket 1 is in communication with the inner fluid jacket 2 via an annular manifold 8 from the front of the boiler. The inner liquid jacket 2 is in communication with the manifold 4, on which the inlet pipe 11 is located on the bottom side, through which the heated fluid is introduced. The output of the heated liquid from the outer liquid jacket 1 is carried out by means of a branch pipe 10, located on the bottom of the boiler.

At the entrance to the boiler, a burner device is mounted on the flange 12, which can operate on both gas and liquid fuel.

To increase heat transfer from the side of the combustion products, turbulators are used in the form of flat annular protrusions (Fig.6a) or wire (Fig.6b) wound in a spiral. Turbulators are set with a step l equal to 5 ... 10 of their heights h (l = (5 ... 10) h).

When the burner unit is activated and brought to a steady state, the combustion products enter the flame tube 3 located in the internal cavity of the boiler, rotate 180 ° and enter the annular gas channel 6 formed by the outer wall of the flame tube 3 and the inner wall of the outer liquid shirt 1, while heating the fluid flowing in the outer fluid jacket 1 and in the inner fluid jacket 2.

In the first embodiment, the heated fluid is supplied to the collector 4 through the input pipe 5, and enters the inner 2 and outer 1 fluid shirts at the same time. Then, from the inner liquid jacket 2, made in the form of a system of tubes evenly spaced in the annular gas channel 6, their axes are parallel to the axis of the boiler, the heated liquid enters the annular manifold 8, and from it into the outer liquid jacket 1, from which it is led out by the outlet pipe 9, located on the front of the boiler (direct fluid movement).

The heated liquid is supplied to the outer fluid jacket through the inlet pipe 9 from the front of the boiler, after which it passes through the annular manifold 8 into the inner fluid jacket 2, made in the form of a system of tubes evenly spaced in the annular gas channel 6, their axes are parallel to the axis of the boiler. The heated fluid is discharged from the outer 1 and inner 2 fluid jackets through the outlet pipe 5 from the bottom of the boiler through the manifold 4 (reverse fluid movement).

According to the second embodiment, the heated fluid is supplied to the collector 4 through the inlet pipe 11 and enters the internal fluid jacket 2, made in the form of a system of tubes evenly spaced in the annular gas channel 6, their axes are parallel to the axis of the boiler. From the inner liquid jacket 2, the heated liquid enters the outer liquid jacket 1 through the annular manifold 8, and is discharged through the outlet pipe 10 located on the side of the boiler bottom.

Thus, according to the first embodiment, the direction of the fluid flow in both liquid jackets coincides with the direction of motion of the combustion products in the annular gas channel 6. Or, in the reverse flow pattern of the heated fluid, the fluid flow direction in both liquid jackets is opposite to the direction of motion of the combustion products in the annular gas channel 6.

Thus, in the second embodiment, the direction of fluid movement in the inner liquid jacket, made in the form of a system of tubes, coincides with the direction of motion of the combustion products in the annular gas channel 6. And the direction of the liquid in the outer liquid jacket 1 is opposite to the movement of the combustion products in the annular gas channel 6 .

Heated liquid can be used to heat the interiors of vehicles, including cars, helicopters, residential and industrial premises, as well as for various technical needs. And the combustion products can be sent under the oil sump of the car.

The number of tubes that make up the inner fluid jacket is 8–16 tubes. The optimal number of tubes, determined experimentally, can significantly reduce the hydraulic resistance.

The design of the proposed boiler is compact, has a small hydraulic resistance of the liquid path, provides a high

heat transfer of combustion products, stable and economical operation of the unit, high reliability and heating efficiency.

Claims (4)

1. The boiler of the liquid heater, made in the form of a heat exchanger having an external liquid jacket, a heat pipe with an open outlet end from the side of its bottom, forming an annular gas channel with an internal wall of the external liquid jacket in which the internal liquid jacket is located, a pipe for the output of combustion products, input / output pipe from the bottom of the boiler, pipe output / input from the front side, the mounting flange of the burner device, characterized in that the inner liquid jacket is made in the form of tubes uniformly located in the annular gas channel around the flame tube, their axes are parallel to the axis of the boiler, the input / output pipe from the bottom is communicated through a collector with external and internal liquid jackets, and the output / input pipe from the front is communicated with the internal liquid shirt through the annular manifold. 2. The liquid heater boiler according to claim 1, characterized in that the tubes of the internal liquid jacket are equipped with turbulators in the form of flat annular protrusions, the pitch between which is 5 ... 10 of their heights. 3. The boiler of the liquid heater, made in the form of a heat exchanger having an external liquid jacket, a heat pipe with an open outlet end from the side of its bottom, forming an annular gas channel with an internal wall of the external liquid jacket in which the internal liquid jacket is located, a pipe for the output of combustion products, the input pipe from the bottom of the boiler, the pipe output, the mounting flange of the burner device, characterized in that the inner liquid jacket is made in the form of tubes, is uniformly located in the annular gas channel around the flame tube, their axes are parallel to the axis of the boiler, the inlet pipe from the bottom of the boiler is communicated through a collector with an internal liquid jacket, the internal liquid jacket is in communication with the external liquid jacket through the ring manifold in front of the boiler, and the outlet for heated liquid located on the bottom of the boiler. 4. The liquid heater boiler according to claim 3, characterized in that the tubes of the internal liquid jacket are equipped with turbulators in the form of flat annular protrusions, the step between which is 5 ... 10 of their heights.