RU17723U1 - ENERGY PRODUCTION TECHNOLOGY LINE - Google Patents

Abstract

1. The energy production line, including interconnected and mounted on the base of the housing with a suction, exhaust pipe and valves, a power source, a drive with a gearbox, drive shaft and a switching element, characterized in that the energy production line is equipped with a coaxially located drive shaft a device for preparing air for combustion, which is made in the form of an external stationary and internal rotating cups, which are mounted relative to each other with lower and lateral working gaps, while the lower gap and the casing are connected to the suction pipe, and the valves are located on the casing in its upper part opposite the exit of the lateral gap. 2. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with profile side walls. 3. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with profile side walls. 4. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with the profile walls of the lower gap. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with protrusions and depressions located respectively on the side walls of the glasses. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with protrusions and depressions located

Description

The useful model relates to the engineering industry and, in particular, to the creation of technological lines for energy production.

Known technological line for energy production, including interconnected and mounted on the base of the housing with suction; her, exhaust pipe and valves, power source, drive with gearbox, drive shaft and switching element / cm. Polytechnical Dictionary, M., S.E., 1989, p. 625./.

Also known is a technological line for energy production, including interconnected and mounted on

base housing with suction; her, exhaust pipe and vent and and,

power supply, drive with gear, leads; with its shaft and switching element / cm. Polytechnical Dictionary, M., S.E., 1989, p. 625./.

€ 0.I6

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The disadvantages of the known technological lines of energy production is the relatively low efficiency and high fuel consumption.

The purpose of the utility model is to increase the efficiency and reduce fuel consumption.

This is achieved by the fact that the energy production line is equipped with a coaxially disposed drive shaft, a device for preparing air for combustion, which is made in the form of external fixed and internal racks fixed on the inner plane of the side of the housing; ayush; glasses that are mounted relative to each other with the lower and lateral working gaps, while the lower gap and the casing are connected to the suction; pipe to it, and the valves are located on the casing in its upper part opposite the lateral gap exit pa.

It is advisable that the outer and inner glasses of the device for preparing the air for combustion were made with profile side walls.

It is advisable that the outer and inner cups of the device for preparing the air for combustion were made with the profile walls of the lower gap.

It is advisable that the outer and inner glasses of the device for preparing the air for combustion were made with protrusions and depressions located respectively on the side walls of the glasses.

It is advisable that the outer and inner glasses of the device for preparing the air for combustion were made with protrusions and depressions located concentrically on the walls of the lower gap.

It is advisable that the outer and inner glasses of the device for preparing the air for combustion were made of heat-resistant materials.

It is advisable that the outer and inner glasses of the device for preparing the air for combustion were made of heat-resistant metals.

It is advisable that the outer and inner cups of the device for preparing the air for combustion be made of metals with heat-resistant coatings.

It is advisable that the outer and inner glasses of the device for preparing the air for combustion were made with a height of the side walls equal to half the height of the walls of the housing.

It is advisable that the outer and inner glasses of the device for preparing the air for combustion were made with

the height of the side walls equal to more than half the height of the walls of the housing.

It is advisable that the outer and inner glasses of the device for preparing the air for combustion were made with a diameter less than the diameter of the housing.

It is advisable that the outer and inner glasses of the device for preparing the air for combustion were made with a diameter of more than half the diameter of the housing.

It is useful for the suction pipe to be made with an air starting heater assembly.

Energy production line,

characterized by the following: they are signs of a utility model, namely, a sign of the presence of a structural element, since the energy production line is equipped with a coaxially located lead-in; its shaft has the adaptation of air preparation for combustion,

a sign of the relationship between the elements, since the adaptation of the air preparation for combustion is made in the form of an external fixed and internal rotating cups fixed on the inner plane of the side of the housing

a sign of the relative position of the elements, since the glasses are mounted relative to each other with lower and side working gaps,

a sign of the shape of the element, since the lower gap and the housing are connected to the suction pipe

a sign of the form of communication between the elements, since the valves are located on the housing in its upper part opposite the exit of the lateral gap.

a sign of parameters, since the outer and inner glasses of the device for preparing the air for combustion are made with a diameter less than the diameter of the housing

a sign of the material from which the element is made, since the outer and inner cups of the device for preparing the air for combustion are made of metals with heat-resistant coatings.

In FIG. 1 shows a diagram of a power production line.

The technological line of energy production includes interconnected and mounted on the basis of 1 body 2 with a suction 3, exhaust 4 pipe and valves 5, a power supply 6, a drive 7 with a gearbox 8, a drive shaft 8 and a switching element 9, while the production line

energy production is equipped with a coaxially located drive shaft 10 device for preparing air for combustion 11, which is made in the form of fixed on the inner plane 12 of the side 13 of the housing 2 of the outer 14 stationary and internal 15 rotating cups, which are mounted relative to each other with the lower 16 and side 17 working gaps, while the lower gap 16 and the housing 2 are connected to the suction pipe 3, and the valves 5 are located on the housing 2 in the upper 18 part opposite the outlet 19 of the lateral 17 gap, with the outer 14 and morning 15 glasses, devices for preparing the air for combustion 11 are made with profile side walls 20, and / or with profile walls of the lower gap, and / or are made with protrusions and depressions located respectively on the side walls 20 of the glasses, and / or are made with protrusions and depressions located concentrically on the walls 21 of the lower gap, the outer and inner glasses of the device for preparing the air for combustion 11 are made of heat-resistant materials, or of heat-resistant metals, or of metals with heat-resistant coatings and, or are made with a height of the side walls equal to half the height of the walls of the housing, or are made with a height of side walls equal to more than half the height of the walls of the housing, or are made with

with a diameter smaller than the diameter of the body, or made with a diameter of more than half the diameter of the body., while the air preparation for combustion is mounted coaxially to the actuator, and the valves 5 of the exhaust pipe 4 and the return pipe 22 are mounted coaxially or mounted vertically offset, and the exhaust pipe 4 and the return pipe 22 are mounted in the upper part of the body 2, or opposite the upper part of the side gaps 17, or mounted coaxially to the side gaps 17, or mounted above the body 2 in front of the side gaps 17, and the suction pipe is made on with a knot of starting air heating.

The work of the technological line for energy production is as follows.

When the production line starts, the valve 5 of the return pipe 22 is opened, the remaining valves 5 located on the suction 3 and exhaust 4 pipes are closed, and then the actuator is switched on using the switching element 9, while the air inside the case 2 exits through the valve 5 of the return pipe 22 and through it enters into the gaps between the outer 14 and inner 15 glasses, where air is prepared for combustion, namely, heavy air elements are discarded to the periphery of the glasses, and light air elements - hydrogen and carbon dioxide are located agayutsya closer to the center of the cup, with

-7-. (

Multiple air runs lead not only to gas stratification, but to heating due to friction mainly in the lateral gap, but the entire air stream is divided into microvortices along the circumference between the side walls of the glasses and when the temperature of nitrogen reaches the ignition temperature and its combustion begins oxygen valve 5 of the return pipe 22 is partially closed and both valves 5 are opened on the suction pipes 3 and exhaust 4, and the switching element 9 is turned off and the cycle is restarted after the required stops.

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Claims (25)

1. The energy production line, including interconnected and mounted on the base of the housing with a suction, exhaust pipe and valves, a power source, a drive with a gearbox, drive shaft and a switching element, characterized in that the energy production line is equipped with a coaxially located drive shaft a device for preparing air for combustion, which is made in the form of an external stationary and internal rotating cups, which are mounted relative to each other with lower and lateral working gaps, while the lower gap and the housing are connected to the suction pipe, and the valves are located on the housing in its upper part opposite the exit of the lateral gap.  2. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with profile side walls.  3. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with profile side walls.  4. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with the profile walls of the lower gap.  5. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with protrusions and depressions located respectively on the side walls of the glasses.  6. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with protrusions and depressions located concentrically on the walls of the lower gap.  7. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made of heat-resistant materials.  8. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made of heat-resistant metals.  9. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made of metals with heat-resistant coatings.  10. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with a height of the side walls equal to half the height of the walls of the housing.  11. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with a height of the side walls equal to more than half the height of the walls of the housing.  12. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with a diameter less than the diameter of the housing.  13. The line according to claim 1, characterized in that the outer and inner glasses of the device for preparing the air for combustion are made with a diameter of more than half the diameter of the housing.  14. The line according to claim 1, characterized in that the device for preparing the air for combustion is mounted coaxially to the drive.  15. The line according to claim 1, characterized in that the valves of the exhaust pipe and the return pipe are mounted coaxially.  16. The line according to claim 1, characterized in that the valves of the exhaust pipe and the return pipe are mounted with a vertical offset.  17. The line according to claim 1, characterized in that the exhaust pipe and the return pipe are mounted in the upper part of the housing.  18. The line according to claim 1, characterized in that the exhaust pipe and the return pipe are mounted opposite the upper part of the side gaps.  19. The line according to claim 1, characterized in that the exhaust pipe and the return pipe are mounted coaxially with the side gaps.  20. The line according to claim 1, characterized in that the exhaust pipe and the return pipe are mounted above the housing opposite the side gaps.  21. The line according to claim 1, characterized in that the suction pipe is made with a unit for starting air heating.  22. The line under item 1, characterized in that the base of the glasses are made curved.  23. The line according to claim 1, characterized in that the rotating glass is made flat.  24. The line according to claim 1, characterized in that the fixed glass is made curved, and the rotating is flat. 25. Line according to claim 1, characterized in that the engine is mounted inside the housing.