CN110138278B - Device for generating electricity by using industrial boiler wastewater - Google Patents

Abstract

The invention discloses a device for generating power by using industrial boiler wastewater, which comprises a rectangular box body I, the first rectangular box body is internally provided with a temperature difference power generation device which is composed of a cold water inlet, an insulating pipe and a gravity power generation device, wherein the cold water inlet is positioned on one side of the upper surface of the first rectangular box body and is fixedly connected with the first rectangular box body, the insulating pipe is positioned on the annular side surface of the power generation chip and is sleeved and connected with the power generation chip, the gravity power generation device is positioned below the first rectangular box body, a controller is arranged on the surface of one side of the rectangular box body, the controller is electrically connected with the first electromagnetic switch, the second electromagnetic switch, the power generation chip, the first suction pump and the first electromagnetic valve, the gravity power generation device is composed of a rectangular box body II and a water outlet pipe, wherein the rectangular box body II is located at the lower end of the hot water outlet and fixedly connected with the hot water outlet, the water outlet pipe is located at the lower end of the semicircular pipe, one end of the water outlet pipe is fixedly connected with the semicircular pipe, the other end of the water outlet pipe is fixedly connected with the oval opening, and the controller is electrically connected with the generator. The invention has the advantages of simple structure and strong practicability.

Description

Device for generating electricity by using industrial boiler wastewater

Technical Field

The invention relates to the field related to industrial boiler wastewater treatment, in particular to a device for generating power by using industrial boiler wastewater.

Background

At present, the industrial boiler waste water treatment related equipment is a plurality of equipment, but basically, the equipment is water filtration and water purification equipment consuming electric energy. Boiler wastewater is high-temperature liquid, and most energy is lost when the boiler wastewater is directly treated and discharged, so that the direction of sustainable development is violated.

Disclosure of Invention

The invention aims to solve the problems and designs a device for generating power by using industrial boiler wastewater.

The technical scheme of the invention is that the thermoelectric power generation device comprises a rectangular box body I, wherein a thermoelectric power generation device is arranged in the rectangular box body I, and the thermoelectric power generation device consists of a cold water inlet, a cold water inlet pipe, a suction pump I, a cold water outlet pipe, a solenoid valve I, a hot water inlet, a hot water outlet, a thermoelectric power generation device and a control device, wherein the cold water inlet is positioned on one side of the upper surface of the rectangular box body I and fixedly connected with the rectangular box body I, the cold water inlet is positioned on the inner surface of the cold water inlet and fixedly connected with the cold water inlet, the cold water outlet is positioned on the inner surface of the cold water outlet and fixedly connected with the cold water outlet, the solenoid valve I is positioned on one end of the cold water outlet pipe, the hot water inlet is fixedly connected with, A vertical clapboard which is positioned on the opposite side surface of the rectangular box body and is uniformly distributed and fixedly connected with the rectangular box body I in the vertical direction, a water inlet heat pipe which is positioned on the inner surface of the hot water inlet and is inserted and connected with the hot water inlet in the horizontal direction, a flange piece I which is positioned at one end of the water inlet heat pipe and is fixedly connected with the water inlet heat pipe, a shunt pipe I which is positioned at the other end of the water inlet heat pipe and is inserted and connected with the water inlet heat pipe, a thermoelectric generation assembly piece which is positioned on the side surface of the shunt pipe and is uniformly distributed and is fixedly connected with the shunt pipe I, an electromagnetic switch I which is positioned at the center of the upper end of the thermoelectric generation assembly piece and is fixedly connected with the thermoelectric generation assembly piece, an electromagnetic switch II which is positioned at the center of the lower end of the thermoelectric generation assembly piece and is fixedly connected with the thermoelectric generation assembly piece, a flow combining pipe I which is positioned on the side, The water outlet heat pipe comprises a water outlet heat pipe, a flange plate II, a power generation chip, an insulation pipe and a gravity power generation device, wherein the flange plate II is positioned at the other end of the water outlet heat pipe and fixedly connected with the water outlet heat pipe, the power generation chip is positioned on the annular side surface of the power generation assembly piece and is uniformly distributed and wound with the power generation assembly piece, the insulation pipe is positioned on the annular side surface of the power generation chip and is connected with the power generation chip in a sleeved mode, the gravity power generation device is positioned below a rectangular box body I, a controller is arranged on the.

The gravity generating set comprises a rectangular box body II which is positioned at the lower end of the hot water outlet and is fixedly connected with the hot water outlet, a connecting pipe I which is positioned on the upper surface of the rectangular box body II and corresponds to the hot water outlet and is fixedly connected with the rectangular box body II, a semicircular pipe which is positioned at the other end of the connecting pipe I and is fixedly connected with the connecting pipe I, and an annular opening which is positioned on the annular side surface in the semicircular pipe and is fixedly connected with the semicircular pipe, the generator is located at the center of the semicircular pipe and fixedly connected with the rectangular box body II, the rotating blade is located at the rotating end of the generator, the center of the rotating blade is inserted into the outer ring of the generator fixedly connected with the outer ring of the generator, the oval opening is located at the center of the lower surface of the rectangular box body II and fixedly connected with the rectangular box body II, and the water outlet pipe is located at the lower end of the semicircular pipe, one end of the water outlet pipe is fixedly connected with the semicircular pipe, the other end of the water outlet pipe is fixedly connected with the.

The front surface of the controller is provided with a display screen.

And a repeater is arranged on one side of the controller, and the controller is electrically connected with the repeater.

The front surface of the controller is provided with a control button.

A plc control system is arranged in the controller.

And a mains supply interface is arranged on the lower surface of the controller.

The thermoelectric generation group piece is provided with a plurality of groups.

And a water outlet is formed at the lower end of the rectangular box body II.

And a base is arranged on the lower surface of the rectangular box body II.

The device for generating power by using the industrial boiler wastewater manufactured by the technical scheme of the invention utilizes the wastewater resource to generate power to the maximum extent.

Drawings

FIG. 1 is a schematic structural view of an apparatus for generating electricity using industrial boiler wastewater according to the present invention;

FIG. 2 is a schematic view of a thermoelectric generation device according to the present invention;

FIG. 3 is a schematic view of a gravity power plant according to the present invention;

FIG. 4 is a schematic top view of the thermoelectric generation device of the present invention;

FIG. 5 is a schematic view of the controller of the present invention;

in the figure, 1, a first rectangular box body; 2. a cold water inlet; 3. a cold water inlet pipe; 4. a first suction pump; 5. a cold water outlet; 6. a cold water outlet pipe; 7. a first electromagnetic valve; 8. a hot water inlet; 9. a hot water outlet; 10. a vertical partition; 11. a water inlet heat pipe; 12. a first flange sheet; 13. a first shunt pipe; 14. a thermoelectric generation assembly sheet; 15. a first electromagnetic switch; 16. a second electromagnetic switch; 17. a confluence pipe I; 18. a water outlet heat pipe; 19. a second flange sheet; 20. a power generation chip; 21. an insulating tube; 22. a controller; 23. a rectangular box body II; 24. a first connecting pipe; 25. a semicircular tube; 26. an annular opening; 27. a generator; 28. a rotating blade; 29. an elliptical opening; 30. a water outlet pipe; 31. a display screen; 32. a repeater; 33. a control button; 34. a mains supply interface; 35. a water outlet; 36. a base; 37. plc controls the system.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, as shown in fig. 1-5, including a rectangular box 1, a thermoelectric power generation device is arranged in the rectangular box 1, the thermoelectric power generation device is composed of a cold water inlet 2 fixedly connected with the rectangular box 1 at one side of the upper surface of the rectangular box 1, a cold water inlet pipe 3 inserted into the cold water inlet 2 and connected with the cold water inlet 2 at the inner surface of the cold water inlet 2, a suction pump 4 fixedly connected with the cold water inlet pipe 3 at one end of the cold water inlet pipe 3, a cold water outlet 5 fixedly connected with the rectangular box 1 at one side of the lower surface of the rectangular box 1, a cold water outlet pipe 6 inserted into the cold water outlet 5 at the inner surface of the cold water outlet 5, a solenoid valve 7 fixedly connected with the cold water outlet pipe 6 at one end of the cold water outlet pipe 6, a hot water inlet 8 fixedly connected with the rectangular box, A hot water outlet 9 which is positioned at the lower end of the other side surface of the rectangular box body I1 and is fixedly connected with the rectangular box body I1, a vertical clapboard 10 which is positioned at the opposite side surface of the rectangular box body I1 and is uniformly distributed and fixedly connected with the rectangular box body I1 in the vertical direction, a water inlet heat pipe 11 which is positioned at the inner surface of the hot water inlet 8 and is inserted and connected with the hot water inlet 8 in the horizontal direction, a flange piece I12 which is positioned at one end of the water inlet heat pipe 11 and is fixedly connected with the water inlet heat pipe 11, a shunt pipe I13 which is positioned at the other end of the water inlet heat pipe 11 and is inserted and connected with the water inlet heat pipe 11, a thermoelectric generation assembly piece 14 which is positioned at the side surface of the shunt pipe I13 and is uniformly distributed and fixedly connected with the shunt pipe I13, a first electromagnetic switch 15 which is positioned at the center of the upper end of the thermoelectric generation, The device comprises a first flow combining pipe 17, a second water outlet heat pipe 18, a second flange piece 19, a power generation chip 20, an insulating pipe 21 and a gravity power generation device, wherein the first flow combining pipe 17 is positioned at the other end of the temperature difference power generation assembly piece 14 and is in plug-in connection with the temperature difference power generation assembly piece, the second water outlet heat pipe 18 is positioned on the side surface of the first flow combining pipe 17, one end of the second water outlet heat pipe is in plug-in connection with the first flow combining pipe 17, the other end of the second water outlet heat pipe 18 is in plug-in connection with the hot water outlet 9, the second flange piece 19 is positioned at the other end of the second water outlet heat pipe 18 and is fixedly connected with the second water outlet heat pipe 18, the power generation chip 20 is positioned on the annular side surface of the power generation assembly piece and is uniformly distributed and wound and connected with the power; the gravity generating device is composed of a rectangular box body II 23 which is positioned at the lower end of a hot water outlet 9 and fixedly connected with the hot water outlet 9, a connecting pipe I24 which is positioned at the corresponding position of the upper surface of the rectangular box body II 23 and the hot water outlet 9 and fixedly connected with the rectangular box body II 23, a semi-circular pipe 25 which is positioned at the other end of the connecting pipe I24 and fixedly connected with the connecting pipe I24, an annular opening 26 which is positioned at the inner annular side surface of the semi-circular pipe 25 and fixedly connected with the semi-circular pipe 25, a generator 27 which is positioned at the center of the semi-circular pipe 25 and fixedly connected with the rectangular box body II 23, a rotating blade 28 which is positioned at the rotating end of the generator 27 and is fixedly connected with the outer ring of the generator 27 at the center and inserted into the annular opening 26, an oval opening 29 which is positioned at the center of the lower surface of the rectangular box body II 23, the controller 22 is electrically connected with the generator 27; the front surface of the controller 22 is provided with a display screen 31; a repeater 32 is arranged on one side of the controller 22, and the controller 22 is electrically connected with the repeater; the front surface of the controller 22 is provided with a control button 33; a plc control system 37 is arranged in the controller 22; the lower surface of the controller 22 is provided with a mains supply interface 34; the thermoelectric generation group pieces 14 are provided with a plurality of groups; the lower end of the rectangular box body II 23 is provided with a water outlet 35; the lower surface of the rectangular box body II 23 is provided with a base 36.

The temperature difference power generation device is characterized in that a temperature difference power generation device is arranged in a first rectangular box body, and the temperature difference power generation device consists of a cold water inlet, a cold water inlet pipe, a first suction pump, a cold water outlet, a first electromagnetic valve, a hot water inlet, a hot water outlet, a vertical partition plate, a second partition plate and a third partition plate, wherein the cold water inlet is positioned on one side of the upper surface of the first rectangular box body and fixedly connected with the first rectangular box body, the cold water inlet is positioned on one side of the lower surface of the first rectangular box body and fixedly connected with the first rectangular box body, the cold water inlet is positioned on the inner surface of the cold water outlet and fixedly connected with the cold water inlet in a plug-in manner, the first suction pump is positioned at one end of the cold water inlet pipe and fixedly connected with the cold water inlet pipe, the cold water outlet is positioned on the inner surface of the lower surface of the first rectangular box, A water inlet heat pipe which is positioned on the inner surface of the hot water inlet and is connected with the hot water inlet in a plug-in manner in the horizontal direction, a first flange plate which is positioned at one end of the water inlet heat pipe and is fixedly connected with the water inlet heat pipe, a first shunt pipe which is positioned at the other end of the water inlet heat pipe and is connected with the water inlet heat pipe in a plug-in manner, a first thermoelectric generation assembly plate which is positioned on the surface of one side of the shunt pipe and is uniformly distributed and is fixedly connected with the first shunt pipe, a first electromagnetic switch which is positioned at the center of the upper end of the first thermoelectric generation assembly plate and is fixedly connected with the first thermoelectric generation assembly plate, a second electromagnetic switch which is positioned at the center of the lower end of the second thermoelectric generation assembly plate and is fixedly connected with the second thermoelectric generation assembly plate, a first flow combining pipe which is positioned at the other end of the thermoelectric generation assembly plate and is connected, The power generation device comprises a power generation chip, an insulation pipe and a gravity power generation device, wherein the power generation chip is positioned on the annular side surface of the power generation assembly piece and is uniformly distributed and connected with the power generation assembly piece in a winding mode, the insulation pipe is positioned on the annular side surface of the power generation chip and is connected with the power generation chip in a sleeved mode, the gravity power generation device is positioned below a rectangular box body, a controller is arranged on the surface of one side of the rectangular box body, and the controller is electrically connected with a first electromagnetic switch, a second. The gravity power generation device comprises a rectangular box body II, a connecting pipe I, a semicircular pipe, an annular opening, a power generator, a rotary blade, an oval opening and a water outlet pipe, wherein the rectangular box body II is fixedly connected with the lower end of a hot water outlet, the connecting pipe I is fixedly connected with the upper surface of the rectangular box body II and corresponds to the hot water outlet, the annular opening is fixedly connected with the annular side surface of the semicircular pipe and the semicircular pipe, the power generator is fixedly connected with the rectangular box body II at the center of the semicircular pipe, the rotary blade is inserted into the annular opening at the center of the rotary end of the power generator and at the outer ring of the fixed connection of the center of the rotary end of the power generator and the power generator, the oval opening is fixedly connected with the rectangular box body II at the center of the lower surface of the rectangular box body, the water outlet pipe is.

In this embodiment, the utility power interface on the controller is connected with the power supply, then the hot pipe of intaking and the waste water fixed connection of boiler exhaust, because of the reason that needs the difference in temperature, cold water advances pipe and running water fixed connection, after having installed equipment, the controller control suction pump begins work, makes cold water enter into rectangle box one, and cold water can flow according to the direction of vertical baffle and make rectangle box one fill with cold water, and cold water can reach in the rectangle box two through the cold water exit tube at last. Meanwhile, high-temperature wastewater can be distributed in the whole thermoelectric generation assembly through the water inlet heat pipe, the first flow dividing pipe, the first thermoelectric generation assembly and the first flow combining pipe, and temperature difference exists between the inner side and the outer side of the power generation chip positioned on the outer surface of the thermoelectric generation assembly, so that the power generation purpose is achieved, and the sent electric quantity can be distributed through the controller and the repeater. The controller controls the first electromagnetic switch, the second electromagnetic switch and the first suction pump to carry out microscopic regulation. When cold water enters the rectangular box body II, the cold water can flow to the outside through the connecting pipe I, the semicircular pipe and the water outlet pipe, when the cold water enters the semicircular pipe, the rotating blades are pushed by the aid of gravity, the rotating blades directly drive the generator to start power generation, and accordingly the purpose of power generation is achieved.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (1)

1. The utility model provides an utilize industrial boiler waste water to carry out device that generates electricity, includes rectangle box (1), its characterized in that, be equipped with thermoelectric generation device in rectangle box (1), thermoelectric generation device is by cold water import (2) that is located rectangle box (1) upper surface one side and rectangle box (1) fixed connection, cold water that is located cold water import (2) internal surface and is connected with cold water import (2) cartridge advances pipe (3), is located cold water and advances pipe (3) one end and cold water and advance pipe (3) fixed connection's suction pump (4), is located rectangle box (1) lower surface one side and rectangle box (1) fixed connection's cold water export (5), is located cold water exit tube (6) that cold water export (5) internal surface and cold water export (5) cartridge are connected, is located cold water exit tube (6) one end and cold water exit tube (6) fixed connection's solenoid valve (7), The water inlet is positioned at the upper end of the side surface of the first rectangular box body (1) and fixedly connected with the first rectangular box body (1), the hot water outlet (9) is positioned at the lower end of the side surface of the first rectangular box body (1) and fixedly connected with the first rectangular box body (1), a vertical partition plate (10) is positioned on the opposite side surface of the first rectangular box body (1) and uniformly distributed in the vertical direction and fixedly connected with the first rectangular box body (1), a water inlet heat pipe (11) is positioned on the inner surface of the hot water inlet (8) and horizontally connected with the hot water inlet (8) in an inserting manner, a first flange plate (12) is positioned at one end of the water inlet heat pipe (11) and fixedly connected with the water inlet heat pipe (11), a first shunt pipe (13) is positioned at the other end of the water inlet heat pipe (11) and connected with the water inlet heat pipe (11) in an inserting manner, and a thermoelectric generation group plate (14, The thermoelectric power generation device comprises a first electromagnetic switch (15) which is positioned at the center of the upper end of a thermoelectric power generation assembly sheet (14) and fixedly connected with the thermoelectric power generation assembly sheet (14), a second electromagnetic switch (16) which is positioned at the center of the lower end of the thermoelectric power generation assembly sheet (14) and fixedly connected with the thermoelectric power generation assembly sheet (14), a first flow combining pipe (17) which is positioned at the other end of the thermoelectric power generation assembly sheet (14) and is in plug-in connection with the thermoelectric power generation assembly sheet (14), a second water outlet heat pipe (18) which is positioned on the side surface of the first flow combining pipe (17), one end of the second water outlet heat pipe is in plug-in connection with the first flow combining pipe (17), the other end of the second water outlet heat pipe (18) is in plug-in connection with the second water outlet heat pipe (18), power generation chips (20) which are positioned on the annular side surface of the power generation assembly sheet and are uniformly distributed and wound and connected with the power generation assembly sheet, an insulating pipe (21) which is The side surface of the first rectangular box body (1) is provided with a controller (22), and the controller (22) is electrically connected with the first electromagnetic switch (15), the second electromagnetic switch (16), the power generation chip (20), the first suction pump (4) and the first electromagnetic valve (7);

the gravity power generation device comprises a rectangular box body II (23) which is positioned at the lower end of a hot water outlet (9) and fixedly connected with the hot water outlet (9), a connecting pipe I (24) which is positioned at the corresponding position of the upper surface of the rectangular box body II (23) and the hot water outlet (9) and fixedly connected with the rectangular box body II (23), a semicircular pipe (25) which is positioned at the other end of the connecting pipe I (24) and fixedly connected with the connecting pipe I (24), an annular opening (26) which is positioned at the inner annular side surface of the semicircular pipe (25) and fixedly connected with the semicircular pipe (25), a power generator (27) which is positioned at the center of the semicircular pipe (25) and fixedly connected with the rectangular box body II (23) and a rotating blade (28) which is positioned at the rotating end and the center of the power generator (27) and is inserted into the annular opening (26) at the outer ring of the fixedly connected with the power generator (27), an oval opening (29) which is positioned at the center of the lower surface The other end of the semicircular pipe (25) is fixedly connected with a water outlet pipe (30) fixedly connected with the oval opening (29), and the controller (22) is electrically connected with the generator (27);

a display screen (31) is arranged on the front surface of the controller (22);

a repeater (32) is arranged on one side of the controller (22), and the controller (22) is electrically connected with the repeater;

the front surface of the controller (22) is provided with a control button (33);

a plc control system (37) is arranged in the controller (22);

the lower surface of the controller (22) is provided with a mains supply interface (34);

the thermoelectric generation group pieces (14) are provided with a plurality of groups;

a water outlet (35) is formed in the lower end of the rectangular box body II (23);

and a base (36) is arranged on the lower surface of the rectangular box body II (23).

Images