KR101315404B1 - Apparatus for power generation using exhaust gas - Google Patents

Abstract

PURPOSE: A power generation device using exhaust gas is provided to use waste energy as a power source by rotating a rotary body with the exhaust gas to generate power. CONSTITUTION: A power generation device using exhaust gas comprises a case (100) and a rotary body (200). The rotary body is rotated by the injected pressure of the exhaust gas introduced into the case and is coupled to the case. In the rotary body, multiple discs having through-holes are coupled to each other at predetermined intervals to form air paths. The rotary body comprises a rotary plate with multiple uneven grooves; and partition plates arranged in one side or both sides of the rotary plate. The exhaust gas is exhausted to the outside through the air paths and the through-holes after rotating the rotary body to generate power.

Description

Apparatus for power generation using exhaust gas}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generator using exhaust gas discharged from an automobile and the like, and more particularly, to a power generator in which power is easily discharged after generating power using exhaust gas.

In general, the exhaust gas refers to a gas discharged to the outside from an exhaust pipe such as a car, and includes water, carbon dioxide, excess air, unburned hydrocarbons, carbon monoxide, nitrogen oxides, and the like produced by combustion of fuel. Accordingly, in recent years, various reduction technologies have been developed to reduce the amount of exhaust gas containing harmful substances.

However, in the case of a power unit using gasoline, diesel, or the like as fuel, it is impossible to completely prevent exhaust gas from being generated. In addition, the exhaust gas is discharged to the outside at a high pressure through the exhaust pipe, a technology for generating power using such exhaust gas has been developed, which is Republic of Korea Patent Publication No. 10-0934174 (hereinafter referred to as 'quoting invention' Is proposed.

The cited invention includes a case 10 having an inlet hole 11 through which exhaust gas flows in and an outlet hole 12 through which the exhaust gas flows out, as shown in FIG. 1; A turbine 20 rotatably installed in the case 10 and rotated by the pressure of the exhaust gas flowing into the inlet 11; A generator 30 having a rotating shaft 31 coupled to the shaft portion 21 of the turbine 20 passing through the front side of the case 10 and the generator 30 is fixed to the case 10. It consists of a fixing bracket 40 to make.

In addition, as shown in FIGS. 1 and 2, the turbine 20 has a shaft portion 21 rotatably coupled to a bearing installed in front and rear of the case 10, and is coupled to the shaft portion 21. It includes a wing assembly 22 is rotated by the pressure of the exhaust gas flowing into the inlet hole 11, the wing assembly 22 is formed with a plurality of latch wings (23a) facing the inlet hole (11) It includes a plurality of wing disks (23).

In addition, the wing assembly 22 is partitioned by the partition disk 24 ′ on the front side after the plurality of wing disks 23 are stacked in the inlet hole 11 direction, and on the outlet hole 12 side. A plurality of wing disks 23 are stacked and partitioned into a rear partition disk 24 ", and a plurality of wing disks 23 stacked between the front partition disk 24 'and the rear partition disk 24". The partition disk has a structure in which a plurality of partition disks, the latch blade 23a is arranged in a spiral in the wing disk 23 is stacked, the partition disks 24, 24 '(24) Holes 24a and 24b formed at " " are also arranged to form a spiral between the latch blades 23a.

The cited invention as described above can be achieved by generating electricity through the generator 30 after generating power by rotating the turbine 20 by using the exhaust gas exiting the high pressure installed in the automobile exhaust pipe.

However, the wing assembly 22 that rotates in the case 10 has a structure in which a plurality of wing disks 23 and partition disks 24, 24 ', 24 "are closely stacked without any gap. The exhaust gas, which enters the case 10 through the inlet hole 11, rotates around the wing assembly 22, and when the amount of the exhaust gas in the case 10 increases, the pressure increases. You will exit through (12).

In this case, exhaust of the exhaust gas rotated by the wing assembly 22 is not smooth, and the pressure in the case 10 is significantly increased, and there is a risk of explosion. In addition, when the exhaust gas flowing into the case 10 and the heat generated by the rotation of the wing assembly 22 are added, and the case 10 is not provided with a separate cooling device, the case 10 may be melted.

The present invention is to solve the above problems, it is possible to utilize the energy discarded by generating power by using the exhaust gas, as well as the exhaust gas to ensure the safety by easy discharge of the generated exhaust gas power The purpose is to provide a power generator using.

Power generation apparatus using the exhaust gas of the present invention for achieving the above object in the case in which the exhaust gas is sucked / discharge, the inside of the case includes a rotating body that rotates by the injection pressure of the sucked exhaust gas, The rotating body is axially coupled to the case, and a plurality of discs having through holes formed at a central portion thereof are combined at predetermined intervals to form an air flow path. Rotation is generated after the power is characterized in that the discharge through the air passage and through hole.

According to the present invention, by rotating the rotating body using the exhaust gas to generate power, it is possible to use the energy to be discharged to the outside can be used as another power source. In addition, the rotor is formed of a plurality of discs are coupled at a predetermined interval to form an air flow path, the through-hole is formed in the central portion of the rotor, the exhaust gas that generates power in the case for a long time Since it is easily discharged to the outside through the air flow path and the through-hole without staying, it is possible to prevent explosion or damage due to heat or pressure.

1 is a perspective view showing the structure of a power generation apparatus using a conventional exhaust gas,
Figure 2 is a side view showing the structure of a turbine applied to the power generation apparatus using a conventional exhaust gas,
3 is a perspective view showing the structure of a power generator using exhaust gas according to the present invention;
4 is an exploded perspective view showing the structure of a power generator using exhaust gas according to the present invention;
5 and 7 are exemplary views showing the structure of a rotating body applied to the power generator using the exhaust gas according to the present invention,
6 and 8 are exemplary views showing a state in which exhaust gas is injected into a rotating body applied to a power generator using exhaust gas according to the present invention;
9 is a schematic diagram showing a path in which the exhaust gas moves in the power generator using the exhaust gas according to the present invention;
10 is an exemplary view showing a structure further including an auxiliary rotating plate in a rotating body applied to a power generator using exhaust gas according to the present invention;
11 is an exemplary view showing a structure of a suction pipe applied to a power generator using exhaust gas according to the present invention;
12 is a perspective view showing a structure in which a plurality of suction pipes applied to a power generator using exhaust gas according to the present invention are formed.

In the present invention, in order to ensure the safety of the exhaust gas generated by generating power using the exhaust gas, as well as easy to discharge the power generated in the case, the exhaust gas is sucked / discharged in the case, The case includes a rotating body that rotates by the injection pressure of the sucked exhaust gas, the rotating body is axially coupled to the case, a plurality of disks with a through hole formed in the center of the predetermined interval so that the air flow path is formed Composed of a form, the exhaust gas sucked into the inside of the case is a power generator using the exhaust gas characterized in that discharged through the air passage and through holes after generating power by rotating the rotating body. Suggest.

The scope of the present invention is not limited to the embodiments described below, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

Hereinafter, the power generator using the exhaust gas of the present invention will be described in detail with reference to FIGS. 3 to 12.

As shown in FIGS. 3 and 4, the power generator using the exhaust gas of the present invention is connected to an exhaust pipe such as an automobile in which exhaust gas is discharged, and the exhaust gas is sucked / discharged, and the injection pressure of the exhaust gas sucked into the exhaust gas is generated. It consists of a case 100 including a rotating body 200 to rotate.

The case 100 may be formed in a cylindrical shape as shown in FIG. 3, but is not limited thereto and may be formed in various forms. In addition, the case 100 has a suction pipe 110 through which the exhaust gas is sucked into the inside and a discharge pipe 120 through which the exhaust gas is discharged to the outside.

The rotating body 200 is axially coupled by a power transmission shaft 130 penetrating through one side or both sides of the case 100 to be located inside the case 100, the power transmission shaft 130 Various devices that can use the rotational power generated by the invention are combined. Therefore, the rotary body 200 is rotated by the injection pressure of the exhaust gas introduced into the case 100 through the suction pipe 110 to generate power, and utilizes energy to be discharged to the outside. This can be used as another power source.

Meanwhile, as shown in FIGS. 4 and 5, the rotating body 200 has a form in which a plurality of disks such as the rotating plate 210 and / or the partition plate 220 are combined, and the plurality of disks have a central portion. The through-hole 10 is formed in the bar is coupled at a predetermined interval, the air flow path 20 is formed between each disc. The through hole 10 and the air flow path 20 serve as a passage for allowing the exhaust gas rotated by the rotating body 200 to easily exit the discharge pipe 120, and the rotating plate 210 and After the partition plate 220 will be described in detail.

The rotating plate 210 has a plurality of grooves 211 is formed along the circumference as shown in Figure 6 so that the exhaust gas sucked into the case 10 is injected toward the grooves 211, the rotating plate 210 The bar is pushed to substantially rotate the rotor 200.

Therefore, the groove 211 is formed to be concave so as to receive the maximum force from the exhaust gas is injected, it is preferably formed in a concave '' shape as shown in FIG. In this case, the exhaust gas from the suction pipe 110 pushes the 'l' part strongly through the '-' part of the '┛' shaped groove 211, and thus, rotates the rotating body 200. Increase the power.

In addition, the rotating plate 210 may have a sharp circumference as shown in FIG. 5, and thus the exhaust plate may be injected into a portion of the rotating plate 210 in which the groove 211 is not formed. Gas is easily moved to the air flow path 20 along the sharply inclined portion.

Meanwhile, as shown in FIG. 5, the partition plate 220 is formed in a disc shape in which grooves are not formed along a circumference, and are disposed on one side or both sides of the rotating plate 210, so that exhaust gas is formed on the rotating plate ( It serves to guide the strong push 210 and serves to adjust the number of the rotating plate (210).

For example, when the partition plate 220 is disposed on both sides of the rotating plate 210 as shown in the partial enlarged view of FIG. 5, the partition plate 220 guides the direction in which the exhaust gas moves, so that the rotating plate ( The injection pressure of the exhaust gas is concentrated on 210. In addition, although not shown in the drawings, the rotational force of the rotating body 200 may be adjusted by placing a plurality of the rotating plates 210 between one partition plate 220 and the other partition plate 220.

On the other hand, when the coupling form of the rotating plate 210 and the partition plate 220 and the flow of the exhaust gas according to the above, as described above, the plurality of rotating plate 210 and the plurality of partition plate 220 is a predetermined interval In this case, as shown in FIGS. 4 and 5, the rotary plate 210 and the partition plate 220 may be sequentially disposed and coupled, but the present invention is not limited thereto. Accordingly, the plurality of rotating plates 210 or the plurality of partition plates 220 or the rotating plates 210 and the partition plates 220 may be coupled at a predetermined interval.

FIG. 7 is an example in which a plurality of rotating plates 210 and partition plates 220 are sequentially arranged and coupled at predetermined intervals to form an air flow path 20. In order to form the air flow path 20, The washer 40 is coupled between the rotating plate 210 and the partition plate 220. Therefore, the exhaust gas sucked into the case 100 and injected is guided by the partition plate 220 to move directly to the air passage 20 or push the rotating plate 210 as shown in FIG. 8. After the rotation is moved to the through-hole 10 along the air flow path 20, a part is rotated the rotating plate 210 and then reflected on the inner surface of the case 100 after the air flow path ( It is moved to the through hole 10 along the 20. In addition, some of the exhaust gas is in contact with the side surface of the rotating plate 210 and / or partitioning plate 220 in the process of moving to the air flow path 20 may also exit the through-hole 10 after providing a rotational force. do.

Thereafter, the exhaust gas is discharged to the outside through the discharge pipe 120 through the through hole 10 as shown in FIGS. 8 and 9. As such, the present invention combines a plurality of disks such as the rotating plate 210 and the partition plate 220 at predetermined intervals to form the air flow path 20, and the rotation of the rotating plate 210 and the partition plate 220. By forming the through-hole 10 in the center portion, the exhaust gas is easily discharged to the outside without staying in the case 100 for a long time, due to the pressure generated by the exhaust gas or the heat generated from the exhaust gas or the rotating body 200. It is possible to prevent the explosion or breakage.

On the other hand, in order to further facilitate the discharge of the exhaust gas, the case 100 is formed on the one side of the rotating body 200, the exhaust space 30 is formed to collect the exhaust gas from the through hole 10, the It is preferable that the discharge pipe 120 is formed to easily discharge the exhaust gas collected in the portion where the discharge space 30 is formed.

Therefore, when the exhaust gas is moved in the present invention as a schematic view as shown in Figure 9, where the discharge pipe 120 is formed, the shape and size of the discharge pipe 120 is the discharge space 30 And the amount of exhaust gas can be modified in consideration of the overall amount.

On the other hand, as shown in Figure 10 is inserted into the power transmission shaft 13 to the rotating body 200 is fixed and coupled to the case 100, the auxiliary rotating plate radially formed wings having a predetermined length from the shaft 230 may be further provided. The auxiliary rotating plate 230 is between a plurality of disks constituting the rotating body 200, that is, between the rotating plate 210 and the rotating plate 210, between the rotating plate 210 and the partition plate 220, partition plate 220 And it may be disposed between the partition plate 220, the length of the wing is preferably formed shorter than the radius of the rotating plate 210 or partition plate 220, the wing is located in the air flow path (20) do.

Therefore, the exhaust gas sucked into the case 100 primarily rotates the rotary plate 200 by pushing the rotary plate 210 and moves the rotary plate 210 in the process of moving to the air flow path 20. Alternatively, the wing of the auxiliary rotating plate 230 in contact with the side surface of the partition plate 220 further increases the rotational force of the rotor 200 and then moves to the through hole 10 along the air flow path 20. Push to secondaryly rotate the rotor 200, the power is improved.

Meanwhile, as shown in FIG. 6, a suction pipe 110 having a predetermined length through which exhaust gas is sucked into the case 100 is formed in the case 100, and the suction pipe 110 is connected to an exhaust pipe such as a car. Will be connected. Although the exhaust gas emitted through the exhaust pipe is a high pressure, in order to increase the pressure of the exhaust gas sucked into the case 100 and injected, the suction pipe 110 is a suction hole 111 along the longitudinal direction as shown in FIG. This is formed through. In addition, the diameter of the suction hole 111 can be modified in consideration of the pressure of the exhaust gas and the size of the rotating body 200, the diameter is gradually increased from the exhaust pipe to the rotating body 200. As a result, an appropriate amount of exhaust gas is injected into the rotating body 200 at a high pressure.

In addition, as shown in FIG. 11, a plurality of suction pipes 110 may be formed in the case 100, and thus, suction pipes 110 may be sucked into the case 100 and injected into the rotor 200. As the amount is increased, it is possible to rotate the rotor 200 more quickly. At this time, it is preferable to modify the number or size of the discharge pipe 110 in consideration of the number of the suction pipe 110 and the amount of exhaust gas flowing into the case 100.

As described above, the present invention generates power by rotating the rotating body 200 using exhaust gas, and may utilize energy to be discharged to the outside. In addition, the rotating body 200 is coupled to a plurality of disks such as the rotating plate 210, the partition plate 220 at predetermined intervals so that the air flow path 20 is formed, the through hole 10 in the center portion Is formed so that the exhaust gas generated power is easily discharged from the case 100. In addition, the generated power can be adjusted by installing the auxiliary rotating plate 230 or adjusting the structure and number of the suction pipes 110.

10: through hole 20: air passage
30: discharge space 40: washer
100 case 110 suction tube
111: suction hole 120: discharge pipe
130: power transmission shaft 200: rotating body
210: rotating plate 211: groove
220: partition plate 230: auxiliary rotating plate

Claims (8)

In the case 100 in which the exhaust gas is sucked / discharged, the case 100 includes a rotating body 200 that rotates by the injection pressure of the sucked exhaust gas,
The rotating body 200 is axially coupled to the case 100, the plurality of discs formed with a through hole 10 in the center is made of a form coupled to a predetermined interval so that the air flow path 20 is formed, The rotating body 200 includes a rotating plate 210 having a plurality of recesses 210 formed therein, and partition plates 220 disposed on one side or both sides of the rotating plate 210,
The exhaust gas sucked into the case 100 generates the power by rotating the rotating body 200, and then exhaust gas is discharged through the air passage 20 and the through hole 10. Power generator using. delete The method of claim 1,
The groove 210 is formed in a '┛' shape the power generation device using the exhaust gas, characterized in that the power is improved by pushing the inlet exhaust gas is strongly pushed in the groove (210). The method of claim 1,
The rotating plate 210 has a sharp circumference, so that the exhaust gas is easily moved to the air flow passage 20, characterized in that the power generator using the exhaust gas. The method of claim 1,
The rotating body 200 is further provided with an auxiliary rotating plate 230 radially formed wings having a predetermined length from the shaft, the auxiliary rotating plate 230 in the process of the exhaust gas moves along the air flow path (20) Power generation device using the exhaust gas, characterized in that the power is improved by pushing). The method of claim 1,
The case 100 has a predetermined length and includes a suction pipe 110 through which the suction hole 111 is formed in the longitudinal direction, through which the exhaust gas is sucked,
The suction pipe 110 is a power generating device using an exhaust gas, characterized in that the diameter becomes larger toward the rotating body (200). The method according to claim 6,
The suction pipe 110 is a power generating device using an exhaust gas, characterized in that the power is improved by forming a plurality. The method of claim 1,
The case 100 has a discharge space 30 for collecting the exhaust gas from the through-hole 10 on one side of the rotating body 200 is installed, the exhaust gas is formed in a portion where the discharge space 30 is formed Power generator using an exhaust gas characterized in that the discharge pipe 120 is formed to be discharged.

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