KR920002654B1 - Exhaust gas purifier - Google Patents

Abstract

The apparatus purifys the exhaust gas by passing the exhaust gas through water. The apparatus comprises a water flow pipe (17) for sucking the water of the water tank (2) through a plurality of inlet holes (20) and also spouting the engine exhaust gas into the water tank, and a screw (26) for forcefully discharging the water of the water flow pipe into the water tank. If the water of the water flow pipe is forcefully discharged into the water tank, the water of the water tank is sucked in the water flow pipe through the inlet holes. So the water gets circulated in the pipe and tank by the screw. The apparatus enhances the purifying efficiency.

Description

1 is a side view showing the inside of a part of an example of an exhaust purifier according to an embodiment of the present invention.

2 is a plan view of FIG.

3 is a side view of a part cut away.

4 is an enlarged view in which part of the water absorption adjustment portion of the water flow pipe is cut out.

5 is an example of the use of this exhaust purifier.

6 to 9 show another embodiment of the present invention.

6 is a side view showing the inside by cutting a part.

7 is a plan view cut out a part.

8 is a cross-sectional view taken along line II of FIG.

9 is an enlarged view of the cooling pipe.

* Explanation of symbols for main parts of the drawings

1: exhaust purifier 2, 44, 45: water tank

3: water 17: water pipe

20: water suction hole 26: screw

Detailed description of the invention

The present invention relates to an exhaust purifier for purifying exhaust gas from an engine of an automobile by steam.

This type of exhaust purifier of the prior art was simply spraying the exhaust gas into the water in the water tank as described in Japanese Patent Laid-Open No. 57-62909 or Japanese Patent Laid-Open No. 60-233311. For this reason, the exhaust gas and the water cannot be sufficiently mixed, and the purification efficiency is very high, and when the output power is weak, such as exhaust gas through the muffler of the car, the ejection is suppressed and the engine stops. The present invention aims to provide an exhaust purifier that solves these problems.

The exhaust gas purifier of the present invention is provided with a water flow pipe for injecting exhaust gas into a water tank, and a plurality of water hip holes for sucking water in the water tank into the water flow pipe, and inside or outside the water flow pipe. Thus, a screw is installed to forcibly drain the water sucked from the water suction hole into the water tank in the water flow pipe. When the water in the water pipe is forcedly drained into the water tank with a screw, the water in the water tank is sucked into the water pipe and a plurality of water suction holes, and the water in the water tank circulates in the water pipe and the water tank. Since the inside of the water pipe becomes negative pressure by suction of water from the water suction hole, the exhaust gas can be forced into the water pipe.

Since the water sucked into the water pipe in the plurality of water suction holes becomes a plurality of long and thin water streams in the water pipe to suck the exhaust gas, the mixing of the exhaust gas and the water is performed very efficiently. In addition, the mixing of the exhaust gas and water is achieved by agitation by screws, and moreover, when the water is drained from the water pipe into the water tank and also during circulation in the water tank.

One embodiment of this invention is explained in detail by drawing.

The side view which cut | disconnected a part of exhaust purifier according to one Embodiment of this invention of FIG. 1 to show the inside, FIG. 2 is the top view of FIG. 1, and FIG. 3 is the side view which cut | disconnected a part.

The exhaust purifier 1 has a main body of which is a water tank 2, and stores and uses a certain amount of water 3 in the water tank 2. A water supply nipple 4 protrudes from the front of the water tank 2, and the external water reserve tank 5 shown in FIG. 5 is connected to the hose 6 by a hose 6. In the upper portion of the inner surface of the water tank 2, a water supply valve 7 connected to the water supply nipple 4 is provided. At the tip of the lever 8 which opens and closes the water supply valve 7, a float 9 floating in the water 3 in the water tank 2 is provided, and the water level in the water tank 2 is shown in FIG. When the float 9 descends from the state indicated by, the water supply valve 7 is opened to automatically supply water from the water reserve tank 5 into the water tank 2.

In the center part of the water tank 2, the vertical partition wall 10 is provided. The diaphragm wall 10 is provided with the filter plate insertion part 11 which cut | disconnected the rectangle from the upper end to the middle. The filtrate filter plate 12 is detachably attached to the filter plate inserting portion 11 from the outside of the ceiling 13 of the water tank 2. As the filter plate 12 is mounted, the whole chamber of the water tank 2 is mounted. 14) and the rear chamber 15. The handle 16 on the top of the filter plate 12 does not enter the water tank 2 and is always located outside the ceiling 13.

An L-shaped water flow pipe 17 is provided in the front chamber 14 of the water tank 2. The water flow pipe 17 penetrates the nipple 18 at the upper end of the vertical portion 17a through the ceiling 13 of the water tank 2, and at the same time, the front end portion 17c of the horizontal portion 17b is partitioned. 10) and is supported by the ceiling 13 and the partition wall 10. Therefore, the tip 17c of the horizontal portion 17b of the water flow pipe 17 protrudes from the front chamber 14 to the rear chamber 15.

In the middle part of the vertical part 17a of the water flow pipe 17, as shown in FIG. 4, the thin part 17d which made the outer diameter thinner than the other part is formed. On the outer circumference of the light portion 17d, the suction amount adjusting cylinder 19 is fitted to be able to move up and down. A plurality of water suction holes 20 and 21 are provided in the light portion 17d and the suction adjusting cylinder 19 over the outer periphery, respectively. The water suction holes 20 and 21 communicate with each other so as to overlap each other. Brackets 22 and 23 having screw holes are protruded from the vertical portion 17a and the suction adjusting cylinder 19 of the water flow pipe 17, and the adjusting screws 24 are screwed into the screw holes. The handle portion 25 of the upper end of the adjustment screw 24 is located outside the ceiling 13 of the water tank 2, and rotates the adjustment screw 24 to raise the height of the suction volume adjusting cylinder 19. It is possible to adjust from the outside of the tank 2. Changing the height changes the overlap area of the water suction holes 20 and 21 and adjusts the flow rate of the water sucked into the water flow pipe 17 through the water suction holes 20 and 21. A screw (propeller) 26 is provided in the horizontal portion 17b of the water flow pipe 17.

The shaft 27 of the screw 26 is directly connected to the rotation shaft of the DC motor 28 provided outside the front surface of the water tank 2 and the screw 26 is rotated by the DC motor 28. To prevent rocking of the screw 26, the spindle 30 protrudes into the rib 29 fixed in the opening of the tip portion 17c of the water flow pipe 17, and the screw 26 at the tip of the spindle 30. Rotatingly supports. On the other hand, the exhaust port 31 protrudes from the ceiling 13 of the rear chamber 15 side of the water tank 2. In the rear chamber 15, a blocking plate 32 is provided below the exhaust port 31 so that water 3 therein does not scatter and protrude from the exhaust port 31. In addition, in order to detect that the water level in the water tank 2 is equal to or higher than a predetermined height above the blocking plate 32, the lever 34 is positioned at a position where the water level upper limit detection float 33 is higher than the float 9. As a swing, it is mounted freely. Moreover, the micro switch 35 which is turned on and off according to the vertical rotation of the lever 34 is provided outside the rear surface of the water tank 2. The drainage stopper 36, and the sight glass 37 is provided on the lower back of the water tank (2).

The structure of this exhaust purifier 1 is as described above, and the operation thereof will be described next. 5 shows an example of use when the exhaust gas of the automobile engine 38 is purified by the exhaust cleaner 1. In the figure, the water reserve tank 5 is connected to the water supply nipple 4 as the hose 6 as described above, and the automobile engine is connected to the nipple 18 of the water flow pipe 17 by the hose or pipe 39. The muffler 40 of 38 is connected. In addition, the DC motor 28 is electrically connected to the battery 42 of the vehicle using a switch (which may be an engine starter switch of an automobile) 41, and the micro switch 35 is electrically connected to the alarm 43.

In this state, when the switch 41 is turned on to drive the DC motor 28, the screw 26 rotates and the water tank as the water in the water flow pipe 17 drains into the rear chamber 15 of the water tank 2. Water 3 in the front chamber 14 of (2) is sucked into the water flow pipe 17 through the plurality of water suction holes 21 and 20. Because of this suction, the vertical portion 17a of the water flow pipe 17 becomes negative pressure, so that the exhaust gas ejected from the engine 38 through the muffler 40 is sucked into the water flow pipe 17. In this case, the water sucked into the water flow pipe 17 through the water suction holes 21 and 20 becomes a plurality of long and thin water streams in the water flow pipe 17 to suck the exhaust gas. Water mixing is very efficient.

The suction flow rates in the water suction holes 21 and 20 are appropriately adjusted by changing the height of the suction volume adjusting cylinder 19 as described above according to the exhaust gas amount, the power output, or the like. Since a plurality of water streams sucking the exhaust gas are agitated by the screw 26 after being joined in the water flow pipe 17, the mixing with the exhaust gas is adjusted again according to the stirring, and the driving force of the screw 26 is adjusted. As a result, it is strongly drained from the water flow pipe 17 to the rear chamber 15 of the water tank 2.

Since the water flow drained from the water flow pipe 17 rises after hitting the rear wall of the water tank 2, the mixing of exhaust gas and water is promoted here. The exhaust gas is thus mixed with the water 3 over several orders of time, and harmful components, soot particles, and the like are dissolved and purified in the water 3 and cooled.

The purified and cooled gas is exhausted into the atmosphere at the exhaust port 31. Water in the rear chamber (15) containing harmful components or soot particles is filtered by the filter plate (12) into the front chamber (14), and the water pipes (21) and (20) again in the Shurepipe (17). Repeat the process of aspirated flow.

That is, the water 3 flows between the front chamber 14 and the rear chamber 15, from the front chamber 14 to the rear chamber 15 through the water pipe 17 and from the rear chamber 15 to the front chamber 14. Circulation through). When the water 3 in the water tank 2 evaporates and decreases below a predetermined level, the water supply valve 7 is opened and new water is automatically supplied from the water reserve tank 5 as described above. For example, when the filter plate 12 is blocked and the water level in the water tank 2 rises above a predetermined level and the float 33 is pushed up, the micro switch 35 is turned on to operate the alarm 43. The filter plate 12 can be easily replaced by inserting and removing. The filter plate 12 is mainly used to prevent the water suction holes 20 and 21 from being clogged with soot particles and the like, but is not necessary. In addition, the suction amount adjusting cylinder 19 can also be omitted by justifying the size of the water suction hole 20 of the water flow pipe 17 when the discharge power of the exhaust gas is almost constant.

The state in the water tank 2 can be monitored by the viewing window 37. When the water tank 2 is connected to a car radiator using a hose or pipe, the water 3 is cooled by the radiator, and then refluxed into the water reserve tank 5 or the water tank 2, whereby the water can be effectively used. . 6 to 9 show another embodiment of the present invention, wherein the exhaust purifier, which was one in the previous embodiment, has the water tank 2 in front of the water tank 44 and the rear water tank 45. And the cooling unit 46 therebetween, and the front water tank 44 has the same structure as the inside of the front chamber 14, and the rear water tank 45 has the same structure as the rear chamber 15. It is. The cooling unit 46 hypothesizes a plurality of cooling pipes 49 in parallel between the rear wall 47 of the front water tank 44 and the front wall 48 of the rear water tank 45 to form the front water tank 44. And a rear water tank 45 communicate with each other through the cooling pipe 49, and a cooling fan 51 that is rotated by the fan motor 50 on the upper side of the cooling pipe 47.

A plurality of fins 52 are provided on the outer circumferential surface of each cooling pipe 49.

With such a structure, since water flows between the front tank 44 and the rear tank 45 through the cooling pipe 49, the heat dissipation of the water is not only good, but also by the wind from the cooling fan 51 The water can be actively cooled by cooling 49) from the outside.

In addition, in the above embodiment, the screw 26 is rotated by the DC motor 28, but the DC motor 28 can be omitted when the power from the driving system of the vehicle is transferred to the screw 26 by the transmission mechanism. have. The screw 26 may be disposed outside the end opening of the water flow pipe 17. In addition, the exhaust purifier 1 can be used not only for exhaust gas of an automobile engine but also for exhaust gas purification of other engines. As described above, according to the exhaust purifier of the present invention, since exhaust gas such as an automobile engine is forcibly sucked into the water flow pipe and mixed with water, the exhaust gas can be purified even when the partial output of the exhaust gas is weak.

In addition, the water in the water tank is sucked into the water pipe by the water suction holes in the water pipes to create a number of long and thin water streams, which are then stirred again with a screw and drained back into the water tank so that the mixing of exhaust gas and water is very efficient. The purification effect is very high. In addition, since the water pipe and the screw are arranged in the water tank, it can be provided at a low price and can be miniaturized.

Exhaust purifier

Claims (1)

In an exhaust purifier for purifying exhaust gas such as an engine into water in a water tank, a plurality of waters are installed in the water tank to install a water flow pipe that blows out the exhaust gas, and sucks water in the water tank into the water pipe. An exhaust purifier, wherein a suction hole is provided, and a screw for forcibly draining the water sucked from the water suction hole into the water tank inside or outside the water flow pipe.

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