JPH0232860Y2 - - Google Patents

Description

[Detailed description of the invention] A. Purpose of the invention (1) Industrial application field The present invention relates to an air cleaner connected to the intake system of a vehicle engine.

(2) Conventional technology Conventionally, an air cleaner installed in the intake system of a vehicle engine has a ring-shaped or plate-shaped cleaner element installed in a cleaner case, and the intake air is purified by passing through the cleaner element. (Refer to the book ``Automotive Engineering Complete Book 10'' Electrical Components, Car Body Maintenance Products, Engine Parts, Published by Sankaido).

(3) Problems to be solved by the invention By the way, in order to improve the cleaning efficiency of the air cleaner, uncleaned air should flow over the entire filter surface of the cleaner element in the cleaner case.
It is necessary to expand the effective filtration area, but in conventional air cleaners, the unpurified air that flows into the cleaner case does not reach the deep part of the cleaner case and flows between the suction port and the discharge port, causing the cleaner element to There are many parts through which the air does not pass,
There was a problem that this caused a decrease in cleaning efficiency.

It is an object of the present invention to provide an air cleaner with a simple structure that can solve the problems of the conventional art.

B. Structure of the invention (1) Means for solving the problem In order to achieve the above object, the present invention accommodates a cleaner element in a cleaner case, and divides the inside of the cleaner case into an uncleaned room and a clean room. In the air cleaner, the uncleaned air flowing into the uncleaned chamber is filtered through the cleaner element and then allowed to flow into the clean chamber. The uncleaned chamber is disposed on the other side, and the clean chamber is disposed on the other side, and a suction passage communicating with the uncleaned chamber and a discharge passage communicating with the clean chamber are provided at both ends of the same side of the cleaner case. Further, in the cross-sectional projection plane of the suction passage, in the uncleaned chamber, in order to guide unpurified air flowing from the suction passage to the other side of the cleaner case along the filtration surface of the cleaner element, The present invention is characterized in that a current plate is provided along the flow direction of unpurified air flowing through the suction passage.

(2) Effect According to the above configuration, the uncleaned air that has flowed into the uncleaned chamber in the cleaner case through the suction port is guided by the rectifying plate and rectified, and after reaching the deep part of the chamber, the uncleaned air flows through the cleaner element. The water flows over the filtering surface, expanding the effective filtration area of the cleaner element and increasing cleaning efficiency.

(3) Embodiment An embodiment of the present invention will be described below with reference to the drawings.

The cleaner case 1 of the air cleaner Ac is made of synthetic resin, and is formed by polymerizing and bonding the open end surfaces of a case body 2 and a cover body 3 together in a sealed shape. One side of the periphery of the case body 2 and the cover body 3 is hinged to the case body 2 by a pair of hinge parts 4, 4 so as to be openable and closable. It can be opened and closed in the direction of arrow a in FIG. Each hinge part 4 is composed of an insertion part 4 ₁ formed in the case body 2 and _a tongue piece 4 2 formed in the cover body 3 and inserted into and removed from the insertion hole 4 ₁ freely.

In addition, on the other three sides of the periphery of the case body 2 and the cover body 3, excluding the one side where the hinge parts 4, 4 are provided, a plurality of semicircular pairs are provided at appropriate intervals in the circumferential direction. The flange portions 2 ₁ and 3 ₁ integrally project outward, and the inner end surfaces of each pair of flange portions 2 ₁ and 3 ₁ face each other as shown in FIG. 4.
Each pair of flange portions 2 ₁ , 3 ₁ is formed with a cylindrical fitting portion 5 ₁ , 5 ₂ that opens on the inner end surface thereof,
A pair of cylindrical metal collars 6 ₁ , 6 ₂ is press-fitted into these fitting holes 5 ₁ , 5 ₂ , respectively, and the inner end surfaces of these metal collars 6 ₁ , 6 ₂ are connected to the flange portion 2 . ₁ and 3 are exposed to the outside than ₁ , and their inner end surfaces abut against each other when the case body 2 and the cover body 3 are connected, and the sealing gap C between them is kept constant.

The plurality of pairs of flange portions 2 ₁ , 3 ₁ ,...
All but one of them are provided with locking fittings 7 for integrally connecting the case body 2 and the cover body 3. Each of the locking fittings 7 has a conventionally known structure, and includes a rotating handle 7 ₁ rotatably supported on the flange piece 2 ₁ and a rotating handle 7 1 that is rotatably connected in the middle of the rotating handle 7 ₁ . It is composed of a hook piece 7 ₂ that clamps and holds the flange portions 2 ₁ and 3 ₁ , and the pivot portion of the rotating handle 7 ₁ is supported by one metal collar 6 ₁ so as not to come off. The rotating handle 7 ₁ and the hook piece 7 ₂ constitute a so-called toggle link mechanism, and when the rotating handle 7 ₁ is rotated in the direction of arrow b in FIG. 4, the hook piece 7 ₂ tightens. is loosened and the locking fitting 7 is unlocked.

As shown in FIG. 2, inside the cleaner case 1,
Inside the case 1, an uncleaned chamber 8 on the side of the cover body 3;
A plate-shaped cleaner element 10 is housed in a clean chamber 9 on the case body 2 side. The cleaner element 10 is formed into a flat rectangular shape by bending a thin element plate in a zigzag shape, and its outer periphery is bordered by an edge frame 11. As shown in FIG. 4, a flange piece 11 1 having a T-shaped cross section is integrally provided on the outer peripheral surface of the edge frame ₁₁ over its entire length, and the outer periphery of this flange piece 11 ₁ has a U-shaped cross section. It is encased by an elastic seal member 12. The flange piece 11 ₁ is sandwiched together with the elastic seal member 12 between seal surfaces 13 ₁ and 13 ₂ formed on the inner surfaces of the case body 2 and the cover body 3, thereby airtightly sealing the seal gap C. Therefore, the seal gap C formed by the seal surfaces 13 ₁ and 13 ₂
is kept constant by the plurality of pairs of metal collars 6 ₁ and 6 ₂ , so the compressive load acting on the elastic seal member 12 also becomes constant.

As shown in FIG. 1, a knob 14 for taking out the cleaner element 10 is integrally provided on one side of the frame 11 of the cleaner element 10.
protrudes outward through the side wall of the case body 2, and by pinching this knob 14 from the outside, the cleaner element 10 can be easily taken out.

A suction passage 15 and a discharge passage 16 are communicated with the cleaner case 1 at both ends of the same side surface thereof.

As shown in FIG. 2, the suction passage 15 has an oval cross section and is opened in the side wall of the cover body 3, and communicates with the uncleaned chamber 8, and the discharge passage 16 has a circular cross section and is opened in the side wall of the cover body 3. is opened in the side wall of and communicates with the clean room 9. A rectifying plate 17 is provided on the inner wall surface of the cover body 3 and extends in the cross-sectional projection plane of the suction passage 15 and along the flow direction of the unpurified air flowing through the suction passage 15, and is further substantially parallel to the rectifying plate 17. A plurality of partition plates 18 ₁ , 18 ₂ , 18 ₃ are arranged in parallel between the suction passage 15 and the discharge passage 16 .

The suction passage 15 is opened to the atmosphere, and the discharge passage 16 is connected to the intake pipe 1 in the intake system of the engine.
The negative pressure generated in the intake pipe 19 acts on the inside of the clean chamber 9 through the exhaust passage 16 .

Next, the operation of this embodiment will be explained.

The negative intake pressure generated by the operation of the engine acts on the uncleaned chamber 8 through the clean chamber 9 and the cleaner element 10, causing the atmosphere to flow into the uncleaned chamber 8. As shown by the arrow in FIG.
After going straight to the back of the uncleaned room 8 while being guided and _rectified by
It flows in a meandering manner, guided by 8 ₂ and 18 ₃ in turn,
During this time, the intake air is gradually sucked through the cleaner element 10 by the negative pressure in the clean chamber 9 and filtered.
After removing the dust, the air flows into the clean chamber 9 and is led to the intake pipe 19 through the exhaust path 16.

By the way, the uncleaned air that has flowed into the uncleaned chamber 8 is guided by the rectifying plate 17 and goes straight over the cleaner element 10 while being rectified, and after reaching the vicinity of the back wall of the uncleaned chamber 8, makes a large U-turn. Since the air flows toward the exhaust passage 16, the air flows into the suction passage 15.
The effective filtration area of the cleaner element is expanded without short-circuiting and flowing between the drain path 16 and the drain path 16.

FIG. 7 shows the guide plate 17 and the partition plate 18.
₁ , 18 ₂ , 18 ₃ of this embodiment,
A graph showing the purification characteristics of the conventional type B, which does not have this, shows the relationship between the supplied dust amount g (dust adsorption amount) and the increased resistance mmAq (intake resistance). As is clear from this graph, it can be seen that the purification efficiency of this example is significantly increased.

C Effect of the invention As is clear from the above embodiments, according to the invention, a cleaner element is housed in a cleaner case, the inside of the cleaner case is divided into an uncleaned room and a clean room, and the uncleaned room is In the air cleaner, the uncleaned air flowing into the air cleaner element is filtered through the cleaner element and then flows into the clean chamber, wherein the cleaner element is formed into a flat plate shape, and the uncleaned chamber is formed on one side of the air cleaner element, and the uncleaned air is filtered through the cleaner element and then flows into the clean chamber. A suction passage communicating with the uncleaned chamber and a discharge passage communicating with the clean chamber are disposed at both ends of the same side of the cleaner case, and the suction passage communicates with the clean chamber. In order to guide the uncleaned air flowing into the uncleaned chamber from the suction passage to the other side of the cleaner case along the filtering surface of the cleaner element,
Since a rectifying plate is provided along the flow direction of the uncleaned air flowing through the suction passage, the uncleaned air flowing into the uncleaned room is guided and rectified by the rectifying plate and flows along the filtering surface of the cleaner element into the cleaner case. It is possible to smoothly move straight toward the other side of the pipe, reach near the back wall, make a large U-turn, and flow toward the discharge passage, and therefore, the flow can be carried out without causing a short circuit between the suction passage and the discharge passage. Clean air can be brought into uniform contact with the entire wide filtration surface of the cleaner element, and the effective filtration area of the cleaner element can be expanded.
The ventilation resistance can be reduced, and the cleaning efficiency of the air cleaner as a whole can be greatly improved. Moreover, since both the suction passage and the discharge passage are arranged on one side of the cleaner case, the piping can be arranged on the same side of the cleaner case, making it easy to perform piping, and It can also contribute to compactness. Furthermore, since the suction passage and the discharge passage are respectively located at both ends of the same side of the cleaner case, the unpurified air flows in one direction from one end to the other within the uncleaned chamber. Uncleaned air can be smoothly circulated in the uncleaned room by avoiding mutual collision and interference with each other as much as possible.

[Brief explanation of the drawing]

The drawings show one embodiment of the air cleaner of the present invention, in which FIG. 1 is a partially cutaway front view of the air cleaner, FIG. 2 is a partially cutaway side view of the air cleaner taken along the line in FIG. 1, and FIG. 3 is a partially cutaway side view of the air cleaner. Figure 1 is an enlarged sectional view taken along the line, Figure 4 is an enlarged sectional view taken along the line shown in Figure 1,
FIG. 5 is a graph showing the purification characteristics of the air cleaner. 1...Cleaner case, 8...Uncleaned room, 9...
...Clean room, 10...Cleaner element, 15...
... Suction path, 16... Discharge path, 17... Current plate.

Claims (1)

[Scope of utility model registration request] Cleaner element 10 inside cleaner case 1
The inside of the cleaner case 1 is made into an uncleaned room 8.
In this air cleaner, the uncleaned air flowing into the uncleaned chamber 8 is filtered through the cleaner element 10 and then flows into the clean chamber 9. It is formed into a flat plate shape, with the unclean chamber 8 arranged on one side and the clean chamber 9 on the other side, and communicated with the unclean chamber 8 at both ends of the same side of the cleaner case 1. Suction path 1
5 and a discharge passage 16 communicating with the clean chamber 9, and furthermore, within the cross-sectional projection plane of the suction passage 15, the uncleaned chamber 8 is provided with uncleaned air that has flowed in from the suction passage 15. Cleaner element 10
An air cleaner characterized in that a rectifying plate 17 is provided along the flow direction of the unpurified air flowing through the suction passage 15 so as to guide the unpurified air to the other side of the cleaner case 1 along the filtering surface of the air cleaner.