SU1103005A1 - Double-step air cleaner for internal combustion engine - Google Patents

Abstract

TWO STAGE AIR CLEANER for internal combustion engines, comprising a cylindrical housing with pshesbornikom radial inlet and an axial outlet ports, the filter element, thus against the inlet pipe is mounted reflector vypolnenn1y in the form of a plate with a guide inclined flange provided with a trailing edge, and forming with the housing and its lid has a cavity bounded by a shelf on both sides so that the cavity is open on the side of the exit edge, characterized in that, in order to increase the efficiency of the shelf is provided with a radial wall located in a plane passing through the axis of the cylindrical body and spaced from the axis of the inlet pipe at a distance of 0.54–0.90 d (p is swept along the inner surface of the housing), and the output edge of the shelf is the axis of the inlet pipe at a distance of 0.68–0.90 d (scanned along the inner surface of the housing), where d is the diameter of the inlet section of the valve.

Description

The invention relates to mechanical engineering and can be used in engine building for air purification.

A two-stage air cleaner for an internal combustion engine is known, which comprises a cylindrical body, a dust collector, a radial inlet and an axial exhaust pipe, a filter element, while a reflector is installed in the form of a plate with an inclined guide plate, provided with an outlet edge, and forming its edge has a cavity bounded by a shelf on both sides so that the cavity is open on the side of the exit edge 1j.

The drawbacks of the known air cleaner are the filling of the stagnant zone in front of the inclined shelf and the turbulization of the air flow as it passes through the exit edge, with the result that most of the fine dust is deposited on the filter element, clogging its pores.

The purpose of the invention is to increase the cleaning efficiency.

This goal is achieved in that a two-stage air cleaner for an internal combustion engine comprising a cylindrical housing with a dust collector, a radial inlet and an axial exhaust port, a filter element, while a reflector is installed in the form of a plate with an inclined guide shelf equipped with an outlet i and forming a cavity with the case and its lid, bounded by a shelf on both sides, so that the cavity is open on the output edge side, the shelf is provided with a radial a wall located in a plane passing through the axis of the cylindrical body and spaced from the axis of the inlet manifold at a distance of 0.54-0.90 d (scanned along the inner surface of the housing), and the exit edge of the flange is located from the axis of the inlet manifold NII 0.68–0.90 d (in a sweep along the inner surface of the orpus), where d is the diameter of the inlet pipe.

FIG. 1 shows an air cleaner, general view; in fig. 2 shows A-A in FIG. one; in fig. 3 - part

air cleaner in scan (section bb in Fig. 2).

 The air cleaner contains a cylindrical body 1 with a dust collector 2, 5 radial inlet pipe 3 and a dee th exhaust pipe 4. Inside the body 1 there is a filter element 5, at the end of which is a dust collector 2 with a partition 6,

10 in which there is a receiving window 7. A reflector 8 is installed opposite the inlet nozzle 3, made in the form of a plate 9 with an inclined guide shelf 10 with an edge 11,

tS and forming with cavity 1 and its collar 12 a cavity 13, bounded by a shelf 10 on both sides and open on the side of the edge 11. The shelf 10 is provided with a radial wall 14 located in a plane passing through the axis of the cylindrical body 1 and away from the axis inlet pipe 3 at a distance of 0.54-0.90 d (scanned along the inner surface of the housing). Exit edge 9

is located from the axis of the inlet pipe 3 at a distance of 0.68–0.90 d (scanned along the inner surface of the housing), where d is the diameter 0 of the inlet pipe 3.

The air cleaner works as follows.

Dusty air through the inlet pipe 3 enters the cavity 13

5 and changes its direction to tangential with respect to the filter element 5. Exiting the cavity 13, air enters the cavity between the filter element 5 and the walls

0 of the cylindrical body 1, where, having made one revolution around element 5, it encounters a radial wall 14, which almost covers the cavity between the wall of the housing 1 and the filter element 5,

and it flows smoothly under the lower surface of the inclined flange 10 with low resistance, which is ensured by the optimal arrangement of the wall 14,

spaced from the axis of the inlet pipe 3 at a distance of 0.54-0.90 d (scanned along the inner surface of the housing 1), where d is the diameter of the inlet pipe. When the distance decreases, the location of the wall 14 relative to the inlet 3 decreases the volume of the cavity 13 and worsens the restructuring of the air flow after

.3

inlet pipe 3. At the same time, increasing this distance to more than 0.9 d results in a decrease in the length of the flow path before meeting the wall 14 after the first circulation of the flow around the filter element 5, which increases the resistance of the air cleaner, reduces the cleaning efficiency in the first stage .

The location of the output edge 11 at a distance of 0.68-0.90 d (in a turn on the inner surface of the housing 1), where d is the diameter of the inlet 3, improves the efficiency of cleaning and increases the duration of work before servicing the air cleaner. The location of the output edge 11 at a distance of less than 0.68 d results in a significant reduction in the duration of the operation before the air cleaner is serviced. This is due to the fact that the airflow does not have time to rebuild and adopt a tangential direction after the inlet 3.

Increasing the distance by more than 0.9 d also results in a drop in the duration of the air intake service to service due to the increase

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resistance, which is explained by the reduction of the flow path to the meeting with the wall 14 after the first turn of the air flow around the filter element 5. Thereafter, the air flow continues its screw movement, acquiring a calm, undisturbed nature of the movement, which contributes to better dust accumulation

o from the air stream under the action

centrifugal force. The particles falling out of the air stream are deposited on the walls of the cylindrical body 1, and large particles are drilled

15 to the walls of housing 1 at a relatively short distance, and small particles over most of the flow path. Dust particles falling on the walls of the casing 1 gradually

20 are moved to the lower part of the building 1 where, in the partition 6, there is a receiving window 7 through which the injector enters the dust collector 2. The air passing through the filter element 5 enters

5 into the exhaust pipe 5 and out of the air cleaner. At the same time on the walls of the filter element 5 from the filter air settles the dust, missed the first stage.

Claims (1)

TWO-STAGE AIR CLEANER FOR THE INTERNAL COMBUSTION ENGINE, comprising a cylindrical housing with a dust collector, a radial inlet and axial exhaust nozzle, a filter element, a deflector mounted in the form of a plate with a guiding inclined edge and a guiding outlet edge with a guiding edge its cover is a cavity bounded by a shelf on both sides so that the cavity is open on the side of the output edge, characterized in that, in order to increase the cleaning efficiency, the flange is equipped with a radial wall located in a plane passing through the axis of the cylindrical body and spaced from the axis of the inlet pipe at a distance of 0.54-0.90 d (p scan along the inner surface of the body), and the output edge of the shelf is located from the axis of the inlet pipe at a distance 0.68-0.90 d (in a scan along the inner surface of the housing), where d is the diameter of the inlet pipe.