RU163310U1 - Air cleaner - Google Patents

Abstract

1. An air purifier containing at least one monoblock case and separation holes located in it, in each of which a swirl of contaminated air is placed on the inlet side, and an annular collar is made at the outlet, while a dust pan with a suction nozzle is attached to the body dust and receiving devices for purified air, and each receiving device for purified air is placed with a gap inside the outlet of the separation hole with the formation of an annular channel for discharge dust in the dust pan, characterized in that the height of the air cleaner is determined depending on the diameter of the separation hole and the outer diameter of the receiving device for purified air in the area of the dust pan according to the formula: N.O. = (2.55-2.76) (D + d), where is the height of the air cleaner, D is the diameter of the separation hole, d is the outer diameter of the receiving device for purified air in the area of the dust pan. 2. The air purifier according to claim 1, characterized in that the annular collar made at the outlet of each separation hole is mated to the wall of the separation hole with a tapered surface between the diameter of the separation hole and the inner diameter of the ring collar.

Description

The proposed utility model relates to the field of mechanical engineering, namely to air cleaners for engines of ground equipment.

Known air purifier described in RF patent No. 2319855, published March 20, 2008. The known air purifier contains a housing and separation holes located therein. In each of the separation holes on the inlet side, a swirl of contaminated air flow is placed. The air cleaner also includes a dust pan attached to the housing with a dust suction pipe and receiving cones - receiving devices for purified air. Each receiving device for purified air is placed with a gap inside the outlet section of the separation hole with the formation of an annular channel for dust discharge into the dust collector.

A window with intersection of the wall of the separation hole is made near each separation hole on the base side, thus the separation hole of the housing is connected to the dust pan. The receiving device for the purified air of the air purifier is made in the form of a cone, the top of which is connected with the swirl of the flow of polluted air. Slots are made in the upper part of the cone for the passage of purified air into the receiving device for purified air.

A disadvantage of the known technical solution is the high complexity of the performance of the air cleaner.

A simpler design and therefore selected for the prototype has an air purifier described in the patent of the Russian Federation No. 2042857, published on 08.27.1995, the Famous air purifier contains a monoblock housing and separation holes located therein. In each of the separation holes on the inlet side, a swirl of contaminated air flow is placed, and an annular collar is made at the outlet. The air purifier also includes a dust pan attached to the housing with a dust suction pipe and receiving pipes for the removal of purified air - receiving devices for purified air. Each receiving device for purified air is placed with a gap inside the outlet section of the separation hole with the formation of an annular channel for dust discharge into the dust collector. The receiving device for purified air is made in the form of a truncated cone. In the monoblock case, on the base side, in the common walls of at least three adjacent separation holes, additional blind channels and slotted through grooves are arranged tangentially to the separation holes, which are in communication with additional blind channels through slotted through grooves. Thus, the separation hole is connected to the dust pan.

A disadvantage of the known air purifier is the low degree of air purification with the high complexity of the performance of the air purifier.

The main technical problem to be solved by the proposed utility model is to reduce the complexity of manufacturing an air purifier with the minimum size of the air purifier and the optimal degree of air purification.

An additional technical task of the proposed utility model is to reduce the complexity of manufacturing an air purifier by simplifying the design of the air purifier.

To perform the indicated technical task, an air purifier containing at least one monoblock case and separation holes located in it, each of which has a swirl of polluted air flow from the inlet side and an annular collar is made at the outlet, while a dust collector is attached to the case a tray with a dust suction pipe and receiving devices for purified air, and each receiving device for cleaned air is placed with a gap inside the outlet of the separation hole I, with the formation of an annular channel for discharging dust into the dust collector, according to the proposed utility model, the height of the air cleaner is determined depending on the diameter of the separation hole and the outer diameter of the receiving device for purified air in the area of the dust collector according to the formula: HB.o. = (2.55 -2.76) (D + d), where is the height of the air cleaner, D is the diameter of the separation hole, d is the outer diameter of the receiving device for purified air in the area of the dust pan.

In addition, the annular collar made at the outlet of each separation hole is mated to the wall of the separation hole with a tapered surface between the diameter of the separation hole and the inner diameter of the ring collar.

Reducing the complexity of manufacturing an air purifier is achieved due to the minimum size of the air purifier when the height of the air purifier is within (2.55-2.76) of the sum of the diameter of the separation hole and the outer diameter of the receiving device in the area of the dust collector. At minimum dimensions, the optimum degree of air purification is maintained. At the same time, using the formula for determining the height of the air purifier, it is possible to expand the range of air purifiers and thereby increase the range of air purifiers with optimal parameters, which is especially important for the preliminary design of new products, which include air purifiers.

The design of the annular collar, proposed in the second paragraph of the formula of the proposed utility model, allows to reduce the complexity of manufacturing an air cleaner due to the simplification of its design. In addition, this design of the annular collar provides easy rolling dust from the conical surface of the annular collar during operation of the air purifier, which reduces the complexity of maintenance of the air purifier.

To clarify the nature of the proposed utility model, the drawings are shown, where in FIG. 1 shows a general view of an air purifier with cutouts for showing in section a separation hole with a swirl of contaminated air flow and a receiving device for purified air. In FIG. 2 and in FIG. 3 shows general views of an air purifier with embodiments of receiving devices for purified air. In FIG. 4 shows a section along AA in FIG. 1, FIG. 2 and FIG. 3, and in FIG. 5 shows an embodiment of an annular collar on an enlarged scale.

The air cleaner contains a monoblock case 1 and separation holes 2 located in it, in each of which a swirl of contaminated air flow 3 is placed on the inlet side, and an annular collar 4 is made at the outlet. A dust collector 5 is attached to the body 1 with a dust suction pipe 6 and receiving devices for purified air 7. Each receiving device for cleaned air 7 is placed with a gap inside the outlet of the separation hole 2 with the formation of an annular channel 8 for dust discharge into the dust collector 5. 3 the contaminant air flow swirler 3 is scapular and installed in the housing 1 by means of a threaded connection if the air cleaner housing 1 is made of plastic and by punching if the housing 1 is made of metal. The dust pan 5 is attached to the housing 1 by means of studs and nuts, which are not shown in the drawing. Receptors for purified air 7 are attached to the dust pan 5 by welding, if made of metal, and glue, if made of plastic.

In figures 1, 2 and 3, which shows the options for receiving devices for purified air 7, HB.O. is the height of the air cleaner, D is the diameter of the separation hole 2, d is the outer diameter of the receiving device for purified air 7 in the area of the dust pan 5. The air cleaner shown in FIG. 1, has the simplest design of a receiving device for purified air 7, but it is recommended to use an air purifier with such a receiving device for purified air with medium or low dustiness of air. An air cleaner having a cone-type purified air receiver 7 is shown in FIG. 2. Its use is effective for medium or low dustiness of the air, or for short-term high dustiness of the air. An air purifier according to FIG. 3, use with high dust content. Regardless of the embodiment of the receiving device for purified air 7 of the air purifier, the air purifier is made with a height that is in the range (2.55-2.76) of the sum of the diameter of the separation hole 2 and the outer diameter of the receiving device for purified air 7 in the area of the dust pan 5. When going beyond the specified limits, the degree of air purification is reduced. When you go beyond the lower limit, the degree of purification is reduced due to the ingress of small fractions into the purified air, when you go beyond the upper limit, the degree of purification is reduced due to the large amount of dust located in the lower zone of the saporation opening 2 of the housing 1 of the air cleaner. At the same time, the laboriousness of the performance of the air purifier is unreasonably increased. In FIG. 5 shows the implementation of an annular collar 4, which is mated to the wall of the separation hole 2 with a conical surface 9 between the diameter of the separation hole 2 and the inner diameter of the annular collar 4.

The operation of the air purifier is as follows. The polluted air to be cleaned enters the separation holes 2, in each of which, passing through the swirl of the stream of polluted air 3, it acquires a rotational-translational motion and moves to its outlet. Due to the occurrence of inertial forces in the stream, the composite fractions of the pollutant, large and small dust particles and other impurities are discarded to the wall of the separation hole 2 of the air purifier, fall on the conical surface 9 of the annular collar 4, roll along it to the annular channel 8 and continue to move through this channel , they are dumped into the dust pan 5 and removed from the latter through the dust suction nozzle 6. The cleaned air enters the receiving device for cleaned air 7, then the cleaned air is sinking into an engine (not shown).

The proposed air purifier has an optimal degree of air purification for its further use while reducing the complexity of the performance of the air purifier, which is especially important in serial production of the air purifier. As a result of using a technical solution in accordance with the proposed utility model, an increase in the range of air purifiers is possible. In addition, the use of the design of the annular collar, made at the outlet of the separation hole, in accordance with the proposed utility model, simplifies the design of the air cleaner, reduces the complexity of its manufacture and use.

Claims (2)

1. An air purifier containing at least one monoblock case and separation holes located in it, in each of which a swirl of contaminated air is placed on the inlet side, and an annular collar is made at the outlet, while a dust pan with a suction nozzle is attached to the body dust and receiving devices for purified air, and each receiving device for purified air is placed with a gap inside the outlet of the separation hole with the formation of an annular channel for discharge dust in the dust collection tray, characterized in that the height of the air cleaner determined depending upon the diameter of the separation opening and the outer diameter of a receiving device for cleaned air in the dust collection sump area under the formula: HBO = (2.55-2.76) (D + d), where Nv.o. - air cleaner height, D is the diameter of the separation hole, d is the outer diameter of the receiving device for purified air in the area of the dust pan. 2. The air purifier according to claim 1, characterized in that the annular collar made at the outlet of each separation hole is mated to the wall of the separation hole with a tapered surface between the diameter of the separation hole and the inner diameter of the ring collar.

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