RU26734U1 - SUCTION UNIT FOR VACUUM CLEANER - Google Patents

Abstract

1. An air suction unit to a vacuum cleaner containing an electric motor with a stator and a blower, in the housing of which there is a bearing seat for a rolling bearing and a centrifugal wheel mounted on a motor shaft and closed by a cover having an air suction hole, characterized in that the blower body has on the opposite side from the engine, curved blades pairwise interconnected so that they form a closed loop around the circumference behind the bearing seat, having a channel There are holes for the passage and compression of air communicated with each other by means of openings, while a disk mounted on the housing is mounted on the side of the blades. 2. The unit according to claim 1, characterized in that the air channels are U-shaped.

Description

5 10 15 20 25 Air-suction unit for a vacuum cleaner A utility model relates to vacuum cleaners, and more precisely, to air-suction units of these vacuum cleaners. Known suction units for vacuum cleaners containing an electric motor with a stator and a blower, in the housing of which there is a diffuser, a centrifugal wheel mounted on the motor shaft, and a bearing housing for installing a rolling bearing (acSU No. 1398815 class a47L5 / 22) This known unit operates as follows way. When the electric motor is turned on, the centrifugal wheel rotates and draws in air, which is supplied through the slots of the diffuser to the middle part of the blower. Further, part of the air flow passes through the ventilation ducts of the electric motor, and part through the annular channels formed by the ring and the walls of the housing. The closest in technical essence and the achieved effect in relation to the proposed utility model is an air-suction unit for a vacuum cleaner, described in patent RU No. 1590066, class. A 47L5 / 22. This unit contains an electric motor with a stator and a blower, in the housing of which there is a podshikovy nest for a rolling bearing and a centrifugal wheel mounted on the motor shaft and closed by a screw with an air inlet, and a diffuser with radial blades is also installed on the motor shaft. In this known unit, air is sucked into the housing by a centrifugal wheel, then it is directed by the radial blades of the diffuser to the central part of the housing, where it passes through the ventilation ducts between the poles of the stator, cooling its windings. This known unit has a rather complicated design, large dimensions and manufacturing cost, and same high noise level at work. Щшшшшш ШЖ f Ч:; “Х; W MKIA47L5 / 22 5 10 15 20 25 30 Improving aerodynamic performance, lowering noise level during operation and production costs. The technical problem is achieved by the fact that in a utility model of an air suction unit comprising an electric motor with a stator and a blower, in the housing of which there is a bearing seat for a bearing and a pentagonal wheel mounted on an electric motor shaft and covered by a cover having an air inlet, the new is that the blower body has curved blades located on the opposite side from the engine, pairwise interconnected so that they form a circle around the bearings The closed socket having channels for the passage and compression of air communicated with each other by means of holes, with a disk mounted on the casing on the side of the blades. Also in this unit, the air channels are U-shaped. The presence of curved blades and a closed circuit with U-shaped channels create improved aerodynamic characteristics in the unit, reduce noise during operation, and also simplify the design of the unit, as this unit does not have a diffuser with radial blades. In the future, a utility model will be described in detail in the description with reference to the accompanying drawings, in which: Figure 1 - schematically depicts a known air-suction unit, partially in section; FIG. 2 - schematically the proposed unit, partially in section, with a cutout; Fig.Z - the same as in Fig.2, a side view from the side of the blades; FIG. 4 - section AA in FIG. 3 The proposed air-absorbing unit, as well as the known one, contains an electric motor 1 (FIGS. 1 and 2) with a stator and a blower 2, in the housing 3 of which there is a bearing seat 4 for a rolling bearing 5, centrifugal a wheel 6 mounted on the shaft 7 of the electric motor 1 and closed with a fastener 8 having a central hole 9 for sucking in air, while the known unit shown in Fig. 1 also contains a diffuser 10 (Fig. 1), which is absent in the proposed unit. 5 10 in the housing 3 (FIG. 3), on its side opposite from the engine 1, curved blades 11 are formed pairwise interconnected so that they form a closed loop around the circumference of the bearing housing 4 having channels 12 for passage and compression of air made U-shaped and communicated with each other through holes 13 (figure 4). The blades 11 are closed by the disk 14. The air-suction unit operates as follows. When the electric motor 1 is turned on, the air is sucked in by the centrifugal wheel 6 through the central hole 9 and enters a closed loop, where, passing through its U-shaped channels 12, it cools both the sub-nodular assembly and the motor housing.

Claims (2)

1. An air suction unit to a vacuum cleaner containing an electric motor with a stator and a blower, in the housing of which there is a bearing seat for a rolling bearing and a centrifugal wheel mounted on a motor shaft and closed by a cover having an air suction hole, characterized in that the blower body has on the opposite side from the engine, curved blades pairwise interconnected so that they form a closed loop around the circumference behind the bearing seat, having a channel There are holes for the passage and compression of air communicated with each other by means of openings, while a disk mounted on the housing is mounted on the side of the blades. 2. The unit according to claim 1, characterized in that the air channels are U-shaped.