EP0099466A1 - Suction apparatus for dirt - Google Patents

Abstract

In a vacuum cleaner, which is soundproofed by separate measures, the exhaust air (12) of the blower is separated from the cooling air (5) of the engine through a multiple winding outlet path (13, 17, 20) with a repeatedly changing cross-section, the Channels are provided with a sound-absorbing lining (15).

Description

The invention relates to a vacuum cleaner with a housing and with a blower with a blower motor.

Conventional such vacuum cleaners develop a sound level between 70 and 80 dB A during operation. However, such a high level of noise is perceived as disturbing.

The invention is therefore based on the object of proposing a vacuum cleaner with a substantially reduced noise level, for example of about 60 dB A.

To achieve this object the invention is characterized in that the fan-vibration with its fan motor is mounted, that the exhaust air of the blower is performed by a multiple winding _A uslaßweg with several times varying cross sections to an outlet, that the cooling air for the fan motor, separated by the exhaust air is also guided through a multiple winding cooling air path with a changing cross section and that the outlet path and the cooling air path are designed as channels and chambers with a sound absorbing lining.

The vibration-damped mounting of the blower and blower motor effectively reduces the transmission of the vibrations developed there via structure-borne noise to the vacuum cleaner housing. The mentioned guidance of the exhaust air of the blower and the cooling air of the motor over long ducts and chambers with baffles results in a good damping with the long exhaust routes, which with the additionally inserted sound insulation mats are subdued. The cross-sections change several times and this results in broadband airborne sound insulation. On the suction side of the blower, the noise-reducing measures mentioned need not necessarily be provided; the filter mat there also serves to a certain extent for sound insulation and as a sound absorption filter. It is also important to separate the suction air and exhaust air of the fan from the cooling air for the motor. A pollution of the motor or a short circuit, for example because together sucked with the suction air humidity (dirty water) and the like is thereby precluded reliable and it will be ensured that, regardless of the degree of contamination of the filter mat and the sow ^g routes the engine is always sufficient cooling air is fed.

These measures can even be used to cool the sensitive heat-generating, electrical components of the vacuum cleaner by the engine cooling air, wherein they are arranged in the air flow of the engine cooling air.

In order to achieve the longest possible blowout distances, it is preferred if, at least in the area of the outlet path and the cooling air path, the housing of the vacuum cleaner has a rectangular cross section, which thus results in an enlarged volume compared to the round cross section of the housing which is otherwise customary and also possible with this invention. what is available for the sound-absorbing measures mentioned.

In front of the intake opening of the blower, a grille that compares the air flow can be arranged, which also contributes to lowering the sound level.

It serves the same purpose if a silencer is provided in the intake area of the blower motor. It is also preferred if a contact spring is installed in a form-fitting manner in the blower-carrying component, the static charge of the metallic dirt receptacle, the antistatic suction hose and possibly the accessories being derived via the protective conductor of the mains connection line.

In order to prevent impairment of the sound insulation due to the dampening of the sound insulation mats with which the air outlet paths are lined, it is further preferred if a filter support basket with a captive float ball is undetachably connected to the blower-carrying component, which prevents liquid or moist suction material from entering the multiple winding air outlet paths lined with sound-absorbing mats.

Furthermore, it is conducive to achieving the object of the invention if a large-area blow-out opening is provided. To achieve this, it is preferred if the rectangular housing is placed on the circular or round dirt receptacle.

The materials and the guides of the flow media are selected so that the blower-carrying component and the blower-tensioning component are designed so that up to 80 ° C hot suction material can be sucked in.

• Fig. 1 einen Längsschnitt durch den oberen Teil eines Schmutzsaugers nach der Erfindung mit Gebläse, Gebläsemotor und schalldämpfenden Maßnahmen;
• Fig. 2 eine Schnittansicht in Richtung des Pfeiles II von Figur 1;
• _Fig. 3 in einem Längsschnitt einen mit Mineralwolle ausgekleideten Schalldämpfer;
• Fig. 4 einen Absorptionsdämpfer, ebenfalls im Längsschnitt;
• Fig. 5 einen Reflektionsdämpfer im Längsschnitt;
• Fig. 6 das Innenteil des Reflektionsdämpfers nach Fig. 5.

The invention is explained in more detail below on the basis of exemplary embodiments. It shows:

• 1 shows a longitudinal section through the upper part of a vacuum cleaner according to the invention with blower, blower motor and sound-absorbing measures.
• Figure 2 is a sectional view in the direction of arrow II of Figure 1;
• _F ig. 3 a longitudinal section of a silencer lined with mineral wool;
• Figure 4 shows an absorption damper, also in longitudinal section.
• Figure 5 shows a reflection damper in longitudinal section.
• 6 shows the inner part of the reflection damper according to FIG. 5.

A motor housing 3 is mounted on a carrier plate 1 with the aid of rubber sealing lips or foam strips 2. The motor housing 3 consists of a wide turbine part 3a and a narrower motor part 3b, on the top of which a radial fan 4 is arranged. This radial fan sucks in the cooling air in the direction of arrow 5, which is blown out at a blow-out opening 5a and rises in the direction of arrow 6 on the wall of an intermediate plate to be described later.

The fan 3 also has a multi-stage turbine wheel 7, with which the suction air is sucked in via the suction connection, not shown, through a suction hose, through a filter, and flows in the direction of the arrow 8 through a suction opening 9 on the underside of the fan 3. According to the invention, this suction air is now essentially soundproofed.

In the suction opening 9 there is an air grille 10 which has a mesh size of 3-8 mm and consists of square plastic rods, this grille showing the essential advantage that the suction air flow sucked in in the direction of the arrow 8 is evened out. Above all, it becomes harmful Avoid eddy formation at the edges of the suction opening 9, which lead to corresponding whistling noises. The square ribs of this plastic grille are rounded on the intake side.

The turbine wheel 7 has radial blow-out openings 11 through which the exhaust air flows in the direction of the arrow 12 via a channel 13. The channel 13 is formed by an upwardly projecting flange 14 of the carrier plate 1, this channel wall being lined with a sound absorbing mat 15. It is essential that the channel narrows in cross section 13a, so that the air flowing through it receives a substantial acceleration. The other side of the channel is formed by the wall 16 of a clamping plate 18, the air at item 17 being deflected to the front side of the clamping plate 18 lined with damping strips 15. The air flow is introduced into an annular duct 20 in the direction of arrow 19 (see FIG. 2).

The ring channel 20 runs semicircularly around the housing. It is formed by two partial ring channels, which are approximately symmetrical to each other, as shown in Fig. 1 on the right side.

The ring channels 20 are not exactly symmetrical to each other. They differ from each other in the radii. The ring channel on the left in FIG. 1 is described below with reference to FIG. 2. It can be seen that the air flows in the direction of arrow 21 into a housing opening 22, which can also be seen in FIG. 1. This housing opening 22 is partitioned off by a web 24 of the clamping plate 18 so that the air flows in the direction of arrow 25 through a channel 26, 27 designed as a chicane in the direction of arrow 28, is again deflected in the direction of arrow 29 on a web 30 of the clamping plate, and in the direction of arrow 31 from one Exhaust air opening in the carrier plate flows out and exits the housing there.

However, instead of flowing into the opening 23 in the direction of the arrow 21, the air can also flow further in the annular channel 20 in the direction of the arrow 32 and enter a chamber 37 in the direction of the arrow 36 via an inflow opening 33.

The inflow opening 33 is formed by a rib 34 of the clamping plate and an adjacent rib 35. The chamber 37 leads into a further sound-damped channel 38, all the surfaces lying in the drawing plane in FIG. 2 being lined with foam mats. The air then flows in the direction of arrow 39 on and then passes on a very long way in the area of the channel 38 to a blow-out opening 4 _0, which is arranged in a hood 41st

A triple-deflected baffle was therefore chosen on the right, lower side of FIG. 2 in order to obtain relatively the same silenced path as on the left-hand side with the chamber 38, which only requires a single baffle, but a long, straight damped path.

Essential to the invention in the present invention, therefore, is not the division into two bedäm ^p fte way because this could be done differently, but in general, the fact that long-damped ground in a particle board and an associated acoustic enclosure are obtained.

It is further essential for the success of the soundproofing measure that the air that enters the annular duct 20 with a large volume is first accelerated very strongly at the deflection baffles, and then requests it again in expansion spaces connected thereafter to become velvet. In this way, it is possible to achieve broadband sound attenuation after all the cover surfaces, which lie in the drawing plane in FIG. 2, are lined with soundproofing mats.

The sound damping of the engine cooling air is explained below with reference to FIG. 1.

In FIG. 1, suction takes place via the suction opening 42 according to FIG. 2, which in FIG. 1 is located approximately in the area below this plate. The air passes through a relatively wide duct 44, which is lined with appropriate soundproofing mats, into a chamber 45, where it is deflected in the direction of arrow 43, and is fed via a radially extending duct 46 to the radial fan 4 of the drive motor. It is important here that chamber 47 is also heavily damped with sound absorption mats, so that all air-contacting paths of the cooling air are lined with corresponding sound absorption mats. The fan 4 now draws in the cooling air, guides this cooling air over the motor windings in the direction of the arrow 48, which then enters a chamber 50 through a blow-out opening 49 (not shown in more detail) on the motor housing and is deflected there in the direction of the arrow 6 via an annular channel 51 and a wall 52 , which has a breakthrough that cannot be seen in FIG. 1. From there, the air enters an annular space 53 (arrow direction 54) which extends practically over 270 degrees of the housing, wherein in this annular space 53 electronic components of the device are advantageously arranged, which are acted upon by this cooling air and thereby be cooled. The electronic components consist, for example, of a triac for an automatic on / off switch with an associated suppressor choke and similar parts which generate a significant amount of waste heat and which are also cooled as a result. The air then flows out through a 2 opening out of the clamping plate.

This housing opening 55 lies below the horizontal part 56 of the carrier plate 1 and cannot be seen in FIG. 1.

It is also important here that in the engine cooling air all air-contacting rooms are soundproofed, and the air is deflected several times by means of baffles, so that the engine cooling air is also substantially damped here.

The sound absorbing mats preferably consist of a foam or of a closed-pore cellular rubber, a layer of bitumen mats 57 preferably being underlaid in order to ensure broadband noise damping.

The housing hood 41 and the clamping plate 18 are made of injection-molded plastic parts, as is the bearing plate 56. It is also essential in the present invention that a downwardly open channel 58 is arranged radially all round on the horizontal part 56 of the carrier plate 1 by a U-shaped one profiled seal 59 is arranged, in whose downwardly open U-profile the edge of the upwardly open vacuum cleaner container is inserted. As a result, further noise reduction is achieved and at the same time a seal and thus a simultaneous centering of the bearing plate 1 to the dirt suction container, i.e. no solid parts touch, vibration transmission is avoided.

The noise reduction measures according to the invention are extremely inexpensive to manufacture because all parts consist of injection molded parts that only must be lined with appropriate soundproofing measures, ie sound absorption mats and bitumen mats.

It is also possible to use Helmholz resonators; it is also possible, according to FIGS. 3 and 4, and according to FIGS. 5 and 6, to arrange either a muffler lined with mineral wool or an absorption damper or reflection damper (according to FIGS. 5 and 6) in the intake area of the engine, namely in the area of the air grille 10 and the suction opening 9. In this case, a plug-in collar is arranged flush with the outer edge of the suction opening 9, with which the mufflers shown in FIGS. 3-6 with their associated collars 60, 61 are inserted.

_F ig. 6 shows the inner part for the silencer according to FIG. 5. The inner part 62 is inserted axially into the part 63 according to FIG. 5, as is indicated in pencil in FIG. 5. The air is drawn in in the direction of the arrow 65, deflected in the direction of the arrow 67 via the tabs 66, guided downward in the direction of the arrow 68 and in the direction of the arrow 69 via the inner pot 7o of the muffler to the suction opening 9 of the support plate 1.

Similar relationships also exist in FIG. 3, where a damped silencer is used. It is also possible to install a damped Helmholz resonator on the engine cooling air side, which is preferably arranged in the area of the ring channel 45, which is not itself flowed through by air, but which has a hollow body on its outer walls in the internal bores of precisely defined diameter and distance , so that the sucked cooling air is carried away with the surface and over flows around the edge of these holes, which also has a damping effect.

A narrow copper strip 71 is arranged in the area of the U-profiled sealing lip 59, the shape of which is adapted to the U-profile and is seated on the metal edge of the vacuum cleaner container in an electrically conductive manner. 1, this copper strip is connected to the protective conductor of the mains voltage via a conductor lug 72 and a connection 73, so that the electrostatic charges arising on the dirt suction container are discharged to the mains line 73 via this copper conductor 71.

The low-vibration fastening of the blower and the soft rubber rings effecting the blower motor must have a corresponding Shore hardness and dimension and at the same time be designed so that the turbine is secured against twisting. The dimensions of the air gaps and air chambers must also be adjusted accordingly, essentially as shown in the drawing. The parameters channel width, channel height and channel length are important. The coordination of the sound absorption mats and the placement of the mats in the right place are also essential. The sucked-in and blown-out cooling air must also be guided, as explained above, in order to keep the sound pressure level as low as possible.

Claims (9)

1. vacuum cleaner with a housing with a blower with a blower motor,
characterized in that the blower (3a) with its blower motor (3b) is mounted in a vibration-damped manner, that the exhaust air of the blower is led to an outlet via a multiply wound outlet path (13, 17, 20) with a cross section that changes several times, so that the cooling air for the blower motor (3b) is also separated from the exhaust air via a multiple winding cooling air path (44,45,46,47,48,51,53) with a changing cross section and that the outlet path and the cooling air path as channels and chambers with a sound-absorbing lining are formed. 2. Vacuum cleaner according to claim 1,
characterized in that the housing (3) has a rectangular cross section at least in the area of the outlet path and the cooling air path. 3. vacuum cleaner according to claim 1 or 2,
characterized in that a grille (10) equalizing the air flow is arranged in front of the suction opening of the blower (3a). 4. Vacuum cleaner according to one of claims 1-3,
characterized in that heat-generating components are arranged in the wall of the cooling air path (53). 5. Vacuum cleaner according to one of claims 1-4, characterized in that the outlet path has two differently dimensioned partial ring channels (22). 6. Vacuum cleaner according to one of claims 1-5, characterized in that a silencer is provided in the suction area of the blower motor. 7. Vacuum cleaner according to one of claims 1-6, characterized in that a contact spring (71) is installed in a form-fitting manner in the blower-carrying housing part and that the static charging of the metallic dirt receptacle, the antistatic suction hose and, if appropriate, the accessories of the vacuum cleaner via the protective conductor of the mains connection line (73) is derived. 8. Vacuum cleaner according to one of claims 1- 7, characterized in that a filter support basket with captive float ball is inextricably connected to the blower-carrying component, which prevents liquid or moist suction material from getting into the multiple winding air outlet paths designed with soundproofing mats. 9. Vacuum cleaner according to one of claims 2-8, characterized in that the rectangular housing (3) is placed on the circular dirt receptacle.

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