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Compact vacuum cleaning device

Inactive Publication Date: 2008-09-18
WESSEL WERK
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0008]It is therefore an object of the invention to provide a self-propelled vacuum cleaning device that functions in an automatic manner, and cleans textile floor coverings better, while having a compact structure.
[0012]In order to be able to use the vacuum cleaning device well in the private home sector, a low device height and, at the same time, a small base area are aimed at. Preferably, the vacuum cleaning device has a base area between 1000 cm2 and 1500 cm2. Within the framework of the invention, the base area is the area that is covered by the vacuum cleaning device in the case of a vertical projection. If the base area is small, particularly if the base area lies in the range indicated, it is possible for the vacuum cleaning device to reach nooks as well, making it possible to achieve complete cleaning even in regions where access is difficult. For the purpose of good maneuverability, it is practical if the base area is configured to be round or oval.
[0014]In order to achieve a further improvement in the suction behavior within the framework of an advantageous embodiment of the invention, seals are provided between the individual components, along the path of the air stream, in the vacuum cleaning device. The proportion of useless air that is drawn in not through the suction mouth but rather through cracks and openings between the components can be minimized by such seals. The flow cross-sections and flow transitions along the path of the suction air can also be optimized, in terms of flow technology, in order to avoid pressure losses.
[0015]The cleaning roller provided according to the invention is disposed in an assigned roller chamber, and the suction mouth can be disposed on the underside of the housing, at a distance from the roller. However, in a preferred embodiment of the invention, the suction mouth is disposed on the underside of the roller chamber, and the suction air is guided from the roller chamber to the dust collection container. The cleaning roller can be driven electrically or by an air turbine, and contributes to cleaning by direct contact of the roller surface with the floor covering. In order to guarantee contact between cleaning roller and floor covering on different floor coverings, and to avoid increased friction between floor covering and cleaning roller, the cleaning roller is preferably mounted in the housing so that it is resilient in the vertical direction. Alternatively, the roller chamber, with suction mouth and cleaning roller, can be mounted in the housing, as a whole, to be resilient in the vertical direction. The roller chamber can rest on the floor, in sections, with its underside or with rollers and / or slide surfaces. Both in the case of a resiliently mounted cleaning roller and in the case of a resiliently mounted roller chamber, the optimal contact pressure of the cleaning pressure, and a distance between the suction mouth and the surface to be cleaned that is advantageous from a flow-technology point of view can be achieved by a corresponding spring force of the resilient mounting. For example, the cleaning roller can be configured as a lamella roller having soft, resilient lamellae made of plastic, or as a brush roller. Preferably, soft bristles are provided, which lead to low friction between cleaning roller and floor covering.
[0016]The vacuum cleaning device according to the invention cleans different floor coverings well, and is suitable for picking up large amounts of dirt in a short time, also because of the large air stream. In order to match the improved suction properties, the volume of the dust collection container is greater than 1 liter. Such a configuration can be implemented even in combination with the compact construction described above, by means of effective utilization of the available volume.

Problems solved by technology

Furthermore, dust and dirt can collect under pieces of furniture that stand on legs.
With automatic, self-propelled vacuum cleaning devices, the available electrical power is limited due to the integrated power source.
While known vacuum cleaning devices are suitable for removing coarse, loose particles such as crumbs and fuzz from smooth floor coverings, the cleaning effect on textile floor coverings, on the other hand, is insufficient.
In many cases, additional, undesirable manual cleaning of textile floor coverings with a conventional vacuum cleaner therefore becomes necessary.
However, the vacuum cleaning device described is not suitable for cleaning textile floor coverings, and is complicated in design.

Method used

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Embodiment Construction

[0022]Referring now in detail to the drawings, FIG. 1 shows a compact vacuum cleaning device 1 for automatic cleaning of smooth and textile floor coverings, particularly in the private home sector, having a housing 2, a suction mouth 3 that is disposed on the underside of a roller chamber 4, a cleaning roller 5 disposed in the roller chamber 4, a dust collection container 6, a suction fan 7, an electrical travel drive 8, control electronics 9, and a power source 10 in the form of two rechargeable batteries 11. Dust collection container 6 can be equipped with an air-permeable bag, and with a filter on the outlet side. The various components are disposed packed closely together in housing 2, for optimal utilization of space. Roller chamber 4 is mounted resiliently in housing 2, and cleaning roller 5, which is disposed in roller chamber 4 and configured as a brush roller, is driven by an electric motor 13, by way of a drive belt 12. From roller chamber 4, the air stream that enters thr...

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Abstract

A compact vacuum cleaning device for automatic cleaning of smooth and textile floor coverings, particularly in the private home sector, has a housing, a suction mouth on the underside of the housing, a cleaning roller disposed in a roller chamber, a dust collection container, a suction fan, an electrical travel drive, control electronics, and a power source. The device height of the vacuum cleaning device is less than 180 mm. The maximal suction air stream that enters through the suction mouth, passes through the dust collection container, and leaves the vacuum cleaning device through the suction fan, is greater than 15 l / s. The maximal suction power is greater than 10 W.

Description

BACKGROUND OF THE INVENTION[0001]1. Field of the Invention[0002]The invention relates to a compact vacuum cleaning device for automatic cleaning of smooth and textile floor coverings, particularly in the private home sector. The device has a housing, a suction mouth on the underside of the housing, a cleaning roller disposed in a roller chamber, a dust collection container, a suction fan, an electrical travel drive, control electronics, and a power source. The height of the vacuum cleaning device is less than 180 mm. The height results from the distance above the floor that is predetermined by the travel drive, and from the dimensions of the housing that accommodates the dust collection container, the suction fan, the travel drive, the cleaning roller, the control electronics, and the power source. Antennas and any projecting fins that are intended to prevent the device from going under low pieces of furniture are not taken into consideration in determining the device height. Vacuum...

Claims

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Application Information

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IPC IPC(8): A47L5/00A47L9/10
CPCA47L9/22A47L2201/00A47L9/2852A47L9/2805
Inventor KAFFENBERGER, DIETERDILGER, HORSTRIEHL, KLAUS-DIETER
Owner WESSEL WERK
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