WO2011012479A1 - Vacuum cleaner comprising a filter - Google Patents

Abstract

The invention relates to a vacuum cleaner comprising a filter (20) having an inner chamber (22) for filtering a dust-laden stream of suction air and an electric motor (30) for cleaning the filter (20), wherein the electric motor (30) is disposed at least partially in the inner chamber (22) of the filter (20). The present invention allows a vacuum cleaner to be provided using structurally simple and cost-effective means comprising a self-cleaning filter (20), which may have a compact construction. In particular, a filter (20) may be provided having a low noise level during the cleaning process. Moreover, the invention is able to attain a simple, frictionally optimized structure for a self-cleaning filter (20).

Description

 Vacuum cleaner with filter

description

Background of the invention

The present invention relates to a vacuum cleaner comprising a filter having an interior for filtering a dust-laden suction air stream and an electric motor for cleaning the filter.

State of the art

For example, from the German patent application DE 1059636 a vacuum cleaner with a cleaning device for the dust filter is known. In the vacuum cleaner, an electromagnet is provided which keeps the clutch disengaged while the engine is running. The cleaning device for the filter can be designed as a wiping device revolving around the fixed filter. The arrangement may also be such that the stripping device is arranged stationary and the filter rotates about its axis. In the upper part of the vacuum cleaner, which is also designed as a lid, an existing motor and blower engine blower unit is suitably mounted noise-damped. The filter is stretched over a filter basket, which is fixed on a shaft by means of cross pins. This shaft is mounted with its upper end in a mounted on the underside of the engine bracket and with its lower end in a crosspiece. On the inner wall of the funnel are mounted one or more scrapers which are fitted with brushes which strip the dust deposited on the outside of the filter from the filter surface when the filter is circulated. The shaft is connected to the motor shaft through a coupling.

Furthermore, from the European patent application EP 0245224 a suction device with a filter is known. The filter is rotatably mounted for its cleaning, so that deposited on the filter particles are thrown off. These particles are collected in a container. Furthermore, document US 2005/0183233 discloses a vacuum collector with a filter housing, a filter element and a sweeper for sweeping the filter element. With the sweeping device dirt is swept by the filter unit, whereby the dirt from the filter unit can be removed and collected. The sweeper comprises one or more flaps and is rotatably disposed in the filter unit.

Furthermore, from International Publication WO 2007/141712 a dust filter for filtering dust from an air stream is known. The dust filter comprises a filter membrane and a scraper, which is movably mounted to clean the filter membrane and operated by a motor. The filter membrane of the filter is shaped as a folded circumferential cylinder wall. If a new filter cartridge is to replace an old filter cartridge, this includes a new scraper, which is inseparably preassembled in the filter cartridge.

Further, from the German patent application DE 19704468 a self-cleaning motorized filter system is known. A brush driven by a reversible synchronous motor at low speed cleans a disc filter mounted in the suction channel of the suction motor on a grille by continuous rotary movements (overhead cleaning) and thereby ensures self-cleaning during and after the suction process.

German Offenlegungsschrift DE 10303678 discloses a cyclone type dust collector for a vacuum cleaner. This dust collecting apparatus includes a grid cleaner for automatically removing fine dusts. The grid cleaner includes a grid rotator for rotating the grid when the vacuum cleaner is in use. The grate rotator includes a rotary member which rotatably supports the grate with respect to the cyclone body and which rotates together with the grate. Further, the rotating device includes a turbine fan as a driving source for providing power for rotating the rotary member, and a power transmitting device for transmitting the power of the turbine fan to the rotating member. The problem underlying the invention

The invention has for its object to provide an improved vacuum cleaner. In particular, a vacuum cleaner with a motor-driven self-cleaning filter, which is made compact, to be provided. Furthermore, a vacuum cleaner with a self-cleaning filter is to be provided, which is optimized in terms of noise during the cleaning process.

Solution According to the Invention The reference numbers in all claims have no limiting effect but are merely intended to improve their readability.

The solution of the problem is achieved by a vacuum cleaner with the features of claim 1.

Vacuum cleaners are electrical energy powered devices for receiving dust, including both mains powered and battery or cordless tools. A vacuum cleaner may e.g. a motor-blower unit for generating a suction air flow, a nozzle for collecting dust, a suction air guide for guiding the suction air flow, a Staubabscheideeinheit and a filter. Under a Staubabscheideeinheit is a device to understand in which the dirt-laden suction air can be removed from the dirt. For example, such a Staubabscheideeinheit have a filter bag with or without basket, or a centrifugal separator. Under a filter is an object formed from a filter material to understand, the filter material enclosing the interior of the filter. To filter the dust-laden suction air stream, the filter material can be flowed through by the suction air flow, and thus serve to retain particles. For this purpose, the filter may be e.g. be arranged in the Staubabscheideeinheit. The filter may e.g. be designed as an exchangeable cartridge filter.

By cleaning the filter, the filter material should be freed from the dirt that has accumulated on the filter material during operation of the vacuum cleaner. This dirt is particularly due to the filtering of the dust-laden suction air stream - A -

emerged. By the electric motor, the cleaning of the filter is automatically carried out, whereby the cleaning without effort of the user is feasible. By the electric motor, a mechanical cleaning of the filter can be achieved, which can be particularly effective. Advantageously, a housing is arranged on the electric motor, which encloses the electric motor for protection against contamination. Advantageously, the electric motor comprises a transmission for the transmission of the engine speed. This makes it achievable that a fast rotation of the electric motor can be converted into a slow but powerful revolution. Advantageously, a higher force can be achieved by the transmission than by the electric motor without transmission to carry out the cleaning.

The invention provides a compact construction, e.g. a small height, the filter achievable, which can advantageously have a small footprint. By the at least partially disposed in the interior of the filter electric motor, a larger area of the filter material for filtering the suction air flow can be achieved. If the electric motor is e.g. not on the filter material, a flow past the suction air flow to the electric motor can be achieved. As a result, an effective use of the surface of the filter material can be achieved. In addition, it can be achieved that the electric motor is cooled by the suction air flow. Furthermore, the sound emanating from the electric motor during operation can be insulated by the filter material, whereby a quiet operation of the cleaning process can be achieved.

Another advantage of the invention may be that the number of coupling points for coupling the electric motor can be minimized. Advantageously, the electric motor can drive a cleaning mechanism directly without coupling points.

Preferred embodiment of the invention

Advantageous embodiments and developments, which can be used individually or in combination with each other, are the subject of the dependent claims.

In a preferred embodiment of the invention, the vacuum cleaner on a Abreiniger for performing a mechanical cleaning of the filter. Through the Abreiniger the filter can be freed from dirt particles in an advantageous manner. Advantageously, a mechanical force is exerted by the cleaner on the dirt particles, which is directed against the direction in which the dirt particles are pressed by the suction air against the filter material. Advantageously, a relative movement between the cleaner and the filter can be achieved by the electric motor.

In a further preferred embodiment, the cleaner is in operative connection with the electric motor and is movable. As a result, it can be achieved that the electric motor mechanically drives the cleaner, as a result of which the cleaner can transfer mechanical energy from the electric motor to the filter and / or to the filter material. This can e.g. by mechanical vibration of the filter unit, by blowing off or blowing through the filter material. The moveable cleaner provides a fixed filter, avoiding additional seals to seal the filter. Of course, embodiments of the invention are conceivable in which the cleaner is permanently mounted and the filter is in operative connection with the electric motor and thus is movable.

The invention further development is preferably provided that the cleaner is rotatably mounted on a rotation axis. As a result, a slight connection of the cleaner to the electric motor and a high energy efficiency of the cleaning process can be achieved. In addition, a mechanically robust cleaner and thus a high reliability of the cleaner can be achieved.

According to the invention it is preferably provided that the filter is rotationally symmetrical and has a filter axis which is arranged parallel to the axis of rotation of the cleaner. Here, the filter axis corresponds to the axis of symmetry of the rotationally symmetric filter. The filter can be designed, for example, as an exchangeable cylindrical cartridge filter. Advantageously, this achieves a high cleaning efficiency of the filter, since the area of the filter medium attacked by the wiper for cleaning the filter can be maximized. Particularly preferably, the axis of rotation of the cleaner corresponds to the filter axis of the filter. As a result, the cleaner can be arranged symmetrically in the filter in order to achieve a uniform force on the filter can. The invention further development is preferably provided that the electric motor has a drive axis which is arranged parallel to the axis of rotation of the cleaner. As a result, a particularly easy coupling between the driving electric motor and the rotary cleaner can be achieved. Furthermore, frictional losses can be reduced and / or tilting of the two axes can be avoided. Particularly preferably, the axis of rotation of the cleaner corresponds to the drive axis of the electric motor. Advantageously, this can be achieved by an optimal power transmission from the electric motor to the cleaner. Next, this is a particularly space-saving design accessible. There are also embodiments of the invention are possible in which the drive axis of the electric motor and the axis of rotation of the cleaner are not arranged parallel to each other, but enclose an angle, for example of 90 °. As a result, further installation position of the electric motor, such as a horizontal installation in a vertically oriented axis of rotation, can be achieved.

According to the invention it is preferably provided that the filter has a screw cap for attachment, and the direction of rotation of the cleaner of the closing direction of the

Screw cap corresponds. Advantageously, the filter can be arranged by the rotary closure on a Staubabscheideeinheit. The twist lock may e.g. when

Bayonet or threaded. Advantageously, the

Locking the rotary closure is carried out a rotary movement, wherein the rotary closure is closed in the closing direction. By the coincidence of

Direction of rotation of the cleaner with the direction of closure of the rotary closure can be achieved by the operation of the cleaner advantageously the

Rotary lock can be closed to prevent the filter from loosening during the process

To be able to avoid operation. In addition, it is achievable that the user only has to put on the filter and close it easily, and a release of the filter does not have to worry.

In one embodiment of the invention, the cleaner is at least partially disposed in the interior of the filter. As a result, a compact arrangement of the filter can be achieved, in which mechanically movable parts, such as the cleaner or the electric motor can be protected by the filter material. This can prove to be an advantage in the user's handling since the user can not come in contact with the technique and thus be protected from damage. Next one can improved noise insulation can be achieved by the enclosing filter material. Particularly preferably, the cleaner covers at least a portion of the filter material. As a result, it can be achieved that the cleaning agent sweeps over at least part of the area of the filter material when cleaning the filter. In one embodiment of the invention, the cleaner acts on the lowest bending stiffness of the filter. Particularly preferably, the cleaner only partially covers the filter material for cleaning. Particularly preferably, the cleaner is placed centrally in the longitudinal extent of the filter. Particularly preferably, the cleaner acts on the location of the filter material at which the bending stiffness of the filter material in the direction of movement of the cleaner, ie in the cleaning direction, is the lowest. The fact that the cleaner acts on the lowest bending stiffness of the filter, with a low energy input maximum deformation of the filter material and thus an optimal cleaning effect can be achieved. As a result, the effectiveness of a mechanical energy transfer from the stripping element to the filter can be improved. Furthermore, a symmetrical energy distribution to the filter material can be achieved.

In a preferred embodiment of the invention, the filter has a coupling which is arranged between the electric motor and the cleaner. The coupling may e.g. be designed as a disc clutch or dog clutch. By using the coupling, the filter can be e.g. disconnect from the electric motor for service or maintenance. Particularly preferably, the coupling is arranged in the interior of the filter. In this way it can be achieved that the coupling is protected against mechanical influences, such as e.g. protected from contact by the user. Particularly preferably, the coupling is coupled directly to the electric motor or to the gear of the electric motor and to the cleaner. This allows a reduction of coupling points between the electric motor and cleaner, which energy losses in the clutch can be avoided.

Particularly preferably, the filter has an elastically deformable element, such as a spring. Advantageously, the elastically deformable element in the assembled state of the filter exerts a force on a first and a second part of the coupling, so that both coupling parts are pressed against each other. Due to the spring manufacturing inaccuracies can be compensated in order to achieve a reliable connection between the electric motor and Abreiniger can. Next is through the spring achievable that the electric motor despite colliding two coupling parts, for example, two claws of a dog clutch, can be introduced into the filter. The clashing of the coupling parts could prevent introduction of the electric motor if the parts of the clutch, for example, are difficult to move due to a self-locking transmission. Advantageously, it can be achieved that the coupling in such a case does not have to be mounted in its final position, but can only be brought into its final position by starting the electric motor.

In a further preferred embodiment, the cleaner has at least one stripping element. The scraper of the cleaner may be e.g. be designed as a paddle, deflector, cloth, flap, swinging plate, shovel, broom or comb. The shape of the scraper unit may be rectangular or trapezoidal. The stripping unit may e.g. be made of elastically deformable or rigid material. Advantageously, the wiping element wipes over the filter material, whereby the accumulated dirt is removable from the filter material. Embodiments are also conceivable in which the wiping element is designed as a blowing nozzle, which blows the filter material against the direction of the suction air flow when the motor / fan unit of the vacuum cleaner is switched off in order to free the filter material from particles.

The invention further development is preferably provided that the filter has an exhaust port, and the electric motor is disposed on the opposite side of the exhaust port of the filter. As a result, very low flow losses can be achieved because the full cross section of the exhaust port can be available. Further, turbulence of the suction air flow in the interior of the filter can be reduced.

According to the invention it is preferably provided that the filter has filter material, and the electric motor is downstream of the filter material in the direction of the suction air flow. Advantageously, by the electric motor, a force on the filter material can be reached, which is directed against the direction of the suction air flow, whereby an optimal cleaning effect can be achieved. Furthermore, it can be achieved that the electric motor is arranged in the clean air region of the filter, and thus only flows around of purified air. As a result, contamination of the electric motor, which can lead to early wear of the electric motor can be avoided. According to the invention it is preferably provided that the vacuum cleaner has a motor-blower unit, and the filter of the motor-blower unit is upstream in the direction of the suction air flow. This makes it possible to arrange the filter unit in a dust collecting container of the vacuum cleaner.

The present invention makes it possible to provide a vacuum cleaner with a self-cleaning filter, which can have a compact design, with simple structural and cost-effective means. In particular, a filter with a low noise during the cleaning process can be provided. Further, a simple, friction-optimized construction of a self-cleaning filter can be achieved by the invention.

BRIEF DESCRIPTION OF THE DRAWINGS Further advantageous embodiments will be described in greater detail below with reference to an embodiment shown in the drawings, to which the invention is not limited.

They show schematically:

1 shows a vacuum cleaner with dust chamber for receiving a dust collecting unit.

FIG. 2 shows a dust separation unit of a vacuum cleaner according to FIG. 1 in a perspective sectional view; FIG. and finally

Fig. 3 is a Staubabscheideeinheit a vacuum cleaner of FIG. 1 in a

Sectional view. Detailed description based on one embodiment

In the following description of a preferred embodiment of the present invention, like reference characters designate like or similar components.

The embodiment will be explained below with reference to FIGS. 1 to 3. 1 shows a vacuum cleaner 10 with a motor-blower unit 1 1 for generating a suction air flow 12. The vacuum cleaner 10 has a dust chamber 13 for receiving a Staubabscheideeinheit 14. FIG. 2 shows a dust separation unit 14 of a vacuum cleaner 10 according to FIG. 1 in a perspective sectional view. In Fig. 3, the Staubabscheideeinheit 14 of the vacuum cleaner 10 is shown in a sectional view. Furthermore, the vacuum cleaner 10 has a nozzle for dust pickup and a suction air guide for guiding the suction air flow 12, which are not shown for purposes of illustration. Further, the vacuum cleaner 10 includes a filter 20 disposed in the dust collecting unit 14. The filter 20 is the motor-blower unit 11 of the vacuum cleaner 10 upstream in the direction of the suction air stream 12. This filter 20 is used to filter the dust-laden suction air stream 12 and has for this purpose filter material 21. The filter material 21 is flowed through by the suction air stream 12, whereby dust particles accumulate on the filter material. In the interior 22 of the filter 20, which is enclosed by the filter material 21, a cleaner 40 is arranged for cleaning the filter. In addition, an electric motor 30 for driving the cleaner 40 and thus for cleaning the filter 20 is partially disposed in the interior 22 of the filter 20. In order to be able to remove the dust accumulated on the filter material 21 of the stationary filter 20, a mechanical cleaning of the filter 20 can be carried out by the cleaner 40. For this purpose, the movable cleaner 40 is driven by the electric motor 30. The cleaner 40 is thus in operative connection with the electric motor 30. The cleaner 40 is rotatably mounted on a rotation axis 41. The filter 20 is a cylindrical cartridge filter, and thus rotationally symmetrical. The filter axis 23 of the filter corresponds to the axis of rotation 41 of the cleaner 40 and is therefore parallel to it.

The electric motor 30 has a drive shaft 31, which corresponds to the axis of rotation 41 of the cleaner 40, and is thus arranged parallel to it. The drive axle 31 of the electric motor 30, the filter axis 23 of the filter 20 and the axis of rotation 41 of the cleaner 40 thus coincide, whereby a simple construction and thus a high reliability of the cleaning mechanism is achieved.

The filter 20 has a coupling 25 which is arranged between the electric motor 30 and cleaner 40. This allows the filter including the cleaner 40 of the

Electric motor 30 are separated, for. To perform maintenance work. The clutch 25 is a dog clutch, which is particularly easy to disconnect and reconnect. To compensate for manufacturing inaccuracies, the filter 20 has a spring 43. By the spring 43 and the placement of two coupling claws 26 can be compensated during assembly of the coupling. As soon as the electric motor 30 starts, the claws of the clutch 25 are pressed by the spring 43 in its intended position.

The cleaner 40 is located in the center of the filter 20, and thus acts on the lowest bending stiffness of the filter. This allows for optimal

Cleaning effect, since by a minimum force of Abreinigers 40 a maximum

Deflection of the filter material 21 can be achieved by stripping. Of the

Cleaner 40 has two stripping elements 42. By the rotation of the cleaner 40, the stripping 42 strip the filter material 21 and thereby cause a force on the filter material 21 and thus on the adhering dust, which is responsible for detachment of the

Dust from the filter material 21 leads.

The filter 20 has a screw cap 24 designed as a bayonet closure for fastening the filter 20 to the Staubabscheideeinheit 14. The closure direction of the rotary closure 24 corresponds to the direction of rotation of the cleaner 40, whereby a tightening of the filter 20 is achieved during operation of the cleaner 40, since the wiping element 42 during cleaning of the filter 20 on the filter material 21 strips and thus a force on the filter 20th exercises. The user does not have to pay attention to the tight fit of the filter 20 when attaching the filter 20 to the Staubabscheideeinheit 14.

The filter 20 has an exhaust port 27. During operation of the vacuum cleaner 10, the suction air flow 12 through the filter material 21 into the interior 22 of the filter 20th passed to pass through the exhaust port 27 to the motor-blower unit 1 1. The electric motor 30 is arranged at the region of the filter 20 opposite the exhaust air opening 27. As a result, very low flow losses are achieved, since the full cross-section of the exhaust port is available. In addition, turbulence of the suction air flow in the interior of the filter can be reduced.

The electric motor 30 is downstream of the filter material 21 in the direction of the suction air stream 12, and thus arranged in the clean air area. As a result, contamination of the electric motor, which can lead to early wear of the electric motor can be avoided.

The present invention makes it possible to provide a vacuum cleaner with a self-cleaning filter, which can have a compact design, with simple structural and cost-effective means. In particular, a filter with a low noise during the cleaning process can be provided. Further, a simple, friction-optimized construction of a self-cleaning filter can be achieved by the invention.

The features disclosed in the foregoing description, the claims and the drawings may be of importance both individually and in any combination for the realization of the invention in its various forms.

LIST OF REFERENCE NUMBERS

10 vacuum cleaners

 1 1 Motor-blower unit

 12 suction air flow

 13 dust chamber

 14 dust separator unit

 20 filters

 21 filter material

 22 Interior of the filter

 23 filter axis

 24 Screw cap of the filter

25 clutch

 26 clutch claw

 27 exhaust opening

 30 electric motor

 31 drive axle of the electric motor

40 cleaners

 41 Rotary axis of the cleaner

42 stripping element

 43 spring

Claims

A vacuum cleaner (10) comprising a filter (20) having an interior space (22) for filtering a dust-laden suction air stream (12) and an electric motor (30) for cleaning the filter (20), characterized in that the electric motor (30) is at least partially in the interior (22) of the filter (20) is arranged.

2. Vacuum cleaner (10) according to claim 1, characterized in that the vacuum cleaner (10) has a cleaner (40) for performing a mechanical cleaning of the filter (20).

3. Vacuum cleaner (10) according to claim 2, characterized in that the

Cleaner (40) with the electric motor (30) is in operative connection and is movable.

4. Vacuum cleaner (10) according to claim 2 or 3, characterized in that the cleaner (40) is rotatably mounted on a rotation axis (41).

5. Vacuum cleaner (10) according to claim 4, characterized in that the filter (20) is rotationally symmetrical and has a filter axis (23) which is arranged parallel to the axis of rotation (41) of the cleaner (40).

6. Vacuum cleaner (10) according to claim 4, characterized in that the electric motor (30) has a drive axis (31) which is arranged parallel to the axis of rotation (41) of the cleaner (40).

7. Vacuum cleaner (10) according to claim 4, characterized in that the filter (20) has a rotary closure (24) for attachment, and the direction of rotation of the cleaner (40) corresponds to the closing direction of the rotary closure (24).

8. Vacuum cleaner (10) according to one of claims 2 to 7, characterized in that the cleaner (40) is at least partially disposed in the interior (22) of the filter (20).

9. Vacuum cleaner (10) according to one of claims 2 to 8, characterized in that the cleaner (40) acts on the lowest bending stiffness of the filter (20).

10. Vacuum cleaner (10) according to any one of claims 2 to 9, characterized in that the filter (20) has a coupling (25) which is arranged between the electric motor (30) and cleaning (40).

11. Vacuum cleaner (10) according to one of claims 2 to 10, characterized in that the cleaner (40) has at least one scraper element (42).

12. A vacuum cleaner (10) according to any one of the preceding claims, characterized in that the filter (20) has an exhaust port (27), and the electric motor (30) at the exhaust port (27) opposite the region of the filter (20) is arranged ,

13. A vacuum cleaner (10) according to any one of the preceding claims, characterized in that the filter (20) filter material (21), and the electric motor (30) downstream of the filter material (21) in the direction of the suction air stream (12).

14. A vacuum cleaner (10) according to any one of the preceding claims, characterized in that the vacuum cleaner (10) comprises a motor-blower unit (11), and the filter

(20) of the motor-blower unit (1 1) upstream in the direction of the suction air flow (12).