EP2978354B1 - Vacuum cleaner - Google Patents

Description

The invention relates to a vacuum cleaner, comprising a suction inlet and a suction head, on which a suction unit is arranged with a motor device and on which a filter device is arranged, wherein a flow path between the suction inlet and the suction unit through the filter device, wherein on an outer side of the suction head a filter holder is arranged which holds the filter device on the suction head, which positions the filter device in the flow path and which is removable as a whole with the held filter device of the suction head, the filter device is removable from the filter holder, the filter holder is a housing having at least a first Opening and at least one second opening, wherein a portion of the flow path between the at least one first opening and the at least one second opening is located and the filter device between the at least one first opening and the at least is positioned a second opening, and wherein the at least one second opening is fluidly connected with held on the suction head filter holder with an inlet opening for the suction unit, which is arranged on the suction head.

The US 2002/0166199 A1 discloses a dust collection system for a vacuum cleaner having a fine particle separator chamber and a coarse particle separator chamber.

The DE 20 2006 010 915 U1 discloses a filter cartridge with a liquid-repellent filter material.

The DE 102 40 618 A1 discloses a reusable dust collection filter.

The invention has for its object to provide a sucker of the type mentioned, which has a compact design increased ease of use.

This object is achieved according to the invention with the suction device mentioned at the outset in that an envelope surface of a filter of the filter device, to which a main flow direction is oriented transversely at the outlet from the filter device, is oriented at least approximately parallel to the inlet opening.

The sucker according to the invention comprises a filter holder, which is removable with held filter device of the suction head and thus of the sucker. As a result, the filter device can be removed from the sucker in a simple manner in order to dispose of it, for example. It must then not be removed as the filter device from the sucker, but the filter holder as a storage unit for the filter device is removed.

It increases the ease of use, since a user does not have to transport the mere filter device, which is directly loaded with dirt, but a kind of storage container is transported. In addition, an operator can access the filter holder directly from outside without, for example, having to additionally open a lid on the suction head.

The filter holder can also be designed so that the space required for the filter holder and the filter device is minimized at the suction head. As a result, this can be realized with small dimensions and in particular transverse dimensions. Furthermore, this makes it possible to provide a relatively short and in particular optimized flow path for intake air of the suction unit.

In one embodiment, the filter device is designed as a filter cartridge. The filter cassette comprises one or more filters, such as flat-fold filters. Such a filter cartridge is manageable as a unit. It is, for example, held loosely on the filter holder, wherein the filter holder then ensures the fixed positioning on the suction head. As a result, in turn, the filter cartridge can be easily replaced on the filter holder.

The filter holder has a housing with at least one first opening and at least one second opening, wherein a partial region of the flow path lies between the at least one first opening and the at least one second opening, and the filter device between the at least one first opening and the at least one second opening is positioned. The filter holder then itself forms a channel for flow guidance in the flow path. It ensures a corresponding flow guidance, so that dirt-laden air is supplied to the filter and accordingly a flow through the filter is achieved. As a result, the suction head can be made compact, since the fixing device for the filter device itself is flow-conducting.

In particular, the at least one first opening is fluidly connected to a dirt collecting container when the filter holder is held on the suction head, wherein in particular the suction inlet is arranged on the dirt collecting container. This results in a compact structure. The filter holder can be easily connected directly to a suction outlet of the suction head which suction air is decoupled from the dirt collector and coupled into the suction head, connect. This results in an optimized flow guidance with a relatively short and direct flow path. The design effort for the formation of flow guides and flow deflections is minimized. This in turn allows a compact construction of the suction head.

When the filter holder is held on the suction head, the at least one second opening is fluidically connected to an inlet opening for the suction unit, which is arranged on the suction head and in particular that the at least one first opening is arranged in the flow path in front of the at least one second opening relative to a main flow direction , The at least one second opening of the filter holder can be positioned directly opposite the inlet opening on the suction head. This results in an optimized use of space and the corresponding dimensions of the suction head can be kept low.

An envelope surface of a filter of the filter device, to which a main flow direction is oriented transversely when exiting the filter device, is oriented at least approximately parallel to the inlet opening. As a result, the filter device can be aligned via the filter holder directly to the inlet opening and there is an optimized use of space.

In particular, a seal for the flow path is arranged on a wall which surrounds the inlet openings and / or on a wall which surrounds the at least one second opening and / or on the filter device. This results in a fluid-tight flow guidance with optimized suction result. The seal can also be used for a bias to realize, for example, a hold-down, which presses the filter device via the filter holder with a fixed filter holder against the suction head.

It is favorable if the at least one first opening and the at least one second opening are oriented transversely to one another and in particular are at an angle of between 70 ° and 110 ° with respect to one another and, for example, at an angle of at least approximately 90 ° to one another. It can thereby realize a flow deflection on the filter holder. This allows optimized space utilization.

It is particularly advantageous if the filter holder is designed so that there is a flow deflection in the flow path, wherein in particular a transverse deflection takes place. As a result, the filter holder can be directly connected to a dirt collecting tank and connected to the other directly to an inlet opening for the suction unit. This results in an optimized use of space.

A flow deflection can be assisted in that at least one deflection surface is arranged on the filter holder.

It is particularly advantageous if the at least one second opening is an opening, via which the filter device can be removed from the filter holder and via which the filter device can be inserted into the filter holder. This results in a compact design of the filter holder with optimized space utilization. This in turn makes it possible to form the suction head with minimized dimensions.

It is advantageous if the filter holder comprises a receiving space for the filter device, which is formed on a wall, wherein on the wall, the at least one first opening and the at least one second opening are formed. In the receiving space can then insert the filter device as a whole and fix on the filter holder in an operative position on the suction head.

The receiving space is, for example, at least approximately (hollow) cuboid. This allows, for example, a cuboid filter cartridge record.

Conveniently, a receiving space for the filter holder is formed on the suction head. This receiving space is particularly accessible to the suction head from the outside. This makes it easy to insert and remove the filter holder.

In one embodiment, the receiving space is limited by a first side wall, an opposite second side wall, a rear wall and a bottom, wherein in particular an inlet opening in the suction path for the suction unit is arranged on the rear wall. The receiving space can then be realized as a recess or indentation on the suction head. This results in an optimal use of space.

For example, the receiving space is formed by an at least approximately cuboidal recess on the suction head and formed in particular as a recess on the suction head. This results in an optimized use of space.

It is particularly advantageous if, when the filter holder is inserted into the receiving space, its outer contour is adapted to an outer contour of the suction head. This results in a closed or flush outer contour when the filter holder is fixed. The filter holder is tangible from an outside of the nipple, in order to remove or insert it.

It is advantageous if the receiving space opposite the back and opposite to the floor is open. It is formed by a kind of indentation. The filter holder can be easily removed or inserted via the corresponding openings.

It is particularly advantageous if a web guide for the filter holder is provided on the suction head. As a result, a removal operation or insertion process can be carried out in a defined manner. For example, it can be achieved by a web guide that a surface of the filter device during the removal process changes relative to the suction head and in particular changes so that the falling or falling out of dust from the filter device is minimized. By a web guide further, a filter holder can be brought into a defined fixing position.

In particular, the web guide is designed such that the filter holder is forcibly guided between an operative position, in which the filter device is in an operative position for the suction operation, and a removal position on the suction head. This makes it possible, for example, to position a surface of the filter device during the removal process in its orientation relative to the suction head differently, for example, to minimize the falling out of dust from the filter device.

In particular, an orientation of a surface of the filter device relative to the suction head changes during the transition from the active position into the removal position.

It is favorable when the web guide is designed so that the filter holder with filter device of the suction head is removable such that the surface of the filter device is at most at an angle of 70 ° and in particular at most at an angle of 40 ° to the direction of gravity, when the teat is placed on a level surface. In particular, the web guide is realized so that a rotation of the surface of the filter device during the removal process in comparison to a fixing position (in which the active position is reached) takes place. Preferably, in the active position, the surface of the filter device is aligned parallel or at least approximately parallel to the direction of gravity. By the corresponding change and in particular rotation of the filter device in the Acceptance via a correspondingly formed web guide results in a reduction in the risk of waste of dust and the like from the filter device.

It is particularly advantageous if the web guide comprises at least one curved path. This makes it possible, for example, to achieve a rotation of the surface of the filter device when the filter holder is removed from the suction head.

In particular, a distance of the web from a rear wall for a receiving space for the filter holder increases in a height direction away from a bottom of the receiving space. As a result, to remove the filter holder must first be moved away from the top and then away from the back wall. In particular, the corresponding movement is forcibly guided on the web guide. There then takes place a change in the relative position of the surface of the filter device to the suction head.

In particular, the web guide on associated side walls of the suction head and the filter holder at least one web and an associated attachment element or immersion element to the at least one web. For example, the web guide is designed as a slide track guide. By arranging on side walls of the filter holder and the suction head results in an optimized use of space.

It is favorable for the same reasons if the web guide has web components on opposite side walls of the filter support and on opposite side walls of a receiving space for the filter holder. It then results in a respective web guide on opposite sides. Accordingly, the web guide of the filter holder is stably formed on the suction head.

It is advantageous if a mechanism for fixing the filter holder is provided on the suction head in the region of an upper side of the suction head, wherein the Mechanism is designed in particular as a snap mechanism or pawl mechanism. As a result, the filter holder can be fixed in the region of this upper side and, for example, latching can be achieved there. It is thereby achieved a stable operative position for the filter device, held by the filter holder, on the suction head. This active position in turn can be solved in a simple manner to remove the filter holder from the suction head can.

It is advantageous if a channel device for engine cooling air is arranged in the filter holder, which is fluid-effectively separated from the flow path. One or more flow paths for cooling air for the engine device can then additionally be provided via the filter holder. This results in improved engine cooling.

In particular, the channel device has at least one first opening and a second opening, between which an air flow path is formed in the filter holder, wherein the at least one first opening fluidly effective with at least one corresponding opening on the suction head is coupled or coupled when the filter holder is seated on the suction head. This results in a simple connection of the channel device to corresponding (cooling) air flow paths in the suction head.

It is particularly favorable if the at least one opening on the suction head is seated on a side wall which delimits a receiving space of the filter holder. This results in an optimized use of space and an optimized connection of the channel device to the suction head.

It is furthermore expedient for the at least one second opening to be seated on a wall which is opposite a surface of the filter device when it is seated on the filter holder in an operative position. This results in an optimized use of space on the filter holder and this can be realized compact. This in turn makes the suction head compact.

It is advantageous if the filter holder is designed as a hold-down, which presses the filter device or filter material of the filter device to a corresponding element of the suction head when the filter holder is seated on the suction head. This results in optimized space utilization an optimized operative position of the filter device on the suction head, this optimized operative position is set via the filter holder.

It is favorable if the filter device sits loosely on this with the filter holder removed. This results in a simple structural design. The filter device can be easily detached from the filter holder or can be used in a simple manner in this.

It is advantageous if a grip element is arranged on the filter holder, which is located at the suction head fixed filter holder on an outer side of the teat. As a result, the filter holder with filter device can be removed or inserted in a simple manner. The filter holder can be accessed from an outside of the teat. In particular, the suction head does not have to be removed in order to remove the filter device or there is no need to provide an additional openable lid on the suction head.

In particular, the filter device is seated on the suction head such that an envelope surface of a filter of the filter device is oriented vertically at least approximately with respect to the direction of gravity when the sucker rests on a flat surface. This results in an optimized use of space. The filter of the filter device is then upright as it were. It can thereby also form a simple and relatively short flow path.

A sucker according to the invention can be used, for example, as a dry vacuum cleaner, wet vacuum cleaner or wet-dry vacuum cleaner.

The following description of preferred embodiments is used in conjunction with the drawings for further explanation of the invention.

Figur 1

eine perspektivische Darstellung eines Ausführungsbeispiels eines erfindungsgemäßen Saugers;

Figur 2

eine Schnittdarstellung eines Saugkopfs des Saugers gemäß Figur 1 längs der Linie 2-2;

Figur 3

eine perspektivische Darstellung des Saugkopfs gemäß Figur 2 mit abgenommenem Filterhalter;

Figur 4

eine Schnittansicht des Saugkopfs gemäß Figur 3;

Figur 5

eine weitere perspektivische Darstellung des Saugkopfs mit abgenommenem Filterhalter;

Figur 6

eine perspektivische Teilschnitt-Darstellung eines Filterhalters;

Figur 7

eine Ansicht des Filterhalters gemäß Figur 6 in der Richtung A;

Figur 8

eine perspektivische Darstellung des Filterhalters gemäß Figur 6 in der Richtung B; und

Figur 9

den Filterhalter gemäß Figur 6 mit abgenommener Filtereinrichtung.

Show it:

FIG. 1

a perspective view of an embodiment of a teat according to the invention;

FIG. 2

a sectional view of a suction head of the teat according to FIG. 1 along the line 2-2;

FIG. 3

a perspective view of the suction head according to FIG. 2 with removed filter holder;

FIG. 4

a sectional view of the suction head according to FIG. 3 ;

FIG. 5

a further perspective view of the suction head with the filter holder removed;

FIG. 6

a partial perspective sectional view of a filter holder;

FIG. 7

a view of the filter holder according to FIG. 6 in direction A;

FIG. 8

a perspective view of the filter holder according to FIG. 6 in the direction B; and

FIG. 9

the filter holder according to FIG. 6 with removed filter device.

An embodiment of a nipple, which in FIG. 1 10, comprises a dirt collecting container 12, on which a removable suction head 14 is placed. The dirt collecting container 12 has a suction inlet 16 to which a suction hose is connected in the usual way can be. The suction head 14 seals the dirt collecting container 12 from the top and forms a suction outlet 18 (FIG. FIG. 2 ), on which a filter device 20 with (at least) a filter 22 (see for example FIG. 8 ) is held. On the suction head 14 also sits a suction unit 24 with a blower device 26 and a motor device 28. The motor device 28, which comprises one or more motors and in particular electric motors, drives a blower of the blower device 26 in order to generate an intake flow.

The dirt collecting container 12 communicates with an interior with the suction unit 24 in fluid communication. During operation of the vacuum cleaner 10, a flow path is formed between the dirt collecting container 12 and the suction unit 24. This can be sucked in at the suction inlet 16.

The dirt collecting container 12 is acted upon by the suction unit 24 during operation of the vacuum cleaner 10 with negative pressure, so that forms a suction flow in the flow path 30. Under the effect of this suction flow, dirt laden with suction air can be sucked into the dirt collecting container 12 via the suction inlet 16. Suction air laden with dirt is then sucked off by the suction unit 24. Suction air is discharged via one or more exhaust ports 32, which are arranged on the suction head 14, into the environment.

The suction air flows through the filter 22 of the filter device 20, so that entrained solid particles deposit on the dirt collecting container 12 facing dirty side 34 of the filter 22.

The filter device 20 is as a filter cartridge 36 (see in particular FIG. 9 ) educated. This comprises a frame 38, on which the filter 22 is held. The filter 22 is formed for example as a flat fold filter.

The filter cartridge 36 can be handled as a unit as a whole.

The filter device 20 has a dirty side 40 and a clean side 42. The dirty side 40 faces the dirt collecting container 12.

On the clean side 42, the filter device 20 has an (envelope) surface 44, which is substantially planar. A main flow direction out of the filter device 20 lies transversely and in particular at least approximately perpendicular to this surface 44.

The filter device 20 is held on a filter holder 46. The filter holder 46 has a housing 48 with walls, in which a receiving space 50 for the filter device 20 is formed. Into the receiving space 50, the filter device 20 can be used.

On the housing 48, a first opening 52 is formed. When the filter holder 46 is fixed to the suction head 14, the first opening 52 is in direct fluid communication with the suction outlet 18. A (dirt-laden) suction stream flows into the receiving space 50 of the filter holder 46 via the first opening 52.

The first opening 52 has an opening direction 54. A corresponding opening area of the first opening 52 is oriented transversely and in particular perpendicular to this opening direction 54. When the filter holder 46 is fixed to the suction head 14, the opening direction 54 is at least approximately parallel to a main flow direction in the flow path 30 when entering the suction head 14 at the suction outlet 18.

In one embodiment, the opening direction 54 is at least approximately parallel to a rotation axis 56 of a blower of the blower device 26.

The housing 48 further includes a second opening 58. This second opening 58 has an opening direction 60 (FIG. FIG. 9 ). An opening area of the second opening 58 is oriented perpendicular to this opening direction 60. The opening direction 60 is transverse and in particular at least approximately perpendicular to the opening direction 54, that is, the second opening 58 is oriented transversely to the first opening 52. In the flow path 30, when the filter holder 46 is held on the suction head 14, a fluid flow enters the filter holder 46 via the first opening 52, flows through the filter 22 there and exits via the second opening 58. There is a flow deflection in a transverse direction on the filter holder 46.

It can be provided that the receiving space 50 delimiting the filter holder 46 has one or more deflection surfaces 62, which support the transverse deflection of the flow in the flow path 30 to the filter holder 46.

The second opening 58 is also an opening, via which the filter device 20 as a whole (in particular the filter cartridge 36) can be inserted into the receiving space 50 or can be removed therefrom (cf. FIG. 9 ). A corresponding removal direction 64 or the opposite direction to the direction 64, which is an insertion direction, are at least approximately parallel to the opening direction 60 of the second opening 58.

The filter device 20 is inserted through the second opening 58 into the receiving space 50. The receiving space 50 is adapted to the corresponding shape of the filter device 20 and formed, for example cuboid, if correspondingly the filter device 20 is cuboidal.

When inserted into the receiving chamber 50 filter cartridge 36, the surface 44 is at least approximately parallel to the second opening 58th

When inserted into the receiving chamber 50 filter cartridge 36, this is based on a bottom of the housing 48 and / or is based on the frame 38 on the front side of the housing 48 from.

The receiving space 50 is closed fluid-tight except for the first opening 52 and the second opening 58. A flow in the flow path 30, which enters at the first opening 52, then forced to emerge at the second opening 58 after the filter 22 has been passed through. A flow path between the first opening 52 and the second opening 58 forms a portion of the flow path 30 when the filter holder 46 is fixed to the suction head 14.

The filter holder 46 further comprises a channel device 66 with one or more channels which are fluid-tightly isolated from the receiving space 50 ( FIG. 6 ). For example, the housing 48 has a first side wall 68a and a second parallel spaced side wall 68b. The second side wall 68b defines the receiving space 50. The first side wall 68a forms a more outer side wall of the filter holder 46. Between the first side wall 68a and the second side wall 68b, one or more channels of the channel device 66 are arranged.

The channel means 66 are associated with (at least) a first opening 70 and (at least) a second opening 72. Between the first opening 70 and the second opening 72, an air flow can form. This air flow can be used for cooling the motor device 28. Accordingly, a connection for the corresponding air flow is provided on the suction head 14, which corresponds to the first opening 70, as will be described in more detail below.

The second opening 72 and the second openings 72 are arranged, for example, on a rear side 74 of the filter holder 46.

On the suction head 14, a recess 76 is formed, which defines a receiving space 78 for the filter holder 46. The receiving space 78 is bounded by a rear wall 80, which also defines a receiving space 82 for the suction unit 24. Further, the receiving space 78 is bounded by the opposed side walls 84a, 84b and a bottom 86.

The receiving space 78 has an approximately cuboid shape and is formed as a recess on the suction head 14.

In the bottom 80, an opening 88 is formed which is in direct fluid communication with the suction outlet 18.

The filter holder 46 has, in the region of the first opening 52, a peripheral wall 90 which is seated on the housing 48 and which is designed so that it can be immersed in the opening 88 on the bottom 86. Between the wall 90 and the residual housing of the filter holder 46, a contact surface 92 is formed, via which the filter holder 46, when it is fixed to the suction head 14, is placed on the floor 86 and is supported on this.

On the rear wall 80, an inlet opening 94 is arranged, which leads to the suction unit 24. In the inlet opening 94, for example, a grid is arranged. The inlet opening 94 is adapted in its dimensions to the filter 22. If the filter holder 46 is fixed in the suction head 14, then the filter device 20 is directly opposite the inlet opening 94. A flow emerging from the filter device 20 flows directly through the inlet opening 94.

It may be provided that for fluid sealing of the flow path 30 between the filter device 20 and the inlet opening 94, a seal 96 is positioned. This seal 96 acts in particular on a wall which surrounds the inlet opening 94.

In one embodiment, the seal 96 is disposed on the frame 38 of the filter cartridge 36 (see FIGS FIGS. 8 and 9 ).

In principle, it is also possible that a corresponding seal is arranged on the wall around the inlet opening 94 or is arranged on a corresponding (end) wall of the housing 48.

On one side wall 84a or 84b or on both side walls 84a, 84b, one or more openings 98 are arranged, which correspond with the filter holder 46 inserted with the one or more openings 70 of the filter holder 46. In the suction head 14, one or more flow paths for cooling air for the motor device 28 are formed, which open into the opening or openings 98.

When the filter holder 46 is fixed to the suction head 14, air circulation through the filter holder 46 with the outside space for cooling air for the motor device 28 can be realized. The corresponding flow paths for cooling air are separated from the flow path 30 in a fluid-tight manner.

At the receiving space 78 and the housing 48, a corresponding web guide is arranged. This web guide comprises opposite guideways 100 (See, for example FIG. 4 ) on the side walls 84a, 84b on the recess 76. The corresponding guideways 100 are curved. Their distance from the rear wall 80 increases as the distance from the floor 86 increases.

On opposite sides of the housing 48 corresponding guide rails 102 are arranged, which are also correspondingly curved. By way of the guide strips 102, the filter holder 46 can be placed on the guideways 100 during the fixation on the suction head 14. He is then forced.

In a fixing position, the surface 44 of the filter device 20 of the inlet opening 94 is parallel opposite. Relative to the direction of gravity g, when the teat 10 is placed horizontally on a flat surface, then the surface 44 is oriented vertically (parallel to the direction of gravity g).

In this position, a fixing position of the filter holder 46 is reached.

When removing the filter holder 46 of this (see FIG. 4 ) is lifted away from the floor 86 and upwardly and outwardly away from the rear wall 80. The curved web guide of the filter holder 46 on the recess 76 ensures that up to a removal position, in which the guide rails 102 no longer act on the guideways 100, the filter holder 46 is forcibly guided on the suction head 14.

Due to the curved path, the orientation of the surface 44 relative to the suction head 14 changes with this forced guidance. With the filter holder 46 fixed, the surface 44 lies at least approximately parallel to the inlet opening 94. In a removal position, as shown in FIG FIG. 4 is shown, the surface 44 is transverse to the inlet opening 94th

In particular, the web guide with the guideway 100 and the guide rail 102 is configured so that the surface 44 at the removal position, when the sucker 10 is just placed on a horizontal surface, at most at an angle of 70 ° and for example at most at an angle of 50 ° to the direction of gravity g. As a result, a "clean" removal of the filter device 20 from the suction head 14 can be achieved.

The web guide with the guide track 100 and the guide rail 102 is further configured such that when the fixation position is reached, the filter device 20 is positioned with its surface 44 in a functionally effective position to the inlet opening 94.

A mechanism 104 is provided, which ensures the fixation of an inserted filter holder 46 on an upper side 106 of the suction head. This mechanism 104 is designed for example as a snap mechanism. For example, to the filter holder 46, a latching flap 108 or pawl is arranged, which can engage in a corresponding receptacle 110 on the upper side 106 of the suction head 14, which above the rear wall 80. The latching flap 108 can be actuated via a pushbutton 112, which is in particular spring-loaded.

On a rear side of the filter holder 46, a grip element 114 is arranged. About this handle member 114 of the filter holder 46 for insertion on the suction head 14 and for removal from the suction head 14 is tangible.

The filter holder 46 is formed so that it is adapted to a contour of the suction head 14; when the filter holder 46 is inserted on the suction head 14, then results in a closed contour (see FIG. 1 ).

The recess 76 forms a kind of receiving bay for the filter holder 46. It is open to the front (away from the rear wall 80) and upwards (away from the bottom 86).

The sucker 10 according to the invention works as follows:
The filter device 20 is held on the filter holder 46 on the suction head 14 in a functional position (operative position).

In the functional position, in one embodiment, the surface 44 of the filter device 20 is vertically aligned. Accordingly, the inlet opening 94 is vertically aligned (when the teat 10 stands upright on a flat surface). This results in a space-saving design of the suction head 14th

The filter holder 46 is formed as a detachable box. As in FIG. 3 As shown, it can be removed from the suction head 14 via the web guide with the filter device 20. As a result, an operator does not have to touch the filter device 20 when removing it from the suction head 14, but only needs to touch the "box", namely the filter holder 46.

Due to the web guide can be, as in the Figures 3 and 4 shown to achieve a change in the orientation of the surface 44 of the filter device 20 relative to the suction head 14 at the decrease. There is a reorientation with respect to the direction of gravity g, so that in particular a drop of dust from the filter device 20 during the decrease is at least reduced.

After removal of the filter holder 46 from the suction head 14, the combination of filter holder 46 can be transported with filter device 20, for example, then to dispose of the filter device 20. This sits loose in the receiving space 50 and can then be easily removed, for example, for disposal (see FIG. 9 ).

When the filter holder 46 is seated on the suction head 14, in particular the web guide is designed so that the filter holder 46 also acts as a hold-down, which presses the filter device 20 with the seal 98 against the inlet opening 94 and thereby causes a secure fixation on the suction head 14 ,

In the suction mode, fluid flow, which is contaminated, enters the filter holder 46 in the flow path 30 through the first opening 52 and flows through the filter device 20 from there. Dust filtering takes place there. The flow enters through the second opening 58 in the inlet opening 94 and at the exhaust port 32 from.

According to the invention, it is further provided that the filter holder 46 provides a contribution to the cooling of the motor device 28. In it, one or more air flow paths for cooling air are formed.

A filter cleaning on the vacuum cleaner 10 can be achieved in a simple manner by external air. For this purpose, for example, the suction inlet 16 is closed and via a corresponding mechanism of the suction unit 24 attracted external air is passed through the inlet opening 94 into the filter holder 46 and thus the filter device 20 fed to just cause the filter cleaning.

The nipple 10 and in particular the suction head 14 can be realized with compact dimensions. The "dead space" for the filter holder 46 with the filter device 20, which is needed to position the filter device 20 on the suction head 14 and can also be removed, can be minimized. This results in an optimal space utilization.

A flow path in the flow path 30 can be minimized at the suction head 14.

This results in a high level of user-friendliness, since a replacement of the filter device 20 is possible in a simple manner and an operator does not have to touch the filter device 20 when removing it. Furthermore, the falling off of dirt from the filter device 20 during the decrease is largely prevented.

LIST OF REFERENCE NUMBERS

10

Mammal

12

dirt collection

14

suction head

16

suction inlet

18

suction outlet

20

filtering device

22

filter

24

suction unit

26

blower

28

motor means

30

flow path

32

exhaust vent

34

dirty side

36

filter cassette

38

frame

40

dirty side

42

clean side

44

surface

46

filter holder

48

casing

50

accommodation space

52

first opening

54

opening direction

56

axis of rotation

58

second opening

60

opening direction

62

deflection

64

removal direction

66

passage means

68a

first sidewall

68b

second side wall

70

first opening

72

second opening

74

back

76

recess

78

accommodation space

80

rear wall

82

accommodation space

84a

Side wall

84b

Side wall

86

ground

88

opening

90

wall

92

contact surface

94

inlet opening

96

poetry

98

opening

100

guideway

102

guide rail

104

mechanism

106

top

108

retaining flap

110

admission

112

push-button

114

handle element

Claims (15)

1. Suction apparatus, comprising a suction inlet (16) and a suction head (14) on which a suction unit (24) including a motor device (28) is arranged and on which a filter device (20) is arranged, wherein a flow path (30) between the suction inlet (16) and the suction unit (24) passes through the filter device (20), wherein arranged on an outer side of the suction head (14) is a filter holder (46) which holds the filter device (20) to the suction head (14) and positions the filter device (20) in the flow path (30) and is removable as a whole, together with the filter device (20) held thereby, from the suction head (14), wherein the filter device (20) is removable from the filter holder (46), wherein the filter holder (46) comprises a housing (48) having at least one first opening (52) and at least one second opening (58), wherein a portion of the flow path (30) is located between the at least one first opening (52) and the at least one second opening (58) and the filter device (20) is positioned between the at least one first opening (52) and the at least one second opening (58), and wherein, when the filter holder (46) is held to the suction head (14), the at least one second opening (58) is operatively connected for fluid communication with an inlet opening (94) for the suction unit (24) that is arranged on the suction head (14), characterized in that an envelope surface (44) of a filter (22) of the filter device (20) relative to which a main flow direction is transversely oriented upon exit from the filter device (20) is oriented at least approximately parallel to the inlet opening (94).
2. Suction apparatus in accordance with claim 1, characterized in that the filter device (20) is configured as a filter cassette (36).
3. Suction apparatus in accordance with claim 1 or 2, characterized in that, when the filter holder (46) is held to the suction head (14), the at least one first opening (52) is operatively connected for fluid communication with a dirt collection container (12), in particular wherein the suction inlet (16) is arranged on the dirt collection container (12), and in particular in that the at least one first opening (52) is arranged upstream of the at least one second opening (58) relative to a main flow direction in the flow path (30), and in particular in that arranged on a wall which surrounds the inlet opening (94) and/or on a wall which surrounds the at least one second opening (58) and/or on the filter device (20) is a seal (96) for the flow path (30), and in particular in that the at least one first opening (52) and the at least one second opening (58) are oriented transversely to one another and in particular lie at an angle between 70° and 110° to one another and, for example, lie at an angle of at least approximately 90° to one another.
4. Suction apparatus in accordance with any one of the preceding claims, characterized in that the filter holder (46) is configured such that at the filter holder (46), a redirection of flow is realized in the flow path (30), in particular wherein a transverse redirection is realized, and in particular in that at least one redirecting surface (62) is arranged at the filter holder (46).
5. Suction apparatus in accordance with any one of the preceding claims, characterized in that the at least one second opening (58) is an opening via which the filter device (20) is removable from the filter holder (46) and via which the filter device (20) is insertable into the filter holder (46).
6. Suction apparatus in accordance with any one of the preceding claims, characterized in that the filter holder (46) comprises a receiving space (50) for the filter device (20), which receiving space (50) is formed on a wall, wherein the at least one first opening (52) and the at least one second opening (58) are formed on said wall, and in particular in that the receiving space (50) has a cuboid shape.
7. Suction apparatus in accordance with any one of the preceding claims, characterized in that a receiving space (78) for the filter holder (46) is formed on the suction head (14) and in particular in that the receiving space (78) is bounded by a first side wall (84a), an opposite second side wall (84b), a rear wall (80) and a bottom (86), in particular wherein arranged on the rear wall (80) is an inlet opening (94) in the suction path (14) for the suction unit (24), and in particular in that the receiving space (78) is formed by an at least approximately cuboid-shaped recess (76) in the suction head (14) and is formed in particular as an inward bulge in the suction head (14), and in particular in that, when the filter holder (46) is inserted in the receiving space (78), the outer contour thereof conforms to an outer contour of the suction head (14), and in particular in that the receiving space (78) is open opposite to the rear wall (80) and opposite to the bottom (86).
8. Suction apparatus in accordance with any one of the preceding claims, characterized by a track guide (100, 102) for the filter holder (46) on the suction head (14) and in particular characterized in that the track guide (100, 102) is configured such that the filter holder (46) is restraint-guided at the suction head (14) between an operative position in which the filter device (20) is in a position operative to effect suction operation and a removal position, and in particular in that, in transition from the operative position to the removal position, an orientation of a surface (44) of the filter device (20) changes relative to the suction head (14), and in particular in that the track guide (100, 102) is configured such that the filter holder (46) together with the filter device (20) is removable from the suction head (14) such that the surface (44) of the filter device is at most at an angle of 70° and in particular at most at an angle of 40° to the direction of gravity (g) when the suction apparatus is supported on a flat surface, and in particular in that the track guide (100, 102) comprises at least one curved track (100), and in particular in that a distance of the track (100) from a rear wall (80) for a receiving space (78) for the filter holder (46) increases in a height direction away from a bottom (86) of the receiving space (78), and in particular in that the track guide (100, 102) comprises, on associated side walls (84a, 84b) of the suction head (14) and the filter holder, at least one track and an associated contact element or entry element to the at least one track (100), and in particular in that the track guide (100, 102) comprises track components on side walls of the filter holder (46) facing away from each other and on opposite side walls (84a, 84b) of a receiving space (78) for the filter holder (46).
9. Suction apparatus in accordance with any one of the preceding claims, characterized by a mechanism (104) for fixing the filter holder (46) to the suction head (14) in the area of an upper side (106) of the suction head (14), in particular wherein the mechanism is configured as a snap mechanism or a pawl mechanism.
10. Suction apparatus in accordance with any one of the preceding claims, characterized in that arranged on the filter holder (46) is a duct device (66) for motor cooling air which is fluidly and operatively isolated from the flow path (30), and in particular in that the duct device (66) comprises at least one first opening (70) and at least one second opening (72) between which an air flow path is formed, wherein the at least one first opening (70) is fluidly and operatively coupleable or is fluidly and operatively coupled to at least one corresponding opening (98) on the suction head (14) when the filter holder (46) is located on the suction head (14), and in particular in that the at least one opening (70) on the suction head (14) is located on a side wall (84a, 84b) which bounds a receiving space (78) for the filter holder (46), and in particular in that the at least one second opening (72) is located on a wall which lies opposite a surface (44) of the filter device (44) when the latter is located on the filter holder (46) in an operative position.
11. Suction apparatus in accordance with any one of the preceding claims, characterized in that the filter holder (46) is configured as a hold-down device which presses the filter device (20) or filter material of the filter device (20) against a corresponding element of the suction head (14) when the filter holder (46) is located on the suction head (14).
12. Suction apparatus in accordance with any one of the preceding claims, characterized in that, when the filter holder (46) is removed, the filter device (20) is loosely located thereon.
13. Suction apparatus in accordance with any one of the preceding claims, characterized in that a handle element (114) is arranged on the filter holder (46), which handle element (114) is located on an outer side of the suction apparatus when the filter holder (46) is fixed to the suction head (14).
14. Suction apparatus in accordance with any one of the preceding claims, characterized in that the filter device (20) is located on the suction head (14) such that an envelope surface (44) of a filter (22) of the filter device (20) is oriented at least approximately vertically with respect to the direction of gravity (g) when the suction apparatus is supported on a flat support.
15. Suction apparatus in accordance with any one of the preceding claims, characterized by being configured as a dry suction apparatus, wet suction apparatus or wet-dry suction apparatus.

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