EP3095367A1 - Suction nozzle for receiving fine material and fine dust - Google Patents

Abstract

The invention relates to a suction nozzle for a vacuum cleaner for absorbing dirt and / or dust from a floor by means of a Saugluftströmung with a housing (1), within the housing (1) formed suction chamber (3), one in the suction chamber (3) opening Suction channel (4) for guiding the suction air flow and a suction opening (5) formed as a bottom opening of the suction chamber (3), the suction mouth (5) having a central suction mouth section (6) and two lateral suction mouth sections (7) flanking the central suction mouth section (6) and the side suction mouth portions (7) are formed such that the side suction mouth portions (7) taper away from the suction passage (4) toward opposite sides (9a) of the suction nozzle in their cross section and at their head ends by a terminating member, respectively (10a) are partially closed.

Description

The invention relates to a suction nozzle for a vacuum cleaner for sucking dirt and / or dust from a floor by means of a Saugluftströmung with a housing, a suction chamber formed within the housing, opening into the suction chamber suction channel for guiding the Saugluftströmung and a bottom opening of the suction chamber trained suction mouth.

Suction nozzles, also known as attachments, abbreviated as nozzles or depending on the purpose as hard floor or carpet nozzles, are known in practice and are usually used together with a vacuum cleaner for sucking dirt and / or dust from a floor. Vacuum cleaners with such suction nozzles regularly have a base housing in which an electrically operated suction fan motor is arranged to build up a suction air flow. The suction nozzle is typically fluidly connected to the vacuum cleaner via a flexible suction hose and / or a handling tube. In vacuum robots, the suction nozzle is generally integrated into the basic housing itself. At the suction nozzle, a row of bristles or the like for releasing dirt and / or dust from a floor is often provided. The so detached from the ground dust and / or dirt is entrained by the Saugluftströmung and usually secreted in a arranged in the base housing dust collecting space in a dust filter bag.

The dirt or dust to be cleaned from the floor is classified into coarse material and fine dust based on the respective particle size. From the prior art, on the one hand for receiving coarse material optimized suction nozzles are known, while again other suction nozzles are designed for a particularly good absorption of fine dust. For example, hard floor nozzles are often not designed for vacuuming coarse material, while other suction nozzles exist that manually with the aid of a foot switch between the Inclusion of coarse material and fine dust are switchable. By pressing the foot switch a bristle strip is often extended out of the suction nozzle, by which the distance of the suction nozzle is increased to the ground, so that coarse material can be better absorbed or sucked. Ultimately, however, it is the case that the suction nozzles known from the prior art either only satisfy one of the competing and therefore opposite requirements, ie are either predestined for coarse material or for fine dust absorption, or else have to be manually switched by the operator between different operating modes.

Based on this, it is an object of the invention to provide a suction nozzle which is universally applicable for receiving dirt and / or dust of different particle size and is characterized in particular by a particularly good absorption of fine dust. In addition, the suction nozzle to allow the inclusion of both coarse material and fine dust, without requiring a mode of operation of the suction nozzle must be manually switched. Moreover, it is desirable that such a suction nozzle is characterized by a low pushing force and / or a low noise emission.

The object is achieved by the features of the independent claim. Advantageous embodiments are specified in the subclaims.

Accordingly, the object is achieved by a suction nozzle for a vacuum cleaner for sucking dirt and / or dust from a soil by means of a Saugluftströmung with a housing, a suction chamber formed within the housing, opening into the suction chamber suction channel for guiding the Saugluftströmung and as The suction mouth has a central suction mouth section and two lateral suction mouth sections flanking the central suction mouth section, and the lateral suction mouth sections are formed in such a way that the lateral suction mouth sections extend from the suction mouth section Suction channel towards opposite sides of the suction nozzle in its cross-section tapering away and are partially closed at their head ends by a closure element.

An essential point of the invention lies in the division of the suction mouth into the central suction mouth section and the two lateral suction mouth sections, so that separate regions for receiving particulate matter, in particular through the lateral suction mouth sections, and for coarse material, in particular through the central suction mouth section, are created. Due to the proposed configuration of the side suction mouth sections tapering in their cross section, which are each partially closed at their head ends by a closing element, a high flow velocity or a high volume flow is achieved in the lateral suction mouth sections, whereby compared to designs known from the prior art a much better fine dust absorption is possible. The suction air streams passing through the lateral suction mouth sections and the central suction mouth section meet in the region of the suction channel, from where the suction air flow with the dirt or dust sucked up from the floor is led away from the suction nozzle, for example through a connecting piece.

The high negative pressure resulting in the lateral suction mouth sections due to the proposed embodiment can be realized in an advantageous manner with a comparatively small area of the suction nozzle subject to negative pressure. Accordingly, the proposed suction nozzle is characterized by a low pushing force. Since no manual switching of different operating modes for sucking fine dust and coarse material is necessary, the suction nozzle allows a particularly simple work. In addition, the suction nozzle is characterized in a further advantageous manner by a low noise emission. As a result, the proposed suction nozzle by the design of the lateral suction mouth sections and the division of the Suction mouth in the central suction mouth section and the two suction port sections preferably framing the central suction mouth section a particularly high suction power both in the intake of fine dust and coarse material. The presently selected terminology for describing the arrangement of the parts of the suction nozzle is such that it is assumed that a position and orientation of the suction nozzle, as in the operating case when sucking a soil is present by the suction nozzle is placed on the floor and moved over this ,

According to a preferred development, the cross-section of the lateral suction mouth sections tapers linearly, stepwise and / or in a curve shape. Particularly preferably, the lateral suction mouth sections are designed such that the width of the lateral suction mouth sections of ≥ 30 mm and ≤ 40 mm, preferably 35 mm at the suction channel to ≥ 20 mm and ≤ 30 mm, preferably 25 mm on the sides of the suction nozzle before Tapered end element, wherein the height of the lateral suction mouth sections at the suction channel and at the sides of the suction nozzle before the end element ≥ 20 mm and ≤ 30 mm, preferably 22 mm. For optimum particulate matter uptake, it has proved experimentally particularly advantageous if the lateral suction mouth sections each taper linearly from a width of 33 mm at their mouth in the suction channel to 27 mm in a region in front of the closing element, while the height of the respective lateral suction mouth section is constant 22 mm.

There are various possibilities for the design of the terminating element, wherein it is fundamentally preferred that the cross section of the lateral suction mouth section is reduced by the terminating element. According to a particularly preferred embodiment, it is provided that the closing element extends from the housing toward the ground in a snap-like manner such that the closing element has an opening of the lateral suction mouth section on the side of the suction nozzle with a height of ≥ 6 mm and ≦ 10 mm, preferably 7 , 6 mm, and a width of ≥ 20 mm and ≤ 30 mm or ≤ 30 mm, preferably 25 mm, forms. The closing element is preferably designed as a U-shaped window assessed in a bottom view. Judged in side view, the window is preferably at least partially bounded by the housing and lateral flow seal means described below. Particularly preferably, the closing element is designed in one piece with the housing, for example, injection molded from a plastic, and has a thickness of ≥ 2 mm and ≤ 4 mm, preferably 2.5 mm. The closure element preferably extends in the vertical direction away from the housing.

In a further particularly advantageous embodiment, the lateral suction mouth sections at their head ends on the sides of the suction nozzle in each case an angling, wherein the bend is preferably formed such that the width of the lateral suction mouth sections is reduced by the angling and / or by the end elements On the sides of the suction nozzle formed openings of the lateral suction mouth sections extend perpendicular to a front opening of the central suction mouth portion. Preferably, the bend is designed such that the bending causes a reduction of the width of the lateral suction mouth section by 2 mm, 5 mm or 10 mm in the direction of the side of the suction nozzle. With reference to the embodiment already mentioned above, a particularly good fine dust absorption can be achieved if the lateral suction mouth sections each taper from a width of 33 mm at their mouth in the suction channel linearly to a width of 27 mm immediately before the bend, whereupon A further tapering of the width due to the angling follows up to 25 mm on the respective sides.

According to a preferred embodiment, the suction mouth and / or the central suction mouth has a shape like an isosceles triangle, wherein preferably the suction channel opens in the region of the tip between the legs of the triangle in the suction space thus formed, the central Suction mouth section extends from the suction channel to the base of the isosceles triangle and the side suction mouth sections extend from the suction channel along the respective legs of the isosceles triangle to the tip-opposite corners of the isosceles triangle. As a result of the proposed embodiment, a coarse material region formed by the central suction mouth section is arranged in the forward stroke of the suction nozzle essentially in front of the fine dust region formed by the lateral suction mouth sections. The lateral suction mouth sections preferably adjoin the central suction mouth section at the corners of the isosceles triangle arranged opposite to the tip. In this way, the fine dust absorption is advantageously made possible, at least in corner areas of the suction nozzle and as far as the front side of the suction nozzle.

According to a further preferred embodiment, the two lateral suction mouth sections extend away from the suction channel in each case to one side of the suction nozzle in such a way that for the angle α between the longitudinal extension directions of the two lateral suction mouth sections 45 ° ≤ α ≤ 160 °, preferably 90 ° ≤ α ≤ 135 °, most preferably α ≤ 135 °, or extend the two lateral suction mouth sections of the suction channel in a curve away from each other. If the two lateral suction mouth sections extend linearly or approximately linearly between the suction channel and the sides of the suction nozzle, for example along the legs of a suction mouth designed in the shape of an isosceles triangle, the central suction mouth section preferably has a triangular shape in the shape of an isosceles triangle whose Base is oriented towards the front of the suction nozzle.

According to a particularly preferred development, the lateral suction mouth sections are respectively delimited by inner and outer lateral flow sealing means extending from the suction channel to the sides of the suction nozzle, such that the central suction mouth section extends through the inner lateral Flow sealant of the respective lateral suction mouth sections is limited. In principle, the inner and outer flow sealing means can be designed as desired for sealing the suction air flow, although preferably the lateral flow sealing means are designed as bristle strips, as a single or multi-row arrangement of bristle tufts, as a sealing lip and / or as a combination thereof.

The bristles or the sealing lips preferably extend perpendicularly away from the housing in the direction of the floor and have a flexible configuration, so that coarse material or fine dust located under the bristles or the sealing lips passes into the central one when the suction nozzle is moved in the usual direction of displacement Suction mouth section and / or the lateral suction mouth sections can pass. The two inner flow sealing means preferably limit the passage of the suction air flow between the suction channel and the central suction mouth portion, wherein the opening width between the two inner flow seal means preferably 25 mm, 30 mm, 32 mm, 37 mm, 40 mm or 45 mm, so that a proportion of ≥ 40% and ≤ 65% of Saugluftströmung flows through the central suction port section.

Particularly preferably, the lateral flow sealing means extend from the suction channel almost linearly to the sides of the suction nozzle. The outer lateral flow sealing means are preferably arranged on an edge of the suction nozzle and thus preferably extend along the entire edge. In the region of the suction channel, the two outer flow sealing means are preferably configured in one piece and very particularly preferably curve into one another. The suction channel preferably has a round or oval-shaped cross section, which is limited in the mouth region at least partially by the outer lateral flow seal means. On the sides of the suction nozzle, or in the case of a suction mouth in the manner of an isosceles triangle at the corners of the triangle, are the lateral Suction openings preferably opened, for example, through the U-shaped side window through which particulate matter can flow into the respective lateral suction mouth.

According to a preferred development, the suction mouth has a further central suction mouth section and two further suction mouth sections flanking the further central suction mouth section, wherein the central suction mouth section and the further central suction mouth section extend away from the suction channel in opposite directions such that the two lateral suction mouth sections and two further lateral suction mouth sections form an x-shaped arrangement. Such a designed suction nozzle can accommodate coarse material both in the forward stroke and in the return stroke. Preferably, the suction nozzle in the forward stroke and in the return stroke is symmetrical, in particular designed mirror-symmetrical. Further preferably, the suction channel in plan view represents the center of this embodiment, of which the central suction mouth section with the two lateral suction mouth sections and in particular mirror-symmetrically opposite the further central suction mouth section with the other lateral suction mouth sections extend away. In this embodiment, instead of manually rotating a suction nozzle known from the prior art by 180 °, an operator can simply move the suction nozzle back and forth to receive coarse material in both the forward stroke and the return stroke.

The invention will be explained in more detail with reference to the accompanying drawings with reference to a preferred embodiment.

Fig. 1

eine Saugdüse gemäß einer bevorzugten Ausführungsform der Erfindung in schematischer Unteransicht der Saugdüse, und

Fig. 2

die Saugdüse nach Fig. 1 in einer perspektivischen Ansicht.

Show it:

Fig. 1

a suction nozzle according to a preferred embodiment of the invention in a schematic bottom view of the suction nozzle, and

Fig. 2

the suction nozzle after Fig. 1 in a perspective view.

Fig. 1 and 2 show a suction nozzle, also called floor nozzle, in a schematic bottom view. The suction nozzle has a housing 1 made of plastic, on which the bottom side a bottom plate 2 is formed. Below the bottom plate 2, a suction chamber 3 is formed, in which a suction channel 4 opens and which forms a suction mouth 5 as a bottom-side opening. How out Fig. 1 can be seen, the bottom plate 2 and the suction mouth 5 on a shape in the manner of an isosceles triangle, the base 6a in the pre-stroke represents the front of the suction nozzle.

The suction channel 4 is fluid-tight with a provided on the top of the housing 1 connecting piece, not shown, connected. At the connection piece, a handling pipe and / or a flexible hose can be connected in a flow-tight manner to a base housing of a vacuum cleaner, in which an electrically operated suction fan motor for establishing a suction air flow is arranged. In a dust collecting space arranged in the basic housing, dirt and / or dust entrained by the suction air flow from the floor to be cleaned can be separated in a dust filter bag.

The suction mouth 5 has a central suction mouth section 6 as well as two lateral suction mouth sections 7 flanking or enclosing the central suction mouth section 6. The lateral suction mouth sections 7 extend from the suction channel 4 substantially linearly toward each corner 7a of the isosceles triangle, so that the angle α between the longitudinal extension directions of the two lateral suction mouth sections 7 is 135 ° is. The lateral suction flow sections 8 are limited by inner and outer lateral flow sealing means 8. The outer lateral flow sealing means 8 extend from a respective corner 7a of the isosceles triangle along the respective leg and between the two legs, the suction channel 4 partially delimiting, part-circular in one another over ,

Accordingly, the complete back of the suction nozzle is limited by outer lateral flow seal means 8, which are designed here as a bristle row. The inner lateral flow seal means 8 extend approximately parallel to the outer lateral flow seal means 8 away from the suction channel 4 in the direction of the corners 7a, so that on the suction channel 4 between the two inner lateral flow seal means 8, an air passage 9 is formed for the Saugluftströmung. In the present case, the air passage 9 has a width of 37 mm, while the two lateral suction mouth sections 7 each have a width of 35 mm in the region of the suction channel 4. As a result of the aforementioned dimensioning, it is achieved that a proportion of 45% of the suction air flow flows from the suction channel 4 through the central suction mouth section 6, while the remaining portion of 55% divides uniformly over the two lateral suction mouth sections 7.

The two lateral suction mouth sections 7 extend from the suction channel 4 to opposite sides 9a of the suction nozzle and each have a lateral opening 10 at their head ends on the sides 9a. Along their extension from the suction channel 4 to the sides 9a, the lateral suction mouth sections 7 have a constant height of 22 mm, while the width of the lateral suction mouth sections 7 linearly from 35 mm at the suction channel 4 initially to 26 mm before a bend 9b the side suction mouth sections 7 and then reduced to 25 mm at the opening 10. While the lateral suction mouth sections 7 extend away from the suction channel 4 initially at an angle of 67.5 ° relative to the base 6a or the front side of the suction nozzle, causes the bend 9b that the openings 10 each extend perpendicular or approximately perpendicular to the base 6a and the front of the suction nozzle.

At the openings 10, the two lateral suction mouth sections 7 are each partially closed by a closing element 10a, through which a U-shaped window is formed as a lateral opening 10 of the lateral suction mouth section 7. The flat configured end element 10a, also called choke wall, is integrally formed with the housing 1 and extends at a material thickness of 2.5 mm perpendicular to the bottom and the front of the suction nozzle of the housing 1 in the direction of the bottom, so that an opening width of the respective side suction mouth portion 7 between the bottom and the bottom facing the lower edge of the opening 10 of 7.6 mm is formed.

As well as the suction mouth 5 and the bottom plate 2, the central suction mouth 6 has a shape like an isosceles triangle, wherein the two inner lateral flow seal means 8 fluidly define the central suction mouth 6 at the legs. As already mentioned, at the tip of the central suction mouth section the air passage 9 is arranged towards the suction channel 4, while opposite to the base 6a or the front side of the suction nozzle a front flow sealing means 11 is provided for at least partial sealing of the central suction mouth section 6.

The front flow sealing means 11 is designed as a flexible sealing lip, so that coarse material can pass through the sealing lip. The coarse material that has arrived in the central suction mouth section 6 is detected by the suction air flow and sucked out through the suction channel 4. The front flow sealant 11 extends from the bottom plate 2 to the bottom, with a gap of approximately 50 mm being formed laterally between the front flow sealant 11 and the corners 7a of the suction nozzle, respectively. so For example, the front flow-sealing means 11 designed as a sealing lip can pivot into the suction chamber 3 when coarse material is passed over, without touching the inner lateral flow-sealing means 8.

While the outlet of noise emission caused by the suction air flow is already reduced by the front flow sealant 11, an acoustic shielding means 12 is provided for further reducing the noise emission, which in the present case is provided in FIG Fig. 1 shown plan view, when integrally formed with the housing 1 V-shaped bar is designed, which is oriented from the bottom plate 2 toward the ground, but without touching the ground. The thus configured acoustic shielding means 12 is disposed in the central suction mouth portion 6 in the suction air flow direction between the suction passage 4 and the base 6a forming the front side of the suction nozzle.

The distance between the front flow sealing means 11 and the acoustic shielding means 12 is 15 mm, while the distance between the acoustic shielding means 12 and the inner lateral flow sealing means 8 is 22 mm in each case. Alternatively, the means for acoustic shielding 12 may also be made of two approximately 5 cm long extending bristle strips, which are arranged at an angle of about 30 ° to each other offset to the bottom plate 2 that a direct acoustic emission from the suction channel 4 to the Front is reduced.

Due to the proposed embodiment of the tapered in its cross-section lateral suction mouth sections 7, which are partially closed on both sides 9a each by a closing element 10a, a high flow rate or a high flow rate is achieved in the lateral Saugmundabschnitten 7, which compared to off the stand The technology known designs a much better particulate matter, in particular from joints and cracks is made possible. Since the suction mouth 5 has a comparatively small area subject to negative pressure, that is previously described embodiment characterized by a low pushing force. On the other hand, since the central suction mouth portion 6 is designed to be more open, the suction nozzle is characterized by a very efficient coarse material, which due to the means for acoustic shield 12 and due to the front flow sealant 11 only a small noise emission is recorded.

LIST OF REFERENCE NUMBERS

• Housing 1
• Base plate 2
• Suction chamber 3
• Suction channel 4
• Suction mouth 5
• Central suction mouth section 6
• Base 6a
• Lateral suction mouth section 7
• Corner 7a
• Flow sealant 8
• Air passage 9
• Page 9a
• Angling 9b
• Opening 10
• End element 10a
• Front flow sealant 11
• Acoustic shielding means 12
• Angle α

Claims (10)

Suction nozzle for a vacuum cleaner for absorbing dirt and / or dust from a floor by means of a suction air flow with a housing (1), a suction space (3) formed inside the housing (1), a suction channel (4) opening into the suction space (3) for guiding the suction air flow and a suction mouth (5) designed as a bottom-side opening of the suction chamber (3), wherein
the suction mouth (5) has a central suction mouth section (6) and two lateral suction mouth sections (7) flanking the central suction mouth section (6), and
the lateral suction mouth sections (7) are designed in such a way that the lateral suction mouth sections (7) taper away from the suction channel (4) towards opposite sides (9a) of the suction nozzle in their cross-section and at their head ends in each case by a closure element (10a) are partially closed. Suction nozzle according to the preceding claim, wherein the cross-section of the lateral suction mouth sections (7) tapers in a linear, step-shaped and / or curved manner. Suction nozzle according to one of the preceding claims, wherein the lateral suction mouth sections (7) are designed such that the width of the lateral suction mouth sections (7) of ≥ 30 mm and ≤ 40 mm, preferably 33 mm at the suction channel (4) to ≥ 20 mm and ≤ 30 mm, preferably 27 mm at the sides (9a) of the suction nozzle before the end element (10a) tapers, wherein the height of the lateral suction mouth sections (7) on the suction channel (4) and on the sides (9a) of the suction nozzle before End element (10a) ≥ 20 mm and ≤ 30 mm, preferably 22 mm. Suction nozzle according to one of the preceding claims, wherein the closing element (10a) extends in a step-like manner away from the housing in the direction of the bottom so that the closing element (10a) has an opening (10) of the housing Side suction mouth portion (7) on the side (9 a) of the suction nozzle with a height of ≥ 6 mm and ≤ 10 mm, preferably 7.6 mm and a width of ≥ 20 mm and ≤ 30 mm, preferably 25 mm forms. Suction nozzle according to one of the preceding claims, wherein the closing element (10a) is designed in one piece with the housing (1) and has a thickness of ≥ 2 mm and ≤ 4 mm, preferably 2.5 mm. Suction nozzle according to one of the preceding claims, wherein the lateral suction mouth sections (7) on the sides (9a) of the suction nozzle have an angled portion (9b) and the angled portion (9b) is preferably formed such that by the angled portion (9b) the width of the lateral Suction mouth sections (7) is reduced and / or the openings (10) of the side suction mouth sections (7) formed by the end elements (10a) on the sides (9a) of the suction nozzle extend perpendicular to a front opening of the central suction mouth section (7). Suction nozzle according to one of the preceding claims, wherein the suction mouth (5) has a shape in the manner of an isosceles triangle, preferably the suction channel (4) opens in the region of the tip between the legs of the triangle in the thus formed suction chamber (3), the central Suction mouth section (6) extends from the suction channel (4) to the base (6a) of the isosceles triangle and the side suction mouth sections (7) from the suction channel (4) arranged along the respective legs of the isosceles triangle opposite to the tip Corners (7a) of the isosceles triangle extend. Suction nozzle according to one of the preceding claims, wherein the two lateral suction mouth sections (7) extend away from the suction channel (4) to one side (9a) of the suction nozzle such that for the angle α between the longitudinal extension directions of the two lateral suction mouth sections (7) is 45 ° ≤ α ≤ 160 °, preferably 90 ° ≤ α ≤ 135 °, most preferably α ≤ 135 °, or the two side suction mouth sections (6) of the suction channel (4) in extend a curve away from each other. Suction nozzle according to one of the preceding claims, wherein the lateral suction mouth sections (7) are each bounded by inner and outer lateral flow sealing means (8) extending from the suction channel (4) to the sides (9a) of the suction nozzle such that the central suction mouth section (6) is bounded by the inner side flow seal means (8) of the respective side suction mouth sections (7). Suction nozzle according to one of the preceding claims, wherein the suction mouth (5) has a further central suction mouth section and two further lateral suction mouth flanking further side suction mouth sections, and the central suction mouth section (6) and the further central suction mouth section of the suction channel (4) in opposite Extend directions such that the two side suction mouth sections (7) and the two other side suction mouth sections form an x-shaped arrangement.

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