The invention relates to a wiper blade, in particular for a motor vehicle.
Numerous wiper blades for automobiles are already known, for example from DE 10 2018 200316 A1, which comprise a distributor element comprising at least one supply channel for cleaning liquid, as well as a first spray bar for dispensing cleaning liquid.
The object of the invention is to improve such wiper blades in view of an even better wiping result and higher efficiency.
The wiper blade according to the invention has the advantage that the supply channel comprises a first supply section for the first spray bar and a second supply section for a second spray bar and at least one narrowing is provided in the second supply section. This improves cleaning performance without increasing the consumption of cleaning fluid.
In a simple, inexpensive and therefore advantageous embodiment, the distribution element is arranged in an adapter provided for connection to a wiper arm.
Furthermore, in a simple and therefore advantageous embodiment, the second supply section comprises at least one nozzle provided for connection to the second spray bar, wherein the narrowing is arranged in the nozzle.
Advantageously, the second supply section has a smaller passage than the first supply section, at least in segments. This is particularly effective.
Good cleaning performance is advantageously achieved by having at least the first spray bar and/or second spray bar run along a longitudinal extension of the wiper blade and having at least one spray opening.
In this case, it is particularly advantageous if the first spray bar runs from the distribution element in the direction of one end of the longitudinal extension and the second spray bar runs from the distribution element in the direction of another end of the longitudinal extension.
It is particularly effective and therefore advantageous if one inner circle side is provided along the longitudinal extension and the second spray bar is arranged on the inner circle side.
Advantageously, the spray bar comprises a channel with a plurality of spray openings, so that there is an even water distribution on the glass to be cleaned.
In a simple, low-cost and therefore advantageous embodiment, the spray bar is configured integrally with a wind deflection bar.
A simple and therefore advantageous distribution element is configured at least in two parts, wherein at least one part is configured from plastic, in particular as an injection molding part.
Various exemplary embodiments of the invention are shown in the drawings and explained in more detail in the following description. The following are shown:
In
The wiper blade 10 according to the invention comprises a wiping strip 12, which has a longitudinal extension L. The wiping strip 12 is held by a carrier 14, which, like the wiping strip 12, extends across the substantially entire longitudinal extension L of the wiper blade 10.
A first spray bar 16 and a second spray bar 18 are further arranged on the carrier 14, from which cleaning liquid can be applied to glass to be wiped during operation.
With respect to the longitudinal extension L of the wiper blade 10, an adapter 24 is arranged approximately centrally between a first end 20 and a second end 22, which terminate the wiper blade 10 along its longitudinal extension L, with which the wiper blade 10 can be attached to a wiper arm 28 (
A wind deflection bar 26 is further arranged on the carrier 14. The wiping strip 12, the adapter 24, and the wind deflection bar 26 are attached to a spring bar, which consists essentially of strip steel, which is curved in a relaxed state and is coated with a plastic layer or a lacquer. The curvature of the strip steel is such that the wiping strip 12 is pressed onto the glass to be wiped in a mounted state on curved glass over the substantially entire longitudinal extension L.
In
The wiper blade 10 is attached to the wiper arm 28 by means of the adapter 24. During operation, the wiper arm 28 performs an oscillating movement such that the wiper blade 10 sweeps a portion of a circular ring as the wiping region 30. Thus, an outer circle AK and an inner circle IK of the wiping region 30 results, wherein the area swept by the first end 20 of the wiper blade 10 forms the outer circle AK and the area swept by the second end 22 of the wiper blade 10 forms the inner circle IK. Due to the oscillating movement during operation, the radius of the inner circle IK is naturally much smaller than the radius of the outer circle AK. As a result, the distance of the outer circle AK swept by the first end 20 is therefore greater than the distance of the inner circle IK swept by the second end 22.
The first spray bar 16 is tubular and runs from the adapter 24 in the direction of the first end 20 of the wiper blade 10. The second spray bar 18 is also tubular and runs from the adapter 24 in the direction of the second end 22 of the wiper blade 10.
Along the longitudinal extension L of the wiper blade 10, the first spray bar 16 is thus arranged on the side of the outer circle AK and the second spray bar 18 on the side of the inner circle IK.
Both the first spray bar 16 and the second spray bar 18 each have at least one, in this case several, spray openings 32 (
The second spray bar 18, or the spray openings 32 of the second spray bar 18, provide cleaning liquid to the area facing the inner circle IK along the longitudinal extension L of the wiper blade 10.
The first spray bar 16, or the spray openings 32 of the first spray bar 16, is provided to supply the area along the longitudinal extension L of the wiper blade 10 with cleaning liquid, which faces the outer circle AK.
In a variation of the invention, only two spray openings 32 may also be provided. In this case, one of the two spray openings 32 may be arranged in the region of the first end 20 and the other spray opening 32 provided in the region of the second end 22 of the wiper blade 10.
If the two spray openings 32 are arranged in the area of the first end 20 and in the area of the second end 22 of the wiper blade 10, they can each spray at least partially in the direction of the adapter 24, such that during operation the wiping region 30 is substantially wetted with cleaning liquid along the entire longitudinal extension L. In this context, at least in part, it is intended to mean that at least one directional component of the central spray direction faces in the corresponding direction, i.e., in the direction of the adapter 24.
In a further variation, the first spray bar 16 and/or the second spray bar 18 having the spray openings 32 may also be arranged in the adapter 24. In this case, the spray openings 32 of the first spray bar 16 spray cleaning liquid at least partially in the direction of the first end 20 of the wiper blade 10, the spray openings 32 of the second spray bar 18 then spray cleaning liquid at least partially in the direction of the second end 22 of the wiper blade 10. In this context, at least in part, it is intended to mean that at least one directional component of the central spray direction faces in the corresponding direction, i.e., in the direction of the first end 20 or the second end 22.
In
The first spray bar 16 and the second spray bar 18 are integrated in the wind deflection bar 26. This first spray bar 16 and the second spray bar 18 are therefore configured with the wind deflection bar 26, which is configured in two parts.
The wind deflection bar 26 is made of a single or multi-component plastic, in particular in an extrusion process. The spray openings 32 are introduced by laser drilling and all have the same diameter.
The diameter of the spray openings 32 is less than 1 mm, in particular less than 0.5 mm, preferably about 0.3 mm.
The distribution element 34 comprises an inlet 36 arranged approximately centrally with respect to the longitudinal extension L of the distribution element 34. Through this inlet 36, cleaning liquid may flow into a supply channel 37.
Further, the supply channel 37 of the distribution element 34 comprises a first supply section 38 that directs cleaning liquid in the direction of the first spray bar 16 starting from the inlet 36. For connection, the first supply section 38 comprises a first nozzle 40 at its end, which is configured as a tubular section and is inserted into the first spray bar 16.
The distribution element 34 further comprises a second supply section 42 which directs the cleaning liquid in the direction of the second spray bar 18 starting from the inlet 36. For connection, this second supply section 42 comprises a second nozzle 44 at its end, which is configured as a tubular section and is inserted into the second spray bar 18.
To improve the connection, the first nozzle 40 and the second nozzle 44 have a radially extending thickening at their end with respect to their longitudinal extension. If the first spray bar 16 and/or the second spray bar 18 are configured from an elastomer, for example a rubber, the result is a firm fit on the first nozzle 40 or the second nozzle 44 respectively.
The first nozzle 40 of the distribution element 34 is hollow in its interior, creating a channel through which the cleaning liquid can flow into the first spray bar 16 starting from the inlet 36. For this purpose, the channel of the first nozzle 40, which forms a part of the first supply section 38, has a first cross-section Q1.
The second nozzle 40 of the distribution element 34 is also hollow in its interior, also creating a channel through which the cleaning liquid can flow into the second spray bar 18 starting from the inlet 36. For this purpose, the channel of the second nozzle 44, which forms part of the second supply section 42, has a second cross-section Q2.
The second cross-section Q2 is somewhat smaller than the first cross-section Q1, so that less cleaning liquid is introduced into the second spray bar 18 than into the first spray bar 16. The smaller second cross-section Q2 therefore forms a narrowing of the channel in the second supply section 42.
Both the first spray bar 16 and the second spray bar 18 have spray openings 32 through which the cleaning liquid can escape from the first spray bar 16 or the second spray bar 18 onto the wiping region 30. The spray openings 32 are all approximately equal, thus having substantially the same cross-section. In a variation of the invention, the spray openings 32 may additionally have a different cross-section.
In
In order to avoid repetition, only the differences to
The first supply section 38 of the supply channel 37 has the first cross-section Q1 adjacent to the inlet 36 and correspondingly the second supply section 42 has the cross-section Q2. The narrowing is formed here by the cross-section of the supply channel 37 being narrowed in the second supply section 42, i.e., the second cross-section Q2. In a supply channel 37, which is approximately rectangular in cross-section, this is achieved by a somewhat higher wall thickness. The second supply section 42 is therefore somewhat narrower than the first supply section 38.
In addition, the inner cross-section of the second nozzle 44 can also have a smaller cross-section than the cross-section of the first nozzle 38.
In both exemplary embodiments, the narrowing of the supply channel 37, which is arranged here in the second supply section 42, is arranged on the side along the longitudinal extension L of the wiper blade 10, which faces the inner circle in the mounted position.
During operation, when a washing program is triggered, cleaning liquid passes through the inlet 36 into the supply channel 37 of the distribution element 34. Thus, the cleaning liquid flows into the first supply section 38 and the second supply section 42 of the supply channel 37. Less cleaning liquid flows into the second spray bar 18 than into the first spray bar 16 through the narrowing arranged in the second supply section 42. Since the second spray bar 18 is arranged closer to the second end 22 of the wiper blade 10 and thus closer to the inner circle IK than the first spray bar 16, less cleaning liquid flows on the side of the inner circle IK onto the wiping region 30 of the glass to be wiped than on the side of the outer circle AK.
The narrowing in the distribution element 34 results in a reduced flow of the cleaning agent on the side along the longitudinal extension L of the wiper blade 10, which faces the inner circle IK in the mounted position.
The distribution element 34 is manufactured in a plastic injection molding process and has at least two parts. For example, it may comprise a base element in which the supply channel 37 is arranged such that a cover is closed in a frictional, interlocking, and/or bonded manner.
In a variation of the invention, the narrowing is arranged in the direction of flow of the cleaning liquid just before the first opening 32. In this case, the distribution element 34 comprises, with reference to the exemplary embodiments from
Number | Date | Country | Kind |
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10 2022 211 640.2 | Nov 2022 | DE | national |