Floor nozzle for vacuum cleaner
First Claim
1. A cleaning device for cleaning a surface, comprising:
- a motor;
a nozzle arrangement comprising;
a brush compartment extending from a first edge of said nozzle arrangement, said brush compartment partially surrounding a brush therein, wherein said brush is rotatable about a brush axis, said brush being provided with a plurality of brush elements, each of said plurality of brush elements having a tip portion, and wherein selected ones of said tip portions contact the surface to be cleaned during rotation of the brush, and wherein the motor is configured to drive the brush in rotation;
a bouncing element extending from a second edge of said nozzle arrangement, said bouncing element spaced apart from said brush compartment and extending substantially parallel to the brush axis, said bouncing element comprising;
a plurality of studs positioned along a surface of the bouncing element facing away from the brush, wherein said plurality of studs;
are positioned away from said surface when the cleaning device is moved in a forward direction, and wherein the bouncing element is seen in a direction of movement of the cleaning device, located behind the brush; and
contact the surface when the cleaning device is moved in a backward direction opposite said forward direction, wherein said bouncing element is raised above the surface by a distance d2 by said plurality of studs, wherein the distance d2 is set equal to d3*tan(A), and wherein A is set at a non-zero angle no greater than 20° and
d3 is a distance measured parallel to the surface from a point on the surface where said selected ones of said plurality of tip portions of the plurality of brush elements initially lose contact with the surface during rotation of the brush to a point on the bounce element; and
a vacuum aggregate port positioned between the brush compartment and the bouncing element, said vacuum aggregate configured to;
generate an under-pressure in an area between the brush compartment and the bouncing element.
1 Assignment
0 Petitions
Accused Products
Abstract
A cleaning device, for cleaning a surface, includes a nozzle arrangement. The nozzle arrangement includes a brush compartment surrounded by a brush. The brush includes brush elements including tip portions for contacting the surface to be cleaned and picking up dirt particles and/or liquid from the surface during rotation of the brush. The nozzle arrangement further includes a bouncing element with position adjusted relative to the surface and depending on a direction of movement of the cleaning device. The bouncing element is arranged in a first position and at a first distance d1 to the surface, when the cleaning device is moved in a forward direction and in a second position and at a second distance d2 to the surface, when the cleaning device is moved in an opposite backward direction, such that d2 is greater than d1.
20 Citations
18 Claims
-
1. A cleaning device for cleaning a surface, comprising:
-
a motor; a nozzle arrangement comprising; a brush compartment extending from a first edge of said nozzle arrangement, said brush compartment partially surrounding a brush therein, wherein said brush is rotatable about a brush axis, said brush being provided with a plurality of brush elements, each of said plurality of brush elements having a tip portion, and wherein selected ones of said tip portions contact the surface to be cleaned during rotation of the brush, and wherein the motor is configured to drive the brush in rotation; a bouncing element extending from a second edge of said nozzle arrangement, said bouncing element spaced apart from said brush compartment and extending substantially parallel to the brush axis, said bouncing element comprising; a plurality of studs positioned along a surface of the bouncing element facing away from the brush, wherein said plurality of studs; are positioned away from said surface when the cleaning device is moved in a forward direction, and wherein the bouncing element is seen in a direction of movement of the cleaning device, located behind the brush; and contact the surface when the cleaning device is moved in a backward direction opposite said forward direction, wherein said bouncing element is raised above the surface by a distance d2 by said plurality of studs, wherein the distance d2 is set equal to d3*tan(A), and wherein A is set at a non-zero angle no greater than 20° and
d3 is a distance measured parallel to the surface from a point on the surface where said selected ones of said plurality of tip portions of the plurality of brush elements initially lose contact with the surface during rotation of the brush to a point on the bounce element; anda vacuum aggregate port positioned between the brush compartment and the bouncing element, said vacuum aggregate configured to; generate an under-pressure in an area between the brush compartment and the bouncing element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
-
-
12. A nozzle arrangement for a cleaning device, said nozzle arrangement comprising:
-
a brush compartment extending from a first edge of said nozzle arrangement, said brush compartment partially surrounding a brush contained therein, said brush being rotatable about a brush axis, said brush comprising; brush elements having tip portions for contacting a surface to be cleaned during rotation of the brush, a bouncing element extending from a second edge of the nozzle arrangement, said bouncing element comprising a bouncing surface facing said brush, wherein the bouncing surface is tilted with respect to the surface, said bouncing element being spaced apart from the brush and extending substantially parallel to the brush axis, said bouncing element comprising; a plurality of studs arranged along a surface of the bouncing element facing away from the brush, said plurality of studs being sized to raise said bouncing element by a distance d2, wherein said bouncing element is in contact with said surface when the cleaning device is moved in a forward direction, wherein the bouncing element is seen in a direction of movement of the cleaning device, located behind the brush, and raised off the surface by said distance d2 by said plurality of studs contacting said surface when the cleaning device is moved in a backward direction, wherein said distance d2 is determined as d3*tan(A), and wherein d3 is a distance parallel to the surface between the bouncing element and a point on the surface where said tip portions of the brush elements lose contact with the surface during rotation of the brush and wherein A is selected as a non-zero angle no greater than 20°
; anda vacuum port positioned between the brush compartment and the bouncing element. - View Dependent Claims (13, 14, 15, 16, 17)
-
-
18. A cleaning apparatus comprising:
-
a motor, a nozzle element, said nozzle element comprising; a brush compartment extending from a first edge of said nozzle element a bouncing element extending from a second edge of said nozzle element, wherein an area is formed between said brush compartment and said bouncing element; and a vacuum port in fluid communications with said area, wherein said brush compartment comprises; a brush, said brush configured to; rotate about a brush axis, said brush axis substantially parallel to a forward edge and a rear edge of said nozzle element, said brush comprising a plurality of brush elements, each of said plurality of brush elements having a tip portion configured to contact a surface to be cleaned during rotation of the brush, wherein the motor is configured to rotate the brush, and wherein said nozzle element is rotatable about said brush axis to raise said bouncing element above said surface by a distance d2 when said cleaning apparatus is moved in said forward direction, and wherein said distance d2 is determined as d3*tan(A), and wherein d3 is a distance parallel to the surface between the bouncing element and a point on the surface, and wherein said tip portions of said brush elements lose contact with the surface during rotation of the brush, and wherein A is a non-zero angle no greater than 20°
.
-
Specification