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The invention relates to a domestic cleaning device, which is improved —with respect to similar devices already in use—by its structural simplicity, low production cost, and ease of assembly, even in a domestic setting; to this may be added the ease of handling in respect of the operations of squeezing the sponge layer which forms the cleaning element and reconfiguring for use.
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These and other objects and advantages will be made clear by the following text.
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Essentially, the domestic cleaning device according to the invention comprises a combination of:
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- a staff-type structure;
- a base with a central element joined to said staff-type structure and two lateral portions joined elastically to said central element, by co-molding of layers of rubber;
- a fork member with a tubular extension which can be slid along said staff with the aid of a grip, said fork member having inner profiles for contact with the lateral portions of said base;
- a replaceable assembly consisting of a layer of sponge bonded to rigid flat elements provided with means for interacting with, means on the base for attaching said assembly to said base and for releasing it therefrom.
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The sliding of said fork member with respect to said staff-type structure causes said base to flex, against the elastic force which tends to spread it out, and consequently causes the flexing and squeezing of the sponge layer.
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The base is advantageously co-molded with the two lateral portions, by using flexible thin layers, and with co-molded rubber layers to form the joints between said central element and said two lateral portions. The synthetic resin components of the base can be connected with thin layers at the positions of said joints. This prevents the wear of the joints which are made partially from thin layers of synthetic resin (such as propylene), and provides an elastic force tending to return the cleaning assembly to the spread-out configuration, without the use of mechanical members but solely as a result of the presence of the co-molded rubber layers. Thus a thin, non-wearing joint, made from synthetic resin (such as polypropylene), is produced; the joint acts elastically on the lateral portions so that they tend to spread out into the coplanar configuration, without the use of mechanical springs.
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In an advantageous embodiment, each of the lateral portions of said base forms a seat for a roller, which can make rolling contact with the inner shaped profiles of the fork member. This facilitates the squeezing operation because of the “S” shape of said inner profiles and the presence of the rollers.
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The device can comprise a means of limiting the longitudinal travel of said fork member with respect to the staff. This can be provided in the form of a sleeve mounted onto and engaged with the lower end of the staff; said sleeve forms a seat for joining to said base and has an elastic catch which can engage slidably in a longitudinal slot of the tubular extension of the fork member, thereby limiting the longitudinal travel of said fork.
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The staff (particularly a tubular staff is made so that it can be coupled to the actual device by a simple operation, particularly by-screwing, as a result of the presence of said sleeve, which forms a seat for the staff.
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The aforesaid embodiment reduces the costs of storage and dispatch.
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An assembly which can be replaced when it becomes worn can be used with the device. This assembly comprises the sponge layer and the flat elements, which have strips on one side and have flexible fastenings on the other side, for interacting with slots and with appendages formed in the base; stop elements interacting with ribs in said base are also provided.
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The invention will be more clearly understood from the description and the attached drawing, which shows a practical and non-restrictive embodiment of said invention. In the drawing,
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FIGS. 1, 2 and 3 are perspective views of the device in the operating configuration, in an intermediate configuration and in the configuration in which squeezing has been carried out;
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FIGS. 4 and 5 show a longitudinal section and a partial enlargement of said section of the device in the operating configuration;
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FIGS. 6 and 7 are perspective views of a component-of the device and its combination with the components associated with the staff;
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FIGS. 8 and 9 are two perspective views of a base for the engagement of the replaceable assembly including the-sponge layer;
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FIGS. 10, 11 and 12 are perspective views of said replaceable assembly in isolation and in the stages of fitting on said base;
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FIG. 13 is an exploded perspective view of the components of the device;
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FIG. 14 is a perspective view of the base and of the replaceable assembly when it is about to be engaged with said base; and
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FIGS. 15 and 16 show the device on completion of the fitting of the replaceable assembly on the base, with the staff inclined with respect to the base.
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In the attached drawing, the number 1 indicates a tubular staff for operating the device, said staff being provided at its lower end, for the fitting of the actual device itself, with a terminal 3 provided with a threaded appendage 3A. The number 5 indicates a sleeve which can be threaded onto the lower end of the staff and engaged by screwing with the appendage 3A of the terminal 3, in such a way that it becomes stably engaged with the staff. The sleeve 5 has a catch 7 which is elastic and shaped with a taper, and an opposing projection 7A for the purposes indicated below; additionally, a lower extension 5A of said sleeve 5 has a transverse hole 9 for joining the assembly which is to be used for cleaning and which must be inclinable with respect to the staff for the operations required during the use of the device.
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On the lower part of the
staff 1 provided with the
sleeve 3 there is threaded the
tubular extension 12A of a
fork member 12 in which the prongs of the fork are slightly S-shaped and have correspondingly shaped
inner profiles 12B, for interaction with rolling members for the functions described below. The two prongs of the
fork member 12 are hollow, to meet the requirements of molding and to provide light
extension 12A of the fork is combined with a
grip 14 which is snapped onto the end of said
tubular extension 12A. The
extension 12 12 has a long
longitudinal slot 16, into which the
catch 7 of the
sleeve 5 can snap; said
extension 12A also has a longitudinal groove in which the projection
7A is slidably engaged. This arrangement enables the
staff 1 and the
fork member 12 to be kept coupled angularly together, and limits the axial movements which the
grip 14 can impart to the
fork member 12,
12A along the
staff 1 provided with the
sleeve 5; the angular orientation of the
fork member 12 by the
catch 7 and the projection
7A of the
sleeve 5 enables this
fork member 12 to be kept in the geometric plane passing through the axis of the
transverse hole 9 of the
sleeve 5 and through the axis of the
staff 1.
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The staff 1 can easily be engaged with the sleeve 5 by screwing; this helps to reduce the overall dimensions for storage and transport.
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The number 20 indicates in a general way a base (see also FIGS. 8, 9, and 11 to 16) which essentially consists of a central element 20A and two symmetrical lateral portions 20B, the whole being made by the method of molding with two components (co-molding); the base 20, 2A, 2B, 20B is concave below and convex above to provide lightness and rigidity in the lateral portions 20B and in the central element 20A. The co-molding forms an elastic joint between the central element 20A and each of the lateral portions 20B at the positions of thin transverse portions 24 which are supplemented with rubber layers 26 co-molded with the base 20. The presence of the rubber layers 26 along the areas 24, the lateral portions 20B are pushed so that they move away from each other and tend to enter a coplanar configuration as indicated in FIGS. 8, 9, 11, 12 and 13, from a folded configuration as shown in FIG. 3. The portions 24 are too thin to impede the elastic effect of the rubber layers 26; these portions 24 withstand multiple bending without deterioration.
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The
central element 20A of the
base 20 has a
central eye 28 which can be housed in the
end 5A of the
sleeve 5 which is fork-shaped at
5C (see
FIG. 6), in such a way that the hole of the
eye 28 is aligned with the
hole 9 of said fork-shaped part
5C of the
extension 5A of the
sleeve 7. A
pin 30, inserted in the
hole 9 and in the
eye 28, joins the staff as
, Oh a way that the staff can move angularly about the axis of the
pin 30 in the plane of the axis of symmetry of
said base 20.
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The lateral portions 20B, which are symmetrical with respect to each other, are shaped with limited and approximately flat depressions 20E which terminate externally in approximately semicylindrical recesses 20F (see FIG. 8) for housing rollers 32 (see FIG. 9) which can be snap-fitted into seats 20G formed at the ends of each of the recesses 20F; thus the rollers 32 can easily rotate about their axes. The rollers 32 are designed to interact with the double inner profiles 12B of the fork member 12 described above, for the purposes indicated below.
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A replaceable assembly, indicated in a general way by 36 (see also FIGS. 10 and 11) can be fitted under the base 20. Said replaceable assembly 36 comprises a sponge layer 38 which is designed to contact the surfaces to be cleaned with the device, or to contact cloths for cleaning a floor or the like; the sponge layer 38 is bonded to two rigid flat elements 40 which can be made from molded synthetic resin and which can be interconnected by links 42 which are made in a curved shape so that they are flexible. Each of the two rigid flat elements 40 has a pair of rigid front strips 40A on one side and a flexible catch appendage 40B, with an approximately rectangular aperture, on the other side; each rigid flat element 40 also has a pair of stops 40C in an intermediate position. In a corresponding way, each of the two lateral portions 20B of the base 20 has, on one side, a pair of apertures 44 for receiving the front strips 40A, and, on the other side, a projection 46 for engaging in the corresponding perforated flexible appendage 40B of the rigid flat elements 40. In the lower hollow part of the lateral portions 20B there are stiffening ribs 20K (see FIG. 14), one of which, for each of the portions 20B, can interact with the corresponding stop 40C. Thus the assembly 36 can be rapidly and stably attached to the base 20, and released therefrom, with the aid of the front strips 40A, the stops 40C and the perforated elastic appendages 40B. This enables worn assemblies 36 to be replaced easily with other new assemblies during the use of the device in the home.
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The operation of the device will be clea
ove description. In order to use the device with the
assembly 36 spread out as shown in
FIGS. 4, 5,
15 and
16, the user can maneuver
th with the
sponge layer 38 for the cleaning operations, with the possibility of inclining the staff with respect to the base as shown in
FIGS. 15 and 16.
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When the sponge layer is filled with dirty water and has to be squeezed out, and when the device is to be put away without the base spread out, the
grip 14 and the
fork member 12 are slid along the
staff 1 for the distance permitted by the
slot 16 in which the
catch 7 slides, and thus the two
lateral portions 20B of the base
20 are made to bend around the
elastic joints 24 and
26 from the outspread position of
FIGS. 1, 4 and
5 to an inclined position as shown in
FIG. 2 and finally to the configuration of
FIG. 3, in which the two I
al portions 20B are positioned so that they are parallel and brought together to a limited extent so that they enclose between them the double layer of the sponge which has been folded up and thus compressed to expel the water. The operation of returning the two
lateral portions 20B to the configuration shown in
FIG. 3 is carried out by sliding the
fork member 12 along the
staff 1 in the direction of the arrow f
1 of
FIG. 3, the
rollers 32 rolling along the shaped
inner profiles 12B of the
fork member 12; this permits an extremely easy maneuver in the direction of the arrow f
1. When the device is to be returned to the operating condition, it is simply necessary to slide the
fork member 12 by means of the
grip 14 along the
staff 1 in the direction opposite the arrow f
1, so that the
base 20 is returned outside the prongs of the
fork 12 and the
rubber parts 26 of the
elastic joints 24 and
26 return the
lateral portions 20B of the base
20 to the planar or approximately planar configuration, to return the
sponge 38 to the configuration for the cleaning operations.
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In normal operation, the device is in the state shown in FIGS. 1, 4 and others. The fork member 12 bears on the rollers 32 and the staff with the fork member gripped by the user can rotate about the pin 30 with respect to the base 20 through at least 45° from the vertical position with respect to the ground. The member 12 keeps the assembly 20, 38 in the planar configuration.
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When the
sponge layer 38 is to be squeezed, the procedure is as follows. The
tube 1 is gripped with one hand while the
grip and makes the
whole system 12,
14 slide downward along the
tube 1. In the first part of this travel, the ends of the
fork 12 press on the
base 20 by means of the contact of the
rollers 32, and the
lateral portions 12B of the base are forced to rotate about the
joints 24 and
26 and to position themselves approximately orthogonally with respect to the tube. Continuing in their travel, the
base 20 and the
assembly 38,
40 remain at all times in contact with the fork member solely by means of the contact of the rollers
33 with the portions of the
opposite edges 12B which have been brought together; the rollers
33 limit the friction and consequently the force required for the squeezing
ation.
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The base 12 and the sponge assembly 38, 40 are bent around the two hinges 24 and 26 which consist of the two co-molded rubber elements 26. The movement terminates when the base 12 and the assembly 38, 40 are fully bent (FIG. 3) and the base 20 bears on the central area of the fork member 12. In these conditions, the sponge is fully compressed and thus squeezed. When the fork member assembly (12, 12A, 14) slides in the reverse direction, the lateral portions 20B of the base 20 tend to return to the extended configuration in which they are coplanar with the central element 20A; when the cleaning operations are resumed, the lateral portions move back to the extended configuration for contact with the floor, until they bear on stops, about the pin 30. This all takes place as a result of the elastic reaction of the rubber parts 26.
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Clearly, the drawing shows only an example provided solely as a practical demonstration of the invention, and this invention can be varied in its forms and arrangements without departure from the guiding principle of the invention. Any reference numbers present in the claims have the sole purpose of facilitating the reading of the claims with reference to the description and to the drawing, and do not limit the scope of protection represented by the claims.