WO2007010357A2 - Outil de travail - Google Patents
Outil de travail Download PDFInfo
- Publication number
- WO2007010357A2 WO2007010357A2 PCT/IB2006/001959 IB2006001959W WO2007010357A2 WO 2007010357 A2 WO2007010357 A2 WO 2007010357A2 IB 2006001959 W IB2006001959 W IB 2006001959W WO 2007010357 A2 WO2007010357 A2 WO 2007010357A2
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- tool according
- handle
- coupling element
- bristles
- arm
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Ceased
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25G—HANDLES FOR HAND IMPLEMENTS
- B25G1/00—Handle constructions
- B25G1/02—Handle constructions flexible
-
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B5/00—Brush bodies; Handles integral with brushware
- A46B5/002—Brush bodies; Handles integral with brushware having articulations, joints or flexible portions
- A46B5/0054—Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body
- A46B5/0062—Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body being flexible or resilient during use
-
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B5/00—Brush bodies; Handles integral with brushware
- A46B5/002—Brush bodies; Handles integral with brushware having articulations, joints or flexible portions
- A46B5/0054—Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body
- A46B5/0075—Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body being adjustable and stable during use
-
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B5/00—Brush bodies; Handles integral with brushware
- A46B5/002—Brush bodies; Handles integral with brushware having articulations, joints or flexible portions
- A46B5/0054—Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body
- A46B5/0075—Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body being adjustable and stable during use
- A46B5/0083—Mechanical joint allowing adjustment in at least one plane
-
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B2200/00—Brushes characterized by their functions, uses or applications
- A46B2200/30—Brushes for cleaning or polishing
- A46B2200/302—Broom
Definitions
- the invention relates to a work tool and in particular to a broom.
- brooms can be constituted by a support plate bearing a plurality of bristles and by a handle fixed at an end to the above-mentioned support plate.
- the bristles are constituted essentially by plastic fibres, or fibres made of another material, with a maximum inclination of 30° with respect to the support plate and with a maximum axial length of 15 centimetres. The inclination is realised along the longitudinal axis of the support plate.
- a further drawback encountered with the above-described brooms derives from the fastening system used to attach the handle to the support plate .
- the end portion of the handle designed to be fixed to the support plate is deformed in such a way as to take on a substantially flat configuration. It is obvious that this deformation operation is not only expensive but also determines a lower mechanical resistance of the handle, with a consequent higher risk of breakage of the handle at the deformed end thereof .
- a still further drawback encountered in the above-mentioned brooms consists in the fact that the area of contact between the ends of the bristles and the surface to be cleaned is about equal to the area of the support plate.
- a first aim of the present invention is to provide a work tool which reduces the stresses and vibrations transmitted to the operator through the handle, due to the friction of the bristles against the surface to be cleaned.
- a further aim of the present invention is to provide a work tool in which the fixture between the handle and the support plate is achieved simply and rapidly, without any special work operations being necessary on the handle and without mechanically weakening the handle.
- a still further aim of the present invention is to provide a work tool in which the area of contact between the bristles and the surface to be cleaned is significantly greater than the area of the support plate.
- a work tool which comprises a work element and a handle connected to the work element, characterised in that it comprises damping means capable of damping mechanical stresses transmitted along said handle. Thanks to the presence of the damping means, the mechanical stresses generated by friction between the bristles and the surface to be cleaned are to a great extent absorbed by the damping means, so that the stresses that actually reaches the user are considerably less than the stresses in the prior art work tools.
- a work tool comprising: a work element, a coupling element extending from a surface of said work element, and a handle connected to said coupling element, characterised in that the handle exhibits an axial end portion associated with coupling means for coupling said axial end portion to said coupling element .
- a work tool which comprises a support element having a surface to which a plurality of bristles is fixed, and a handle connected at an end thereof to said support element, characterised in that said surface has a curved configuration.
- a work tool which comprises a support element having a surface to which a plurality of bristles is fixed, and a handle connected at an end thereof to said support element, characterised in that said bristles are set at an inclination which is greater than 30° with respect to said surface.
- Figure 1 is a perspective view of a first embodiment of a work tool according to the present invention
- Figure Ia is an enlarged and partially sectioned detail of figure 1, illustrating a first embodiment of the damping means according to the invention,-
- Figure 2 is a view as in Figure Ia, illustrating a second embodiment of the damping means
- Figure 3 is a view as in Figure Ia, illustrating a third embodiment of the damping means
- Figure 4 is a view as in Figure Ia, illustrating a fourth embodiment of the damping means,-
- Figure 5 is a view as in Figure Ia, illustrating a fifth embodiment of the damping means
- Figure 6 is a view as in Figure Ia, illustrating a sixth embodiment of the damping means
- Figure 7 is a view as in Figure Ia, illustrating a seventh embodiment of the damping means,-
- Figure 8 is the s view as in Figure Ia, illustrating an eighth embodiment of the damping means,-
- Figure 9 is a view as in Figure Ia, illustrating a variation of the fifth embodiment of the damping means illustrated in
- Figure 10 is a partial and partially sectioned view of a work tool according to the invention illustrating a first embodiment of connecting means connecting the handle of the work tool and the support element of the bristles;
- Figure 11 is a side view, interrupted and in small scale, of the work tool of figure 10;
- Figure 12 is a partial and partially sectioned view of a variation of the connecting means illustrated in figure 10,-
- Figure 13 is an elevation of a second embodiment of the connecting means,-
- Figure 14 is the section XIV-XIV of figure 13;
- Figure 15 is an elevation of a third embodiment of the connecting means,-
- Figure 16 is the section XVI-XVI of figure 15;
- Figure 17 is an elevation of a fourth embodiment of the connecting means;
- Figure 18 is the section XVIII-XVIII of figure 17;
- Figure 19 is an elevation of a fifth embodiment of the connecting means,-
- Figure 20 is the section XX-XX of figure 19;
- Figure 21 is an elevation of a sixth embodiment of the connecting means
- Figure 22 is the section XXII-XXII of figure 21,- Figure 23 is an elevation of a seventh embodiment of the connecting means;
- Figure 24 is the section XXIV-XXIV of figure 23;
- Figure 25 is an elevation of an eighth embodiment of the connecting means;
- Figure 26 is the section Xxvi-xxvi of figure 25;
- Figures 27 to 32 illustrate a ninth embodiment of the connecting means,-
- Figure 33 is a side and partial view of a further embodiment of a work tool according to the invention,-
- Figure 34 is a view from the right of figure 33;
- Figure 35 is a partial and plan view of the support element of the bristles of the work tool of figures 33 and 34;
- Figures 36, 37, 38 are views in enlarged scale of a detail of the work tool of figures 33-35, when in use;
- Figures 39, 40 and 41 illustrate a further variation of the fifth embodiment of the damping means illustrated in figure
- Figures 42, 43 and 44 illustrate a still further variation of the fifth embodiment of the damping means illustrated in figure 5.
- a first embodiment of a work tool according to the invention is illustrated, which is constituted, for example, by a broom.
- the work tool is denoted in its entirety by 1 and comprises: a work element which, in the case of a broom, is constituted by a plate 2 which supports a plurality of bristles 3; a coupling element 4, fin-shaped and fixed to a surface of the plate 2, which surface is opposite a surface supporting the bristles 3, or is in a single piece with the plate 2.
- a handle 5 is connected at an end thereof to the coupling element 4, said handle 5 serving as a grip for the user to hold the work tool X with.
- the handle 5 is provided, in proximity of the end thereof connected to the coupling element 4, with a damping member 6 capable of damping the mechanical stresses transmitted along the handle 5 during use of the work tool.
- the end portion of the handle 5 connected to the coupling element 4 comprises a first section 5a, longitudinally short and fixed to the coupling element 4, and a second section 5b, connected to the first section 5a by means of the damping member 6.
- the ends of the sections 5a and 5b which face one another are at a prefixed reciprocal distance, are internally hollow and exhibit a respective diametral hole 7 and 8.
- the damping organ 6 comprises : a first bolt 11 inserted into the hole 7 and exhibiting a head 12 and a threaded shank 13 , the head 12 and a portion of the shank 13 projecting from opposite sides of the hole 7; a second bolt 14 inserted in the hole 8 and exhibiting a head 15 and a threaded shank 16, the head 15 and a portion of the shank 16 projecting from opposite sides of the hole 8; two bodies 17 inserted in the end of the section 5a opposite to the end fixed to the coupling element 4, the two bodies 17 being crossed by the shank 13 of the bolt 11; two further bodies 18 inserted in the end of the section 5b facing the section 5a, the two further bodies 18 being crossed by the shank.
- the bolts 11 and 14 are substantially parallel to the longitudinal axis of the plate 2 and the spring 22 is mounted in the part of the handle 5 facing the plate 2.
- the chain 23 is longer than the distance between the two bolts 11 and 14 when the work tool is in a rest position.
- the damping member 6 can be covered by a cap 25, illustrated with, a broken line in figure 1.
- both the thin plates 21 and the spring 22 absorb a part of the stresses transmitted along the handle 5, thus reducing the stresses directed towards the user gripping the handle 5.
- the chain 23 extends to the maximum longitudinal extension thereof, therefore it is the chain 23 which determines the maximum possible flexion of the section 5b.
- the thin plates 21 flex and the flexion is directed against the action of the spring 22.
- the mechanical stresses transmitted along the handle 5 are absorbed and the spring 22, by contrasting the flexion of the section 5b, determines the maximum possible flexion of the section 5b.
- Figure 2 illustrates a second embodiment 6a of the damping member.
- the bodies 17, the further bodies 18 and the thin plates 21 are replaced by a single body 31 exhibiting a first end 32 inserted in the section 5a, a second end 33 inserted in the section 5b, and a central portion 34 having a smaller diameter than the diameter of the ends 32 and 33.
- the body 31 can be made of a metal material or of a plastic material.
- the ends 32 and 33 are crossed by the respective bolts 11 and 14 and the central portion 34 has the same function as the thin plates 21 of the damping member
- FIG 3 illustrates a third embodiment 6b of the damping member.
- the damping member 6b differs from the damping member 6a illustrated in figure 2 in that the body 31 is made in a single piece with the end sections Sa and 5b of the handle 5. In fact, the latter are solid and exhibit a central portion 41 which has a smaller diameter in the same way as the central portion 34 of the body 31 of figure 2.
- the functioning of the damping member 6b of figure 3 is entirely similar to the functioning of the damping member 6a illustrated in figure 2.
- Figure 4 illustrates a fourth embodiment 6c of the damping member.
- the damping member 6c comprises a sleeve 51 made of an elastically deformable material and exhibiting a lower portion 52, internally of which the section 5a of the end portion of the handle 5 connected to the coupling element 4 is inserted, an upper portion 53 internally of which the section 5b of the end portion of the handle 5 is inserted, and a central portion 54 which is equal in length to the distance between the facing ends of the sections 5a and 5b.
- Respective bolts 55 and 56 realise the fixture between the lower and upper portions 52 and 53 of the sleeve 51, and the corresponding ends of the sections 5a and 5b.
- the sleeve 51, and more precisely the central portion 54 thereof is capable of flexing and absorbing the mechanical stresses transmitted along the handle 5. Note that the central portion 54 is also able to twist about the longitudinal axis thereof and can therefore also absorb torque stress transmitted to the handle 5.
- Figure 5 illustrates a fifth embodiment 6d of the damping member 6.
- the damping member 6d comprises a body 61 made of an elastically deformable material and exhibiting a lower portion 62 inserted internally of the end section 5a of the handle 5, an upper portion 63 inserted in the end section 5b of the handle 5 and a central portion 64 which is of a same length as the distance between the facing ends of the sections 5a and 5b.
- the body 61, and more precisely the central portion 64 thereof is capable of flexing and absorbing the mechanical stresses transmitted along the handle 5.
- the central portion 64 can also twist about the longitudinal axis thereof and can therefore absorb torque stresses between the sections 5a and 5b.
- Figure 6 illustrates a sixth embodiment 6e of the damping member, which is different from the embodiment illustrated in figure 5 inasmuch as the body 61 exhibits an axial through- hole 65 internally of which a metal rod 66 is inserted, which metal rod 66 is provided at axial ends thereof external of the hole 65 with respective heads 61 having diameters that are greater than the diameter of the hole 65.
- the rod 66 is elastically deformable and provides better absorption of the mechanical stress transmitted along the handle 5, apart from improving the mechanical resistance of the damping member 6e.
- a further difference between the damping member 6e illustrated in figure 6 and the damping member 6d illustrated in figure 5 consists in the fact that the portions 62 and 63 exhibit a plurality of annular grooves 68 engaged by respective annular recesses 69 afforded in the end sections 5a and 5b of the handle 5 with the aim of making the coupling between, the body 61 and the sections 5a and 5b more stable.
- Figure 7 illustrates a seventh embodiment 6f of the damping member.
- the damping member 6f comprises a body 71 made of elastically deformable material and exhibiting a cup-shaped lower portion 72 fitted on the end section 5a of the handle 5, an upper portion 73 inserted in the end section 5b of the handle 5 and a central portion 74 of the same length as the distance between the facing ends of the sections 5a and 5b.
- the body 71 and more precisely the central portion 74 is capable of flexing and absorbing the mechanical stresses transmitted along the handle 5.
- the central portion 74 can also twist about the longitudinal axis thereof and can therefore also absorb the torque stresses transmitted to the handle 5.
- FIG 8 illustrates an eighth embodiment 6g of the damping member.
- the damping member 6g comprises a helical spring 81 the ends of which are respectively fixed to the end portions 5a and 5b of the handle 5.
- the spring 81 can also absorb torque stresses transmitted to the handle 5.
- Figure 9 illustrates a variation 6h of the damping member 6d illustrated in figure 5.
- the body 61 of the damping member 6h exhibits respective annular seatings 91 which can be engaged by corresponding end edges of the sections 5a and 5b.
- a work tool 1 which is equipped with a damping member that cushions the mechanical stress transmitted along the handle 5, especially when the fibres 3 are partially worn, so that the operation can guide the work tool 1 more easily.
- the work tool 1 could be constituted by any tool defined by having a handle and a working element where during use there is a transmission of mechanical stresses along the handle towards the operator grip part thereof. The member which cushions these mechanical stresses reduces the effort input of the operator when using the work tool.
- Figure 10 illustrates a work tool Ia, for example a broom, in which the fixture between the handle 5 and the work element 2, 3 is realised simply and rapidly, without any particular work operations being necessary on the handle 5 and without mechanically weakening the handle 5.
- the handle 5 of the work tool Ia exhibits an axial end portion 106 having a substantially cylindrical conformation, designed to be connected to the coupling element 4 by fastening means 107.
- the portion 106 exhibits an axial cut 108 open at an end so as to be engaged by a part 111 of the coupling element 4.
- the fastening means 107 comprise a bolt 112 which extends through a diametral through-hole 113 afforded in the portion 106 at the position of the axial cut 108 and a through-hole 114 realised in the part 111 of the coupling element 4.
- a nut 115 is then screwed onto a section of threaded shank of the bolt 112 external of the hole 113.
- the fastening means 107 further comprise a further bolt 116 which extends through a diametral through-hole 117 afforded in the portion 106 at the position of the axial cut 108 and a through opening 118 afforded in the part 111 of the coupling element 4.
- the through opening 118 is made in . proximity of the bottom wall of the cut 108, i.e. at a distance from the plate 2 which is greater than the distance of the through-hole 114 from the plate 2.
- a nut 119 is screwed onto a section of threaded, shank of the bolt 116 external of the hole 117.
- the through opening 118- can be slot-formed, having the longitudinal axis thereof along an arc of circumference having at the centre the axis of the second through-hole 114, in order to be able to select the position of the second bolt 116 with respect to the slot and thus to select the angulation of the handle 5 with respect to the block 2.
- the said through opening can be realised with a plurality of further through-holes 118 distributed along a circular crown with the axis of the tiole 114 at the centre, so that by selecting the hole 118 into which the bolt 116 is to be inserted, the angulation of the handle 5 with respect to the plate 2 can be selected, as illustrated in figure 11.
- Figure 12 illustrates a variant of the fastening means 107 in which a semi-cylindrical body 120 is installed between the head of the bolt 116 and the external surface of the portion 106, which semi-cylindrical body 120 is naturally centrally holed in order to be crossed by the shank of the bolt 116.
- the semi-cylindrical body 120 embraces the portion 106 or rather a part of the portion 106 interested by the cut 108.
- the edges of the semi-cylindrical body 120 enter into contact with two zones of the coupling element 4 immediately external of the cut 108.
- the semi-cylindrical body 120 being pressed by the head of the bolt 116 against the portion 106, exerts a constant pressure there-against and determines a constant pressure of the coupling element 4 against the wall of the cut 108 which is most distant from the semi-cylindrical body 120. Effectively, the semi-cylindrical body 120 guarantees a more effective blocking between the coupling element 4 and the portion 106 of the handle 5 as it takes up any play created by the working and/or the continuous use of the work tool 1.
- the connecting means 121 comprise a body
- a seating 125 is defined at a first end of the body 122, between the two half-shells 122a and 122b, in which seating an end of the handle 5 will be inserted and fastened.
- a second end 126 of the body 122, opposite the first end, is fork-shaped and destined to be coupled with the coupling element 4.
- a plurality of annular reliefs 128 is fashioned in the internal surface of each arm 127a and 127b of the fork 126 facing towards the coupling element 4.
- the plurality of annular reliefs 128 couple with a respective plurality of annular grooves 129 afforded on each surface of the coupling element 4.
- the arms 127a and 127b and the coupling element 4 are crossed by .
- a transversal hole 130 in which a screw 131 can be inserted, the screw 131 being destined to couple with a nut 132.
- a helix spring 133 is interposed between the nut 132 and the external wall of the arm 127b, inserting by an end thereof in a seating 133a afforded in the external wall.
- the spring 133 When the nut 132 is screwed onto the shank of the screw 131, the spring 133 is compressed so that the arms 127a and 127b of the fork 126 are pressed against the coupling element 4.
- the force with which the arms 127a and 127b are pressed against the coupling element 4 can be adjusted by regulating the tightness of the nut 132 fastening on the screw 131. Thanks to the said pressure, a friction force is developed between the annular reliefs 128 and the grooves 129 which is sufficient to prevent a rotation of the connecting means 121 and thus of the handle 5 with respect to the coupling element 4 by effect of the stresses generated during normal use of the work tool.
- the angular position of the handle 5 with respect to the coupling element 4 can be adjusted simply and rapidly by the user, who exerts a transversal thrust on the handle 5 in order to overcome the above-mentioned friction force.
- the angular position of the handle 5 can be adjusted by loosening the nut 132 up until it becomes possible to rotate the handle 5 with no force necessary with respect to the coupling element 4, thereafter re-tightening the nut 132 to fix the handle 5 in a new angular position.
- Figures 15 and 16 illustrate a third embodiment of the connecting means 134.
- the connecting means 134 comprise a body 135 constituted by two half-shells 135a 135b, connectable to one another by a series of screws 124 or equivalent means, which are insertable in corresponding holes which transversally cross the two half- shells 135a, 135b.
- a seating 125 is afforded at a first end of the body 135, between the two half-shells 135a and 135b, in which seating an end of the handle 5 will be inserted and fixed.
- a plurality of annular reliefs 128 are fashioned in the internal surface of the arm 136 facing towards the coupling element 4, which annular reliefs 128 couple with a plurality of respective annular grooves 129 afforded on a surface of the coupling element 4 facing the arm 136.
- the arm 136 and the coupling element 4 are crossed by a transversal hole ' 130, in which a screw 131 is insertable, which screw 131 is destined to couple with a nut 132.
- a helix spring 133 is interposed between the nut 132 and an external surface of the arm 136, inserting with an end thereof in a seating 133a afforded in said external surface.
- the connecting means 137 comprise a body 138 constituted by two half-shells 138a and 138b, connectable to one another by means of a series of screws 124, or equivalent means, insertable in corresponding holes which transversally cross the two half- shells 138a, 138b.
- a seating 125 is defined at a first end of the body 138, between the two half-shells 138a and 138b, in which seating 125 an end of the handle 5 will be inserted and fastened.
- one of the half-shells for example half-shell 138b, extends and becomes an arm 139 destined to couple with the coupling element 4.
- a frusto-conical projection 140 is fashioned on a surface of the arm 139 facing the coupling element 4.
- a recess 141 is afforded, also frusto-conical .
- the projection 140 and the recess 141 are dimensioned in such a way as to shapingly couple together.
- the arm 139 and the coupling element 4 are crossed by a transversal hole 130, in which a screw 131 can be inserted, which screw 131 is destined to couple with a nut 132.
- a helix spring 133 is interposed between the nut 132 and an external surface of the arm 139, inserting with an end thereof into a seating 133a afforded in the external surface.
- the value of the pressure force with which the arm 139 is pressed onto the coupling element 4 is adjustable by regulating the tightness of the nut 132 against the screw 131.
- the angular position of the handle 5 with respect to the coupling element 4 can be adjusted simply and rapidly by the user, who simply exerts a transversal thrust on the handle 5 to overcome the friction force.
- the angular position of the handle 5 can be adjusted by loosening the nut 132 up until the handle 5 can be freely rotated with respect to the coupling element 4, thereafter tightening the nut 132 once more to fix the handle, 5 in a new angular position.
- a fifth embodiment of the connecting means 142 is illustrated.
- the connecting means 142 comprise a body 143 constituted by two half-shells 143a and 143b, connectable to one another by a series of screws 124 or equivalent means which are insertable in corresponding holes which transversally cross the two half- shells 143a, 143b.
- a seating 125 is defined at a first end of the body 143, between the two half-shells 143a and 143b, in which seating 125 an end of the handle 5 will be inserted and fastened.
- one of the half-shells for example the half-shell 143b, is extended to become an arm 144 destined to couple with the coupling element 4.
- a frusto-conical recess 145 is afforded on a surface of the arm 144 facing towards the coupling element 4.
- a projection 146 is fashioned on a surface of the coupling element 4 facing towards the arm 144, which projection 146 is also frusto-conical .
- the recess 145 and the projection 146 are so dimensioned as to shapingly couple together.
- the arm 144 and the coupling element 4 are crossed by a transversal hole 130 in which a screw 131 is insertable to couple with a nut 132.
- a helix spring 133 is interposed between the nut 132 and the external surface of the arm 144, inserting by an end thereof in a seating 133a afforded in said external surface.
- the spring 133 is compressed so that the arm 144 is pressed against the coupling element 4.
- the value of the pressure force with which the arm 144 is pressed onto the coupling element 4 is adjustable by regulating the tightness of the nut 132 on the screw 131.
- a friction force is developed between the lateral surfaces of the recess 145 and the projection 146, which is strong enough to prevent a rotation of the connecting means 142 and therefore of the handle 5 with respect to the coupling element 4 by effect of the stress generated during normal use of the work tool.
- the angular position of the handle 5 with respect to the coupling element 4 can be adjusted simply and rapidly by the user by exerting a transversal thrust on the handle 5 in order to overcome said friction force.
- the angular position of the handle 5 can be adjusted by loosening the nut 132 up until the handle can be freely rotated with respect to the coupling element 4, thereafter re-tightening the nut 132 to fix the handle 5 in a new angular position.
- Figures 21 and 22 illustrate a sixth embodiment of the connecting means 147.
- the connecting means 147 comprise a body 148 constituted by two half-shells 148a, 148b, connectable to one another by a series of screws 124, or equivalent means, which are insertable in corresponding holes that transversally cross the two half- shells 148a, 148b.
- a seating 125 is afforded at a first end of the body 148, between the two half-shells 148a and 148b, in which seating 125 an end of the handle 5 will be fixed.
- one of the half-shells for example half-shell 148b, extends into an arm 149 which arm 149 is destined to couple with the coupling element 4.
- a pair of frusto-conical recesses 150 is afforded on a surface of the arm 149 facing towards the coupling element 4.
- a pair of frusto-conical projections 151 is fashioned on a surface of the coupling element 4 facing towards the arm 149. The recesses 150 and the projections 151 are so dimensioned as to shapingly couple to one another snugly.
- the arm 149 and the coupling element 4 are crossed by a transversal hole 130, in which a screw 131 can be inserted to couple with a nut 132.
- a helix spring 133 is interposed between the nut 132 and an external surface of the arm 149, inserting at an end thereof in a seating 133a afforded in said external surface.
- a friction force is developed between the lateral surfaces of the recesses 150 and the projections 151, which is sufficient to prevent a rotation of the connecting means 147 and therefore of the handle 5 with respect to the coupling element 4 by effect of the stresses generated during normal use of the work tool .
- the angular position of the handle 5 with respect to the coupling element 4 can be adjusted simply and rapidly by the user, who exerts a transversal thrust on the handle 5 in order to overcome the friction force.
- the angular position of the handle 5 can be adjusted by loosening the nut 132 up until the handle 5 can be freely rotated with respect to the coupling element 4, thereafter re-tightening the nut 132 to fix the handle 5 in a new angular position.
- Figures 23 and 24 illustrate a seventh embodiment of the connecting means 151.
- the connecting means 151 comprise a body 152 constituted by two half-shells 152a and 152b, connectable to one another by a series of screws 124 or equivalent means, which screws 124 are insertable in corresponding holes which transversally cross the two half-shells 152a, 152b.
- a seating 125 is afforded at a first end of the body 152, between the two half-shells 152a and 152b, in which seating 125 an end of the handle 5 will be fixed.
- the half-shells 152a and 152b extend into arms 153a and 153b, which arras 153a and 153b are destined to couple with the coupling element 4.
- An insert 154 is provided in the coupling element 4, for example a quadrangular insert, which slightly projects from both sides of the coupling element 4.
- Further quadrangular inserts 155, 156 are provided on the respective surfaces of the arms 153a and 153b, facing towards the coupling element 4.
- the facing surfaces of the insert 154 and the further inserts 155, 156 have substantially the same dimensions.
- the insert 154 and the further inserts 155, 156., or at least the respective surfaces thereof in contact, are preferably realised using a material having a high friction coefficient.
- the arms 153a and 153b, the insert 154 and the further inserts 155, 156 are crossed by a transversal hole 130, in which a screw 131 is insertable, which screw 131 will couple with a nut 132.
- a helix spring 133 is interposed between the nut 132 and an external surface of the arm 153b, inserting by an end thereof in a seating 133a afforded in said external surface.
- the spring 133 is compressed so that the arms 153a and 153b are pressed against the coupling element 4.
- the value of the pressure force with which the arms 153a and 153b are pressed onto the coupling element 4 is adjustable by regulating the degree of tightening of the nut 132 on the screw 131.
- a friction force is developed between the surfaces in contact of the insert 154 and the further inserts 155, 156, which is sufficient to prevent a rotation of the connecting means 151 and, therefore, of the handle 5, with respect to the coupling element 4 by effect of the stresses generated during normal use of the work tool.
- the angular position of the handle 5 with respect to the coupling element 4 can be adjusted simply and rapidly by the user, who exerts a transversal thrust on the handle 5 in order to overcome the friction force.
- the angular position of the handle 5 can be adjusted by loosening the nut 132 up until the handle 5 can be freely rotated with respect to the coupling element 4, thereafter re-tightening the nut 132 to fix the handle 5 in a new angular position.
- Figures 25 and 26 illustrate an eighth embodiment of the connecting means 157.
- the connecting means 157 comprise a body 158 constituted by two half-shells 158a and 158b, connectable to one another by a series of screws 124, or equivalent means, which are insertable in corresponding holes which transversalIy cross the two half- shells 158a, 158b.
- a seating 125 is afforded at a first end of the body 158, between the two half-shells 158a and 158b, in which seating 158 an end of the handle 5 will be fixed.
- the half-shells 158a and 158b extend into arms 159a and 159b, which arms 159a and 159b are destined to couple with the coupling element 4.
- Two inserts 160 and 161 are provided in the coupling element 4, for example quadrangular in shape, which slightly project from both sides of the coupling element 4.
- Further inserts 162, 163 are provided on the respective surfaces of the arms 159a and 159b, facing towards the coupling element 4, which further inserts 162, 163 are also quadrangular.
- the facing surfaces of the inserts 160, 161 and the further inserts 162, 163 have substantially the same dimensions.
- the inserts 160, 161 and the further inserts 162, 163, or at least the respective surfaces thereof in contact, are preferably made using a material having a high-friction coefficient.
- the arms 159a, 159b, the inserts 160, 161 and the further inserts 162, 163 are crossed by a transversal hole 130, in which a screw 131 is insertable, which screw 131 is destined to couple with a nut 132.
- a helix spring 133 is interposed between the nut 132 and an external surface of the arm 159b, inserting by an end thereof in a seating 133a afforded in said external surface.
- the spring 133 is compressed so that the arms 159a and 159b are pressed against the coupling element 4.
- the value of the pressure force with which the arms 159a and 159b are pressed onto the coupling element 4 is adjustable by regulating the degree of tightness of the nut 132 on the screw 131.
- a friction force develops between the contacting surfaces of the inserts 160, 161 and the further inserts 162, 163, sufficient to prevent a rotation of the connecting means 157 and therefore of the handle 5 with respect to the coupling element 4 by effect of the stresses generated during normal use of the work tool.
- the angular position of the handle 5 with respect to the coupling element 4. can be adjusted simply and rapidly by the user, who exerts a transversal thrust on the handle 5 in order to overcome the friction force.
- the angular position of the handle 5 can be adjusted by loosening the nut 132 up until the handle 5 can be freely rotated with respect to the coupling element 4, thereafter re-tightening the nut 132 to fix the handle 5 in a new angular position.
- the connecting means 164 comprise a body 165 constituted by two half-shells 165a and 165b, connectable to one another by a series of screws, or equivalent means, which are insertable in corresponding holes 166 which transversally cross the two half-shells 165a, 165b.
- a seating is defined at a first end of the body 165, between the two half-shells 165a and 165b, into which seating an end of the handle 5 will be inserted and fixed.
- the half-shells 165a and 165b extend into respective arms 167a and 167b which are destined to couple with the coupling element 4.
- a series of reliefs 168 for example cog- shaped, which extend along an arc of circumference.
- the reliefs 168 are made of a flexible material in order to be deformable, as will be explained herein below.
- a series of recesses is afforded on the side of the coupling element 4 destined to couple with the half-shell 167b, the shape of which recesses complements the shape of the reliefs 168.
- the series of recesses also extends in an arc of circumference.
- the shape, size and arrangement of the series of reliefs 168 and the series of recesses 169 are chosen so that they can shapingly couple together when the half-shell 167b is mounted on the coupling element 4 together with the half-shell 167a and locked onto ' the coupling element 4 as described above with reference, for example, to figures 25 and 26.
- the locking force of the half-shells 167a and 167b on the coupling element 4, the reliefs 168 and the recesses 169 coupled together prevent a rotation of the connecting means 164 and therefore of the handle 5, with respect to the coupling element 4, due to the stress generated during normal use of the work tool.
- the angular position of the handle 5 with, respect to the coupling element 4 can be adjusted simply and rapidly by the user exerting a transversal thrust on the handle 5 in order to elastically deform the reliefs 168 and thus enable an angular displacement of the handle 5 with respect to the coupling element 4.
- a further version of a work tool 170 is illustrated, in particular a broom.
- the broom 170 comprises a plate 171 supporting a plurality of bristles 3 and a handle 5 an axial end portion 5c of which is fixed to a fin-shaped coupling element 4 projecting from a first surface 172 of the plate 171.
- the bristles 3, which can be constituted, for example, by plastic wires and in particular polypropylene, or even natural fibres, are fixed to a second surface 173 of the plate 171, opposite the first surface 172.
- the bristles 3 are cylindrical but they could be differently shaped, for example the bristles could have a star-shaped section, or be quadrangular with possibly curved sides.
- the bristles 3 can further exhibit an axial length which is longer than 20 centimetres and preferably between 24 and 35 centimetres.
- the plate 171 exhibits a perimeter profile having two longer sides which are parallel to a longitudinal axis X and which are straight, and a first shorter side which is straight, parallel to an axis Y perpendicular to the axis X, said first shorter side being defined at the back part of the plate 171, and a second shorter side which is defined at the front part of the plate 171 and describes an arc of circumference (figure 35) .
- the main characteristic of the present invention consists in the fact that the second surface 173 of the plate 171, to which the bristles 3 are fixed, is convex and in particular, in a section transversal to the axis X, the second surface 173 has a curved profile, for example an arc of circumference.
- the bristles 3 are inclined with respect to the axis X by an angle comprised between about 30° and beyond 50°, preferably about 45°.
- the bristles 3, with respect to a vertical axis Z perpendicular to the axis X, are inclined by an angle which is variable between about 0°, at the centre of the plate 171, and an angle comprised between about 20° and about 45° on the sides of the plate 171, so that they can extend laterally beyond the area underlying the plate 171. This latter angulation is facilitated by the conformation of the second surface 173.
- a second characteristic of the broom 170 consists in the fact that the bristles 3 in the front part, and possibly also the back part, of the plate 171 are greater in number than those in the central part of the plate 171, as can be observed in figure 33. From the above description the advantages of the broom 170 are obvious and numerous. In particular, a broom has been obtained, as illustrated in figure 35, that has an area of contact between the ends of the bristles 3 and the surface to be cleaned that is considerably greater than the area underlying the plate 171 bearing the bristles 3.
- the bristles 3, for each section of the plate 171 arrange themselves radially and both for this reason and because of their inclination which facilitates flexion and requires less effort on the part of the user, there is lower wear (by abrasion) on the ends of the bristles 3.
- the bristles have a high inclination (in the direction of the axis X) with respect to the plate 171, during the use of the broom 170 they can flex to a considerably greater degree than the bristles of known prior- art brooms. This leads to a greater surface contact between the end portions of the bristles and the surface to be cleaned. This increase in contact surface determines a greater cleaning performance. Further, the greater the flexion of the bristles, the smaller the effort required to the user during use of the broom.
- the tips reduce in thickness, as can be seen in figure 38, and the reduction in thickness further improves the flexibility of the bristles 3.
- the damping member 6 ⁇ comprises a body 261 made of an elastically deformable material exhibiting a lower portion 262 which is cylindrical and insertable internally of the end section 5a of the handle 5, with a cylindrical upper portion 263 inserted in the end section 5b of the handle 5, and a central cylindrical portion 264 of a same length as the distance between the facing ends of the sections 5a and 5b.
- the body 261 and more precisely the central portion 264 thereof can flex and absorb any mechanical stress transmitted along the handle 5.
- a metal rod 265 is inserted, bent in a U-shape with two arms 265a and 265b.
- the arms 265a and 265b exhibit a series of bends 266, which prevent any excessive stiffening of the body 261.
- the central portion 264 is also able to twist about the longitudinal axis thereof and thus can also absorb torque stress between the parts 5a and 5b.
- Figures from 42 to 44 illustrate a still further embodiment 61 of the damping member 6d illustrated in figure 5. This further embodiment differs from the one illustrated in figures from 39 to 41 inasmuch as the body 261 exhibits a central portion 264a having a quadrangular, or polygonal, cross section which confers greater resistance to torsion on the body 261.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Cleaning Implements For Floors, Carpets, Furniture, Walls, And The Like (AREA)
Abstract
L'invention concerne un outil de travail qui comprend un élément de travail (2, 3), un manche (5) relié audit élément de travail (2, 3), et un moyen d'amortissement (6 ; 6a ; 6b ; 6c ; 6d ; 6e ; 6f ; 6g ; 6h ; 6i ; 6l) permettant d'amortir des contraintes mécaniques transmises le long dudit manche (5). L'outil de travail (1a) comprend : un élément de travail (2), un élément de raccordement (4) qui s'étend depuis une surface de l'élément de travail (2), et un manche (5) relié audit élément de raccordement (4), une partie d'extrémité axiale (106) dudit manche (5) étant associée à des moyens de liaison (107 ; 121 ; 134 ; 137 ; 142 ; 147 ; 151 ; 157 ; 164) pouvant relier la partie d'extrémité axiale (106) dudit manche (5) à l'élément de raccordement. L'invention concerne également un outil de travail (170) qui comprend un élément support (171) présentant une surface (173) à laquelle sont attachés des faisceaux faisant partie d'une pluralité de faisceaux (3), ainsi qu'un manche (5) relié au niveau d'une de ses extrémités (5c) audit élément support (171) ; ladite surface (173) présentant une configuration incurvée.
Applications Claiming Priority (4)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| ITBO2005A000475 | 2005-07-15 | ||
| ITBO20050475 ITBO20050475A1 (it) | 2005-07-15 | 2005-07-15 | Attrezzo di lavoro di tipo perfezionato |
| ITBO20050665 ITBO20050665A1 (it) | 2005-10-28 | 2005-10-28 | Scopa di tipo perfezionato |
| ITBO2005A000665 | 2005-10-28 |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| WO2007010357A2 true WO2007010357A2 (fr) | 2007-01-25 |
| WO2007010357A3 WO2007010357A3 (fr) | 2007-07-12 |
Family
ID=37440773
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| PCT/IB2006/001959 Ceased WO2007010357A2 (fr) | 2005-07-15 | 2006-07-17 | Outil de travail |
Country Status (1)
| Country | Link |
|---|---|
| WO (1) | WO2007010357A2 (fr) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2010215572A (ja) * | 2009-03-17 | 2010-09-30 | Japan Health Science Foundation | 歯髄炎診断マーカー及び歯髄炎診断システム |
| FR2969914A1 (fr) * | 2011-05-27 | 2012-07-06 | Daniel Brincat | Dispositif pour laver les vitres |
| US20240374021A1 (en) * | 2023-05-08 | 2024-11-14 | Qiankun Zhao | Rotatable adjusting cleaner |
| IT202300022956A1 (it) * | 2023-10-31 | 2025-05-01 | Nuova F Lli Dondi S R L | Attrezzo di pulitura di superfici |
Family Cites Families (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US2268488A (en) * | 1940-08-26 | 1941-12-30 | Keeys Murphy | Broom |
| US3340556A (en) * | 1965-08-23 | 1967-09-12 | Battelle Memorial Institute | Broom |
| US4785489A (en) * | 1986-09-08 | 1988-11-22 | Midwest Brush, Inc. | Resilient broom and scraper |
| DE9112122U1 (de) * | 1991-09-28 | 1991-11-14 | Watz, Richard, 6334 Aßlar | Befestigungsvorrichtung für Besenkörper o.dgl. an einem Stiel |
| US5333345A (en) * | 1992-03-30 | 1994-08-02 | Donnell Jerry L O | Cleaning implement including brace of elastomeric material |
| US5384930A (en) * | 1994-03-10 | 1995-01-31 | Uno; Thomas A. | Push brooms with flexible couplings in the handles |
| US6279189B1 (en) * | 1999-11-22 | 2001-08-28 | Simon Ralph Cassar | Flexible insert with stop limits for brush broom handles |
| US6718589B2 (en) * | 2001-01-17 | 2004-04-13 | Chris R. Kimbro | Spring activated push broom |
-
2006
- 2006-07-17 WO PCT/IB2006/001959 patent/WO2007010357A2/fr not_active Ceased
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2010215572A (ja) * | 2009-03-17 | 2010-09-30 | Japan Health Science Foundation | 歯髄炎診断マーカー及び歯髄炎診断システム |
| FR2969914A1 (fr) * | 2011-05-27 | 2012-07-06 | Daniel Brincat | Dispositif pour laver les vitres |
| US20240374021A1 (en) * | 2023-05-08 | 2024-11-14 | Qiankun Zhao | Rotatable adjusting cleaner |
| IT202300022956A1 (it) * | 2023-10-31 | 2025-05-01 | Nuova F Lli Dondi S R L | Attrezzo di pulitura di superfici |
| EP4548804A1 (fr) * | 2023-10-31 | 2025-05-07 | Nuova F.LLI Dondi S.R.L. | Outil de nettoyage de surface |
Also Published As
| Publication number | Publication date |
|---|---|
| WO2007010357A3 (fr) | 2007-07-12 |
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