FR2951993A1 - Manual device for tool applicator to apply e.g. coating on support i.e. paper, in office, has shaft provided with projecting relief to cooperate with support for holding cap in protection or released positions - Google Patents

Abstract

The device has a protective cap (16) for protecting an applicator end (121), where the cap is placed with a tool (12) by a hinge (18) that is mobile between a protection position and a released position. The hinge has a shaft (170) and a shaft support (120). The shaft is provided with a projecting relief (170a) to cooperate with a support for holding the cap in protection or released positions or in an intermediate position between the protection and released positions. The shaft is integrated to the cap. The support is integrated to the tool.

Description

The present invention relates to the field of manual applicator tool devices, and more specifically to manual applicator tool devices such as coating application devices (eg ink, adhesive, covering or colored materials) on a medium, especially paper. More particularly, the present invention relates to the field of manual ribbon applicator tool devices. Conventionally, the manual applicator tool devices comprise on the one hand a tool having an applicator tip, and on the other hand a protective end cap, said cap being assembled to the tool by a hinge being movable between a position protection device in which said cap protects the end piece and an unobstructed position, the hinge comprising a shaft and a shaft support. When this type of device is not used, the cap is in the protective position, and at least partially covers the tip to protect it. To use the device, the user brings the cap in the open position in which the tip is adapted to be used for the application of a coating. To maintain the cap in the protective position and / or in the disengaged position, this type of conventional device generally has a locking system in one or other of these positions. The cap-locking systems of conventional devices deteriorate rapidly, for example due to wear of the parts in contact, and quickly lose their effectiveness. Therefore, the cap is no longer retained and can easily rotate, for example when handling the device. Thus, the protective position is no longer ensured so that the tip is no longer effectively protected. Similarly, when using the device, the cap can easily move away from the open position and hinder the user during the application of a coating with the tip, including tending to come into protection position. Thus, maintaining the cap conventional hand applicator tool devices in position is unreliable, which makes the cap useless when it does not properly protect the tip or annoying when it prevents the user to use the device. device.

An object of the present invention is to substantially remedy the disadvantages mentioned above.

This object is achieved by providing a manual applicator tool device of the aforementioned type in which the shaft has at least one protruding relief intended to cooperate with the shaft support in order to retain the cap in the protected or unobstructed position or in a intermediate position between the protective position and the unobstructed position. It is understood that the shaft is integral with one of the components constituted by the cap and the tool, preferably forming a body with it, and that the shaft support is integral with the other of these components, preferably by being one with him. The relief and the shaft support cooperate so that rotations of the shaft relative to the shaft support are retained, and therefore the movements of the cap relative to the tool are retained. The protruding relief disposed on the shaft forms an extra thickness on the peripheral surface of the shaft. This relief cooperates with the shaft support so as to generate sufficient friction to retain the cap. Thus, the friction forces resulting from the interaction of the relief with the shaft support enable the cap to be held in the position where the user has brought it, this position being the protective position, the release position, or an intermediate position.

Of course, the relief is such that the generated frictional forces are sufficient to retain the cap while allowing the user to bring the cap to the desired position without special effort. Thus, the relief of the present invention makes it possible to retain the positioning of the cap all along the allowable rotation path of the shaft in the shaft support, including the protection position and the unobstructed position, which makes the This invention is more versatile than the locking systems of the prior art. Moreover, the inventors have found that the retention of the cap is insensitive to the possible wear of the relief and / or the part of the shaft support with which it cooperates. In particular, the retention of the cap in the intermediate position promotes wear resistance by allowing the cap to be held in an intermediate position sufficiently clear to allow the application of a coating using the end piece without the cap embarrass the user. Therefore, the parts allowing the retention of the cap in the released position are not systematically solicited and are therefore preserved from possible wear. Thus, the locking system of the present invention is stronger than those of the prior art and retains its effectiveness after multiple uses. Furthermore, comparing the device according to the invention with another device where the shaft is firmly clamped by the shaft support (for example by elastic deformation of the shaft support) and does not have any relief, the forces of friction generated in the other device are high and make the handling of the cap difficult. In addition, in this other device, the high friction forces cause premature wear of the cooperating parts. In addition, these high friction forces are applied to large surfaces and thus generate, in the shaft support, high stresses that weaken this support. Moreover, the zones of cooperation between the outer surface of the shaft and the shaft support with respect to important surfaces, a relaxation phenomenon of the tightening is observed also with time, and thus a reduction of the friction forces, so that the effectiveness of maintaining the cap in position degrades over time. In the device according to the invention, thanks to the (x) relief (s), the cooperation zones on the contrary affect small areas (relative to the other device). This avoids the stresses that unnecessarily weaken the shaft support. The frictional forces are sufficient to hold the cap in position while allowing easy handling. In addition, the relaxation phenomenon is not significant, so that the friction forces are constant over time. Moreover, thanks to the relief and the small surface areas of cooperation, the wear of the parts in contact is limited. Thus the manual device according to the invention allows a maintained position of the cap controlled, constant over time and successive uses, and has a robust structure.

Preferably, the shaft is disposed in the shaft support, the latter having a window whose at least one edge is adapted to cooperate with said relief. Thus, the shaft can be gripped by the parts of the shaft support other than the window. For example, if the window is also open at its ends or sufficiently long, it can be used to mount the shaft in the shaft support by passing the shaft in the shaft holder through the window. When the relief is positioned in the window in the vicinity of one of its edges, the relief and the edge cooperate so that the cap is held in rotation in the hinge. The extra thickness that constitutes the relief, cooperates in support with the edge of the window which advantageously extends in the axial direction of the shaft. It is thus necessary voluntarily move the cap of this position of cooperation with the edge to remove the relief of the vicinity of the edge. Therefore, when the relief is in the window, it cooperates in support with an edge of the window, and when the relief is not in the window, it cooperates by friction with the shaft support. This ensures the retention of the cap all along the rotational path of the shaft in the shaft holder. Advantageously, the window has two edges vis-à-vis which extend substantially in the axial direction of the shaft, and the relief is adapted to cooperate with the two edges when positioned in the window. In other words, the two edges frame the relief so that the rotational movements that tend to lead the relief beyond one or the other of the edges are retained. In this case, the dimension of the relief along the circumference of the shaft is preferably substantially equal to the width between the two edges. Preferably, the tree has several reliefs spaced from each other. The presence of several reliefs improves the retention of the cap. Indeed, the friction forces or relief / edge cooperation are increased by the presence of several reliefs. Furthermore, when the tree has several reliefs and when the tree support has a window, several reliefs may be framed by the edges of the window so that at least two reliefs positioned in the window are each able to cooperate with a different edge to retain the rotational movements that tend to lead one of said reliefs beyond one of the edges. Advantageously, one of the components constituted by the cap and the tool has a clipping edge intended to cooperate with a clipping relief disposed on the other of these components in order to block said cap in the disengaged position.

Thus, when the cap is in the disengaged position, the clipping edge cooperates with the clipping relief and blocks the cap. This blocking is in addition to the restraint operated by the (or) relief (s) and allows locking of the cap in the released position. Advantageously, the cap further comprises an elastic tongue intended to cooperate with the tool to lock said cap in the protective position. This elastic tongue makes it possible to lock the cap in the protective position. The tab cooperates, for example, but not necessarily, with an outer portion of the tool such as the outer casing, or with the endpiece. This blocking is in addition to the restraint operated by the (or) relief (s) and allows locking of the cap in the protective position. The invention and its advantages will be better understood on reading the following detailed description, of embodiments given as non-restrictive examples, made from the attached drawing plates in which: FIG. 1 shows the cap of FIG. a first embodiment of the manual application tool device according to the invention, viewed in perspective from the inside of the cap, FIG. 2 represents the cap of FIG. 1, seen in perspective from the side of the elastic tongue. FIG. 3 shows the cap of FIG. 1 and 2, seen in perspective from the side of the shaft; FIG. 4 represents the first embodiment of the manual application tool device according to the invention seen from FIG. 5 is a view of the tip of the device of FIG. 4, the cap being in the intermediate position, FIG. 6 is a partial sectional view of the FIG. FIG. 7 shows a partial sectional view of a second embodiment of the device according to the invention, the cap being in the intermediate position, FIG. 8 represents a view of FIG. partial section of the device of Figure 7, the cap being in the disengaged position, and Figure 9 shows a sectional view of the shaft according to the plane IX of Figure 2.

The cap of a first embodiment of the manual applicator tool device according to the invention is described with reference to FIGS. 1, 2 and 3. The first embodiment of the device is shown in FIG. applicator tool 10 comprises on the one hand a tool 12 having a nozzle 121, and on the other hand the cap 16. In this embodiment, the shaft 170 is integral with the cap 16 while the shaft support 120 is 12. Of course, the body of the tool 12 contains the organs (not shown) necessary for its function, such as a ribbon supply spool, a ribbon recovery spool, a spooling system, and a spool. rotation coupling of the coils, etc. The cap 16 comprises a cap body 160 forming a cap in which the nozzle 121 is housed when the cap 16 is in the protective position (see fig.6). The cap 16 thus defines a cavity 161 intended to house all or part of the nozzle 121. In this example, the cavity 161 accommodates the entirety of the nozzle 121. Furthermore, the cavity 121 delimited by the body of the cap 160 is of complementary shape to the tip 121. In this example, the cap 16, and more particularly the cap body 160, has a general shape of nose. The cap 16 comprises two cheeks 162 between which extends an elastic tongue 164. The cap 16 also comprises a main hood portion 166 which extends between the two cheeks 162. The elastic tongue 164 is disposed towards the free end of the main bonnet portion 166. The main bonnet portion 166 plus tab 164 forms the front portion of the nose while the flanges 162 form the side portions of the nose, the cavity 121 opening on the rear portion of the nose. Thus, the distal end of the tab 164 is disposed on the back side while the base of the tab is disposed on the front side. The resilient tongue 164 has a boss 164a located at its distal end and intended to cooperate with the applicator tip 121. In this example, the boss 164a forms a projection on the inside of the cap 16. The cap 16 further comprises reliefs of surface 168a and 168b assisting in its handling (see fig.2). More particularly, the surface reliefs 168a and 168b are formed on the outer surface of the cap 16. The surface reliefs 168a are located on the distal end side of the tab 164. The surface relief 168b is located on the side of the cap. base of the tab 164, on the main hood portion 166. The cap carries a shaft 170 which extends between two ribs 172 protruding rearwardly from the outer surface of the main hood portion 166. These ribs are disposed in the extension of the edges 174a of a day 174 formed in the main hood portion 166 and extending between the two cheeks 162. The edges 174a are parallel to the cheeks 162. Thanks to the day 174, the cap 16 and the support of shaft 120 (described later) do not interfere. Thus, the movements of the cap 16 are not impeded by the shaft support 120. The day 174 is also delimited by an edge 174b, which extends between the two cheeks 162 perpendicular to the edges 174a. The shaft 170 is disposed on the opposite side of the elastic tongue 164. The shaft 170 and the distal end of the tongue 164 are disposed on the side of the entrance of the cavity 161, on the rear part of the nose. The shaft 170 has at least four reliefs 170a separated by angular spacings on the circumference of the shaft 170. By "angular spacing" is meant a long measured spacing of the periphery of the shaft 170, perpendicular to its axis A170. The angular spacing A between two reliefs 170a is shown in FIG. 9. Moreover, it is understood that two reliefs can be spaced angularly without necessarily being in the same axial position along the shaft. In addition, the shaft 170 has at least two reliefs 170a aligned axially. It is therefore understood that two axially aligned reliefs are not spaced apart angularly. In this example, the tree has eight reliefs 170a in total. The shaft 170 has in fact two series of four reliefs 170a separated by regular angular gaps A. The reliefs 170a of each of these series are arranged in the same axial position along the shaft 170. Each of the reliefs 170a of each series, is aligned axially with another relief 170a of the other series. The reliefs 170a form grains each covering an angular range of between 10 ° and 50 ° (ten and fifty degrees of angle). It is understood that the "angular range" is the angle covered by the grain in a cross section of the shaft 170, the vertex of the angle being the

point through which the axis A170 of the shaft 170 passes in the section. The angular range B covered by a relief 170a is shown in FIG. 9. In this example, the grains have an oblong cap or "grain of rice" shape. The smallest side of the oblong cap extends axially along the shaft 170. Of course, other shapes of grains are conceivable, in particular a shape of spherical cap or of shape having an angular edge such as a tetrahedron or a prism whose base would be supported on the surface of the shaft 170. However, the "rounded" shapes such as the caps (oblong, spherical or other) have the advantage of being more resistant to wear than the shapes. having an angular edge. It will be noted that the cap 16 is preferably made by molding. Thus, the number of reliefs 170a, the shape of the reliefs, the angular spacing A between each relief and the angular range B occupied by each relief can be chosen so as to avoid undercuts, thus allowing the use of a mold in two parts, movable relative to each other transversely to the longitudinal direction of the shaft 170. Figure 4 shows the first embodiment of the manual applicator tool device 10 according to the invention. The hinge 18 through which the cap 16 is mounted on the tool 12 comprises the shaft 170 and the shaft support 120. Referring to Figure 6, the shaft support 120 constitutes a tree bearing comprising a window longitudinal 122 through which the shaft 170 is inserted into the shaft support 120. The window 122 comprises two parallel edges 122a extending in the axial direction of the shaft 170. Thus, the edges 122a are substantially perpendicular to the path reliefs 170a when the cap 16 tends to change position, and thus allow effective cooperation for the retention of the cap 16. Advantageously, the shaft support 120 is elastically deformable so that the shaft 170 is mounted by clipping into the shaft support 120, in a bearing portion 124. Furthermore, the shaft support 122 is preferably elastically deformed when the shaft 170 is disposed in the bearing portion 124, in particular by the reliefs 170a. This elastic deformation provides, by reaction, a clamping force which clamps the shaft 170 at the reliefs 170a. This tightening improves the cooperation of the reliefs 170a with the shaft support 120, both at the shaft bearing 124 and at the edges 122a. It is therefore understood that the elastic deformation of the shaft support 122 is due to the extra thickness that the reliefs 170a represent, and not to the diameter of the shaft 170. In other words, if the shaft 170 did not have any relief 170a, the shaft support 122 would not be elastically deformed. In Figure 6, the cap 16 is in the protective position. In this sectional view, three reliefs 170a of a series of reliefs cooperate with the bearing portion 124 so that when the cap 16 is subjected to external forces that are not intended to change position, for example during in handling the device 10, frictional forces are generated between the reliefs 170a and the bearing portion 124 and hold the rotation of the shaft 170 in the shaft holder 120 and thus retain the cap 16 in its position. Of course, the shaft 170 comprising two series of four reliefs 170a aligned in pairs, it is easy to understand that the restraint is operated by the cooperation of six reliefs 170 taken in bearing portion 124. Furthermore, the elastic tongue 164 cooperates with the tip 121 and blocks the cap 16 in the protective position. More specifically, the boss 164a of the elastic tongue 164 cooperates with the flats 123a of the guide flats 123 of the ribbon 125. These flats 123a are shown in FIG. 5, in particular, in which the cap 16 is in the intermediate position and reveals the ribbon 125, 121 and flanges 123. The flats 123a are arranged on the lower side of the flanges 123. The upper side of the flanges 123 is disposed on the hinge side 18. FIG. 7 shows a second embodiment of the manual tool device applicator where the cap is in the intermediate position. The only difference between the first and the second embodiment is at the clipping relief (126 and 126 ') for locking the cap in the disengaged position. This relief is described later. All the other parts are identical, the reference signs of the identical parts are therefore identical.

Note that the intermediate position of the cap shown in Figures 5 and 7 is an intermediate position sufficiently clear to allow the application of the coating, the tape is coated on a support with the tip, without the cap does not hinder the user. In the intermediate position of the cap 16 shown in FIG. 7, three reliefs 170a of a series of reliefs of the sectional view cooperate with the bearing portion 124 as previously described while the fourth relief cooperates with an edge 122a of the window. 122. Thus, in addition to the restraint obtained by friction between the bearing portion 124 and the reliefs 170a engaged in the bearing portion 124, an additional retention by cooperation of complementary shapes in contact with each other is carried out at an edge 122a of the window 122 with another relief 170a. Of course, one could consider a variant according to the invention where a relief would extend from one edge 122a to the other, or another variant where two different reliefs would each cooperate with a different edge 122a. As previously, the shaft 170 comprising two series of four reliefs 170a aligned in pairs, it is understood that the restraint is operated by the cooperation of six reliefs 170 taken in bearing portion 124 and two reliefs 170a resting on an edge 122a .

Furthermore, the oblong shape of the reliefs 170a whose longest side extends along the circular periphery of the shaft 170, facilitates the passage, perpendicularly to the axis A170 of the shaft 170, of each relief 170a at the the edges 122a of the window 122 when the user changes the position of the cap 16. This makes it possible to minimize the wear of the reliefs 170a and the edges 122a, so that the effectiveness of the retention of the cap 16 remains ensured even after many uses. FIG. 8 represents the second embodiment of the device according to the invention, the cap being in the disengaged position. In the same manner as before, the retention of the cap 16 is achieved by the cooperation of the reliefs 170a with the bearing portion 124 and an edge 122a. In addition, the cap 16 is locked in the disengaged position by the clipping relief 126 'which cooperates with the edge 174b of the day 174, this edge 174b constituting a clipping edge.

In the device 10 'of the second embodiment, the clipping relief 126' is distinct from the shaft support 120. In the device 10 of the first embodiment, the clipping relief 126 is integrated with the shaft support 120. It is therefore understood that the clipping relief 126 of the device 10 is part of the same protrusion forming the shaft support 120 on the housing of the tool 12 while in the device 10 'the clipping relief 126' and the support of Shaft 120 form two distinct and separate growths. By integrating the clipping relief 126 with the shaft support 120, the shaft support assembly plus clipping relief is stronger while maintaining satisfactory clipping elasticity. 5 15 2. 20 3. 4. 25 5. 30 6.

Claims (1)

REVENDICATIONS1. A manual applicator tool device comprising on the one hand a tool (12) having an applicator tip (121), and on the other hand a tip protector cap (16), said cap (16) being assembled to the tool (12) by a hinge (18) being movable between a protective position in which said cap (16) protects the end piece (121) and a disengaged position, the hinge (18) having a shaft (170) and a support shaft (120), said manual applicator tool device (10) being characterized in that the shaft (170) has at least one projecting relief (170a) for cooperating with the shaft support (120) so as to to retain the cap (16) in the protected or disengaged position or in an intermediate position between the protective position and the disengaged position. Device according to claim 1, characterized in that the shaft (170) is arranged in the shaft support (120), the latter having a window (122) of which at least one edge (122a) is able to cooperate with said relief (170a). Device according to claim 1 or 2 characterized in that the shaft (170) has several reliefs (170a) spaced from each other. Device according to any one of claims 1 to 3 characterized in that the shaft (170) has at least four reliefs (170a) separated by angular spacings (A) on the circumference of the shaft (170). Device according to any one of claims 1 to 4, characterized in that the shaft (170) has at least two reliefs (170a) aligned axially. Device according to any one of claims 1 to 5, characterized in that the reliefs (170a) form grains each covering an angular range (B) of between 10 ° and 50 ° .7. Device according to any one of claims 1 to 6, characterized in that the shaft (170) is integral with the cap (16) while the shaft support (120) is integral with the tool (12). 8. Device according to any one of claims 1 to 7, characterized in that one of the components constituted by the cap (16) and the tool (12) has a clipping edge (174b) intended to cooperate with a clipping relief (126, 126 ') disposed on the other of these components to lock said cap (16) in the disengaged position. 9. Device according to claim 8, characterized in that the clipping relief (126) is integrated with the shaft support (120). 10. Device according to any one of claims 1 to 9, characterized in that the cap (16) further comprises an elastic tongue (164) intended to cooperate with the tool (12) for locking said cap (16) in protection position. 11. Device according to claim 10, characterized in that the elastic tongue (164) has a boss (164a) located at its distal end and intended to cooperate with the applicator tip (121). 12. Device according to claim 10 or 11, characterized in that the cap (16) comprises two flanges (162) between which said elastic tongue (164) extends. 13. Device according to any one of claims 1 to 12, characterized in that the cap (16) further comprises surface reliefs (168a, 168b) assisting in its handling.