BE468325A - - Google Patents

Description

       

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  Closing device.



   The present invention relates to a closure device, in particular for receptacles and receivers such. by. example of instrument boxes and kits

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 toiletries, handbags, etc.



   An object of this invention is to provide an improved and novel closure which is of automatic operation, inter-adjustable and of simple and inexpensive construction.



   It is also an object of the invention to provide a closure which operates on the magnetic principle so that this closure can be easily and conveniently closed by manually moving a pair of opposing and cooperating members; organs being thus brought into a tight juxtaposed position. Parts of these components are then automatically engaged and held in engagement by the closure device, without any subsequent effort on the part of the user or the operator.



   The accompanying drawing represents, by way of example, several embodiments of the closure device according to the invention.



   Fig. 1 is a perspective view of an embodiment applied to a lady's handbag of usual shape, shown in the open position;
Fig. 2 is a sectional view along the line 2-2 of FIG. 1, but showing the parts in closed position;
Fig. 3 is a view similar to that of FIG. 2, but showing a variant of the closure in which two opposing magnets are used;
Fig. 4 is a perspective view of a second embodiment applied to an annular boot or container having side walls.

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 telescoping, the parts being shown in the open position;
Fig. 5 is a partial section on a larger scale on a plane passing through line 5-5 of FIG.



  4, but showing the parts in the closed position;
Fig. 6 is a section similar to that of FIG. 5, but through a plane passing through line 6-6 of FIG. 4;
Fig. 7 is a perspective view of another embodiment applied to a container with rigid walls; and
Fig. 8 is a partial section on a larger scale on a plane passing through line 8-8 of fig.7.



   The closure device shown in Figures 1, 2 and 3 is applied to a lady's handbag comprising a frame of usual shape. Until now, such a frame was provided with mechanical closing means generally of the latching type, requiring a considerable manual effort for their actuation, that is to say for the opening and closing of the device.



  At least one of the two actuating frame members arranged so as to engage to close the closure device, is provided with a magnet, preferably of the permanent type, and the other frame member is provided with cooperating means comprising a magnetically sensitive stopper, arranged so as to come into engagement with the aforesaid magnet and formed of a ferrous material or of another suitable material (fig. 1 and 2).



   In a variant, the cooperating organs are

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 provided with complementary magnets arranged so as to engage in the closed position of the closure device (fig. 3).



   As shown in the drawing, the frame generally designated 10 is formed of a suitable non-ferrous or non-magnetic material, such as non-magnetic plastic, and includes a pair of like complementary members designated 11. Each frame member 11 comprises an elongated upper part 12 in the form of a strip having an arm 14 extending downwardly from each end, these arms being articulated at their free ends by means of pins 15 or the like. If desired, the frame can be provided with a handle 16 attached to each of the upper parts 12 of the frame 10.



   The means for automatically causing the two upper parts 12 of the frame 10 to engage and keep them engaged, comprise a magnet 17 embedded in or otherwise fixed to one of the upper parts 12 and a frame 18 of similar dimension embedded in or otherwise fixed to the other upper part 12 of the frame 10 (figo 2). If desired, the armature 18 can be replaced by a second magnet 13 as shown in figure 3, the magnets 17 being arranged such that the positive pole of each engages the negative pole of the other. in the position shown in fig. 3.



   The magnets are preferably of the known type

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 under the designation of "Alnico" manufactured by the General Electric Company of Schenectady, New York, which consist of aluminum, nickel and cobalt powders, pressed, sintered and then magnetized. The magnets 17 can therefore be molded in the upper parts 12 where the nature of the material allows it, and magnetized after their fixing to the frame 10. The magnetization can take place after the fixing of the magnets to the frame, they can be remagnetized if necessary.



   The cooperation of the magnet 17 and the armature 18 (fig. 1) is such that the separation of these members by opening the frame 10 to a sufficient degree cancels or weakens the magnetic field established between these members, thus so that the attraction between them is likewise canceled, and the frame can be opened freely and remain in its open position. To close the frame, it suffices to make the upper parts 12 oscillate sufficiently close to each other to reestablish the magnetic field, after which the magnet 17 brings the armature 18 into contact with it and maintains the frame. closed.



   The embodiment shown in FIG. 4 shows a magnetic closure device applied to a telescopic box or receptacle, made of a non-ferrous material. This box comprises a base generally designated by 20 and a cooperating cap designated generally by 21. The base 20 has a

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 flat bottom 22 from which extends upwardly a flange forming an annular side wall 23, a flange 24 extending upwardly from the base of the side wall 23 in order to provide means for manually perform a rotational movement of the side wall of the base 20 relative to the cap 21, as will be described later.



  The cap 21 comprises a flat bottom 25 from which extends a flange forming the side annular wall 26 which is intended to cover the side wall 23 of the base 20 described above when the container is closed.



   As shown, the base 20 is provided with magnetic means cooperating with reinforcements placed on the cap 21 so as to form a magnetic closure. These means comprise several magnets 27 of generally U-shape embedded in the side wall 23 of the base at suitable intervals, the outer ends of the magnets 27 flush with or being in the same plane as the upper surface of the side wall. 23. These magnets cooperate with the same number of frames 28 embedded in the bottom 25 of the cap 21, the inner surface of the frames 28 coming flush with the inner surface of the bottom 25.



   When the cap 21 engages with the base 20 of the container, the side wall 26 thereof fits over the side wall 23 of the base 20 and the upper surface of the side wall engages.

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 with the interior surface of the bottom 25. When the armatures 28 come opposite the complementary magnets 27 (fig. 5) the magnetic field is produced between each magnet 27 and its base 28, and the magnetic force maintains the base 20 and the cap 21 engaged. Any attempt to separate the cap 21 from the base 20 in order to open the container meets resistance due to the magnetic fields.

   To facilitate the opening of the container, it suffices to turn the cap 21 with respect to the base 20 to offset the armatures 28 with respect to the complementary magnets 27 in order to interrupt the magnetic fields and cancel the magnetic force. acting between the magnets 27 and the frames 28, or between the frames 28 and the parts 20 and 21 to which they are attached. When this character is not made necessary by the nature of the box, the frames 28 may extend so as to form an uninterrupted annular frame common to all the magnets 27.



   The base 20 and the cap 21 can also be provided with additional magnetic means comprising several "Alnico" magnets 29 in the form of buttons, also embedded in the side wall 23 with their respective outer surfaces coming flush with said wall. 23, these magnets cooperating with frames 30 embedded in the side wall 26 and having their surfaces flush with the interior surface of the annular wall 26.

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   When the cap 21 engages the base 20 as described above, the frames 30 cooperate with the magnets 29 so as to form magnetic fields resistant to the separation of parts 20 and 21 of the container when the frames 30 come opposite the magnets 29, as shown in FIG. 6. To facilitate the separation of parts 20 and 21 in order to open the container, it suffices to rotate the cap 21 relative to the base 20 to offset the reinforcements 30 relative to the magnets 29 so as to cancel the fields. magnetic. The relative movement of the parts 20 and 21 on the side walls 23 and 26 is substantially perpendicular to the lines of force during the opening and closing of the container thus formed.

   As in the case of the frames 28 described above, the frames 30 may extend so as to form an unbroken annular frame common to all the magnets 29.



   It will be understood that the complementary magnets 27 and the frames 28 could obviously be removed from the parts 20 and 21 and that the magnets 29 and the complementary frames 30 would be kept or vice versa.



   The embodiment shown in FIGS. 7 and 8 is applied to a box or container comprising a rectangular base generally designated 32 and having an upper part 33 hinged to the base 32.

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   The base is provided with end walls 34, a front wall 35 and a rear wall 36. The upper part is likewise provided with end walls 37, a front wall 38 and a wall. rear 39, the rear walls 36 and 39 being connected by hinges, not shown, in the usual manner. The walls of the members 32 and 33 are rigid and preferably formed from a non-ferrous or non-magnetic material such as wood or a non-metallic plastic material.



   In a variant, the walls can be formed of a magnetic material and the magnets as well as the armatures which will be described later, can be isolated from these walls in the known manner.



   A substantially U-shaped magnet 40 is attached to the inner surface of each end wall 34, this magnet being generally similar to the magnets 27 described above, having the top surface of its poles coming from. substantially flush with the upper edges of the walls 34. Reinforcements 41 in the form of blocks are similarly disposed on the inner surface of the end walls 37, these reinforcements being arranged so as to engage the magnets 40 in the same manner. the closed position of the boot.



  To close this boot, it suffices to tilt the upper part 33 clockwise from the position shown in FIG. 7

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 until the armatures 41 are brought into the field of the permanent magnets 40, the magnetic force then causing the armatures 41 to engage the permanent magnets 40. The magnetic force keeps the box closed.



   The box is also provided with other magnetic closure means comprising a substantially U-shaped magnet 42 fixed at a suitable location on the inner surface of the front wall 35 and arranged to cooperate with an opposing magnet 43 shaped like a U-shaped. analogously and which is mounted on the inner surface of the front wall 38 for the purpose of performing a sliding movement. As shown in fig. 8, the surface of the poles of this magnet 43 comes practically in the same plane as the lower edge of the front wall 38.

   Magnet 43 is slidably attached to front wall 38 by means of dowels 45 extending through grooves 44 formed longitudinally in front wall 38, these dowels 45 being connected at one end to the end. magnet 43, and at the other end to buttons 46 for manual actuation, so that the poles of magnet 43 can be moved longitudinally in and out of alignment with the opposite poles of magnet 42 described above.



   When the box is in the closed position and the poles of magnet 43 are aligned with the opposite poles of magnet 42, appreciable magnetic force

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 resists opening the boot. To facilitate the opening of the boot, it suffices to grasp the buttons or handles 46 by hand and slide the branches or poles of the magnet 43 out of engagement with the corresponding ends or branches of the magnet 42, to so as to cancel the magnetic field. When this displacement is sufficient to bring a blade of the magnet 43 into alignment with a corresponding blade of the magnet 42, a significant repulsive force is generated and moves the magnets 42 and 43 away (as well as the parts which are attached to them) .



   To return the magnet 43 to its initial position after such a displacement, this magnet 43 is provided with a pin 47 on which is fixed one end of a spring 48, the other end of which is connected to a fixed pin 49. integral with the wall 38 of the box.



   The member 42 can, of course, be non-magnetic, that is to say can constitute an armature instead of being a magnet. The end displacement of the magnet 43 then has the effect of shifting the blades of the magnet 43 with respect to the opposite branch of the frame or member 42, so as to decrease or cancel the magnetic field appearing between them. organs 42 and 43.



   It is clear from the above description that a new and improved closure device has been devised, suitable for receptacles or

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 containers of a wide variety of types; and a new and improved method of attaching such a closure device to such receptacles or containers before the permanent magnets are magnetized.



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Claims (1)

CLAIMS -------------- 1. Closing device in particular for containers such as, for example, boxes of instruments, toiletries, handbags, etc., characterized in that it comprises a pair of engaging and detachable members, formed at least mainly in a non-magnetic material, one of these members having a part formed of a magnetically sensitive material, and the other member having at least one magnet arranged so as to engage with the material ma - Genetics of the aforementioned first member during the engagement of these members, a magnetic field also being created between them and keeping them engaged to ensure the closure of the device. 2. Closing device according to claim 1, characterized in that it comprises a magnet fixed to each of the aforesaid members, these magnets being arranged so as to come into engagement with one another during the engagement of said. organs, the positive pole of each magnet coming into engagement with the negative pole of the other magnet during this engagement. 3. Closing device according to claim 1, characterized in that the engaging and releasable members are rigid, in that it comprises a permanent magnet mounted on one of said members and a frame formed of a magnetically mounted sensitive material. on the other organ. <Desc / Clms Page number 14> 4. Closing device according to claims 1 and 3, characterized in that the aforesaid members are mounted so as to be able to oscillate approaching and moving away from each other to engage and out of. taken. 5. Closing device according to claims 1, 3 and 4, characterized in that the permanent magnet is fixed on one of said members and engages in the closed position of the device, with a non-magnetized armature. a magnetically sensitive material provided on the other organ. 6. Closing device according to claims 1, 3 and 4, characterized in that the aforesaid armature is constituted by a permanent magnet arranged such that each pole of this magnet engages with the opposite pole of the magnet. magnet mentioned first when said rigid members are engaged. 7. A closure device for a container according to claim 1, characterized in that said members are rigid and are intended to be detachably connected to close the container, permanent magnetic means being mounted on each of said members in such a way that the the axis of each positive pole substantially coincides with the axis of each negative pole when the members are in the position corresponding to the closure of the container. <Desc / Clms Page number 15> 8. Closing device for container. according to claim 1, characterized in that said container comprises a base member having a straight, annular side wall, an upper member having an annular side wall cooperating telescopically with the side wall of said base member so as to close the container , means for magnetically maintaining pes base and upper members in the closed position, these means comprising at least one permanent magnet fixed in the side wall of one of said members and having its poles directed towards the other member, and means provided on the other member engaging with the aforesaid poles in a closed position of said members to create a magnetic field maintaining the members in the closed position. 9. Closing device according to claims 1 and 8, characterized in that the means coming into engagement with the aforesaid poles are constituted by reinforcements which are capable of being displaced with respect to the poles of the aforesaid aiming in view. to interrupt the magnetic field when said members are moved from the closed position of the container, the interruption of the magnetic field facilitating the opening of said container. 10. Closing device according to claims 1, 8 and 9, characterized in that the aforesaid reinforcements are embedded in one of said members. 11. Closing device according to claims <Desc / Clms Page number 16> cations 1, 8 and 9, characterized in that the aforesaid armatures are capable of being offset with respect to said magnet by a relative rotational movement between the base member and the upper member to interrupt the magnetic field and facilitate opening of said container. 12. Closure device according to claims 1, 8 and 9, characterized in that it comprises several separate magnets fixed to one of the side walls, in that the frames comprise several magnetic sensitive members spaced so as to be. aligned with said magnets in the closed position, and being capable of being offset with respect thereto by a relative rotational movement between the base and upper members in order to interrupt the magnetic fields, to facilitate the opening of the container. 13. Closing device according to claims 1 and 8 to 12, characterized in that the means for magnetically maintaining said members in the closed position comprise several spaced permanent magnets, embedded in that of the annular walls located at the end. interior and have their poles directed outwards, towards the side wall of the other member, and in that the spaced reinforcements are embedded in the side wall of the last mentioned member and come into engagement with the poles in a closed position of said members. <Desc / Clms Page number 17> 140 Closing device according to claims 1 and 8 to 12, characterized in that the means for magnetically retaining the base and upper members in the closed position comprise several spaced magnets embedded in one of said side walls and having their poles directed towards the edge of said side wall and coming flush with it, and in that spaced reinforcements are embedded in the other member covering the blades and engage them in a closed position of these members to create a magnetic field holding the organs in the closed position. 15. A closure device for a container, according to claim 1, characterized in that this receptacle comprises a pair of rigid members arranged so as to be able to approach and move away from each other to close and open. the container, means for automatically maintaining said members in the position corresponding to the closure of the container, these means comprising a permanent magnet mounted in a movable manner on one of said members, a similar magnet fixed on the other member and arranged so as to come engaged with said movable magnet, such that its positive blade engages with the negative blade of this magnet, and return means intended to elastically return said movable magnet to the position it occupies when it is engaged with the other magnet. 16. Closing device according to claims 1 and 15, characterized in that it comprises manual control means for moving the mobile magnet away. <Desc / Clms Page number 18> from said position and thereby weaken the magnetic field between the magnets in order to facilitate the separation of said members and to open the container. 17. Closing device according to claims 1, 15 and 16, characterized in that the manual control means are intended to move the movable magnet against the elastic force of the return means to another position in which a pole of this moving magnet is aligned with the corresponding pole of the fixed magnet so as to create a repulsive force moving the magnets and the organs attached to it. 18. Closing device according to claims 1 and 15 to 17, characterized in that the space between the poles of said magnet and the equal space between the arms of the armature of similar shape and size is greater than the width of the poles of the moving magnet. 19. A method for manufacturing a closure device according to claim 1, applied to a container, characterized in that a non-magnetized magnet blank is fixed to a predetermined part of the container, and in that it is magnetized. then said blank after its fixing. 20. A method for restoring a magnetic closure as described in its original state, including <Desc / Clms Page number 19> nant at least one exhausted magnet, characterized in that said magnet is re-magnetized in order to restore the strength of said closure. "Claim 1 constitutes the summary within the meaning of the Royal Decree of 23 June 1877."