CH311125A - Automatic locking device. - Google Patents

Description

  

  Automatic locking device. The present invention relates to a positive automatic locking device corresponding to a locking-assembly intended <B> to </B> to be mounted on one of two parts movable with respect to <B> to </ B> the other, and a hooked stop element intended <B> to </B> be mounted on the other part, this assembly and this element being mounted so that the assembly can engage with the 'element, and the two movable parts relative to each other being capable of being moved towards each other until in a limiting relative position.

   Said parts can be, for example, a door and a cupboard, the door of a bedroom and the frame of this door, or a desk and a drawer of this desk.



  The invention is particularly useful in the manufacture of sheet metal cupboards, such as wall cupboards or cupboards intended <B> to </B> rest on a floor, for kitchens, bedrooms <B> to < / B> bedrooms and bathrooms.



  The main object of the present invention is to provide a locking device capable of automatically locking one <B> to </B> the other the two parts on which the assembly and the element that it comprises are. respectively mounted, and allowing these two parts to be easily released from one another by bringing them closer to each other beyond their relative locking position.



  The object locking device of the invention is characterized in that said locking assembly comprises a latch which is normally biased towards a locking position in which it comes into. engaged with the stop element to retain said parts <B> in </B> the locked state in a position slightly more apart than in said limit relative position, after a first displacement of said parts with respect to each other <B> to </B> the other towards this limit relative position and beyond said locking position,

   said lock being capable of being automatically moved to a position of release with respect to said stop element after a second displacement of said moon parts with respect to <B> to </B> the other <B> to </ B> from said locking position and towards said relative limit position, a replacement element urged outwardly and capable of being moved by said stop element when said parts are in a relative position very close to said locking position, this resetting element being associated with the lock, so <B> to </B> be able to cooperate with it to bring this lock <B> to </B> from its release position into its normal position,

   after separation of said parts .secondly to the second relative displacement of these parts towards said limit relative position.



  The device may include resilient means to provide the force necessary to separate the two parts when the locking device is unlocked, a separate spring plunger which has heretofore been required in constructions of this kind. thus being deleted. Thus, thanks <B> to </B> such a locking device, a very busy housewife can approach a closed cupboard with both hands full and open this cupboard by simply pressing against the door with her shoulder, elbow or knee.



  The appended drawing represents, <B> by </B> by way of example, three embodiments of the locking device forming the subject of the invention, the same reference numerals designating similar parts.



  Fig. <B> 1 </B> is a partial perspective view of a cabinet comprising a door held in the closed position by a locking device constituting the first form of execution.



  Fig. 2 is a partial horizontal cutaway view, <B> to </B> on a larger scale, by 2-2 of FIG. <B> 1, </B> of said embodiment.



  Fig. <B> 3 </B> is an elevational view of the front face of a part of the cabinet intended <B> to </B> receive the locking assembly of this embodiment.



  The fi-. 4 is a front view of an envelope of said locking assembly.



  Fig. <B> 5 </B> is a plan view of the enclosure shown <B> to </B> in FIG. 4.



  Fig. <B> 6 </B> is a side elevation of the red worm of said embodiment.



  Fig. <B> 7 </B> is a plan view of the lock shown <B> in </B> in FIG. <B> 6. </B>



  Fig. <B> 8 </B> is a plan view of the replacement element of the first runtime.



  Fig. <B> 9 </B> is a side elevation of <B> the element </B> shown <B> in </B> in fig. <B> 8. </B>



  Fig. <B> 10 </B> is a vertical longitudinal section of the first embodiment and, of a part of a door, <B> at </B> the instant when this door will arrive in the closed position , the locking assembly being in its normal state, with its lock in the preferred position.



  Fig. <B> 11 </B> is a similar cut, showing the stop element lifting a hook-shaped part of the latch, during the closing movement of the door.



  Fig. 12 is a similar section showing the members <B> at </B> the instant the door has moved inward and is in its limit position with the latch engaged with the stopper.



  Fig. <B> 13 </B> is a similar cut, showing all parts at rest and the lock in the locked position.



  Fig. 14 is a similar section, mon trant the latch in its release position which it comes to occupy automatically when the door is pressed inwards to cause it to open.



  Fig. <B> 15 </B> shows a subsequent step in the operation of the device, when the door has been released and is not pressed inwards and is moved to its open position by elastic means of the locking device.



  Fig. <B> 16 </B> is a section similar <B> to </B> in fig. 2, a second form of execution.



  Fig. <B> 17 </B> is a plan view of an enclosure of the second embodiment.



  Fig. <B> 18 </B> is a side elevation of the envelope shown <B> to </B> in fig. <B> 17. </B>



  Fig. <B> 19 </B> is a plan view of the relocation element of the second embodiment.



  Fig. 20 is a longitudinal elevation of the element shown <B> to </B> in FIG. <B> 19. </B>



  Fig. 21 is a side elevation of the lock of the second execution faith.



  Fig. 22 is a bottom view of the red worm shown <B> to </B> in FIG. 21.



  <B>. </B> Fig. <B> 23 </B> is a vertical longitudinal section, corresponding <B> to </B> fig. <B> 10, </B> of the second form of execution.



  Fig. 24 is a similar section, corresponding <B> to </B> in fig. 12.



  Fig. <B> 25 </B> is a similar cut, corresponding <B> to </B> the fi, Z-D. <B> 13. </B>



  Fig. <B> 26 </B> is a similar section, corresponding <B> to </B> in fig. 14.



  Fig. <B> 27 </B> is a horizontal section <B> à </B> through a cabinet provided with a, locking device, constituting the third embodiment.



  Figs. <B> 1, </B> 2 and <B> 3 </B> represent a cabinet comprising, a side wall <B> 10 </B> and a door <B> 11 </B> which is hinged < B> to </B> the cabinet, by means of hinges 12. As is customary in the construction of sheet metal cabinets, the front edges of the side walls are reinforced, by folding part of these walls towards Inside and then back, from Wanière to form a ledge 14 around the door opening.

   To ensure the closing of the Cabinet, it is fitted with an automatic locking device. This device comprises a locking assembly housed in the body of the cabinet and an element (Erochu parrêt fixed <B> to </B> the door. To mount the locking device in the cabinet, the flange 14 is pierced with a rectangular opening <B> 15 </B> having a pair of rectangular notches <B> 16 </B> along its vertical edges.

   The <B> </B> locking assembly comprises an elongated, channel-shaped casing having a bottom wall <B> 17 </B> and-, opposite side walls <B> 18, < / B> slightly less high than the vertical edges of the opening <B> 15. </B> The angles of the channel are split backward <B> to </B> from the anterior end and over a substantial length, and the side walls are spaced outwards, the material of the channel-shaped part being elastic, so that the separate front parts of these side walls tend <B> to </B> stay apart, as shown <B> to </B> in fig. <B> 5, </B> but can be stretched inward.

   Each <B> 18 </B> side wall is for view of a # 19 tab which extends forward then laterally outward. As shown in dotted lines <B> to </B> in fig. <B> 3, </B> The envelope can be slid lengthwise <B> to </B> through the opening <B> 15, </B> until the tabs <B> 19 </ B > come into place in the <B> 16 </B> slots while relaxing. The a-Liters parts of the end edges of the side walls <B> 18 </B> and, the end edge of the bottom wall <B> 17 </B> come into place behind the face <B> of the </ B > re edge 14 and the envelope is thus held in position.

   If you wish to remove the locking assembly, the tabs <B> 19 </B> are pressed towards each other until the casing can be pulled out slightly and then removed < B> at </B> through the opening <B> 15. </B>



  The envelope carries a pair of pivots 21 and 22, spaced apart from one another and which are constituted by longitudinally and vertically spaced cross members. These cross members prevent the walls <B> 1-8 </B> from deviating from one another. The lower wall <B> 17 </B> has a pair of slots <B> 23, </B> extending longitudinally on each side of this wall below the posts 21 and 22.



  The lock assembly further includes an elongated lock <B> 25 </B> shown in Figs. <B> 6 </B> and <B> 7 </B> and a replacement element consisting of an elongated plunger <B> 35 </B> shown in figs. <B> 8 </B> and <B> 9. </B> The lock, which is of general shape; in <B> U </B> (fig. <B> 7), </B> includes a pair of vertical side parts <B> 26, </B> spaced so <B> to </B> to be able to slide between the side walls <B> 18 </B> of the casing, and a part inclined <B> 27 </B> constituting a jaw, which is disposed <B> at </B> the front of this lock and constitutes the lock hook.

   Each lateral part <B> 26 </B> has a notch <B> 28, </B> directed upwards and inclined towards the rear, adjacent <B> to </B> the rear end of this latch, and a notch <B> 29 </B> directed downwards and forwards and disposed in front of the notch <B> 28. </B> The front part of one of the side parts < B> 26 </B> is slit lengthwise, so <B> to </B> form a web <B> 30 </B> which is folded <B> at </B> right angles to form a transverse fixing part which has a notch <B> 31 </B> in which is fixed one end of a tension spring <B> 32. </B> This spring extends diagonally downwards and towards the rear, between the pins 21 and 22 (fig. <B> 10 to 15),

  </B> and its rear end is sharpened <B> to </B> a tab <B> 39 </B> of the plunger <B> 35, </B> so that this spring is always stretched. The rear edges of the side parts <B> 26 </B> are inclined upwards and backwards, so as <B> to </B> form cam surfaces <B> 33. </B>



  The plunger <B> 35 </B> is constituted by a flat bar having a part <B> 36 </B> forming, the batting lean, extending upwards and backwards <B> to < / B> starting <B> from </B> its front end and intended <B> to </B> serve as a batter. The bar is d # ime width such that it comes to fit so <B> to </B> be able to slide between the side walls <B> 18 </B> of the casing, over the greater part of the the length of it.

    It has a central raised part <B> 37 </B>, of reduced width, forming a surface of, a dage intended <B> to </B> to rest against the _nférieur pivot 22, to keep the plunger in position. - # sliding mtact with the lower wall <B> 17. </B> The part <B> 37 </B> is delimited by a pair of notches <B> 38 </B> made in the edges of the plunger .

   Immediately <B> at </B> the back of part <B> 37 </B> is the small tab <B> 39 </B> which is folded upwards, and the edges of which present notches in which the rear end of the tension spring <B> 32 </B> is fixed. Immediately <B> at </B> the rear of said lan watch <B> 39, </B> a pair of tabs 41, intended <B> to </B> serve as cams, are folded upwards . The plunger is longer than the envelope and its rear end is folded upwards to form a terminal flange 42 which is pierced with a central opening 4 4 (fig. <B> 10) </B> in which one of the ends of an auxiliary tension spring 44 is held again. The other end of the spring 44 is hooked <B> to </B> the central part of the upper pivot 21.

   The spring 44 is less tensioned than the spring <B> 32 </B> when the plunger is in the position shown <B> to </B> in fig. <B> 10. </B>



  The hooked stopper which engages the latch assembly to hold the door in the closed position includes a <B> 50 </B> rod carrying a <B> 51 </B> head having a rounded anterior face, the posterior face of this head constituting a stopper intended <B> to </B> retain <B> the </B> hook <B> 27 </B> of the lock. The rod <B> 50 </B> is fixed <B> to </B> the door <B> 11 </B> by a <B> thread </B> from its end opposite <B> to </B> its head, on which is screwed a nut <B> 52 </B> (fi-. 2) fixed <B> to </B> the inner surface of the inner panel of the hollow door.



  As a variant, the stop element could be constituted by a screw or by a button which could be screwed or otherwise fixed <B> to </B> a solid door. The angle at which the batting tongue <B> 36 </B> extends towards Par- rière and the extent of this tongue towards Par- C rière could be modified in accordance with <B> to </B> modifications of the faith of the head <B> 51. </B> <B> A </B> in fig. <B> 10, </B> the locking device is shown at rest, the door being open.

   In this position, the upper notch <B> 28 </B> of the lock receives the upper pivot 21 which abuts at the bottom of this notch, this position being ensured by the tabs 41, serving as cams, which come lean against the rear edges <B> 33, </B> serving as the cam faces, of the parts <B> 26, </B> to force the rear end of the latch upwards.

    This action is provided by the spring 44 which relaxes and which causes the plunger to slide forward, as far as it can go, while the latch is prevented from moving by the pivot 21 which is engaged with the notches <B> 28. </B> The spring <B> 32 </B> then exerts a downward force on the front end of the lock, so as to <B> </B> rotate this lock down around of the pivot 21 and <B> to </B> support the part <B> 27 </B> in the form of a hook. against the end of the batting tongue <B> 36. </B>



  <B> A </B> in fig. <B> 11, </B> we are pushing the door for the. close, which has the effect of moving the plunger <B> 35 </B> towards the rear because the head <B> 51 </B> of Parrêt comes to exert pressure against the striking tongue <B> 36. </B> Le-, springs <B> 32 </B> el; 44 are thus stretched in a stronger way. The head <B> 51. </B> has slightly raised the hook-shaped part <B> 27 </B> against the action of the spring <B> 32 </B> which is still stretching more. The lock is mounted in a floating manner in the casing and the rear end soli is no longer in engagement with the tabs 41.

   However, the force exerted by the spring <B> 32 </B> maintains the notch, <B> 28 </B> tilted rearward fully in engagement with the upper pivot 21. <B> A < / B> fig. 12, the door has reached the limit position up to which it is possible to push it to close it, and all the parts remain in the same positions, except that the front end of the latch is pulled down by the spring 22, so <B> to </B> drop its hook-shaped part <B> 27 </B> against the rod 50, behind the head <B> 51 </B> of the stop.

   The door must be held in this position by pressure directed from the outside to the inside and, as long as it remains in this position, the spring 44 cannot pull the plunger <B> 35 </B> forward. The spring <B> 32 </B> exerts a rearward traction on the whole of the lock, this traction being sufficient to polish maintain the notches <B> 28 </B> fully in engagement with the upper pivot 21 , When you stop exerting pressure on the exterior surface of the door, it moves slightly outwards, as far as the pivots and the notches of the latch allow it, as possible,

   see <B> to </B> fig. <B> 13. </B> This outward movement takes place mainly under the effect of the spring 44 which presses the plunger against the head <B> 51 </B> of the stop. As soon as the stop face of the head <B> 51 </B> engages with the hook <B> 27, </B> the spring 44 exerts a traction which moves the red worm slightly forward, together with the diver.

   This displacement has the effect of moving the key fulcrum this one, <B> to </B> from the upper pivot 21 to the rod <B> 50 </B> of the rear rêt. Since the fulcrum formed by the rod <B> 50 </B> is located in front of the front fixing point of the spring <B> 32 </B> and the action of the latter has its component vertical downward, the rear end of the latch is forced downward by the spring <B> 32, </B> until the edge of the notches <B> 29 </B> engages the lower pivot 22, so <B> to </B> prepare the lock for a release movement.

   The door is now locked and it is prevented from moving outwards by the bolt which is hooked, on the one hand, behind the head <B> 51 </B> of the stopper and, on the other hand , at the lower pivot 22.



  From the above, we can see that the door remains slightly forward than in its maximum closed limit position., <U> By </U> example of <B> 0.8 </B> or of <B> 1.6 </B> mm. When the components are at rest, the lower rear edges of the <B> 26 </B> parts of the lock protrude downwards <B> through </B> through the nits <B> 23 </B> formed in the lower wall of the casing and the rear edges of the notches <B> 38 </B> are in contact with the upper parts of the cam surfaces <B> 33 </B> (fig. <B> 13). < / B>



  When you want to open the door, a slight pressure exerted inwards on this door releases the hook-shaped part <B> 27 </B> of the head <B> 51 </B> and allows the spring <B> 32 </B> to tilt the front end of the latch upwards and complete the downward movement of the rear end of this latch, in case the lower pivot has not come full ment engaged in the notches <B> 29 </B> before said pressure is exerted.

       Since the pivot point has now been transferred <B> to </B> from pivot 21 to pivot 22 which is below spring <B> 32, </B> the part hook-shaped tilts towards the ha-Lit until the anterior edges of the notches <B> 28 </B> engage the upper pivot 21, so <B> to </B> stop the lock in its release position shown <B> to </B> in fig. 14.

       During this movement, the surfaces <B> 33 </B> of the latch strike the rear ends of the notches <B> 38, </B> which has the effect of freeing the lower pivot 22 from the bottoms of the notches <B> 29. </B> However, the fulcrum of the latch still remains below the spring <B> 32, </B> so that the hook <B> 27 </B> has always tendency # to move upwards. When you stop exerting inward pressure on the door, the springs <B> 32 </B> and 44 push the door outward as they tend <B> to </ B > move the plunger forward.

    As the plunger moves forward, the rear edges of the notches <B> 38 </B> engage the cam surfaces <B> 33 </B> and begin <B> at </ B> lift the rear end of the latch upwards, as can be seen <B> to </B> in fig. <B> 15. </B> The front edges of the notches 28 rub against the front face of the pivot 21, so that the front end of the lock is moved downwards, while its rear end is moved upwards by said cam surfaces.

   When the plunger has moved forward and the tabs 41 serving as cams engage the cam surfaces <B> 33 </B> of the latch, the rear end of this latch is tilted towards the ha -Reads, the tabs 41 forcing the bottoms -of the upper notches 28 <B> to </B> come to rest against <B> the </B> pivot 21.

       Since the fulcrum of the lock has then been transferred to the upper pivot 21, the vertical component of the spring force <B> 32 </B> is exerted, therefore towards <B> the </B> low on the front part of the red worm and the hook <B> 27 </B> is tilted so <B> to </B> press on the inclined surfaces of the strip watch <B> 36, </B> in front of the <B> 51 </B> hook head which is moving away (fig. <B> 15). </B> As the diver moves outward missi far than that.

   is possible, the hook <B> 27 </B> is lifted by the inclined face of the lang-Liette <B> 36, </B> until the <U> organs </U> come in the rest position, as shown <B> to </B> in fig. <B> 10. </B>



  We realize that <B> the </B> spring <B> 32 </B> is still under tension and that it is hooked <B> to </B> the front part of the lock and extends towards the rear between the pins 21 and 22. Since its primary function is to move the lock # from one position <B> to </B> the other, its rear end could be fixed <B> to </B> a fixed part. However, it emerges from the foregoing that it is advantageous to hook the rear end of this a-Li plunger spring.

   The spring 44 is in any case necessary to provide a force other than that which could be exerted by the spring <B> 32, </B> in order to move the rear end of the latch downwards to <B> release the pivot 21 from the notches <B> 28 </B> while the fulcrum of the bolt is formed by the upper face <B> -of </B> the rod <B> 50 </B> of the judgment.

   If a spring such as spring 44 or other equivalent means did not exert a forward force on the latch, independently of the spring <B> 32, </B> the stop could be moved back and forth between the positions shown <B> to </B> in fig. 12 -and <B> to </B> fig. 130 without the locking mechanism being released, since the force of the spring <B> 32 </B> tends, in and between these positions, <B> to </B> keep the upper pivot 21 engaged in the upper notches <B> 28. </B> Therefore, the spring 44 provides an auxiliary force for <B> </B> to move the latch and the plunger jointly forward,

   the quantity necessary to move the front edge away from each of the notches <B> 28 </B> of the pivot 21, so as <B> </B> to prepare the lock for the subsequent action. in place.



  <B>. </B> In the embodiment shown in fig. <B> 16 to 26 </B> inclusive, a channel shaped casing <B> 60 </B> is used, this casing comprising a bottom wall <B> 61, </B> a pair of side walls spaced <B> 62 </B> and a rear wall <B> 63. </B> The front edges of the side walls and the bottom wall are provided with flanges 64, engaging the edges of an opening provided in one side <B> 65 </B> of a sheet metal cabinet <B> 66, </B> edges behind which tinned tabs <B> 67 </B> are arranged so <B > to </B> keep the envelope in position, as shown <B> to </B> in fig. <B> 16. </B> The side walls <B> 62 </B> are provided with a pair of vertical ribs <B> 68 -,

  </B> tinned inward and arranged adjacent to the upper and lower pivots <B> 69 </B> and <B> 70 </B> respectively. These pivots extend from one side wall <B> to </B> the other <B> to, </B> the interior of the wall, the upper pivot being disposed behind the lower pivot, as in construction. former.



  A lock <B> 71 </B> is float mounted in the envelope. This lock comprises a part in sheet metal forming an elongated body <B> 72 </B> which ends <B> at </B> its front end by a rounded hook <B> 73 </B> and s' extending inward. <B> A </B> its rear end, the latch is provided with a pair of side portions 74 each of which has an upwardly open notch <B> 75, </B> for <B> to </B> engage the upper pivot <B> 69. </B> and a notch open at the bottom <B> 76, </B> intended <B> to </B> engage with the lower pivot <B> 70. </B> The notches <B> 75 </B> have front edges which terminate <B> at </B> side of a rear edge <B> 77 </ B> of the body <B> 72. </B> The key front edge each of the notches <B> 75 </B> is inclined downwards and backwards,

    as indicated in <B> 78, </B> then downwards and forwards to form a housing, <B> 79 </B> for a pivot, the housing <B> 79 </B> and the inclined face <B> 78 </B> being separated by a nose <B> 80. </B> The rear edge <B> 81 </B> of each of the notches <B> 75 </B> is sensitive- nient perpendicular aLL plane cl-Li body <B> 72. </B> The front edge of each of the notches <B> 76 </B> is limited by a rounded lower angle 82 followed by a small substantially vertical part, and the rear edge <B> 83 </B> of the notch <B> 76 </B> is sloped down and back. <B> A </B> from the rear of each of the notches < B> 76,

  </B> the parts 74 are rounded towards the halit to form the cam surfaces 84. A pin <B> 85 </B> is raised to the body <B> 72 </B> and extends towards the down <B> to </B> from this body; this pin has an attachment point <B> 86 </B> polishing a spring, which is located substantially <B> at </B> the height of the hook end <B> 73 </ B > and of the noses <B> 80 </B> of the notches <B> 75 </B> and <B> 76. </B> The outer surfaces of the parts 74 are spaced so <B> to </B> come to rest against the interior surfaces of the ribs <B> 68, </B> to slide between these ribs.



  A <B> 90 </B> repositioning plunger is mounted to slide into the casing and rests on the bottom wall <B> 61. </B> This plunger has roughly the same width as the inside of the housing. Window and has a raised part #) #) which comes to bear against the lower pivot <B> 70, </B> so <B> to </B> maintain the eyelash plunger in contact with the lower wall <B> 61 < / B> while allowing it to slide.

       The front end of the plunger is curved <B> at </B> right angles upwards to polish forming a striking surface <B> 9Ô </B> and then it is folded back <B> at </B> right angles backwards polish form a striking tongue 94 which is normally located below the hook <B> 73, </B> as shown <B> to </B> in fig. <B> 23. </B> The rear portion of the plunger is curved upward to form a pair of laterally spaced <B> 95, </B> tabs intended to <B> </B> engage the the cam surfaces 84 <B> of the. </B> latch when the latter is in the rest position,

         eonime represented <B> to </B> in fig. <B> 23. </B> A central attachment point <B> 96, </B> for a spring, is formed between the tabs <B> 95. </B> This attachment point is consisting of a narrow tongue which is folded upwards and then backwards.

   The <B> 92 </B> part is limited by notches <B> 97, </B> made in the edges of the plunger, and extends longitudinally, the lower parts of the cam surfaces 84 being able to protrude. <B> within </B> inside <B> </B> these notches when the latch is in the release position, as shown <B> to </B> in fig. <B> 26. </B> In this embodiment, the lower wall of the casing is not split and the so-called lock parts 74 cannot protrude <B> through </B> through this lower wall, so that the casing can be mounted very close to a part of a cupboard,

   on the three sides of this envelope limited by the side walls <B> 62 </B> and by the lower wall <B> 61. </B> The striking tongue 94 has a central notch <B> 98 </ B > forming an opening <B> inside </B> which the end of the pin <B> 85 </B> can extend when the plunger is pushed backwards, as shown in figs. . 24 and <B> 25. </B>



  A latch spring <B> 100 </B> is tensioned between the end of the pin <B> 85 </B> and the attachment point <B> 96 </B> on the rear end of the plunger <B> 90, </B> this spring being always tensioned and extending between the pivots <B> 69 </B> and <B> 70. </B> The rear end of the spring <B> 100 </B> is tightly wrapped around the attachment point <B> 96 </B> around which it makes several turns to then extend from laeon <B> to </B> to form a conical auxiliary spring <B> 101 </B> which extends backwards <B> to </B> from the rear end of the plunger. <B> This </B> auxiliary spring, which is stronger than the spring <B > 100,

  </B> normally extends freely in the free space of the envelope. The parts are dimensioned <B>! </B> so that when the plunger is pushed backwards into one of the positions shown in fig. 24 and <B> 25, </B> the spring <B> 101 </B> is compressed between the rear attachment point <B> 96 </B> and the rear wall <B> 63 </ B > of the envelope. This auxiliary spring provides forward thrust which is applied against the plunger and against the lock, to disengage the <B> 79 </B> housings of the upper pivot for the 'purpose of <B> </B> preparation. the lock. for a subsequent opening movement.

   The auxiliary spring of this embodiment exerts a forward force on the plunger only when the latter is near the internal limit of its displacement, thus making it possible to use parts of the cabinet and door of less robust construction due to the fact that less effort is necessary to polish actuate the stop so that it forces the plunger towards the rear, on the greater part of the course of this plunger. The latch disposed in the casing <B> 60 </B> engages a hooked stopper mounted on the other of the two parts liable to be separated.

   As can be seen <B> to </B> in fig. <B> 16, </B> this stop element # includes a mounting bracket 102, associated <B> with </B> the inside wall of a recessed door <B> 103. </B> The stop element itself is constituted by a flattened part 104, in the form of a rod, having a notch <B> 105 </B> in its upper edge. The front edge of this notch is perpendicular to the direction of movement of the door, so <B> at </B> a stop intended <B> at </ B > engage the hook <B> 73 </B> of the lock.

    The front end of the stopper is rounded, <B> so </B> that, in the event that the door comes <B> to </B> lower slightly, this stop raises this door upwards, its lower edge being pushed upwards <B> at </B> the way of a cam by the lower wall <B> 61. </B> Due to this rounding, this stop can also raise the hook < B> 73, </B> in case the parts show misalignment, in <B> the </B> opposite direction.

   The height of the stop is about the same as that of the striking surface <B> 93, </B> so that when the plunger is moved backwards, the end of the hook <B> 73 </ B> comes to rest on the upper edge of the stop 104 under the effect of the pull exerted downwards by the spring <B> 100. </B>



  To assemble the cabinet lock assembly with a rectangular opening formed to tightly receive the casing, the lock must first be retracted into the casing.

   This can be done by pushing the plunger back to the position shown <B> to </B> in fig. <B> 25, </B> after which the spring <B> 100 </B> pulls the hook-shaped part of the latch downwards, also to the position shown <B> to </B> in fig. . <B> 25. </B> It is then possible to move <B> by </B> by hand the rear end of the latch downwards and maintain it in an intermediate position between those shown in fig. <B> 25 </B> and <B> 26,

  </B> so that the envelope can be slid longi tudinally in an open-Read until its tabs <B> 67 </B> move apart to come into position. The lock can then be released and allow the plunger to slide forward under the effect of the traction exerted by the res sort <B> 100, </B> until the various components come to rest, the lock being held in position loved by the diver, as shown <B> in </B> in fig. <B> 23. </B>



  When the locking assembly is armed and is at rest, as shown <B> to </B> in fig. <B> 23, </B> the tabs <B> 95 </B> and the cam surfaces 84 are in close contact and force the rear end of the latch hook up, the pivot <B> 69 < / B> being then engaged in the bottoms of the notches <B> 75. </B> The spring <B> 100 </B> forces the lock backwards, the pivot <B> 69 </B> being in pledged in dwellings <B> 79, </B> below noses <B> 80. </B> When the door was pushed inward beyond a certain point and almost as far that it can move in its closing movement, the hook <B> 73 </B> is tilted towards <B> the </B> bottom in the notch <B> 105 </B> by the spring < B> 100,

  </B> until it comes to rest on the rod 104 of the stopper, as shown <B> to </B> in fig. 24. The spring, <B> 100 </B> is tensioned during this movement and, towards the end of this movement, <B> </B> the auxiliary spring <B> 101 </B> is compressed. . It will be noted that the pin <B> 85 </B> protrudes <B> inside </B> the notch <B> 98 </B> made in the striking tongue 94, this construction allowing 'use a relatively short envelope.



  When inward pressure is released, the spring <B> 101 </B> pushes the plunger forward. Since the hook <B> 7ô </B> is pressed against the face forming the stopper of the stopper, the lock <B> 71 </B> is pulled forward the short distance necessary to make remove the upper pivot <B> 69 </B> from the housings <B> 79 </B> and to prepare the lock <B> to </B> pivot around the lower pivot <B> 70. </B> Du causes that the fulcrum of the latch has been transferred <B> to </B> the front end of the latch hook, the rear end of it is pulled slightly downwards,

   so that the noses <B> 80 </B> are located opposite or slightly below the upper pivot <B> 69, </B> as can be seen <B> to </B> fig. <B> 25, </B> and the rear vertical walls <B> 81 </B> of the upper notches i are pressed against the upper pivot <B> 69. </B> The components of the device are then kept bare. locked position, the spring <B> 101 </B> preventing the door from swinging against the cabinet.



  When you want to open the door, push it inwards and release <B> the </B> hook of the ari The spring <B> 100 </B> then makes pi vote the front end of the latch hook up, because the latch. then rests by the front edges of its notches <B> 76 </B> against the lower pivot <B> 70. </B> As shown <B> in </B> in fig. <B> 26, </B> -due to this pivoting, the noses <B> 80 </B> pass under the upper pivot <B> 69 </B> and the inclined sui-faces <B> 78 < / B> move the rear end of the lock down, acting like;

  cams, until the red worm comes to rest in the position shown <B> to </B> in fig. <B> 26. </B> The different components are proportioned so that the lower pivot <B> 70 </B> is then fully engaged to the bottom of the lower notches <B> 76, </B> and any greater movement of the front end of the latch upward is prevented by the upper pivot <B> 69 </B> which engages the edge of the rear end of the body <B> 72 </ B> of the lock, or by the surfaces of the frames 84 of the lock which come to rest against the lower wall <B> 61 </B> of the casing, or by these two combined effects, depending on the small differences in dimensions that may result from manufacturing.



  In the position just described, the spring <B> 100 </B> is stretched to the maximum and the spring <B> 101 </B> is compressed to the maximum, so that, when one stops d 'apply pressure inwards on the door, this door is moved outwards by the plunger who pushes back],' stop outwards under the effect of the two springs. After providing its initial thrust, the compression spring <B> 101 </B> is simply moved with the plunger, and all the force to <B> to </B> open the door is exerted by the spring <B > 100. </B> When the diver approaches the end of his outward stroke,

   the rear edges of the notches <B> 97 </B> made in this plunger engage with the cam faces 84, the lock and eoiiiineiicent <B> to </B> raise the rear of the lock, <B> at </B> starting from the position shown <B> at </B> in fig. <B> 26 </B> to a position such that the tabs <B> 95 </B> can engage the surfaces <B> of </B> cams 84 to continue moving the rear of the worm rou upwards, acting <B> à </B> the way of the cams, thus moving the pivot point of the lock <B> à </B> from the lower notches to the upper notches,

   as shown <B> to </B> in fig. <B> 23. </B> While this camming effect is exerted, the vertical component of the force exerted by the spring <B> 100 </B> on the front end: of the latch is changed, and this force upward direction is changed to a downward force, pulling the hook <B> 73 </B> towards the ace behind the retreating stop and holding it against the striking tongue 94. The organs are located then at rest, in the armed position and ready <B> to </B> automatically engage F-stop during the next movement towards the interior of the door (fig. <B> 23). </B>



  To prevent the door from accidentally reopening in the event that it is violently closed, it has been found that -due to the alignment of the end of the hook <B> 73, </B> of the spoke pin <B> 86 </B> of the pin <B> 85 </B> and nose keys <B> 80 </B> of the notches <B> 75 </B> when the door bounces after being slammed or violently closed, this does not have the effect of unlocking the moving parts relative to each other <B> to </B> since the noses <B> 80 </B> slide <B> to </ B> back over the rear pivot <B> 69 </B> when the latch is quickly removed, such as when the door bounces after being slammed.

    The door therefore remains closed, regardless of the force and speed with which it is moved to its closed position during the first closing movement, but this door reopens after a second closing movement, and only in case the closing pressure is applied gently. The spring <B> 101 </B> is of sufficient force to prevent the door from swinging and opening under the effect of vibrations such as may be produced by neighboring machines, or to prevent such vibration. door from being moved by wind gusts or other similar causes. The locking device can therefore only be released by the intentional application of moderate pressure.



  Fig. <B> 27 </B> represents a third embodiment mounted on a memory. This cabinet has a ledge <B> 65 </B> and]. The associated locking assembly includes a casing <B> 60 </B> mounted in the same manner as that shown <B> to </ B > fig. <B> 16. </B> This envelope contains a latch and a plunger linked by a spring <B> 100,

  </B> all the members of the locking assembly being identical <B> to </B> those shown <B> to </B> in FIG. <B> 16 to </B> except for the spring <B> 100 </B> which ends <B> at </B> the end of the plunger <B> 90. </B> It does not There is therefore no auxiliary spring in the casing <B> 60. </B> The door <B> 103 </B> of the cabinet is such as that shown <B> to </B> in fig. <B> 16 </B> and carries a stopper 104 for <B> </B> to engage the hook of the rusting worm assembly, as previously described. The functions of the auxiliary spring are fulfilled by external means consisting of the damper <B> 110 </B> stretched by a spring 114 and mounted in a cylinder <B> 111 </B> fixed on the wall 112 of the cabinet <B> to </B> which the door is attached.

    by means of hinges <B> 113. </B> When the door is in the closed position, the spring 114 mounted in the cylinder <B> 111 </B> between the rear wall of this cylinder - and a flange < B> 115 </B> mounted on the damper <B> 110 </B> is compressed, this spring 114 thus exerting a thrust towards the outside which tends to <B> </B> open the door.

   This thrust is transmitted through the door <B> 103, </B> forming a stop, to the hook <B> 73, </B> to pull the floating latch forward and release the upper pivot < B> 69 </B> of the housings <B> 79 </B> of the upper notches when the door and the cabinet are held #in the lock-lock position, as shown <B> at </B> la fi-. <B> 25. </B> As explained previously, this action prepares the verroa, so that the spring <B> 100 </B> can move the pivot point of the hook ide lock < B> from the upper pivot to the lower pivot, when the door is subsequently pressed inwards,

   thus allowing the latch hook to be bottomed upwards by the spring <B> 100, </B> as shown <B> to </B> in fig. <B> 26. </B> Although the devices described are shown to be suitable <B> for </B> -a cabinet and <B> for </B> the door thereof, it will be appreciated that they could also be adapted <B> to </B> any construction in which it is desired to keep together two movable parts relative to each other <B> to </B> and release <B> to </ B> will these parts of this link.

   For example, they could be applied <B> to </B> Him drawer arranged in a cabinet, and the auxiliary spring could then be proportioned so <B> </B> to eject the drawer from any desirable distance afterwards. that this drawer has been lightly pushed inwards and then released.

 

Claims (1)

CLAIM: Automatic locking device, comprising the locking assembly of the tiné <B> to </B> being mounted on one of two movable parts one relative to <B> to </B> the other and a <B> hooked stop element intended <B> to </B> be mounted on the other part, this assembly and this element being mounted in such a way that the sensitive can engage with the element , and the -two movable parts moon relative <B> to </B> the other being capable of being displaced moon towards the other until in a limit relative position, device characterized in that said locking assembly comprises a latch which is normally biased towards a locking position in which it engages with the stop member to retain said parts <B> to </B> the locked state in a position slightly more apart than in said limit relative position, after a first displacement of said Fune parts with respect to <B> to </B> the other towards this limit relative position and beyond said position ( locking, said lock being susceptible (to be automatically moved to a position of release with respect to said stop element after a second displacement of said parts with respect to each other <B> to </B> Fatitre <B> to </B> from said locking position and towards said relative limit position, a resetting element urged outwardly and capable of being moved by said stop element when said parts are in a relative position very close to said position locking, this replacement element being associated with the lock, so <B> to </B> be able to cooperate with it to bring this lock <B> to </B> from its release position to its normal position, after separation of said parts subsequent to the second relative displacement of these parties to said relative limit position. SUB-CLAIMS <B>: </B> <B> 1. </B> Locking device according to claim, characterized in that <B> spring </B> means are associated with said lock to hold it normally in an armed position and to urge it towards the locked position. 2. Locking device according to claim, characterized by means biasing the two movable parts in such a way that they tend <B> to </B> move away from each other, at least when these parts are very close to each other. <B> 3. </B> Device <B> release </B> according to the claim, - characterized in that said replacement element is urged outwards by means <B> to </B> spring. 4. Locking device according to claim, characterized by first <B> spring </B> means <B> (32) </B> connected to said lock and tending <B> to </B> hold the latter in its locking position, and by second <B> spring </B> means (44) urging the resetting element outwards and tending <B> to </B> bring said movable parts of said relative position, limit <B> to </B> that of the locking.