ES2295911T3 - FILING MECHANISM. - Google Patents

Abstract

The invention relates to a binder mechanism for record binders. The binder mechanism comprises a base plate (10) having two interspaced aligning pins (12', 12''), a pivotal arched element (18) and an actuating lever (22), which is pivotally mounted on an end shield (20) of the base plate (10) and which acts upon a spring-supported bend (26) of the arched element (18). The actuating lever (22) can be locked in a first and a second open position of a respective detent part (52, 56), which is situated on a hold-down element (28), under the action of the return spring (24) on the bend (26) of the bearing web (14). In order to achieve a reliable locking also in the first open position (52) corresponding to a customary actuation, the width of the insertion gap (68) between aligning pins (12',12'') and the arched element (18) is reduced on the pivot path of the actuating lever (22) between both open positions while increasing the pretensioning of the return spring (24) in places under the passage measure for the actuating lever (22).

Description

Filing mechanism.

The invention refers to a mechanism file cabinet for document filers with a motherboard, with two alignment pins spaced apart, arranged fixedly on the motherboard and protruding from it in parallel, with an arcuate piece spaced from the alignment pins and pivotable in a limited way between a closed position and so minus an opening position by means of a bearing bridge on the motherboard, which features two arched arms that remain distanced from each other from the alignment pins by means of the bearing bridge, which can be coupled to them in pairs in the closing position forming a closed closing ring and that in the Open position release an insertion slot for the document, with a bearing shield arranged in the area between the pins alignment and arc and protruding part of the motherboard, and with a drive lever pivotally mounted on the bearing shield around an axis of rotation that runs transversely with respect to the axis of the bearing bridge between a closing position and at least one open position, and acting with a fastener in an undulation of the bridge of bearing opposite the force of a fixed recoil spring between the base plate and the undulation, going through the lever of drive with a lever arm one of the closing rings closed laterally outward in the closed position, pointing up, in a first open position, on the side of the first closure ring, which releases an insertion groove, and crossing laterally outward, in a second position open, the second closing ring, which releases a groove of insertion, calculating the width of the insertion slot between alignment pins and assigned arched arms mutually such that the lever arm of the lever of drive through it freely during the process of turn.

The filing mechanism is designed to document filing cabinets consisting of a filing spine and a front and rear cover, articulated in it. The mechanism filing cabinet is fixed near the filing spine, on the back cover of the document filer, preferably riveted or inserted on a support provided for it, so that the arched piece can be turned by operating the lever in the direction of the spine of filing cabinet and releasing the insertion slot between the pins of alignment and arched arms in at least one position open In this state, in the case of filing cabinets traditional can be introduced or removed a bored document by the side of the alignment pins after the layers of documents that if necessary are on top of it previously they have passed to the arched piece when the mechanism It is still closed. In the closed state, the mechanism of filing cabinet, with its alignment pins and its arched piece, passes from the back cover to the front cover going through the filing cabinet and, if necessary, fits, with the bent ends of the arched arms, in insertion slots equipped with eyelashes  interlocking the front cover. To be able to enter or remove the documents also on the side of the arched piece, in a filing mechanism of the type mentioned above was proposed that, during the opening process, the operating lever does not could only get up, but could turn a total of 180º to the other side (DE-U 296.197.62, DE-U 203.061.30 and DE-A 196. 464.67). A drawback of known filing mechanisms with a 180º pivotable lever is that they do not have a marked first open position that allows handling of the filing mechanism in the traditional sense. When you release the operating lever during the opening process, it passes, by inertia, to a indefinite intermediate position that prevents simple operation.

Based on the foregoing, the invention has as objective to develop a filing mechanism that allows a use both in the traditional sense, with an open position, as in an extended operation, with two open positions and the possibility of inserting documents by the side of the piece arched

To solve this task, the combinations of features indicated in the claims 1,3 and 6. The subordinate claims follow Advantageous configurations and variants of the invention.

The solution, according to the invention, is based on all in the idea that the interlocking or retention force applied on the operating lever in the first position open is greater than the transmitted inertia force, during opening process, from the closed position to the passage of opening under the influence of the recoil spring on the drive lever To achieve this, the invention proposes that the operating lever, in its first and second position open, with an interlocking part arranged in its element fastener, can be embedded in the undulation of the bridge bearing under the influence of the recoil spring and that, in the rotation of the operating lever between both positions open, reduce the width of the insertion slot increasing the previous tension of the recoil spring in some parts below the pitch measure for the lever drive With these measures the lever of drive, even in a fast and automatic opening process under the influence of the recoil spring, stay on the first open position, and also in the usual open position in the case of traditional filing mechanisms, and that the continue to rotate the operating lever in position open at 180º require a conscious drive due to the resistance to overcome in the turning step between the two open positions. An essential contribution to this is offered by the fastener element, arranged on the operating lever, which takes care that the recoil spring creates a resistance palpable, when the lever is operated, in the turning step between the two open positions, while reducing the width of the insertion slot

A preferred or alternative configuration of invention provides that the operating lever, with its arm of lever, snap into the insertion groove of the first ring of Close in the first open position. This measure has as aim that the operating lever remains in the first open position and that the width of the insertion slot, in the next turn step, can be reduced in some sections until the second open position without a collision of the operating lever with one of the arched arms. Is important that the opening of the insertion slot when reaching the second closing ring is free again for the passage of lever arm

A preferred configuration of the invention provides that the fastener element has a cam curve with at least three cams acting against the force of the recoil spring in the undulation and with at least three interlocking parts limited by cams at least on one side. The three parts of interlocking define the closing position, as well as the first and the second opening position, while the three cams define the turning step of the operating lever during the opening process until the first closing ring, the process of turn by the second closing ring and finally a final stop for the drive lever.

According to another advantageous configuration of the invention, the undulation has a roof shape that points up, whose roof edges form sloping surfaces for cam cam cams. Moreover, the curve of cam has at least one interlock cavity complementary to the undulating roof shape that forms a interlocking part. Advantageously, the interlocking cavity effective in the first open position is limited by a cam of support that stands out radially and that, by continuing to turn the operating lever in the opening direction, stops at the undulation reducing the width of the insertion slot. Further, the effective interlocking cavity in the second open position may be limited by a stop cam in the direction of opening. This cam ensures that the lever, in its position 180º open, does not collide with the base plate or the cover of the filing cabinet, but keep it thanks to the filing mechanism and I can continue to take it by its handle. An advantageous configuration of the invention provides that between the first and the second position open an intermediate interlocking is formed. In the area of intermediate interlocking, the operating lever, with its arm lever, fits properly in the insertion slot widened of the second closing ring.

According to a constructive configuration advantageous of the invention, the cam curve is formed in a skate of plastic slide that, as a reinforcement, is placed in a metal sheet actuation lever. In this sense, the drive lever can be formed as a stamped part of sheet metal, whose end of the bearing side is fitted a sliding skate that forms the fastener. For stabilize the turning movement of the drive lever, the sliding skate can present, on its side turned towards the bearing shield, a track edge that fits in a guided way in a groove between the undulation of the bearing bridge and the bearing shield In addition, it is also advantageous when the skate of sliding presents, in the area of its cam curve, a metal reinforcement formed, for example, by a sheet bending of the operating lever.

The invention also refers to a document filing cabinet with a filing mechanism of the type previously described.

The invention is explained below with more detail by means of an example schematically represented in the drawing.

A view is shown in Figures 1a to 1c side, a view of the front and a plan view of a filing mechanism in closed state with an orientation of the lever in relation to the interlocking surface of the curve of cam in the closing state of 5th;

In figures 2a to 2c the mechanism is shown filing cabinet with a lever orientation of 64º, in the three representations corresponding to figures 1a to 1c;

In Figures 3a to 3c the mechanism is shown filing cabinet with lever arm oriented more or less vertical at a rotation angle of 99º in the three representations of Figures 1a to 1c;

Figures 4a to 4c show the mechanism filing cabinet with lever arm oriented in one position 135º intermediate in the three representations of figures 1a to 1 C;

In Figures 5a to 5c the mechanism is shown filing cabinet with operating lever in its 180º position in the three representations according to figures 1a to 1c;

Figure 6 shows a diagram that shows the angle of adjustment of the arcuate piece with respect to the perpendicular to the base plate depending on the position angle of the drive lever.

The filing mechanism represented in the drawing consists essentially of a base plate 10 of sheet metal, two alignment pins 12 ', 12' 'apart from each other that protrude from the base plate 10, a pivotable arcuate piece 18 of limited shape around an axis of rotation fixed to the motherboard between a closed position (figures 1a to 1c) and several positions open by means of a bearing bridge 14 in flanges of bearing 16 of the base plate 10, a recoil spring 24 fixed to the base plate and acting with respect to a ripple 26 of the bearing bridge 14 with pre-tension in the direction of the open positions and a drive lever 22 mounted on pivotable shape on a bearing shield 20 fixed to the base plate and acting from above with respect to the ripple 26 of the arched piece 18 with a fastener element 28. The arched piece 18 features two arched arms 18 ', 18' 'that remain distanced from each other from alignment pins 12 ', 12' 'by middle of the bearing bridge 14 angled and which can be coupled to these in pairs in the closed position each forming a closing ring 19 ', 19' 'closed. In open positions, arched arms 18 ', 18' 'rotated release an insertion slot 68 more or less wide for the document.

The drive lever 22 is formed as piece stamped by a steel sheet. It has a side flank 32 oriented essentially parallel to the shield level of bearing that, at its end of the bearing side, becomes on a sliding bearing surface 30 facing the shield of bearing and a transverse flank 36, on whose upper edge away from the motherboard 10 it becomes an expanded handle 34 essentially beveled vertically at its far end of the bearing in the longitudinal extension of the lever drive 22 above the side flank 32. The handle 34, in its longitudinal extension opposite the drive lever 22, it is folded towards its free end and there it presents a print 74 concave from above.

The axis of rotation is formed by a hollow rivet 42 vertically protruding from the bearing surface of slip 30, goes through a shield bearing hole of bearing 20 and snaps to it with a flanged edge.

At the end of the bearing side of the actuation lever a sliding slide 44 is fitted of plastic that forms the fastener element 28 and which inside is mechanically reinforced by the metal plate of the lever drive 22. The slide skate 44 contains a curve of cam 46 which acts in undulation 26 from above. In its curve of cam 46 guided in the undulation, the sliding skate 44 is limited by a runway edge 48 that engages the undulation 26 in the bearing shield side and which is responsible for guiding the lever in parallel during the turning process.

Ripple 26 has a roof shape pointing up, whose roof edges form surfaces inclined 27 for cams 58 to 64 of cam curve 46.

A particularity of the invention is that the operating lever can be turned from the position of close to a first (figures 2a to 2c) and a second (figures 5a at 5c) open position. To allow this, cam curve 46 presents a first interlocking part 50 for the state closed, a second interlocking part 52 formed as a cavity of interlocking to receive the roof-shaped undulation for the first opening state according to figures 2a to 2c, a part intermediate 54 according to figures 4a to 4c and a third part of interlock 56 in the form of a cavity for the second state of opening according to figures 5a to 5c. Between the first and the second interlocking part 50, 52 is a sharp cam 58 pronounced, and between the second interlocking part 52 and the part intermediate 54 is a smaller sharp cam 60. Attached to the intermediate part 54 is a cam 62 that limits the third part interlocking 56 on one side while the cam of stop 64 is arranged at the end of the cam curve 46.

The interlocking cavity 52, with cam 58 united in the direction of opening and strongly pronounced, it ensures that the drive lever passes automatically to the first opening state according to figures 2a to 2c, even when it jumps up under the influence of the spring recoil 24. In this way, the filing mechanism can also be handled reliably in the traditional sense. How can see figures 2a to 2c, lever arm 66, in this state, fits into the widened insertion slot 68 so that the drive lever 22 pass between alignment pin 12 ' and the arched arm 18 'adjacent in the area of the first ring of closure 19 '. By continuing to turn the lever up drive 22, the lever arm comes out of the groove of insert 68 before arc 18 narrows the groove insert 68 in the rear turn step by the cam 60, which presses against undulation 26. In the next step of turn, the insertion slot 68 reopens, so that it guarantees the passage of the operating lever 22 to the position 135º on the side of the second sealing ring 19 '', according to the Figures 4a to 4c. In the next step, the insertion slot 68 remains widely open, although cam 62 gives rise to another small narrowing of the width of the groove before the butt cam 64 of cam curve 46 shock against ripple 26.

In the diagram, according to figure 6, the angle of turn of arc 18 is represented depending on the angle of rotation of the operating lever 22. The figures marked in the diagram illustrates the development of opening positions most important intermediate positions of the lever and the arched piece in the way described above.

In short, what should be taken into account next: The invention refers to an archiving mechanism for  document filing cabinets The filing mechanism consists of a 10 base plate with two alignment pins 12 ', 12' ' distanced from each other, a pivotable arc 18 and a lever drive 22 pivotally mounted on a shield bearing 20 of the base plate 10 and acting on a corrugation 26 supported by a spring of the arched piece 18. The lever of drive 22 can be locked in a first and second position opening of a respective interlocking part 52, 56 arranged in a fastener element 28 under the influence of the recoil spring 24 in the undulation 26 of the bearing bridge 14. To achieve a reliable interlocking even in the first open position 52, corresponding to a traditional drive, the width of the insertion groove 68 between alignment pins 12 ', 12' 'and the arc 18 is reduced in the turning step of the lever of drive 22 between both open positions increasing the previous tension of the recoil spring 24 in some parts by below the step measurement for the operating lever 22

Claims (17)

1. Filing mechanism with a base plate (10), with two alignment pins (12 ', 12'') spaced apart from each other, fixedly arranged on the base plate and protruding from it in parallel, with an arcuate part (18) distanced from the alignment pins and pivotable in a limited way between a closed position and at least one open position by means of a bearing bridge (14) on the base plate (10), which has two arched arms (18 ', 18 '') that are kept spaced apart from the alignment pins (12 ', 12'') by means of the bearing bridge (14), which can be coupled to them in pairs in the closing position forming a closing ring ( 19 ', 19'') closed and that in the open position they release an insertion slot (68) for the document, with a bearing shield (20) arranged in the area between the alignment pins (12', 12 '' ) and the arched part (18) and protruding from the base plate (10), and with a drive lever (22) pivotally mounted on the bearing shield (20) around an axis of rotation that runs transversely to the axis of the bearing bridge (14) between a closed position and at least one open position and, in this direction, which acts with a lever arm (66) that describes a turning step, with a fastener (28) in a ripple (26) of the bearing bridge (14) opposite the force of a recoil spring (24 ) fixed between the base plate (10) and the undulation (26), through the operating lever (22) with its lever arm (66) one of the closed closing rings (19 ') laterally outward in the position of closing, pointing upwards, in a first open position, on the side of the first closing ring (19 '), which releases an insertion groove (68), and crossing the second ring laterally outwards, in a second open position closure (19``), which releases an insertion slot (68), crossing the ac lever actuation (22), along the turning step with its lever arm (66), the insertion slot (68) between the alignment pins (12 ', 12'') and the arched arms (18', 18 '') assigned to each other and interlocking in their first and second open position with each of the interlocking parts (52, 56) arranged in its fastener element (28) under the influence of the recoil spring (24) in the undulation (26) ) of the bearing bridge (14), characterized in that the width of the insertion groove (68) is reduced in the turning pitch of the operating lever (22) between both open positions under the influence of the fastener (28) with respect to the force of the recoil spring (24) in some sections below a measure provided for the passage of the operating lever (22). 2. Filing mechanism according to claim 1, characterized in that the locking or holding force in the first open position of the operating lever (22) is greater than the inertia force transmitted during the opening process from the opening closing position until the opening step under the influence of the recoil spring (24) on the operating lever (22). 3. Filing mechanism for document filing cabinets with a base plate (10), with two alignment pins (12 ', 12'') spaced apart from each other, fixedly arranged on the base plate and protruding from it in parallel, with one piece arc (18) distanced from the alignment pins and pivotable in a limited way between a closed position and at least one open position by means of a bearing bridge (14) on the base plate (10), which has two arched arms (18 ', 18'') that are kept spaced apart from the alignment pins (12', 12 '') by means of the bearing bridge (14), which can be coupled to them in pairs in the closed position forming a closing ring (19 ', 19'') closed and that in the open position release an insertion slot (68) for the document, with a bearing shield (20) disposed in the area between the alignment pins (12 ', 12'') and the arched part (18) and protruding from the base plate (10), and with a drive lever (22) pivotally mounted on the bearing shield (20) around a rotation axis that runs transversely to the axis of the bearing bridge (14) between a closed position and at least one position open and, in this sense, acts with a lever arm (66) that describes a turning step, with a fastener (28) in an undulation (26) of the bearing bridge (14) opposite to the force of a spring of recoil (24) fixed between the base plate (10) and the undulation (26), through the operating lever (22) with its lever arm (66) one of the closed closing rings (19 ') laterally outwards in the closed position, pointing upwards, in a first open position, on the side of the first closing ring (19 '), which releases an insertion slot (68), and traversing laterally outwards, in a second open position , the second locking ring (19``), which releases an insertion groove (68 ), crossing the drive lever (22), along the turning step with its lever arm (66), the insertion groove (68) between the alignment pins (12 ', 12'') and the arms arches (18 ', 18'') assigned to each other and interlocking in their first and second open position with each of the interlocking parts (52, 56) arranged in its fastener element (28) under the influence of the recoil spring (24 ) in the undulation (26) of the bearing bridge (14), characterized in that the locking or holding force in the first open position of the operating lever is greater than the inertia force transmitted during the process of opening from the closing position to the opening step under the influence of the recoil spring on the operating lever. 4. Filing mechanism according to one of claims 2 or 3, characterized in that the locking or holding force in the first open position is greater than said inertia force by at least factor 1.5. 5. Filing mechanism according to one of claims 1 to 4, characterized in that the operating lever (22), in the first open position, fits with its lever arm (66) in the insertion slot (68) of the first sealing ring (19 '). 6. Filing mechanism according to one of claims 1 to 5, characterized in that the clamping element (28) has a cam curve (46) with at least three cams (from 58 to 64) acting against the force of the recoil spring (24) in the undulation (26) and at least three interlocking parts (50 to 56) limited by the cams, at least on one side. 7. Filing mechanism according to one of claims 1 to 6, characterized in that the undulation (26) has a roof shape pointing upwards, whose roof edges form inclined surfaces (27) for the cams (of the 58 to 64) of the cam curve (46). 8. Filing mechanism according to claim 7, characterized in that the cam curve (46) has at least one interlocking cavity partially complementary to the undulating roof shape (26) forming an interlocking part ( 52). 9. Filing mechanism according to claim 8, characterized in that the effective interlocking cavity (52) in the first open position is limited by a support cam (58) projecting radially and which, by continuing to turn the operating lever (22) in the opening direction, stops at the undulation (26) reducing the width of the insertion slot. 10. The filing mechanism according to claim 8 or 9, characterized in that the interlocking cavity (56) effective in the second open position is limited by a stop cam (64) in the open position. 11. Filing mechanism according to one of claims 8 to 10, characterized in that an intermediate interlock (54) is formed between the first and second open positions. 12. Filing mechanism according to claim 11, characterized in that the actuating lever (22), in the zone of the intermediate interlock (54), fits with its lever arm (66) in the insertion slot (68) widened of the second closing ring (19``). 13. Filing mechanism according to one of claims 1 to 12, characterized in that the cam curve (46) is formed in a plastic sliding slide (44) placed on a metal sheet actuation lever (22) . 14. Filing mechanism according to claim 13, characterized in that the actuating lever (22) is formed as a stamped piece of sheet metal, at which end of the bearing side there is fitted a sliding skate (44) that forms the fastener element (28). 15. Filing mechanism according to claim 13 or 14, characterized in that the sliding skid (44) has a track edge (48) on its side turned towards the bearing shield (20). 16. Filing mechanism according to one of claims 13 to 15, characterized in that the sliding skid (44), in the area of its cam curve (46), has a metal reinforcement formed by a bending of sheet metal on the operating lever (22). 17. Document filing cabinet with a mechanism filing cabinet according to one of claims 1 to 16.