CH674670A5 - Swivel arm fixed to desk - Google Patents

Abstract

The swivel arm (1) has an attachment (3) for fixing it to an article of furniture, especially a desk, and has a support (2) for an appliance, such as a screen, on a support arm. A pivot bearing (4) has at least one adjustable stop-piece (35,36) for restricting the swivel of the arm, and for securing it. The stop-piece (35,36) works in conjunction with a counter-piece on the pivot bearing (4), the counter-pieces are formed of the ends of grooves on the inside of a sleeve (6) turning on a bearing-pin (7).

Description

       

  
 



   DESCRIPTION



   The invention relates to a swivel arm device according to the preamble of claim 1.



   Known swivel arm devices of this type are mounted on a table using a bracket designed as a clamp. At a free end of the swivel arm, they have a support or support plate on which, for example, a screen is arranged. In this known swivel arm device, the swivel arm can be freely rotated about the axis of the swivel bearing. There is a risk that the table can tip over when the swivel arm is in an unfavorable position with the superimposed screen. This risk of tipping is particularly great, for example, when a relatively small table with a heavy object is moved on the support. In addition, the swivel arm can swivel in an uncontrolled manner and lead to a hazard.



   The object of the invention is to design a swivel arm device of this type in such a way that uncontrolled swiveling of the swivel arm (s) is reliably prevented.



   This object is achieved according to the invention in a swivel arm device of the generic type with the characterizing features of claim 1.



   As a result of the design according to the invention, the swivel arm can be locked in one position with the stop or the swivel path of the swivel arm can be limited.



  This makes it possible to limit the swivel angle of the swivel arm to a safe swivel range. For example, this swivel range can be set so that the swivel arm is not swiveled beyond the edge of the table. This can safely prevent the table from tipping over, particularly when it is moved, by the protruding swivel arm.



   Further features of the invention result from the further claims, the description and the drawings.



   The invention is described below with reference to several embodiments shown in the drawings. It shows:
1 shows a swivel arm device according to the invention with a holder and a carrier, partly in side view and partly in vertical section, FIG. 2 shows the swivel arm device according to FIG. 1 in plan view, FIGS. 3 and 4 show a second embodiment of a swivel arm device according to the invention with a differently designed carrier in 3 and 4, FIG. 7 shows a part of a swivel arm device according to the invention partly in a side view and partly in a vertical section, FIG. 8 shows a swivel mounting of the swivel arm device according to FIGS Fig.

   7 in a section along the line VIII-VIII in Fig.



  7, FIGS. 9 to 15 the pivot bearing according to FIG. 8 in different pivot positions of a pivot arm of the pivot arm device.



     16, 17 each show a further embodiment of a swivel arm device according to the invention in representations corresponding to FIG. 1.



   The swivel arm device according to FIGS. 1 and 2 has a swivel arm 1, at the free end of which a carrier 2 is fastened. It carries, for example, a screen of a writing computer or the like. The swivel arm 1 is clamped to a desk or the like with a bracket 3 designed as a clamp. With the swivel arm, a person sitting at the desk can bring the object on the carrier 2, such as a screen, a telephone or the like, into the swivel position that is most favorable for them by swiveling the swivel arm about its swivel axis.



   With the bracket 3 shown only in simplified form, the swivel arm 1 can be clamped on the desk.



  The swivel arm 1 can be swiveled via a swivel bearing 4 relative to the holder 3 fastened to the desk or the desk. 1 and 2 has an outer and inner sleeve 5 and 6 and a bearing pin 7 on which the inner sleeve is rotatably mounted. The outer sleeve 5 is closed at the top and bottom by an end plate or washers 8 and 9.



  With the cover plate 9, the pivot bearing 4 is seated in an annular shoulder 10 at the upper end of a further outer sleeve 11, which in turn is arranged on a lower outer sleeve 12. It is screwed onto the holder 3 by means of screws 13a, 13b lying at a distance from one another on the holder 3 (cf. also FIG. 7). As further shown in FIG. 7, the outer sleeves 11 and 12 are screwed together by further screws 13c. The outer sleeve 11 is firmly connected to the end plate 9 by further screws 14, 15, which in turn is screwed to the bearing pin 7.



   The bearing journal 7 is surrounded at its two end regions by bearing rings 16, 17, which each have a flange 18, 19 directed outward at right angles at their ends facing away from one another. The bearing rings 16, 17 rest with their flanges 18, 19 on the end faces 20, 21 of the inner sleeve 6. The flange 19 also lies on the lens 9. The inner and outer sleeves 5 and 6 and with them the swivel arm 1 can be swiveled relative to the bearing pin 7 into the respective swivel position. The inner sleeve 6 is preferably seated with an interference fit in the outer sleeve 5.



   The swivel arm 1 consists of two arm parts 1 ′ and 1 ″, preferably of the same length. The arm part 1 ″ carries the support 2 at its end 22 facing away from the bearing 4. It is rotatably mounted on the arm part 1 ″ via a swivel joint 23.



  The arm parts 1 'and 1 "are connected to one another in a joint-like manner via a double joint 24 with two joint sleeves 25 and 26. Their joint axes A', A" lie parallel next to one another and are connected to one another via connecting straps 27, 28. The double joint 24 makes it possible to pivot the arm parts 1 ′ and 1 ″ against one another, so that the screen or the support 2 both about the pivot axis A of the pivot bearing 4 and about the axes A ′ and A ″ of the joint sleeves 25, 26 is pivotable. As a result, the carrier 2 can be moved up to the pivot bearing 4 from the illustrated initial position shown.



  As a result of the double joint 24, the two arm parts 1 ′ and 1 ″ can be pivoted relative to one another in such a way that they lie directly next to one another. In addition, the carrier 2 can be rotated about the axis of the swivel joint 23. The carrier 2 can thus be adjusted to almost any position .



   3 and 4 show, instead of the plate-shaped carrier 2 according to FIGS. 1 and 2, a frame-like carrier 2a can be provided, which is fastened to the pivot bearing via the arm parts 1 a, 1 a Rotate the swivel joint 23a, but additionally the inclination can also be adjusted via an adjusting device 29.



   These adjustment and pivoting possibilities are also given in the embodiment according to FIGS. 5 and 6, in which a second support 2b 'is provided in addition to the support 2b with its swivel joint 23b. The carrier 2b 'can be, for example, a concept holder and / or a lamp.



  The carrier 2b 'is connected via the swivel joint 23b and a second joint sleeve 31, two arm parts 33 and 34 forming a second swivel arm, and a double joint 24b and a swivel joint 32 to the arm part 1b ", which corresponds to the arm parts 1" and 1a11 1 to 3 corresponds. The joint sleeve 31 forms a double joint 30 with the swivel joint 23b and is provided on the arm part 33. The hinge sleeve 31 lies between an upper and lower hinge sleeve 31 a and 31 b, between which the hinge sleeve 31 is pivotally mounted about the axis 31c. The joint sleeves 23b, 3 1a and 3 lb are connected to one another via brackets 30a and 30b, the carrier 2b 'being fastened on the upper bracket 30a.

  The hinge sleeve 31 can also be of the same design as the hinge sleeve forming the swivel joint 23b, the support arms 33 and 34 also being of essentially the same design as the arm parts 1b "of the first swivel arm 1b. The arm part 33 is connected via the further double joint 24b to the Arm part 34 is connected, at the free end of which the carrier 2b 'is articulated via the swivel joint 32. The double joint 24b is designed in the same way as the double joint 24 according to FIGS. 1 and 2. An adjusting device 29b is provided for adjusting the inclination of the carrier 2b'.



   Instead of the single joint 32 of the arm part 34, a double joint (not shown) can also be provided, which corresponds to the double joints 24 and 24b. In such a double joint, one joint sleeve is connected to the carrier 2b 'and the other joint sleeve is connected to a further carrier (not shown) or support for, for example, a concept holder, a lamp or the like, so that the carrier 2b' and the support are independent of one another can be pivoted.

 

   In the embodiment according to FIGS. 1 and 2, the swivel arm 1 is arranged at a relatively large distance above the holder 3, since the outer sleeves 11 and 12 lie between it and the swivel bearing 4. This distance can be increased further by arranging 4 further outer sleeves between the holder 3 and the pivot bearing. The distance between the holder 3 and the pivot bearing 4 can also be correspondingly reduced if, for example, only the outer sleeve 11 or the outer sleeve 12 is provided. In the simplest case, the pivot bearing 4 is arranged directly on the holder 3, so that the pivot arm 1 can be pivoted just above the desk.



   In order to limit the pivoting movement of the pivot arm 1, a stop device is provided approximately half the length of the pivot bearing 4. It preferably has two stops 35 and 36 which are adjustably arranged in the journal 7. These stops 35, 36 stop surfaces 37 and 38 of the inner sleeve 6 are assigned (Fig. 8 to 15).



  The stop surfaces are formed by radially extending walls of a circumferential groove 44 in the inner wall in the sleeve 6. The stops 35 and 36 are formed by preferably identical threaded pins which lie in threaded bores 41, 42 of the bearing pin 7. The threaded bore 41, 42 and the stops 35, 36 lie directly one above the other in planes that cross each other, preferably perpendicularly. The length of the stops 35, 36 is preferably slightly shorter than the outside diameter of the journal 7, so that they can both be screwed into a position recessed in the journal (FIG. 10). In this position, the swivel arm 1 can be swiveled through 360 ", the swivel arm with the outer and inner sleeves 6 and 5 being able to rotate about the bearing journal 7 in both swivel directions P and P '.



   However, the stops can also be rotated individually or both to a position protruding above the journal 7, so that their ends protrude outwards beyond the journal (FIGS. 8, 9, 11 to 15). In order to be able to adjust the stops in such a position, the inner sleeve 5 has an insertion opening 43 and the diametrically opposite circumferential groove 44. The outer sleeve 5 is provided with two plug openings 49, 50 which are preferably at right angles to one another and through which an Allen key, screwdriver or the like can be inserted to adjust the stops 35, 36. The inside width of the plug opening 43 of the inner sleeve 6 is only slightly larger than the outside diameter of the stop 35, so that it can be screwed into the plug opening 43 in a form-fitting manner with its one end 45 facing away from the arm part 1 '.

  It then lies against the wall 39 of the plug opening 43 (Fig.



  9). In this position, the swivel arm 1 is secured against rotation in both directions of rotation P, P ', so that the swivel arm is locked in relation to the table.



   The circumferential groove 44 extends over a circumferential angle of slightly more than 1800. In the axial direction of the bearing journal 7, the circumferential groove 44 extends at least over the height of the two threaded bores 41 and 42 (FIG.



  7), so that both stops 35, 36 can be moved simultaneously into their outwardly projecting stop position (FIGS. 14, 15). For turning in the threaded bores 41, 42, each stop 35, 36 is designed as an Allen screw into which the operator of the swivel arm 1 can insert the Allen key or the like to turn the stops. In order to be able to insert the tool into the respective stop from the outside, the swivel arm 1 is rotated such that the stops 35, 36 lie in the region of the respective plug opening 43, 49, 50. These openings 49, 50 are aligned with the insertion opening 43 and the circumferential groove 44 in the starting position of the swivel arm 1 according to FIG. 9, in which it can be locked via the stop 35.



   If the swivel arm 1 is to be pivoted out of this starting and locking position, the stop 35 must first be screwed back into the threaded bore 41. Then the swivel arm 1 with the sleeves 5, 6 can pivot freely about the bearing pin 7. In order to limit the swivel path of the swivel arm, either the stop 35 in the opposite direction (arrow X) in FIG. 9 and / or the stop 36 can be screwed beyond the bearing journal 7 to one side or the other, so that the stops 35, 36 assume one of the positions shown in FIGS. 11 to 15.



   If the stop 35 is screwed in the direction of arrow X into the position shown in FIG. 11, in which it projects into the circumferential groove 44, the swivel arm 1 - of which only the arm part 1 'is shown in FIGS. 9 to 15 - clockwise and counterclockwise by 90 "in the direction of arrow P or P 'until the stop 35 with its projecting end 51 comes to rest against the stop surface 37 or 38 of the inner sleeve 6. The other stop 36 is concealed in the journal 7.



   Overall, the swivel arm 1 can be swiveled from 1800 to the right or left from the starting or central position according to FIG. 11.



   A further swivel position setting consists in that the stop 35 is screwed back into its starting position according to FIGS. 8 and 10 and then the other stop 36 is turned outwards into the position shown in FIG. 12 via the associated threaded bore 42. The swivel arm 1 is rotated so that the opening 49 of the outer sleeve 5 is flush with the stop 35. In this position, the other opening 50 of the outer sleeve 5 is flush with the stop 36, so that it can be screwed into the position described using an Allen key which is inserted through the opening 50. Since in this position the opening 50 is located close to the stop surface 38, the stop 36 is also next to the stop surface 38 after unscrewing (FIG. 12).

  From this starting position, the sleeve 5, 6 can be pivoted with the swivel arm 1 in a direction (arrow P) counterclockwise by 1800 until the stop 36 strikes the other stop surface 37.



   The swivel range of the swivel arm 1 can also be limited to the other 180 range. For this purpose, the stop 36 is screwed through the opening 50 into the position shown in FIG. 13 in the position of the swivel arm 1 according to FIG. 10. The end 52 of the stop 36 projecting over the bearing pin 7 is then located directly next to the stop surface 37. From the position shown in FIG. 13, the swivel arm 1 with the sleeves 5, 6 can be swiveled in the arrow direction P 'by 1800 until it reaches the Stop surface 38 comes to rest.



   The swivel range of the swivel arm 1 can be limited to 1800 by simply adjusting the stop 36, and depending on the position of the stop 36 the swivel range can also be limited to two different 180 "ranges. In both cases (FIGS. 12 and 13) the other stop 35 is completely sunk in the journal 7, so it is not effective.



   Finally, there is the possibility of adjusting the stops 35, 36 so that they both protrude outward beyond the bearing journal 7 into the circumferential groove 44 (FIGS. 14 and 15). The swivel angle of the swivel arm 1 is then limited to 90 ", the possible swivel direction depending on which side of the bearing pin 7 the stop 36 protrudes.

 

   To adjust the stop 35, the sleeves 5, 6 must be brought into the position according to FIG. 10 so that the stop 35 can be actuated through the opening 49.



  It is then screwed into the circumferential groove 44. In addition, the other stop 36 is adjusted in the manner described through the opening 50 into the position according to FIG. 14 or 15. 14, the swivel arm 1 with the sleeves 5, 6 can be pivoted 90 ° counterclockwise in the direction of the arrow P until the stop surface 37 comes into contact with the stop 35 opposite direction (arrow P in FIG. 15) can be pivoted by 900 when the stop 36 projects in the other direction over the bearing journal 7.



   In the settings described, the swivel arm 1 can of course be swiveled clockwise and counterclockwise between the respective stops.



   The stops 35, 36 can be arranged differently from one another in a different way from the embodiment shown, so that they enclose angles other than 90 ". If necessary, further stops designed as threaded pins can also be provided if additional adjustment possibilities are to be provided.



   With the described adjustment options, it is possible to limit the swivel range of the swivel arm 1 to the most favorable swivel range or to exclude the swivelability at all (FIG. 9), e.g. B.



  if the table on which the swivel arm with the screen is attached is to be moved or adjusted. In this way, a risk of the table tipping over can be reliably avoided.



   The swing arm device according to FIG. 16 differs essentially from the swing arm device according to FIG. 1 in that two swing arms are provided which are axially superimposed.



   The one upper swivel arm 1 c is designed correspondingly to the swivel arm according to FIG. 1. It thus also has two arm parts 1c 'and 1c "which are connected to one another and which are connected to one another via a double joint 24c.



  In a further correspondence with the exemplary embodiment according to FIG. 1, the arm part 1c 'is fastened to a pivot bearing 4c, in particular an outer sleeve 5c, to a holder 3c, the pivot bearing 4c largely corresponding to the pivot bearing 4 according to FIG. 1. At the free end 22c of the arm part 1c ", as with the support arm 1" according to FIG. 1, a swivel joint 23c is provided, on which a carrier 2c is arranged. Like the sleeve 5, the sleeve 5c is rotatably arranged on a bearing pin 7c with the interposition of an inner sleeve 6c. It is secured in the axial direction upwards by a cover plate 8c and downwards by a radially extending annular collar 55 of the bearing journal 7c.



   Below the swivel arm 1c, a second swivel arm 56 is pivotally attached to the holder 3c or to the swivel bearing 4c. The swivel arm 56 is essentially of the same design as the swivel arm according to FIGS.



     5, 6. It also has two arm parts 57, 58 of approximately the same length, but which are considerably longer than the arm parts 33, 34 according to FIGS. 5 and 6. The arm part 57 extends from the pivot bearing 4c to approximately half the length of the arm part 1c "of the swivel arm 1c lying above it. The arm parts 57, 58, like the arm parts 33, 34, are pivotally connected to one another via the double joint 59. As with the support arm 34, there is a support 60 via a joint 61 at the free end of the arm part 58 5 rotatably fastened, which can be, for example, a concept holder, a lamp, a telephone, or an adjustment device 62, which corresponds to the adjustment device 29b according to FIG.



   The swivel arm 56 is fastened with its end facing away from the double joint 59 to a further outer sleeve 63 which corresponds to the outer sleeve 5c. The outer sleeve 63 is seated on an inner sleeve 64 which is arranged on the bearing journal 7c. The sleeves 63, 64 correspond to the sleeves 5, 6 according to FIG. 1 on the lower sleeves 1 lc and 12c.



  The sleeve 12c, like the sleeve 12, sits on the holder 3c and is also screwed onto it with screws 65, 66. The sleeve 11c is connected to the bearing journal 7c with screws 67, 68, the free ends of the screws being screwed into an end plate 9c screwed to the bearing journal 7c.



   Otherwise, the swivel bearing 4c is designed correspondingly to the swivel bearing 4 according to FIGS. 1 and 7.



   The pivoting movement of the pivot arms 1c and 56, like that of the pivot arm 1, is limited by a stop device corresponding to the stop devices according to FIGS. 7 to 15. Each swivel arm is assigned a stop device, which is approximately half the length of the sleeves 5c and 63. The stop devices of the same design, like the stop devices described above, preferably consist of two stops 70 and 71 or 72 and 73, which are adjustably arranged in the bearing journal 7c. The stops of circumferential grooves 74, 75 of the sleeve 5c and 63, not shown, are assigned to the stops formed by the threaded pins. The stops and stop surfaces are designed correspondingly to the stops and stop surfaces according to FIG. 7.

  In accordance with the exemplary embodiment according to FIG. 7, plug openings 76, 77 of the inner and outer sleeves 6c, 64 and 5c, 63 are provided for adjusting the stops 70 to 73. As a result, both pivot arms 1c and 56 can be pivoted into different stop positions, as described with reference to FIGS. 7 to 15, depending on the position in which the stops 70 to 73 are adjusted.



   The bearing pin 7c differs from the bearing pin 7 essentially in that the bearing pin 7c extends over both sleeves 5c and 63 and has the collar 55 in half its length. The inner sleeves 6c and 64 are supported on the annular collar with their mutually facing end faces 80 and 81.

 

   If the swivel arm 56 is not required, it can be removed in a simple manner by detaching the outer sleeve 63 with the inner sleeve 64 from the bearing journal 7c and replacing it with an empty sleeve 63d (FIG. 17). The stops 72d, 73d are then sunk in the associated bores 82 and 83 of the lower section 84 of the bearing journal 7d. In this case, the outer sleeve 1 2c according to FIG. 16 can also be omitted, so that the swivel arm 1d has a smaller distance from the holder 3d. In this embodiment, the sleeve 11d is fastened directly to the holder 3d and the lens 9d.


    

Claims (12)

 1. A swivel arm device with at least one swivel arm which has a holder for attachment to a piece of furniture, in particular a work table, and a support for a device, such as a screen, and a swivel bearing provided on a support arm, characterized in that the swivel bearing (4; 4c) at least one adjustable stop (35, 36; 70 to 73; 72d, 73d) is assigned to the swivel limitation and to prevent rotation of the swivel arm (1; lc, ld), which stop with at least one counter stop (37, 38) of the swivel bearing (4th ; 4c) cooperates.  2. Swivel arm device according to claim 1, characterized in that at least one further stop (36) is provided, which is located in the swivel movement direction (P, P ') at a distance from the first stop (35), and that preferably the stops (35, 36; 70 to 73; 72d, 73d) are formed by pins, preferably threaded pins.  3. Swivel arm device according to claim 1 or 2, characterized in that the stops (35, 36; 70 to 73; 72d, 73d) are each adjustable between a first and a second stop position, and that preferably the stops (35, 36; 70 to 73; 72d, 73d) are in their release position within the outer contour of a journal (7; 7c; 7d) of the pivot bearing (4; 4c).  4. Swivel arm device according to one of claims 1 to 3, characterized in that the stops (35, 36, 70 to 73; 72d, 73d) in superimposed bearing openings (41, 42; 82, 83) of the bearing pin (7, 7c; 7d) and that the bearing openings (41, 42; 82, 83) are preferably arranged crossing one another.  5. Swivel arm device according to one of claims 1 to 4, characterized in that the counter-stops (37, 38) are formed by end walls of a groove (44; 74) which are rotatable on the inside of a bearing journal (7; 7c; 7d) Sleeve (6; 6c) is arranged, and that the groove (44; 74) of the sleeve (6; 6c) extends over an angular range of approximately 180.  6. Swivel arm device according to claim 5, characterized in that the one stop (35) in its locking position to prevent rotation of the sleeve rotates without rotation into an opening (43) of the sleeve (6; 6c), and that preferably the length of the approximately identical stops (35, 36; 70 to 73; 72d, 73d) is at most equal to the diameter of the journal (7; 7c; 7d).  7. Swivel arm device according to one of claims 1 to 6, characterized in that the pivot bearing (4; 4c) with the interposition of at least one, preferably a plurality of superimposed outer sleeves (11, 12; 1 lc, 12c; 1 ld, 63d) with the Bracket (3; 3c, 3d) is connected.  8. swivel arm device according to one of claims 1 to 7, characterized in that the swivel arm (lc, ld, 56) from at least one, preferably at least two articulated arm parts (1 ', 1 "; la', la"; 33, 34; lc ', lc "; 57, 58), which preferably each have a joint (23, 23a; 23b; 24, 24a, 24b, 24b'; 24c; 59), such as a double joint, with one another and / or with the pivot bearing (4; 4c) and the carrier (2, 2a, 2b, 2b '; 2c; 60) are coupled.  9. Swivel arm device according to claim 8, characterized in that the arm part (1, la ", 32, 34; lc"; 58) facing away from the swivel bearing (4; 4c) has at its free end (22) the support (2, 2a, 2b, 2b '; 2c; 60), preferably a carrier plate or a support frame, which is preferably pivotally mounted on the free arm part end (22) and is tiltably arranged on the arm part (la ", 34; lc"; 58) for inclination adjustment.  10. Swivel arm device according to one of claims 1 to 9, characterized in that at least two superposed, stop-limited pivot arms (lc, 65) are provided, which are preferably independently limited in the pivot direction stop.  11. Swivel arm device according to claim 10, characterized in that the swivel arms (lc, 65) have superposed outer and inner sleeves (5c, 63 and 6c, 64) which sit on a bearing journal (7c) of the swivel bearing (4c) has an annular collar (55) which lies between the sleeves (5c, 6c, 63, 64) of the swivel arms (lc, 65).    12. Swivel arm device according to claim 10 or 11, characterized in that in the above and below the collar (55) lying portions of the bearing pin (7c) at least one adjustable stop (70 to 73) is provided, each of which has at least one counter stop Swivel bearing (4c) is assigned, and that preferably one swivel arm (lc) has a support (2c) for, for example, a screen, and the other swivel arm (65) has a support (60) for, for example, a telephone and / or documents.