• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:

    公开号:SE0900839A1
    申请号:SE0900839
    申请日:2009-06-22
    公开日:2010-12-23
    发明作者:Kenneth Lindbaeck
    申请人:Sigarth Ab;
    IPC主号:
    专利说明:

    15 20 25 30 2 There are fl your advantages with angle brackets, which has led to great popularity in some markets. Angle brackets are generally simple and straightforward and consist of few parts. This means that their production can be carried out in a cost-effective way, which also has a devastating effect on the price.
    To prevent the radiator from being unintentionally lifted off or pushed off the console, a lift-off protection is desirable. In most markets, such protection is even a requirement.
    An example of an angle bracket with a lifting guard is shown in EP 0 786 631.
    This patent shows a construction with a lifting guard that works for different heights on the radiator bracket. This construction in itself works well for its purpose, but it also has certain disadvantages. A disadvantage is that the bracket is quite long, not least the distance from the upper bracket for the jumper and upwards. This makes the console easily visible to a viewer, especially if the radiator is mounted far down on the wall. The length of the console also means a relatively high material consumption.
    Furthermore, the spring member in the relief guard is loaded to a greater or lesser degree, depending on the height of the retained yoke d. The load entails a risk of plastic defonation of the spring member and thus that the function of the lifting guard falls off, unless very high quality plastic is used. costing the console.
    Because the angle bracket in EP 0 7 86 631 extends a good distance from the wall and because the actuator on the lift guard is arranged well accessible, approximately between the wall and the supported radiator, at the same time as the actuator and the bracket project a considerable distance above the upper bracket of the radiator , the lift control actuator will be clearly visible. This is partly an aesthetic problem, but the visibility can also lead to a disconnection of the removal protection either as an uncircumcision measure or due to a lack of knowledge about the function and purpose of the removal protection.
    TROUBLESHOOTING A task for the present invention is thus to provide a bracket which is less visible than angle brackets according to older technology when the radiator is mounted. At the same time, the cost of the console should be minimized.
    TROUBLESHOOTING The object underlying the invention is achieved if the bracket initially indicated is characterized in that the pivot point is arranged below the adjacent support member.
    Additional advantages are achieved if the console is also given one or more of the features according to claims 2-8.
    COMPILATION OF DRAWING FIGURES The invention will now be described on the basis of the accompanying drawings. In these: Fig. 1 shows a straight side view of a console according to the invention; fi g 2 is a detail view of the holding means provided with the locking means; 3a-c show three different positions of the holding member according to Fig. 2, when this is mounted on the rail included in the bracket; and 10 15 20 25 30 fi g 4 a blank for the rail included in the bracket.
    PREFERRED EMBODIMENT 1 1 g 1 shows a bracket 1, which is built up of a rail 2 and a holding member 3, which provides the lifting protection.
    The rail 2, which in the preferred embodiment is made of metal, preferably a sheet material, has a longitudinal bending 4 so that the rail 2 can be divided into two legs perpendicularly arranged at right angles to each other, where one leg 5 is arranged transversely against the plane of the wall, while the other leg is arranged substantially in the plane of the wall, when the bracket 1 is mounted.
    At the upper and lower ends of the rail 2 there are first and second, i.e. upper and lower support members 7, 8. In these support members 7, 8, the lower edge of the upper and lower brackets 22, respectively, of the radiator are intended to rest. For a reduction of the risk of noise due to movements during heating and cooling of the radiator, preferably plastic liners (not shown) are provided in the recesses 7, 8.
    In Fig. 1 the holding member 3 is shown in the position where it provides a lifting protection for the radiator, i.e. the upper bracket 22 of the radiator cannot be lifted out of the upper support member 7, since the locking member 9 of the holding member 3 locks the bracket 22 and prevents upward movements. This position is also referred to as the locking position of the holding member 3.
    In fi g 2 the holding means 3 are shown with the locking means 9 in detail. For as clear a view as possible, the holding member 3 is shown detached from the upper part of the rail 2.
    As mentioned earlier, the holding member 3 has a locking member 9, in the form of a locking lug, at the upper part of the holding member 3. The locking means 9 is in the preferred embodiment arranged so that it extends a distance forwards and downwards when the holding means 10 is in the upright position shown in fi g 2, approximately corresponding to the position which the holding means 3 occupies in the bracket 1 in lock mode.
    The holding member 3 is rotatably arranged at the upper end of the rail 2. For this purpose a pin 10 is arranged, which forms one part of the center of rotation of the holding member 3. The t 3 is, as can be seen from both fi g 1 and Figs. 3a-c, arranged in a corresponding hole 15 in the upper part of the rail 2, directly below the upper support member 7.
    The holding member 3 and its parts are thus rotatable about the pin 10, when this is arranged in the hole 15, and its parts would, in the absence of other action, move along a substantially arcuate path. The location of the center of rotation 10, 15 below the support member 7 enables shortening of the bracket.
    The holding member 3 further has a spring member 11, which extends in the direction away from the locking member 9, and its distal end is terminated with a transverse spring projection 12.
    The spring projection 12 is intended to run, as shown in fi g 1 and 3a-c, in the recess 16, which is provided with two locking means 17, 18. When the spring projection 12 is guided in the recess 16, it will be forced out of the otherwise arcuate path of the locking means 17 and 18. This causes a deflecting force on the spring 11, which after the respective locking means 17, 18 has been passed will return to its unloaded position. In order for the passage past the locking means 17, 18 to be possible, an actuating force on the holding means 3 is required, either clockwise or counterclockwise.
    To retain the holding member 3 at the upper end of the rail, an undercut guide pin 13 is provided, which after mounting the holding member 3 on the rail 2 extends through a guide recess 19, which has a substantially circular arcuate shape. The upper portion 20 of the guide recess 19 is widened so that the guide pin 13 can be inserted into the guide recess 19. Although the width of the lower, narrower portion of the guide recess 19 is less than the diameter of the guide pin 13, it is movable therein because the pin 13 is provided with an undercut. 10 15 20 25 30 6 At the top of the holding means 3 there is an operating means 14, which in the preferred embodiment has the shape of a recess or a cutting edge. The 14 edges of the groove provide opportunities for a frictional engagement with a user's colors. In addition, it is possible to actuate the recess 14 with the aid of some tool, for example a screwdriver or the like. As a result, the holding member 3 can be moved to different positions, which will be described in detail here.
    Figs. 3a, b and c show three different positions of the holding member 3. Fig. 3a shows a position where the holding member 3 is mounted on the upper part of the rail 2 during manufacture. In most cases, this mode only needs to be taken once, i.e. during manufacture at the factory, but of course it is possible to move an already mounted holding member 3 to this position, for disassembly and possible replacement thereof, for example if the holding member 3 is damaged or the like. The pin 10 is inserted into the corresponding hole 15, so that a center of rotation of the holding member 3 is created. The holding member 3 is rotated to such a position that the spring projection 12 can be inserted into the locked recess 16 and that the undercut guide pin 13 can be inserted into the upper part 20 of the guide recess 19. This position is shown in Fig. 3a. The position is not stable, but the holding means 3 can easily become detached from the rail, since both the central pin 10 and the spring projection 12 and the guide pin 13 easily fall out of their respective recesses 15, 16 and 19.
    In order to achieve a position where the holding member 3 remains at the rail 2, the holding member 3 is rotated clockwise, for example by actuating the operating member 14, so that the guide pin 13 is moved downwards in the guide socket 19. The guide pin 13 is thus moved into the narrower portion of this recess 19 and its undercut means that it can no longer fall out of the recess 19. At the same time the spring projection 12 is also rotated clockwise in the locking recess 16 and as it is pressed against the side of the locking member 17 the spring 11 will be pushed out a short distance and away from the holding means 3. When the operating means 14 is moved further clockwise, the locking means 17 will be passed and due to the spring force in the spring 11 the spring projection 12 will snap back to a position where the spring 11 is again unloaded. This mode is shown in fi g 3b. Fig. 3b shows a locking position, where insertion and fixing of a radiator bracket 22 is possible.
    When inserting a bracket 22 between the support member 7 and the locking member 9, it will later be moved a short distance to the right, i.e. corresponding to a clockwise rotation in fi g 3b. At the same time, the spring 11 will spring out of the holding member 3, since the spring projection 12 is now pressed against the side of the locking member 18 in the recess 16. Due to the rail edge 21 the yoke 22 will not be able to move the holding member 3 clockwise more than a short distance. can move beyond the rail edge 21.
    In this position, however, it is possible to lower the radiator bracket 22 completely into the upper support member 7. Due to the force from the spring 11, the holding member 3 will spring back to approximately the position shown in fi g 3b where the spring 11 is unloaded. The locking member 9 now extends over the upper edge of the radiator bracket 22.
    Since the jumper in this position, in the manner previously mentioned, cannot move the holding member 3 beyond the rail edge 21, the holding member 3 remains in the locking position, unless the operating member 14 is actuated manually. In this position the spring 11 is unloaded and it is really only in the moment when the yoke 22 is moved in place that a deflection of the spring 11 takes place.
    If the operating member 14 is actuated, as mentioned above, by, for example, a tool, the holding member 3 can be moved to the position shown in Fig. 3c. In this position the spring projection 12 is located in its distal and lower position in the recess 16, it has thus also passed the locking member 18. In order to move the holding member 3 to this position, the spring 11 must be bent out to a greater degree than what happens during assembly. of the radiator bracket in the upper support member 7. In the position shown in Fig. 3c, however, the spring member 11 has returned to its unloaded position. The position shown in fi g 3 is a so-called take-off mode, where a planned and controlled take-off of the radiator can take place. The holding member 3 is then returnable to its locking position, as shown in fi g 3b, by manually actuating the operating member 14. Thus, when occupying the different positions shown in fi g 3a-c, a rotation takes place around a center of rotation which consists of a substantially circular pin 10 in the hole 15, which means that all unloaded parts of the holding member 3 describe a circular arcuate path around the center of rotation 10, 15. Parts which are subjected to a force, such as the counter-force from the locking means 17, 18, will, however, be forced to a slightly different path. Thus, since the spring projection 12 is arranged at the end of the spring 11, the spring 11 will be temporarily deformed when the locking means 17, 18 are to be passed.
    In fi g 4, a blank for the rail 2 is shown in its unbent state. The planned bend 4 is marked with a dashed line. Fig. 4 clearly shows how the space below the upper support member 7 and above the lower support member 8 is substantially free, which gives the previously mentioned required space between the radiator and the bracket.
    The outer contour 23 on the left side of the blank shown in fi g 4 has a pivot between the support members 7 and 8. This curved contour 23 corresponds substantially to the contour 24 shown by the right outer edge of the blank. This means that the blanks can be placed close together on a sheet material and cut or punched out of it with a minimum of waste material. Only small portions at the sockets in the blank and the support members 7, 8 must be discarded.
    In summary, a radiator bracket 1 is thus provided with a considerably lower height for a constant distance between the radiator brackets 22. The bracket 1 is only a very short distance longer than this distance, largely due to the holding member 3 being rotated about a low center of rotation. The holding member 3 protrudes only insignificantly above the rail 2 included in the bracket 1. This means that both the bracket 1 and the operating member 14 on the holding member 3 are minimally visible.
    At the same time as requirements for distance from the wall and the need for spaces between the bracket 1 and the radiator are met, a minimal amount of material is consumed. Thus, the costs for the sheet material included in the rail 2 can be minimized.
    Since the spring means 11 in the holding means 3 are only loaded at the moments when mounting takes place or when the holding means 3 is moved to the lift-off position, the risk of plastic deformation of the holding means 3 or the spring 11 is in principle insignificant. Thus, other plastic qualities can also be used than the more expensive qualities that have been used so far. Thus, the cost of the console 1 can be reduced in this respect as well.
    The invention can be further varied within the scope of the appended claims.
    权利要求:
    Claims (8)
    [1]
    A bracket for a radiator or the like, comprising an elongate rail (2), comprising a first (7) and a second (8) support means for supporting the radiator or bracket means (22) arranged thereon from below, and a locking means (9 ) for protection against undesired lifting of the radiator at at least the first support member (7), the locking member (9) being pivotally arranged in the rail (2) around a pivot point (10, 15) and is movable between a locking position and a lifting position, characterized in that the pivot point (10, 15) is arranged below the adjacent support member (7).
    [2]
    Bracket according to claim 1, characterized in that a spring means (1 1) is arranged to counteract the movement of the locking means (9) between the locking position and the lifting position in both directions.
    [3]
    Bracket according to claim 2, characterized in that the spring means (11) is arranged on the locking means (9) and is pivotable together with it about the point of rotation (10, 15), a capercaillie projection (12) being movable in a recess (16) in the rail (2).
    [4]
    Bracket according to claim 3, characterized in that the recess (16) has a side edge with a first locking member (18), which forces the spring projection (12) to move against the spring force of the spring member (1 l) during passage under the locking member (1). 9) movement between the locking position and the lifting position in both directions.
    [5]
    Bracket according to one of Claims 1 to 4, characterized in that the pivot point (10, 15), the support member (7) and the locking member (9) lie on a substantially straight line.
    [6]
    Bracket according to one of Claims 2 to 4, characterized in that the spring member (11) is unloaded in both the locking position and the lifting position. 10 ll
    [7]
    Bracket according to claim 4, characterized in that the recess (16) has a second locking member (17) which forces the spring projection (12) to move against the spring force of the spring member (1 l) during passage during the movement of the locking member (9) to and from an mounting position which the locking member (9) assumes when mounting on the rail (2).
    [8]
    Bracket according to one of Claims 1 to 7, characterized in that the side edges of the rail (2) each have an outer contour (23, 24) which is complementary to the outer contour (23, 24) of the other side edge.
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    同族专利:
    公开号 | 公开日
    SI2299187T1|2018-04-30|
    SE534521C2|2011-09-20|
    EP2299187B1|2018-01-24|
    EP2299187A2|2011-03-23|
    PL2299187T3|2018-07-31|
    EP2299187A3|2016-07-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB8824356D0|1988-10-18|1988-11-23|Crilly K T|Mounting radiators|
    DE29601329U1|1996-01-26|1997-05-28|Sigarth Ab|Device for attaching objects such as radiators to a wall|
    DE10008685B4|2000-02-24|2004-08-26|Wemefa Horst Christopeit Gmbh|Lifting protection for a radiator console|EP3705790A1|2019-03-08|2020-09-09|Sigarth AB|Locking device for a radiator bracket and a radiator bracket comprising such locking device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE0900839A|SE534521C2|2009-06-22|2009-06-22|Bracket with lifting guard|SE0900839A| SE534521C2|2009-06-22|2009-06-22|Bracket with lifting guard|
    SI201031649T| SI2299187T1|2009-06-22|2010-06-21|An angle bracket|
    EP10006336.1A| EP2299187B1|2009-06-22|2010-06-21|An angle bracket|
    PL10006336T| PL2299187T3|2009-06-22|2010-06-21|An angle bracket|
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