• 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:
    The invention refers to a radiator bracket (1) for hanging a radiator (8) on a wall. The radiator bracket (1) comprises a rail (2) with a first and a second engaging means (6, 7) for co-operation with respective portions of the radiator (8) or holding means (9, 10) arranged thereon. At least the first engaging member (6) has a locking member (3). The locking member (3) has a waiting position and a locking position, the locking member (3) being biased against the counter-locking position with a capercaillie member (4). The locking member (3) is rotatably and displaceably connected to the rail (2), so that the locking member (3) is movable in a plane between the waiting position and the locking position. Fig. 4a
    公开号:SE1100175A1
    申请号:SE1100175
    申请日:2011-03-11
    公开日:2012-09-12
    发明作者:Haakan Thorn
    申请人:Sigarth Ab;
    IPC主号:
    专利说明:

    15 20 25 30 parts are GB 2 249 474 A. This console works well per se, but requires some installation on the construction site.
    TROUBLESHOOTING It is thus desired to provide an easy-to-assemble and robust bracket, which retains the radiator with a substantial force.
    TROUBLESHOOTING The objective underlying the invention is achieved if the bracket initially indicated is characterized in that the locking member is rotatably and displaceably connected to the rail, so that the locking member is movable in a plane between the waiting position and the locking position.
    COMPILATION OF DRAWING FIGURES The invention will now be described on the basis of the accompanying drawings. These show: fi g la-c a straight side view of a console according to the invention and a radiator during three different stages of the suspension of the radiator on the console; 2 g 2 a perspective view of a rail included in the console; 3 g 3 is a perspective view of a locking member included in the bracket; and fi g 4a and b straight side views of the console in a standby position and a lock position, respectively.
    PREFERRED EMBODIMENT The invention will now be described in an embodiment where the bracket is exemplified by an angular bracket, which means that the rail 2 included in the bracket 1 has a cross-sectional shape which substantially corresponds to an L. A locking means 3 is provided, in order to hold the radiator requirements when the locking means is in a locked position.
    The locking member 3 is biased in a direction obliquely downwards by a spring member 4, which is better seen in fi g 4a and 4b. The locking member 3 is connected to the rail 2 via an anchoring member 5, which in the preferred embodiment consists of a rivet.
    The locking means 3 is arranged at a first, in the preferred embodiment upper, engaging means 6. Together with the geometric design of a second, in the preferred embodiment lower, engaging means 7 it is achieved that lifting of the radiator 8 is in principle impossible when the locking means 3 is in a locked position.
    Fig. 1a shows that the radiator 8 in a position where the lower engaging member 7 is in contact with the lower bracket 9 of the radiator 9. The design of the lower engaging member 7 is such that it is possible to lift the radiator 8 again, when it is angled in this way . A portion of the rail 2 just above the recess which constitutes the lower engaging member 7 is cut away, so that a bevel 21 is obtained, partly to enable such lifting, but also to facilitate the insertion of the lower bracket 9 into the engaging member 7. A similar bevel 22 is arranged at the upper engaging member 6. From the position shown in fi g la it is now possible to tip or turn the radiator 8 inwards towards the bracket 1, i.e. in the direction of the arrow A. The locking member 3 settles in its waiting position, where it is held by that a guide member 11 in the form of a guide pin 11 abuts a lug or a projection 14 at the edge of a slot 12, wherein the guide member 11 is in principle movable. In the waiting position, the locking member 3 slopes slightly backwards with its upper part closer to the wall than the lower part.
    In fi g lb the radiator 8 is shown near the mounted position, where the locking means 3 has not yet assumed its locking position. The upper bracket 10 of the radiator has in fi g lb come into contact with the locking member 3, where its lower part projects forward in an actuating projection 13. This is the first contact between the locking member 3 and the radiator 8 during assembly. A further pressure against the actuating projection 13 of the locking member 3 will cause the locking member 3 to be given a rotation around the anchoring member 5. During this rotation of the locking member 3, the guide member 11 in the slot 12 will follow the movement, which means that the guide member 11 loses engagement with the lug 14 on which the guide member 11 rests. The control member 11 will then, together with the locking member 3, move downwards partly under the influence of gravity, but mainly due to the bias provided by the spring member 4.
    The downward movement and the rotation of the locking member 3 is controlled by the movement of the guide member 11 in the slot 12, which is arranged so that it is inclined in relation to the main longitudinal extent of the rail 2 and in relation to an imaginary vertical line when the rail is arranged in a normal position of use. a wall. The inclination of the slot 12 aims to maintain a certain part of the rotational movement around the anchoring member 5, at the same time as the locking member 3 moves downwards. The upper part of the locking member 3, which has a hooking member 15, moves simultaneously downwards and counterclockwise around the anchoring member 5 until it hooks into the bracket 10 on the radiator. The locking member 3 thus falls forward in the direction of the radiator 8 when it is triggered.
    In fi g lc, the locking member 3 has assumed its locking position. Thereby the locking member 3 has fallen or been pulled downwards by the spring member 4. The downward movement of the locking member 3 has meant that the anchoring member 5 now settles in the upper part of the elongate hole 16 in the locking member 3.
    The movement of the locking member 3 has taken place in a plane, and is composed of a rotational movement and a translational movement. The guide member 11 is located in the lower part of the slot 12. The locking member 3 is held in this position by the spring member 4, which acts between the guide member 11 and the hole 17 in the rail 2. The spring member 4 is arranged so that a large force is required and / or a tool for disturbing the locking member 3. In order to be able to actuate the locking member 3 and release it intentionally, a hole 18 is provided for a tool to be able to cooperate with it.
    In fi g 2, the rail 2 included in the console 1 is shown in perspective. As previously mentioned, this rail 2 in the preferred embodiment is an angular rail, which means that it has a substantially L-shaped cross section. One leg is intended to be placed against a base, typically a wall or the like, to be anchored to it. For this purpose, anchoring holes 19 are provided in the rail 2. In order to arrange two or two brackets 1 at the same height next to each other, an alignment member 20 is provided, which in the preferred embodiment has the appearance of a jack in the edge of the rail 2. On the opposite leg, which extends outwards from the wall or the base, the upper and lower engaging members 6, 7 are arranged. The rail has the chamfers 21, 22 to enable and facilitate insertion of the edges or brackets 9, 10 of the radiator 8 in the engaging means 6, 7. During the insertion of the radiator or its stirrups 9, 10 into the engaging means 6, 7 and the pivoting movement to move the radiator 8 into place, the radiator can thus be moved close to the engaging means 6, 7 without bumping into the rail 2. the rail 2 in fi g 2 shows a through hole 23 for fastening the locking member 3 by means of the anchoring member 5. The anchoring member 5, in the preferred embodiment a rivet, is arranged so that the locking member 3 is movable on top t and down and is pivotable about the anchoring member 5, but it is not possible to manually remove the anchoring member 5 from the rail 2. The connection of the rail 2 and the locking member 3 is made in the manufacture of the bracket 1 at the factory, and it is not necessary thereafter. to carry out any further assembly on the construction site.
    Furthermore, the slot 12 is visible on the rail 2. The slot 12 is inclined in relation to the main longitudinal direction of the rail 2, which is parallel to the longitudinal bending line 24 of the rail 2. The oblique direction means a control of the movement of the locking member 3 as it moves in the direction of the spring member 4. bias (down in ñg 2). The part of the locking member 3 which cooperates with the slot 12, i.e. the guide member 11, will move in the direction of the bending line 24 of the rail, which at the same time means, since the locking member 3 is rigid, that the upper part 3 of the locking member 3 moves towards the front edge of the rail 2. folds forward.
    The guide slot 12 is also provided with a lug or a projection 14 for holding the locking member 3 in the waiting position until the radiator 8 is to be mounted. When the spring means 4 is arranged between the hole 17 and the guide means 11, the biasing force will be directed obliquely downwards and forwards, which means that the force from the spring means 4 helps to keep the guide means 11 in the waiting position until the locking means 3 is actuated on its actuating projection. 13. When the actuating projection 13 is pushed backwards in the direction of the bending line 24 of the rail 2, the biasing force for guiding the guide member 11 acts primarily along the leading edge of the slot 12. The slot 12 has a wider portion at its upper end, which eliminates the risk of the guide member 11 being wedged in the slot 12 when pushed away from the lug 14.
    Fig. 3 shows the locking member 3 in perspective. At the top of the locking member 3 in verktyg g 3, the hole 18 is visible, which is intended for engagement with a tool for bringing the locking member 3 back to the waiting position, so that the radiator 8 can be lifted away from the engaging members 6, 7.
    The elongate hole 16 allows an anchoring of the locking member 3 to the rail 2, at the same time as the locking member 3 becomes both displaceable as far as the length of the elongate hole 16 allows and rotatable relative to the anchoring member 5, which is arranged in the hole 23 in the rail 2.
    At the level of the elongate hole 16 there is also the hooking member 15, which grips over a radiator bracket 9, 10. Since the locking member 3 aims to absorb outward and upwardly directed forces, it is this part of the locking member 3 which will be particularly exposed. for load. The anchoring member 5, which will be level with the hooking member, when the locking member 3 is in the locking position, contributes to a robust construction.
    The distance between the upper edge of the radiator bar and the anchoring member 5 is short, which results in a short lever, and the anchoring member 5 is therefore particularly important for the strength of the bracket at loads directed outwards from the wall. However, other constructions of the locking member 3 are also conceivable.
    The actuating committee 13 is arranged at the lower part of the blocking member 3, so that it is the part of the blocking member 3 which first comes into contact with the radiator bracket 10 during an assembly which means that the radiator 8 is pivoted towards the bracket 1 in the manner shown in Fig. 1a. In order to ensure that the actuating projection 13 is the part of the locking member 3 which first comes into contact with the radiator bracket 10, the locking member 3 is also arranged to tilt backwards in its waiting position, in the direction of the wall. This is most clearly seen in fi gurema la and lb.
    In fi g 3 it further appears that the control member 11 is angled away from the main part of the locking member 3.
    The guide means 11 is thus arranged to extend through the slot 12 on the rail 2. At the upper edge of the guide means 11 a notch 25 is arranged, which in the preferred embodiment allows a secure attachment of the spring means 4, for biasing the guide means 11 and the locking means 3 in direction obliquely downwards, as described earlier. Fig. 4a shows in a view straight from the side the mounted bracket 1 when it is in the standby mode. The spring member 4 is particularly well visible in this view. The spring member 4 extends between the hole 17 in the rail 2 and up to the notch 25 on the guide member 11. The spring member 4 is slightly stretched, which means that it exerts a biasing force on the guide member 11 and the locking member 3 as a whole. The force is, as previously mentioned, directed obliquely forwards and downwards, in the direction away from the wall on which the bracket 1 is to be mounted. The extent of the spring member 4, and thus the direction of the biasing force, forms an angle with the extent of the slot 12. The direction of the biasing force also helps, as previously mentioned, to retain the guide member 11 on the lug 14 at the edge of the slot 12 when the locking member 3 stands in standby mode.
    In fi g 4a it is particularly clear that the impact committee 13 projects a piece in the upper engaging member. When a radiator bracket is inserted into the upper engaging member 6, the impact committee will be pivoted backwards, in the direction of the wall on which the bracket 1 is attached, and the locking member 3 is given a rotation about the anchoring member 5 in a clockwise direction in fi g 4a.
    The rotation about the anchoring member 5 will also release the guide member 11 from its position on the lug 14 in the slot 12, despite the action of the spring member 4. However, the force required to effect the release of the guide member 11 is limited, since the main force component from the spring member 4 is directed straight downwards, and the force component which is directed laterally, and holds the guide means 11 towards the side edge of the slot 12, is limited.
    The oblique direction of the slot 12 in relation to a vertical line, or the bending line 24 of the rail 2, allows the locking member 3 to be rotated further clockwise in 4 g 4a around the anchoring member 5, at the same time as the locking member 3 moves downwards. Both the limited extension of the elongate hole 16 and the limited extension of the slot 12 will cause the locking member 3 to assume its locking position, where the anchoring member 5 is located in the upper part of the elongate hole 16 and the guide member 11 is located in the lower part of the slot 12. The hooking means 15 will then be located inside the radiator bracket 10 and grip around its edge. This position of the locking member is shown in fi g 4b, which, like fi g 4a, is a view straight from the side of the bracket 1. In fi g 4b, the spring member 4 is maximally contracted, so as not to unnecessarily cause any wear of the material in the spring member 4. The guide member 11 and thus the locking member 3 settles in its lowest position, which corresponds to a locking position. It is virtually impossible to manually disengage the locking member 3 in a direction opposite to the force from the spring member 4 because it is difficult to get a grip with the tongues on the locking member 3. In order to intentionally return the locking member 3 to the waiting position, engagement with a hook is required. or the like in the hole 18 for a tool.
    We can also state that the locking member 3 in fi g 4b has been rotated around the anchoring member 5, so that it assumes a position where the actuating projection 13 is pushed back behind the rail 2.
    ALTERNATIVE EMBODIMENTS As mentioned in passing above, it is possible to apply the invention also to brackets which also include other types of rails, not only an angular rail shown in the preferred embodiment.
    Another way of varying the winding is to replace the helical coil spring used as the spring member 4 with some other type of spring member. Engaging points in the rail 2 and the guide member 11 may need to be adapted to the type of spring member used. What is interesting, however, is that the biasing force from the spring member 4 forms an angle with the slot 12, in which the guide member 11 is movable. Furthermore, at least the end positions of the slot 12 must lie on a line which forms an angle with the longitudinal direction of the rail. Although the invention according to the preferred embodiment is shown with the anchoring member 5 located above the guide slot 12, it is also conceivable, with appropriate structural changes, to change the relative position of these two features.
    However, the basic thinking behind the invention is the same.
    The invention can be further modified within the scope of the appended claims.
    权利要求:
    Claims (8)
    [1]
    A radiator bracket for suspending a radiator (8) on a wall, comprising a rail (2) with a first and a second engaging means (6, 7) for co-operation with respective portions of the radiator or holding means (9, 10) arranged thereon, wherein at least the first engaging member (6) has a locking member (3) and the locking member (3) has a waiting position and a locking position, the locking member (3) being biased towards the locking position with a spring member (4), characterized in that the locking member (3) is rotatably and slidably connected to the rail (2), so that the locking member (3) is movable in a plane between the waiting position and the locking position.
    [2]
    Radiator bracket according to claim 1, characterized in that the locking means (3) comprises a control means (1 1) for controlling the movement of the locking means (3) between the waiting position and the locking position.
    [3]
    Radiator bracket according to claim 2, characterized in that the guide means (1 1) comprises a guide pin which is movable in a slot (12) wherein the end positions of the guide pin (11) in the slot (12) correspond to the waiting position and the locking position, respectively.
    [4]
    Radiator bracket according to Claim 3, characterized in that the slot (12) has a side edge which has a projection or a lug (14) for retaining the guide pin (11) in the waiting position.
    [5]
    Radiator bracket according to one of Claims 1 to 4, characterized in that an anchoring member (5) extends through a hole (23) in the rail (2) and an elongate opening (16) in the locking member (3), so that this is angular and displaceable in relation to the rail (2) -
    [6]
    Radiator bracket according to Claim 3 or 4, characterized in that the end positions of the guide pin (1 1) are arranged along a line which forms an angle with the longitudinal direction of the rail (2).
    [7]
    Radiator bracket according to one of Claims 1 to 6, characterized in that the locking member (3) forms an angle to the longitudinal direction of the rail (2) in the waiting position. 10
    [8]
    Radiator bracket according to Claim 6 or 7, characterized in that the lower part (13) of the locking member (3) is more projecting than its upper part in the waiting position.
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    同族专利:
    公开号 | 公开日
    EP2498011B1|2018-05-02|
    SE536890C2|2014-10-21|
    PL2498011T3|2018-10-31|
    SI2498011T1|2018-08-31|
    EP2498011A2|2012-09-12|
    EP2498011A3|2015-09-02|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE8708375U1|1987-06-13|1987-09-24|Christopeit, Horst, 4320 Hattingen, De|
    DE9013103U1|1990-09-14|1992-01-23|Sigarth Ab, Hillerstorp, Se|
    SE522030C2|1999-03-19|2004-01-07|Sigarth Ab|Radiator mounting device|
    SE532086C2|2007-12-18|2009-10-20|Sigarth Ab|radiator bracket|EP3062028B1|2015-02-26|2018-01-31|Sigarth AB|Radiator bracket|
    LT3062029T|2015-02-26|2019-12-10|Sigarth Ab|Radiator bracket and system for fixing a radiator on a substrate|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE1100175A|SE536890C2|2011-03-11|2011-03-11|radiator bracket|SE1100175A| SE536890C2|2011-03-11|2011-03-11|radiator bracket|
    EP12001506.0A| EP2498011B1|2011-03-11|2012-03-06|A radiator bracket|
    PL12001506T| PL2498011T3|2011-03-11|2012-03-06|A radiator bracket|
    SI201231318T| SI2498011T1|2011-03-11|2012-03-06|A radiator bracket|
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