This Application is a 371 of International Application PCT/EP2017/073815, filed on Sep. 20, 2017, which claims priority to Application IT 102016000098088 filed on Sep. 30, 2016.
The present invention relates to an actuation device for a lifting system and to a lifting system for door leaves of furniture, in particular door leaves that swing upward about a horizontal axis.
In the furniture sector, the use is known of lifting systems that comprise at least one supporting lever, which at a first end is supported, so that it can oscillate, by a fixing plate that can be anchored to a side wall of the item of furniture, while at the opposite end it can be connected, so that it can oscillate, to the door leaf of the item of furniture.
An example of such lifting systems is described in EP1766172, which teaches to use a gas-operated spring, connected between the fixing plate and the supporting lever, in order to provide the necessary force to lift the door leaf.
This solution, although functional, displays some drawbacks, which are linked mainly to the cost of the gas-operated spring and to the fact that, with use, this spring loses efficacy.
In order to overcome these drawbacks, solutions have been developed over time which, in place of the gas-operated spring, entail the use of elastic devices that comprise one or more helical springs, which are lower cost and which on average have a longer life.
Solutions of this type are shown for example in WO 2006/005086 or in EP 1713996; the elastic devices with helical springs specified therein cooperate with adapted transmission means connected to the fixing plate in order to transmit the force of the helical springs to the supporting lever of the system.
However, even these solutions are not free from drawbacks, which lie in particular in the complexity of the transmission means specified.
Another drawback is linked to the fact that the fixing plates commonly used for gas-operated springs need to be substituted by others that are specifically made for the connection of transmission means, for example in the form of movable sliders; if substituting a system using a gas-operated spring with one of the conventional systems using a helical spring, it is therefore necessary to substitute the entire assembly, often needing to provide new fixing points on the item of furniture as well.
Another drawback is linked to the fact that such lifting systems have low, or non-existent, versatility, since they cannot be adapted, without extensive modifications, to different types of movement of the door leaf from the designed movement.
From the above brief examination of the conventional solutions in the known art, it therefore emerges that there is a need to have an alternative to the conventional lifting systems, which overcomes the drawbacks explained above.
The aim of the present invention is to provide an actuation device and a lifting system that comprises such device which solves the above mentioned technical problems, compensates for the drawbacks and overcomes the limitations of the known art, by making it possible to make available a lifting system that is simple in construction and effective.
Within this aim, an object of the invention is to provide an actuation device and a lifting system that comprises such device that has elastic means that are low cost and reliable and which do not require any substantial modification to fixing plates or more generally to lifting systems already in use, and/or which can be easily substituted for these.
Another object of the invention is to provide an actuation device and a lifting system that comprises such device that can easily be adapted to different types of movement of the door leaf, by way of simple modifications of one or, at most, a few parts.
Another object of the invention is to provide an actuation device and a lifting system that comprises such device that is reliable over time and which offers a lifting force that can be adjusted in order to adapt it to different weights of door leaves or installation needs.
This aim and these and other objects which will become better apparent hereinafter are achieved by an actuation device for a lifting system for door leaves of furniture, said actuation device comprising:
a fixing plate that can be connected to the body of the piece of furniture,
a supporting lever for the door leaf, which is connected, so that it can oscillate, to the fixing plate at a fulcrum and comprises, at the fulcrum, a connecting portion that extends eccentrically with respect to the fulcrum,
elastic means that comprise a body for accommodating at least one elastic element,
characterized in that the actuation device comprises an intermediate connecting lever that comprises two opposite ends, a first end of the intermediate connecting lever being coupled, so that it can oscillate, to the connecting portion of the supporting lever, at a first pivot,
the body of said elastic means having at least one first end which is coupled, so that it can oscillate, to the fixing plate and a second, opposite end that has a second pivot,
a second end of the intermediate connecting lever being coupled, so that it can oscillate, to the body of said elastic means, at the second pivot,
said intermediate connecting lever comprising an actuation surface or cam which is arranged substantially at the second pivot,
said elastic means comprising furthermore a pusher that is supported so that it can move longitudinally by said accommodation body and is pressed by the at least one elastic element,
said cam cooperating with said pusher.
In this manner, an actuation device and a lifting system that comprises such device can be obtained which overcome the limitations of the conventional systems, since they are relatively easy to manufacture and install, as well as being reliable.
The actuation device according to the invention and the lifting system that comprises such device, furthermore, do not require substantial modifications to fixing plates or more generally to lifting systems already in use, and can be easily substituted for the latter.
Last but not least, such actuation device, and the corresponding lifting system that comprises such device, can easily be adapted to different types of movement of the door leaf, by way of simple modifications of one or, at most, a few parts.
Furthermore, the actuation device according to the invention and the lifting system that comprises such device have a lifting force that can be adjusted in order to easily adapt it to different weights of door leaves or installation needs, and they can be used if, in order to move the door leaf, it is necessary to have powerful forces and/or precise control of the movement of the door leaf and/or of the variation of the lifting force.
Last but not least, the actuation device according to the invention can be easily substituted for the gas-operated springs of existing systems, thus constituting an advantageous retrofit of such systems, and it is simple to install, robust, and low cost.
Finally, the actuation device according to the invention and the lifting system that comprises such device are a valid alternative to conventional lifting systems.
Further characteristics and advantages of the invention will become better apparent from the description of four preferred, but not exclusive, embodiments of the lifting system that comprises the actuation device of the invention, which are illustrated by way of non-limiting example with the aid of the accompanying drawings wherein:
With reference to
Generally, in all the various embodiments, the lifting system 10, 20, 30 and 40 is adapted to be applied to door leaves A of furniture M, in particular door leaves that tilt upward about a horizontal axis.
The system 10, 20, 30 and 40 comprises at least one actuation device 1 according to the invention, which is substantially equivalent for all the embodiments.
The actuation device 1 comprises a fixing plate 2 that can be connected to the body of the piece of furniture M.
In particular the plate 2 is intended to be fixed to a shoulder of the piece of furniture and is provided with adapted fixing means (in the examples shown these are constituted by holes for accommodating screws, but they could equivalently be pins that protrude from a face of the plate 2 or combinations of pins and holes).
The device 1 also comprises a supporting lever 4 for the door leaf A, which is connected, so that it can oscillate, to the fixing plate 2 at a fulcrum 5.
The fulcrum 5 is provided for example with a pivot that engages the supporting lever 4 and the plate 2 in rotation.
The supporting lever 4 can be variously contoured, straight, curved or with mixed profiles, according to the installation requirements and to the type of door leaf; such details are not expanded on here as they are not essential to understanding the invention.
Note that the supporting lever 4 comprises, substantially at the fulcrum 5, a connecting portion 41 that extends eccentrically with respect to the fulcrum 5; the connecting portion 41 can be in the form of an arm that extends from the lever 4 (as in the systems 10, 20, 40) or a part integrated in the body of the lever 4 (as in the system 30); the function of the connecting portion 41 will become clearer shortly.
The device 1 also comprises elastic means 3 that comprise a body 31 for accommodating at least one elastic element 32.
In the embodiments illustrated, the body 31 is a box-like body provided by way of joining two metallic half-shells 31A and 31B, as shown in detail in
The elastic element 32, in the non-limiting embodiment shown, comprises two metallic helical springs 32A and 32B; in other embodiments there could instead be a single helical spring or other, equivalent types of elastic means. The advantages of using helical springs in place of gas-operated springs are, briefly, the low cost and the high reliability over time, as well as the ready availability on the market.
The springs 32A and 32B (or, more generally, the elastic element 32) extend between a rear base 33 and a front fork-like element 34, which also form part of the elastic means 3; as it will be made clearer below, the rear base 33 is integral or movable with respect to the body 31.
The latter has at least one first end that is coupled, so that it can oscillate, to the fixing plate 2, for example by virtue of the axis 38, so as to be able to rotate with respect thereto.
The elastic means 3 comprise furthermore a pusher 35 that is supported so that it can move longitudinally by the accommodation body 31 and is pressed by the at least one elastic element 32.
In the example shown, the pusher 35 comprises a roller 35a that can rotate about a short internal shaft 35b, which in turn is integral with the front fork-like element 34, so that the action of the springs 32A, 32B is carried out on the pusher 35.
In other embodiments, not shown, the pusher can instead be constituted by a different sliding element carried by the fork-like element 34.
The body 31 of the elastic means 3 also has a second end, which is opposite to the first one, and supports a second pivot 62.
An intermediate connecting lever 6, which is also part of the device 1, is articulated on the second pivot 62.
The lever 6 comprises a first end that is coupled, so that it can oscillate, to the connecting portion 41 of the supporting lever 4, at a first pivot 61, and a second end that is articulated in rotation to the body 31 by virtue of the second pivot 62.
The intermediate connecting lever 6 also comprises an actuation surface or cam 63 which is arranged substantially at the second pivot 62.
The cam 63 cooperates with the pusher 35, being pushed in abutment thereon by the action of the elastic element 32, so as to apply a lifting force generated by the latter to a kinematic chain that comprises (and preferably is constituted by) the pusher 35, the actuation surface or cam 63, the intermediate connecting lever 6, and the supporting lever 4, in order to thus apply a lifting force to the door leaf A through a connecting base, which is part of the lifting system, to which the kinematic chain is connected in order to transmit the lifting force from the elastic element 32 to the door leaf A.
The connecting base 70, 80, 90, 100 varies in the embodiments 10, 20, 30 and 40 and will be described later.
Returning to the cam 63 of the intermediate connecting lever 6, the contour and/or the overall shape structure of the lever 6 are chosen as a function of the law of variation of the lifting force that it is desired to obtain, so as to be able to lift and support the door leaves of various different types of furniture, and they can therefore vary as a function of such parameters; the person skilled in the art, in light of the information provided here, will without effort be able to choose the contour of the cam 63 and/or the shape structure of the intermediate lever 6.
In preferred embodiments, such as those shown and with reference to the embodiment 10 of the system of the invention, starting from a partially open position (preferably in the neighborhood of 10°-15° up until the position of maximum opening (
Below such partially open position, for example from 10° open up until the closed position (
The angular intervals just indicated should be understood to be indicative and not limiting.
Note, incidentally, that the presence of the intermediate lever 6 and of the cam 63, which are provided in conformance to the invention, make it possible advantageously, with respect to other, conventional systems, to obtain powerful forces and a satisfactory control of the movement of the door leaf and of the variation of the lifting force.
Returning now to the rear base 33 for the abutment of the elastic element, in this example with the springs 32A and 32B, it, in some embodiments (not shown) is integral with respect to the body 31.
In other embodiments however, like the one shown, there are elements for preloading the helical spring or springs.
To this end, the rear base 33 can be moved with respect to the body 31 in a plurality of stable positions, so as to provide a preliminary compression of the elastic element 32.
In more detail, the rear base 33, which is supported so that it can move longitudinally by the accommodation body 31, has, on one side, a threaded hole for an adjustment screw 36A, one end of which rests against an abutment element 36B that is integral with the accommodation body 31.
In this manner, by actuating the screw 36A the rear base 33 is moved along the accommodation body 31, causing a variation of the length of the springs 32A, 32B and ultimately modifying their preloading.
With reference now specifically to the system 10 in
Note that in this embodiment the system 10 preferably lacks other supporting arms that connect the door leaf A to the item of furniture M.
The connecting base, generally designated by the reference numeral 70, comprises a connection plate 72 for connection with the door leaf A, which is connected with the supporting lever 4 by way of an arm 71 that is articulated so that it rotates, at its ends, respectively to the connection plate 72 and to the supporting lever 4.
In this example, therefore, all the weight of the door leaf A is borne by the lever 4 of the system 10, which acts both to move and to support the door leaf A.
With reference now to the second embodiment of the system, designated with 20 in
To this end, the system 20 comprises a connecting base 80 for connecting with the door leaf A and a second supporting lever 45 that oscillates and is articulated in rotation with the plate 2.
Both of the supporting levers 4 and 45 are connected and also oscillate with respect to the connecting base 80, so as to provide the desired movement.
With reference now to the third embodiment of the system, designated with 30 in
To this end, the system 30 comprises a connecting base 90 for connecting with the door leaf A and a second supporting lever 45 that oscillates and is articulated in rotation with the plate 2.
In this case too, similarly to the system 20, both of the supporting levers 4 and 45 are connected and also oscillate with respect to the connecting base 90; the difference between the two systems 20 and 30 lies in the shape structure and in the length of the levers 4, 45, 41 and in the arrangement of the supporting lever 4, which in the system 20 is below the lever 45, while in the system 30 is above the lever 45.
Finally,
The door leaf in fact in this case is a double door leaf, and is made up of the door leaf A and the door leaf A1: the upper door leaf A1 is connected to the body of the piece of furniture M by way of separate and dedicate hinges 102 that form part of the system 40. The lever 4 on the other hand is coupled to the connecting base 100 fixed on the lower door leaf A, which in turn is hinged to the upper door leaf A1 by way of the hinge 101.
Optionally, one or more of the systems 10, 20, 30, 40 comprise furthermore a device 50 for decelerating the closing movement of the door leaf, for example in the form of a fluid-operated deceleration cylinder arranged on the fixing plate 2 in order to come into contact with the supporting lever 4, as shown in the example case of the systems 10, 20 and 30.
In the tilting and folding system 40, the deceleration device can be arranged inside the connecting base 100 in order to come into contact with an extension of the lever 4.
In practice it has been found that the lifting system, according to the present invention, achieves the intended aim and objects since it makes it possible to achieve the set aims.
Finally, note that the actuation device 1, which is common to all the embodiments 10, 20, 30, 40 of the lifting system, advantageously makes it possible to substitute the gas-operated spring of conventional lifting systems already in use, without the need for particular modifications to the other parts of those systems.
The lifting system thus conceived is susceptible of numerous modifications and variations all of which are within the scope of the appended claims.
Moreover, all the details may be substituted by other, technically equivalent elements.
In practice the materials employed, provided they are compatible with the specific use, and the contingent dimensions and shapes, may be any according to requirements.
The disclosures in Italian Patent Application No. 102016000098088 (UA2016A006967) from which this application claims priority are incorporated herein by reference.
Number | Date | Country | Kind |
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102016000098088 | Sep 2016 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/073815 | 9/20/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2018/060032 | 4/5/2018 | WO | A |
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20120000130 | Kashiwaguma | Jan 2012 | A1 |
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Number | Date | Country |
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1918352 | Feb 2007 | CN |
102027181 | Apr 2011 | CN |
101351609 | Feb 2013 | CN |
103109029 | May 2013 | CN |
148 200 | Oct 2001 | EP |
1296011 | Mar 2003 | EP |
1766172 | Nov 2008 | EP |
1 999 328 | Dec 2009 | EP |
2402536 | Jan 2012 | EP |
1713996 | Mar 2014 | EP |
WO 2006005086 | Jan 2006 | WO |
WO-2007042094 | Apr 2007 | WO |
2012116866 | Sep 2012 | WO |
Entry |
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International Search Report and Written Opinion dated Nov. 20, 2017 issued in PCT/EP2017/073815. |
Italian Search Report dated Jun. 8, 2017 issued in IT 201600098088, with partial translation. |
Chinese Office Action dated Mar. 31, 2020 received in Chinese Patent Application No. 201780060853.6. |
Taiwanese Examination Report & Search Report dated Sep. 14, 2020 received in Taiwanese Patent Application No. 106132624, together with an English-language translation. |
Chinese Office Action dated Oct. 12, 2020 received in Chinese Patent Application No. 201780060853.6. |
Number | Date | Country | |
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20190242167 A1 | Aug 2019 | US |