FR2947295A1 - Handleless drawer opening and closing mechanism for furniture, has slider and lever to disintegrate drive unit from accumulation unit such that support continues to drive with respect to slide without driving accumulation unit - Google Patents

Abstract

The mechanism has a slide fixed on a fixed part of a furniture, so that a longitudinal direction of the slide is parallel to a translation direction of a drawer in the furniture. An energy accumulation unit i.e. helical spring, is arranged on the slide. A slider (300) and a lever are utilized to disintegrate a drive unit from the accumulation unit such that a support (400) continues to drive in translation with respect to the slide without driving the accumulation unit. The support is assembled in translation with respect to the slide.

Description

The present invention generally relates to the opening and closing mechanisms for drawers. More particularly, the present invention relates to the mechanisms for drawers without handles with automatic opening. Known mechanisms for drawers without handles are known from the state of the art. In practice, the user controls the opening of this type of drawer by exerting a slight pressure on the front face of the drawer, thus activating a mechanism that releases a previously stored energy and moves the drawer a short distance clearing the slice drawer enough for the user to continue opening by hand. Upon closing, the user pushes the drawer against an energy storage device, generally a spring, until reaching a closed position in which the drawer is retained and the mechanism is armed for a new opening cycle. In other words, the mechanism restores the energy accumulated at closing.

Furthermore, there are devices for controlling the end of the closure of the drawers to, firstly, ensure the proper closure of the drawer and, secondly, cushion the drawer at the end of the race when comes to a stop. These widely used devices can reduce shocks and noises stop, and also facilitate the closing of the drawers. In practice, it is generally inclined planes on the lateral slide of the drawer with a notch determining a final position for a caster secured to the drawer. In general, damping means for the slide are provided before the end position, for example rubber buffers or pneumatic or oleopneumatic piston means.

The drawer opening mechanisms without handles are incompatible with these closure devices controlled by their nature since the device for accumulating energy during closure opposes the controlled closing movement. In other words, the energy storage device prevents operation of the controlled closure device. To overcome this, it has been proposed drawers without electric handle in which there is provided a motorized opening electrically following a pulse given by a user on the front of the drawer and a motorized closing and controlled following another impulse given on the same side by the user. These drawers have the advantage of not requiring energy input from the user.

However, these drawers have many disadvantages. They are particularly expensive to manufacture, require many electromechanical and electronic parts such as electronic sensors and electric motors. Moreover, these drawers require a rigorous maintenance and precise adjustments, in particular with regard to the stops at the end of the race. Furthermore, it is necessary to provide a power supply of the furniture for this purpose, which limits the use of these furniture near a power source. Finally, it is very difficult or impossible to adapt this type of device on existing furniture, especially because of their complexity and their size. The problem is therefore to provide an opening and closing device for a drawer, allowing a controlled closure, while being simple and inexpensive to manufacture, reliable, and not requiring an external source of energy other than mechanical energy. provided by the user himself, and can adapt to all types of existing controlled closing drawers. The invention proposes for this purpose an opening and closing mechanism for a furniture drawer, comprising: a slide intended to be fixed on a fixed part of the furniture, so that the longitudinal direction of the slide is is located substantially parallel to the direction of translation of the drawer to be equipped in the cabinet, - a support mounted in translation relative to the slide in a longitudinal direction thereof, - energy storage means arranged on the slide for accumulate at closing of the drawer the energy necessary for its reopening, - drive means energy accumulation means integral support, and wherein, when closing the drawer, in a first step, the drawer is supported on the support and causes the support relative to the slide, the drive means of the accumulation means then drive the energy storage means until i ls are replenished energy, and, secondly, once the energy storage means are replenished, means of uncoupling are adapted to separate the drive means of the energy storage means in a manner the drawer continues to drive the support in translation relative to the slideway without causing the energy storage means. Thus, advantageously, in the mechanism according to the invention, the closure movement by the user is decomposed in two stages. In the first, the user feeds the energy storage means of the drawer to prepare the next opening. In a second step, the translation is no longer done against means of energy accumulation, and advantageously allows the device according to the invention to be compatible with controlled closure devices, leaving the drawer to continue its course, if any, assisted by means of controlled closure. Such a device is particularly economical to manufacture. In addition, it uses the only mechanical force applied by the user as an external energy source, which contributes to make it reliable and economical, and compact.

Finally note that the drawer comes in simple support on the cursor. If the operator had to go backwards when closing the drawer, it does not drive the mechanism in the opposite direction, which avoids any damage to the mechanism due to improper handling, and thus increases its reliability. Moreover, this makes the device easily adaptable to existing drawers, with or without handle. According to advantageous aspects of the invention, possibly combined: the mechanism further comprises a carriage mounted in translation on the slide in a longitudinal direction of the slide, the energy storage means being arranged between the slide and the carriage , said carriage forming means for driving energy storage means. - It further comprises a slider mounted in translation on the carriage in a direction perpendicular to a longitudinal direction of the slide, the support being mounted in translation relative to the carriage in a longitudinal direction of the slide and a lever rotatably mounted under the support and intended to cooperate with the cursor, and wherein, when closing the drawer, in said first time, the drawer bears on the support that presses via the lever on the slider which drives the carriage in translation relative at the slide, so as to feed the energy storage means, and in said second time, the cursor is released laterally relative to the lever so as to disengage in translation the carriage from the support. - The slide has a cam profile facing the slider which has a pin adapted to follow the cam profile and print the cursor a translational movement in a direction perpendicular to a longitudinal direction of the slide according to the relative translational movement of the Slider relative to the slider, the cam profile being designed to retain the mechanism in a holding position in which it holds the carriage in position when the energy storage means is replenished, and, when a When the pulse is given to the carriage in the closing direction, the cam profile cooperates with the pin so as to release the accumulated energy and transform it into translation of the carriage in the direction of the opening of the slide. the slider has a profile with at least one support portion for the lever, and at least one cutout for the passage of the lever adjacent to the support portion, said cam profile being designed so as to, when closing when the carriage has reached a position in which the energy storage means is replenished, moving the slider from a first position where the bearing portion faces the lever to a second position in which the opening faces the lever, allowing the lever to pass freely and thus forming means of disengagement to release the cursor of the lever. - The lever has on the end intended to bear on the support portion, at least one roller for rolling on the support portion during movement, the roller helping to move the cursor to the second position at height of its radius. the lever and the slider each have a complementary inclined profile oriented so that, when the lever has crossed the cursor via the opening, whatever the position of the slider, when the support is biased in translation relative to the carriage towards In the open position, the lever pivots relative to the support to pass over the cursor and return to a position where it faces the cursor.

Thus, advantageously, the lever and the slider are provided to rearm automatically when opening. According to an advantageous aspect of the invention, the mechanism is provided with a non-return device of the carriage during the accumulation of energy, comprising a freewheel device cooperating with a toothed wheel meshing with a rack provided for this purpose on the slide, so that during closure, during the energy accumulation step, the free wheel prevents the return of the carriage in translation relative to the slide according to the bias of the energy storage means. According to an advantageous aspect of the invention, the toothed wheel is mounted on the slider so that, when the energy storage means are replenished and the slider is moved relative to the carriage, the teeth of the wheel are disengaged. of the teeth of the rack by said movement of the cursor. Thus, advantageously, the non-return device is deactivated once the energy storage means are replenished and the mechanism is in the holding position, ready for opening. According to an advantageous aspect of the invention, the energy storage means are a helical spring having two anchoring ends, one being secured to the slide and the other of the carriage, and a spring return pulley. mounted to rotate on the slide, so that the spring operates in traction when the two anchor points are approaching. Thus, advantageously, it is possible to use a length of significant spring which allows to store a sufficient amount of energy to open a drawer entirely, even when it is heavily loaded.

According to an advantageous aspect of the invention, pivot points for the return pulley are arranged at predetermined lengths on the frame so as to pre-constrain the spring and thereby obtain a predetermined opening force. Thus, advantageously, by moving the return pulley, it is possible to adapt the opening force of the drawer, for example for drawers of larger size or to be heavily loaded. The invention further aims, according to a second aspect, a piece of furniture comprising at least one drawer that bears on the support of at least one mechanism, the slide of the mechanism being fixed on a fixed element of the piece of furniture. According to an advantageous aspect of the invention, the piece of furniture comprises a mechanism by drawer, the mechanism being placed so that the support bears substantially in the center of the drawer. Thus, advantageously, only one mechanism per drawer, which makes the furniture more economical to manufacture. In addition, the fact of having a single mechanism per drawer avoids the jamming problems encountered when several mechanisms equip the same drawer, and manage to trigger out of sync. BRIEF DESCRIPTION OF THE DRAWINGS The description of the invention will now be continued by the detailed description of an exemplary embodiment, given below by way of illustration and not limitation, with reference to the accompanying drawings. On these: - Figure 1 is a perspective view of a slide for a mechanism according to the invention; - Figure 2 is a perspective view of the same slide with a carriage, a spring and a pulley; - Figure 3 is a perspective view of the same slide, with in addition a carriage with a slider, a pin and a toothed wheel; FIG. 4 is an exploded perspective view of a mechanism according to the invention; FIG. 5 is a view of the same assembled mechanism; - Figures 6A and 6B are views of the spring of the mechanism respectively mounted on the frame and on the carriage; - Figure 7 is a bottom view of the lever; Figure 8 is a bottom view of the slider mounted on the frame shown in transparency; An opening and closing mechanism for a furniture drawer according to the invention comprises a slideway 100 intended to be fixed on a fixed part of the cabinet via fixing holes 101, so that the longitudinal direction of the slide is is substantially parallel to the direction of translation of the drawer (not shown) to be equipped in the furniture. The slide also has a rack 110, an anchoring device 120 for a spring not shown in FIG. 1 and a path 130 forming a cam profile. A fixing pin 140 for a return not shown is also provided on the slide as well as two stops 102. As can be seen more particularly in FIG. 2, a carriage 200 is mounted in translation on the slideway 100 by means of profiles 201 in C-shaped cooperating with side wings 103 of the slide provided for this purpose on its two end edges. The stops 102 contribute to limiting the stroke of the carriage relative to the slide. The carriage further has a recess 202 and rails 203 on either side of this recess. As can be seen more particularly in FIG. 3, a slider 300 is mounted on the rails 203 in the recess 202. The slider 300 has C 301 profiles at its ends so as to cooperate with the rails 203. Thus, as visible in particular in Figures 2 and 3, the carriage is mounted in translation on the slide in a longitudinal direction thereof, and the slider is mounted in translation on the carriage in a direction perpendicular to a longitudinal direction of the slide. The pin 350 is inserted into a well 351 provided in the slider so as to be housed in the cam profile 130 of the slider. The pin is for example made of metal and inserted by force or hot into the slider, itself made of a plastic material, as the carriage and the slide. Thus, the movement of the cursor is synchronized with that of the carriage via the cam profile 130 of the slide 100. A double toothed wheel 360 is snapped into notches 302 provided for this purpose on one end of the cursor to accommodate two pins 361 forming a pivot for the double gear wheel. This double toothed wheel is composed of two integral wheels 362 and 363. The wheel 362 has a greater diameter than the wheel 361, the latter being designed to engrain with the rack 110 of the slide. The wheel is made of plastic material. As can be seen more particularly in FIG. 4, a support 400 is mounted in translation on wings 204 of the carriage, by means of C 401 profiles provided for this purpose. The support has a dome 402 in which is snapped a lever 500 of plastic material. The lever 500 has a pivot axis 501 whose ends are engaged in the housing 403 of the dome 402 of the support 400 after having passed through the resilient tongues 404. Thus, the lever is rotatably mounted relative to the support. The support 400 further has a rubber buffer 410 intended to bear against the drawer of the furniture to be equipped.

Under the dome 402, the support 400 has two projections 405 intended to cooperate with protuberances 502 on the lever, so as to retain it in low abutment. A central beam 406 also performs the same function by holding the lever 500 by its central portion 503 at the bottom stop. The lever 500 furthermore has elastic rollers 504 rotatably mounted in pivots 505 provided for this purpose on the ends opposite to the axis of rotation 501 of the lever 500. In this way, the rollers 504 form end rollers which cooperate with bearing portions 304 provided on the slider 300. Beside the support portions 304, the slider has recesses forming openings 305 at the C-profiles 301. The openings 305 are intended to let the ends 506 of the lever when the slider is offset so that said ends 506 are opposite the openings 305.

As can be seen more particularly in FIGS. 4 and 5, the slider 400 has a housing 407 on one of its sides, exposed so as to face a housing 205 with a diameter slightly smaller than the diameter 407 so as to able to penetrate inside the housing 407 when the slider and the carriage slide relative to each other. The housing 407 having a pin 408 intended to accommodate a secondary helical secondary return spring not shown intended to abut on the bottom of the housing 205. As shown more particularly in Figure 7, the lever 500 has on its underside 503 a buffer in rubber 507 for damping the bottom stop against the beam 406. The lever further has inclined profiles 508 for cooperating with inclined profiles 306 as shown in Figure 4, to rotate the lever about its axis 501, so to move the lever over the cursor when it is urged in the direction of the arrow A of Figure 4.

As can be seen more particularly in FIGS. 6A and 6B, the spring 150 has at each of its ends conically flared portions 151 intended to cooperate with anchoring points 120 and 220 respectively provided on the slideway 100 and the carriage 200. anchoring points respectively have conical portions 121 and 221 so as to retain the ends 151 of the spring in tension. A return pulley 160 is positioned at the end opposite the anchoring point 120 of the slide 100. This pulley is snapped onto a pin 140 projecting from the frame for this purpose. In a variant not shown, there may be several pins 140 in the slideway at different distances from the anchoring point 120, so that, by placing the return 160 there can be obtained a different spring tension according to the distances to the anchor point.

In an embodiment not shown, the spring is replaced by an elastic. As seen more particularly in Figure 8, the double toothed wheel 360 is snapped via the recess 302 in two oblong holes 308 each cooperating with one of the pivots 361 of the double toothed wheel. Two teeth 307 for locking the toothed wheel 362 are fixed with respect to the slider 300. The wheel 363 engages with the rack 130. When the double toothed wheel is at one end of the nearest oblong hole of the teeth 307, the movement of the wheel is blocked since the teeth of the wheel 362 engrain with the fixed teeth 307, thus preventing any rotation.

When the wheel is at the opposite end of the oblong hole, its rotation is free since it is disengaged from the teeth 307. As can also be seen in FIG. 8, the pin 350 integral with the slider 300 co-operates with the cam profile 130 of FIG. the slide 100, shown in Figure 8 in transparency for the sake of clarity. The cam profile 130 has an engagement portion 131 which then divides into two portions. The first portion 132 is rectilinear and corresponds to the opening of the drawer until a portion inclined 133 to 45 ° which ends with a straight portion 134 corresponding to the closure of the drawer and a stable position waiting for a pulse of opening. The second portion corresponds to the closing of the slide, in which a pulse on the slide passes a stop 135 to the pin 350 which then passes in a substantially rectilinear portion 136 of the cam profile 130 and in a portion 137 inclined at 45 ° to return to the engagement portion 131, and thus be able to start a cycle again. Thus, it can be seen in FIG. 8 that, following the profile 130, the pin 350 shifts the slider 300 from the left to the right in this figure, thus engaging the toothed wheel 363 with the rack 130 during the closing phase the drawer and spreads the toothed wheel of the rack during the stable phase of waiting for opening and the opening face until engrainer again at the inclined portion 137. The invention will be better understood in the description of its operation, which follows.

The slide 100 according to the invention is fixed via the holes 101 to a fixed part of a piece of furniture, for example by means of screws not shown. The slide is fixed so that it is substantially parallel to the longitudinal direction of translation of the drawer to be equipped in the furniture. The slider 400 is, for its part, arranged so that the rubber buffer 410 bears on the rear of the drawer to be equipped (not shown). Starting from a position in which the drawer is open, the mechanism is in the position as shown in Figure 4 and 5. The user pushes the drawer in the closing direction. The rear face of the drawer then bears against the rubber pad 410 and pushes the support 400 in the direction opposite to the direction of the arrow A. The rollers 504 then bear against the bearing portions 304 of the slider 300, pushing the carriage through the cursor. During this time, the pin 350 traverses the rectilinear portion 132 of the cam profile 130. The anchoring portion 220 of the carriage approaches the anchoring portion 120 of the slide and the spring sees a tensile force applied to him. The housings 403 are positioned so that the lever is in a low abutment during thrust against the beam 406 and the projections 405.

Meanwhile, the wheel 363 is engaged with the rack and, by the force applied by the user to the drawer, the pins 361 are wedged against the opposite face of the oblong holes 308 to the teeth 307 thus allowing the gear wheel 360 to turn freely. If the user releases the closing force while the pin is in the rectilinear portion 132, the spring will tend to restore the energy stored therein, which will cause a slight movement of the cursor and the wheel 360 will come and press against the opposite end of the oblong hole 308 thus engaging the teeth 307 which will lock the wheel 361 in rotation and thus prevent the return of the slider to its initial position and the loss of energy stored up to that point. It can be seen that, advantageously, the connection between the drawer and the mechanism according to the invention being a simple support on the buffer 410, the user can back up with the drawer being closed at any moment, without causing the cursor or any other element of the mechanism. This is particularly advantageous and to contribute to the mechanical reliability of the assembly, since the user backing up with the drawer can not in any way damage the mechanism. In addition, the mechanism maintains the energy stored until then, pending the resumption of closure by the user. When the user continues closing, the pin 350 reaches the end of the rectilinear portion 132 and then engages the portion 133 at 45 °. At this time, the spring has stored enough energy for opening the drawer. The inclined portion 133 to 45 ° allows to initiate a lateral movement of the slider 300 which allows on the one hand to clear the toothing 363 of the rack and secondly to shift the support portions 304 relative to the roller 504. Once this movement has been initiated, the rollers 504 contribute to shifting, at the height of their radius, the slider by rolling on the ends of the contact portions thus shifting the slider to become lodged in the openings 305. From this moment, the user no longer drives the truck via the lever but the cursor only. The lever then passes through the openings 305 and the secondary coil spring (not shown) between the housings 205 and 407 begins to be compressed. Parallel to this, the pin 350 is housed on a flat portion 134 before the stop 135. The pin is therefore in a position where it maintains by means of the cursor the carriage in a position where the energy is stored.

The hardness of the secondary coil spring mounted between the housings 407 and 205 is chosen so that the controlled closing means arranged in the cabinet and on the drawer are sufficient to overcome its resistance and allow a controlled closure of the drawer driving the cursor up to at the end of the race. In this position, the drawer is completely closed, the energy storage means, that is to say the spring 350, having been refilled in a first phase and then the controlled closure having been allowed by the shift of the cursor and disengaging the gear to finish closing the drawer. The drawer is completely closed thanks to the controlled closing means, and it is ready to be opened, the controlled closing means leaving a slight trigger play of the drawer. A trigger pulse on the face of the slide will cause a translation of the pin 350 beyond the stop 135. The pin will then pass in the substantially rectilinear portion 136 and the carriage will be driven by the spring releasing its energy so to translate the pin 350 to the portion 137 inclined at 45 °. In parallel with this, the drawer having retracted, the rubber buffer 410 is released and the helical spring not shown between the housing 205 and 407 will move the cursor of the carriage. In doing so, the cursor will drive the lever 500 via the pivot portions 403 and the axis 501. The inclined portions 508 of the lever will then cooperate with the inclined portions 306 of the slider. The lever will pivot about the axis 501 and the pads 504 will pass over the contact portions 304. Parallel to this, the pin 350 arriving in the portion 137 inclined at 45 °, the cursor will be translated to the rollers 504 and the slider arriving in rear stop relative to the carriage 200, the lever 500 will fall by gravity on the projections 405 and the protuberances 502, the rubber buffer 507 damping the descent against the door 406. The rubber buffer 507 allows to reduce the noise of the lever falling during the opening cycle. In this position, the rollers 504 will face the bearing portions 304 as in Figures 4 and 5. The pin 350 will then again in the engagement portion 131 ready to start a new cycle.

During this opening phase, the rubber stamp will have pushed the drawer until it is fully open. The spring 150 is dimensioned so as to completely open a predetermined drawer, and to overcome the controlled closing means of the drawer in the very first moments of the automatic opening of the drawer. It is, moreover, dimensioned to give enough inertia to the drawer so that it opens completely, allowing the coil spring to translate the cursor relative to the slide, thus passing the lever above the cursor as described above. According to variants not shown, the function of uncoupling the slider relative to the carriage in the closing phase can be provided by means other than the slider with movable support portions. For example, it may be a gear designed to reload sufficiently first a torsion spring and, once the spring back, allow a free translation for the operation of the controlled closure means. In another embodiment, not shown, a pin is integral with the slider, and this pin engages a U-shaped resilient piece slotted at the bottom of the U, the preload of which is determined so as to allow the pin to pass beyond a certain effort threshold so as to release the energy storage means once these fully resupplied. In another embodiment not shown, the slider carries a pin which engages between two nuts having a groove for receiving the pin, the nuts being themselves engaged between two cam profiles arranged to be tightened during the phase of replenishment of the energy storage device, then move away so as to allow the nuts to move away from each other, thus allowing the pin to pass and allowing a free translation at the end of the race for allow the means of controlled closure to do their work. According to a variant not shown, the wheel 360 can be replaced by an integrated freewheel mechanism and known per se.

The mechanism according to the invention is preferably mounted in the center of a drawer of a piece of furniture, so as to exert, during opening, on the latter, a central thrust avoiding the jamming of the drawer sideways. According to another variant not shown, a drawer of a piece of furniture to equip is equipped with several mechanisms as described supra. Advantageously, the mechanism is compatible with any type of existing drawer, including conventional drawers handle, in that the mechanical connection between the drawers and the mechanism is via a simple support. Thus, the mechanism according to the invention can easily be mounted a posteriori on existing furniture. According to an embodiment not shown, the uncoupling function of the support relative to the carriage is performed by a lever similar to the example above but provided with means for retracting laterally, once the accumulation means d energy replenished. Many other variants are possible depending on the circumstances, and it is recalled in this regard that the invention is not limited to the examples described and shown.

Claims (12)

REVENDICATIONS1. Opening and closing mechanism for a particular furniture drawer, characterized in that it comprises: - a slide (100) intended to be fixed on a fixed part of the furniture, so that the longitudinal direction of the slide is substantially parallel to the direction of translation of the drawer to be equipped in the cabinet, - a support (400) mounted in translation relative to the slideway in a longitudinal direction thereof, - energy storage means ( 150) arranged on the slideway to accumulate at the closing of the slide the energy necessary for its reopening, - drive means (200) energy accumulation means integral with the support, and wherein, when closing of the drawer, in a first step, the drawer bears on the support and drives the support relative to the slide, the drive means of the accumulation means then drive the energy accumulation means ie until they are replenished with energy, and, secondly, once the energy storage means are replenished, means of separation (500, 300) are adapted to separate the means of driving the energy storage means so that the slide continues to drive the support in translation relative to the slide without causing the energy storage means. 2. Mechanism according to claim 1, characterized in that it further comprises a carriage (200) mounted in translation on the slide (100) in a longitudinal direction of the slide, the energy storage means (150). being arranged between the slide and the carriage, said carriage forming means for driving energy storage means. 3. Mechanism according to claim 2, characterized in that it further comprises a slider (300) mounted in translation on the carriage in a direction perpendicular to a longitudinal direction of the slide, the support being mounted in translation relative to the carriage in a longitudinal direction of the slide and a lever (500) rotatably mounted under the support and intended to cooperate with the slider, and wherein, when closing the slide, in said first stage, the slide bears on the support (400) which presses via the lever (500) on the slider (300) which drives the carriage (200) in translation relative to the slider, so as to feed the energy accumulation means, and, in said second time, the slider (300) is released laterally relative to the lever (500) so as to disengage in translation the carriage from the support. 4. Mechanism according to claim 3, characterized in that the slide (100) has a cam profile (130) facing the slider which has a pin (140) adapted to follow the cam profile and print cursor (300) a translational movement in a direction perpendicular to a longitudinal direction of the slide according to the relative translational movement of the slider relative to the slide, the cam profile being designed to hold the mechanism in a holding position in which it maintains the carriage in position when the energy storage means are replenished, and, when a pulse is given to the carriage in the closing direction, the cam profile cooperates with the pin so as to release the accumulated energy and convert it into translation of the carriage in the direction of the opening of the drawer. 5. Mechanism according to claim 4, characterized in that the slider (300) has a profile with at least one bearing portion (304) for the lever, and at least one cutout (305) for the passage of the lever adjacent to the support portion, said cam profile being designed so that, when closing, when the carriage has reached a position in which the energy storage means (150) are replenished, move the slider (300) from a first position where the bearing portion faces the lever (500) to a second position in which the opening faces the lever, allowing the lever to pass freely and thus forming means of separation to release the cursor of the lever. 6. Mechanism according to claim 5, characterized in that the lever has on the end intended to bear on the bearing portion (304), at least one roller (504) for rolling on the bearing portion when moving, the roller helping to move the cursor to the second position up to its radius. 7. Mechanism according to the preceding claim, characterized in that the lever (1500) and the slider (300) each have an inclined profile (306, 308) complementary oriented so that when the lever has crossed the cursor via the opening, whatever the position of the slider, when the support is biased in translation relative to the carriage to the open position, the lever pivots relative to the support to pass over the slider and return to a position where it is facing the cursor. 8. Mechanism according to one of the preceding claims, characterized in that it is provided with a non-return device of the carriage during the accumulation of energy, comprising a free wheel device (307,308) cooperating with a wheel gear (360) meshing with a rack (110) provided for this purpose on the slide, so that during the closing, during the energy accumulation step, the free wheel prevents the return of the carriage in translation relative to to the slide according to the solicitation of the energy storage means. 9. Mechanism according to the preceding claim in combination with one of claims 3 to 7, characterized in that the toothed wheel (360) is mounted on the slider so that when the energy storage means are replenished and that the cursor is moved relative to the carriage, the toothing of the wheel is released from the toothing of the rack by said movement of the cursor. 10. Mechanism according to any one of claims 2 to 9, characterized in that the energy storage means are a helical spring (150) having two anchoring ends, one being secured to the slide (120). ) and the other of the carriage (220), and a pulley (160) for returning the spring rotatably mounted on the slide, so that the spring operates in tension when the two anchor points are approaching. 11. Cabinet characterized in that it comprises at least one drawer which bears on the support of at least one mechanism according to any one of the preceding claims, the slide (100) of the mechanism being fixed on a fixed element of furniture. 12. Furniture according to the preceding claim, characterized in that it comprises a mechanism according to one of claims 1 to 10 per drawer and in that the mechanism is placed so that the support (400) comes to bear substantially in the center of the drawer.