WO2012000864A1

WO2012000864A1 - Pull-out guide for a pull-out furniture part

Info

Publication number: WO2012000864A1
Application number: PCT/EP2011/060441
Authority: WO
Inventors: Stefan Klaus; Andreas Hoffmann; Steffen Jaekel; Stefan Salomon
Original assignee: Paul Hettich Gmbh & Co. Kg
Priority date: 2010-06-30
Filing date: 2011-06-22
Publication date: 2012-01-05
Also published as: DE102011050445A1; CN102958401B; CN102958401A; EP2587961A1; EP2587961B1; TW201210533A

Abstract

A pull-out guide (1) for a pull-out furniture part, preferably a drawer, wherein the pull-out guide (1) has a guide rail (2), which can be secured on a basic furniture structure, and a running rail (3), which can be coupled to the pull-out furniture part, and possibly a centre rail, which extends the pull-out distance, and is equipped with a self-retracting device (4), which has a housing (5) with a driver (6), which can be displaced in the housing within limits and is coupled to a spring-like energy store, and the driver (6), when the running rail (3) is displaced in relation to the guide rail (2) from a basic position, which is present when the pull-out part has been pushed all the way in, subjects the energy store to stressing and is in driver connection with an activator (11), this driver connection being disabled when the running rail (3) is displaced further and the driver (6) being blocked against displacement, and it being possible for this blocking action to be disabled only by renewed coupling between the activator (11) and the driver (6), whereupon the pull-out part is then moved back in the retracting direction by the energy store, is designed such that the energy store consists of at least one compression spring (7) or a tension spring, which is connected to the driver (6) in the front end region of the same, this end region being directed towards the running rail (3), and that the driver (6) has a coupling part (10, 40) for coupling to the activator (11), wherein the driver is provided with at least one retaining arm (12), which can be moved transversely to its displacement axis and has at least one latching protuberance (13), which, when the energy store is subjected to stressing, engages in at least one latching aperture of the housing and is fixed in this position by the coupling part (10, 40).

Description

Pull-out guide for a furniture pull-out part

The present invention relates to a pullout guide for a Möbelauszugs- part, preferably a drawer, wherein the pullout guide has a fixable on a furniture body guide rail and a couplable with the Möbelauszugsteil track and optionally an aussverlängernde center rail and is equipped with a Selbsteinzugsvorrichtung which a housing with a therein displaceable within limits and coupled with a spring-like power storage driver and the driver in a displacement of the running rail relative to the guide rail from a given fully retracted extract part basic position spans the energy storage and is in driver connection with an activator, the further displacement of the running rail lifted and the driver is blocked against displacement and this blockade can only be canceled by a renewed coupling of the activator with the driver, after which then the A Exodus part is moved back by the energy storage in the feed direction. Pull-out guides of the generic type are known in many embodiments. In the Selbsteinzugsvorrichtungen known pullout guides preferably tension springs or corresponding gas springs are used as power storage, which are connected to the rear end of the driver and which are tensioned at a beginning opening process for a furniture pullout until the blockage of the driver. The driver must be out projecting beyond the tension spring in a corresponding cam and can be brought at the end of the control cam in a blocking position. This results in an overall large length of such self-closing devices.

The present invention has for its object to provide a pullout guide of the generic type whose total length is not or only slightly larger than the total length of the respectively used force accumulator.

This object is achieved in that the energy storage of at least one compression spring or one in the front, the running rail facing the end of the driver on this connected tension spring, and that the driver has a coupling part for coupling with the activator, wherein the driver is provided with at least one movable transversely to its displacement arm support arm with at least one latching catches, which in tensioned energy storage in at least a locking recess of the housing engages and is fixed in this position by the coupling part

Such a construction offers the advantage that the total length of the self-closing device practically does not go beyond the total length of the force accumulator used, so that an extremely compact and inexpensive unit is realized.

Another advantage of the relatively short Selbsteinzugsvorrichtung is to see in Auszugs- guides with a center rail that the total length of the center rail is affected only slightly by the Selbsteinzugsvorrichtung, so that in a pull-out guide according to the possibility of using a relatively long center rail, the load-bearing strength Full extension is significantly improved.

Preferably, a switching element is provided, by means of which the coupling part for the coupling with the activator can be actuated. The switching element may cause a rotation of the coupling part to align an opening of a retraction channel on the coupling part to the activator. It can happen that a malfunction occurs and the self-closing into the retracted

Position is moved without coupling with the activator. Then, the switching element can ensure that the coupling part can be rotated and re-tensioned, in order then to be coupled to the activator on the pull-out guide during the next closing operation. The switching element can be fixed adjacent to the activator on the running rail. Further, channels for receiving the activator and the switching element may be formed on the coupling part to provide the corresponding function for coupling even in case of malfunction can. Further features of the invention are the subject of dependent claims.

Embodiments of the invention are illustrated in the accompanying drawings and will be described in more detail below. a perspective view of the drawer guide in the fully inserted state in which the Selbsteinzugsvorrichtung is relaxed is an exploded perspective view of Selbsteinzugsvorrichtung according to Figures 1 and 2 is a plan view of the Selbsteinzugsvorrichtung in one Condition according to Figure 1 is a perspective, partially broken through representation of the self-closing device shortly before the entry of an activator in one

A perspective view of the self-closing device in a position according to FIG. 6 is a partial view of a running rail of the pull-out guide bearing an activator of the self-retracting device. FIG. 3 is a perspective exploded view of a self-closing device according to FIG another embodiment of the invention FIG. 10 is a plan view, partially broken away, of the region of the self-retracting device according to FIG. 9 in the relaxed state; FIG. 11 is a perspective view of the region of the self-retracting device according to FIGS. 9 and 10 corresponding to FIG

FIG. 12 is an exploded view of a driver of a

Self-closing device according to FIGS. 9-11

FIG. 13 shows a plan view, partially broken away, of the region of a self-closing device according to a further exemplary embodiment of the invention in the tensioned state

FIG. 14 is a perspective view corresponding to FIG

FIG. 15 a largely corresponding to FIG

Top view, immediately before the entry of an activator in the region of the driver

16 is a plan view of a driver of the self-closing device according to the embodiment of Figures 13-15

Figures 17A and 17B show two views of a fixable on the running rail

Component with the activator and a switching element; FIGS. 18A to 18E show several views of a modified embodiment of a coupling part;

Figure 19 is a view of a pullout guide with the modified coupling part of Figure 18;

FIGS. 20 to 23 show several views of the coupling part of FIG. 18 in FIG

Interaction with the Schaitelement, Figures 24 to 26 show several views of a modified embodiment in different positions

Coupling the activator into the coupling part; Figure 27 is a perspective view of the component with the activator, and

Figure 28 is a perspective view of the coupling part of

FIG. 24.

In Figures 1 and 2, a generally designated by the reference numeral 1 pullout guide for a furniture pullout, preferably a drawer referred to. This pull-out guide 1 essentially comprises a guide rail 2 which can be fixed to a furniture carcass and a running rail 3 which can be coupled to a furniture pull-out part, wherein a rail extending the center rail can also be provided between the guide rail 2 and the running rail 3.

The pullout guide 1 is known per se with a Selbsteinzugsvor- direction, which is generally designated by the reference numeral 4, equipped.

Essential components of this self-retracting device 4 result particularly clearly from the perspective exploded view according to FIG. 3.

The individual components of the Seibsteinzugsvorrichtung 4 is essentially a housing 5 which is fixed in the guide rail 2, to a driver 6 which is displaceable within the housing 5, and two compression springs 7, each between two end stops. 8 and 9 are supported on the housing 5 on the one hand and on the driver 6 on the other hand and by displacement of the driver 6 can be compressed and thus brought into a prestressed state.

Other components of the Seibsteinzugsvorrichtung 4 are on the one hand a Koppe- ment part 10, which is rotatably mounted on the driver 6 and an especially from Figure 8 very well recognizable activator 11 which is fixed to the running rail 3. The Koppelungsteii 10 is disposed between two movable Haitearmen 12 of the driver 6, wherein the retaining arms 12 are provided with locking cams 13, which locking recesses 14 are assigned in the housing 5. As is particularly clear from FIG. 3, the retaining arms 12 are angled towards one another in the direction of the longitudinal axis of displacement of the pullout guide 1 in a relaxed state, to such an extent that the latching cams 13 lie outside the region of the latching recesses 14 of the housing 5 in this relaxed state , By lying between the support arms 12 coupling part 10, which is preferably designed as a rotary valve, the support arms 12, depending on the rotational position of the coupling member 10 against its rest position

be spread apart until at a corresponding displacement position of the driver 6, the locking cam 13 engage in the locking recesses 14 of the housing 5. This is achieved when the compression springs 7 are fully biased by moving the driver 6. The just described position of the driver 6, the Koppeiungsteües 10 and the support arms 2 and the locking cam 13 is particularly clear from the top view of Figure 4. Also in the perspective view of Figure 5, the aforementioned position is shown.

The coupling part 10 embodied as a rotary slide valve is equipped with a control cam 10a which, in a position of the driver 6 according to FIG. 4, faces the activator 1 1 connected to the running rail 3 with its open side, so that when the running rail 3 is displaced in the direction of insertion the activator 1 1 can retract into the control cam 10a of the rotary valve 10a. As is shown in FIG. 4, the control cam 10a is provided with a button 10b opposite the activator 11 in the direction of insertion, through which the rotary valve 10, when the activator 11 enters, moves counterclockwise about its axis, as viewed in FIG Swivel axis is pivoted. In such a pivoted position, the opposing retaining arms 12 of the driver 6 are no longer burdened by the rotary valve 10 and thus can spring back into their relaxed position according to Figure 3 due to their spring properties. In this case, the locking cams 13 come out of engagement with the latching recesses 14 of the housing 5, so that now by the force of the prestressed compression springs 7, the running rail 3 and thus a coupled furniture extracting part in

Closing direction to be moved back. By the rotation of the Koppeiungsteiles 10 in the sense described above, the run in the control cam 10a Activator 1 is engaged behind by a holding tenth 10c of the control cam 10a. The corresponding positions also result from FIGS. 6 and 7.

Will now be pulled out of a furniture carcass from the relaxed position of the springs 7 or the accordingly occupied closed position of the rails 3 a so coupled furniture extractor is formed on the activator 1 and rotary slide formed coupling part 10 of the driver 6 with simultaneous tension of the compression springs 7 in the extension direction taken. If the locking cams 13 of the retaining arms 2 are again opposite the latching recesses 14 of the housing 5, the maximum displacement of the catch 6 has been reached. Further displacements of the running rail 3 in the opening direction now causes pivoting of the coupling member 10 designed as a rotary slide valve into a position according to FIG. 4, in which the activator 11 can be pulled out of the control cam 10a. At the same time, the locking cams 13 engage in the locking recesses 14 and thus block the driver 6 in the prestressed situation of the compression springs 7. At the same time unimpeded undressing of the furniture extracting part according to the displacement length of the pullout guide 1 is possible.

In a renewed closing operation for the furniture drawer part, the sequence already described above results in that now formed as a rotary valve coupling part 10 is brought back into its release position by the activator and the driver 6 is moved by the biased force of the compression springs 7 in the closing direction.

It is clear that the total length of the self-closing device 4 is practically limited only by the total length of the required compression springs 7. A substantial projection of any components of the Selbsteinzugsvorrichtung 4 on the housing 5 also does not arise.

Thus, a arranged between the guide rail 2 and the running rail 3 center rail can be made correspondingly long.

As can be seen in particular from the exploded view according to FIG. 3, the self-closing device 4 can also be provided with a damper 15. Preference is given to a damper 15 in the form of a rotary damper, the form-fitting manner in a corresponding recess 16 of the driver. 6 can be clipped and which is equipped with a drive pinion 17, which in the assembled state with one on the housing 5 preferably in one piece

molded rack 18 meshes. It becomes clear that such a damper 15 can also be subsequently attached to the self-closing device 4 without difficulty.

Thus, it is readily possible to provide the Selbsteinzugsvorrichtungen 4 with or without damping devices depending on the customer.

FIGS. 9-12 show an exemplary embodiment of the invention, which ultimately only differs from the exemplary embodiment according to FIGS. 1-8 due to the design of the coupling part 10. As here in particular the figure 12 makes clear, the coupling part 10 is connected via elastic hinges 19 with the retaining cams 13 supporting retaining arms 2. At these hinges 19 close to each other at an angle to each other extending hinge arms 20, which are integrally connected to each other via a molded joint 21. The hinge arms 20 form on the inside a part of a boundary of a catching chamber 10d for the activator 11, which is completed by additional legs 22 connected to the hinge arms 20, which is clearly shown in FIG. In the position shown in Figure 12, the catching chamber 10 is practically closed and the activator 11 is in this situation within the catching chamber 10. This also show the illustrations of Figures 10 and 11. Will now in this relaxed position of the compression springs 7, the running rail 3 moves in the opening direction, the

Hinge arms 20 of Koppelungsteiies 10 pivoted to each other in an increasingly flatter angular position, whereby the retaining arms 12 are spread with the attached locking cams 13 to the outside. As soon as the latching cams 13 engage in the latching recesses 14 of the housing 5, the hinge arms 20 are arranged counterclockwise against one another over a dead center, thus ensuring the position of the support arms 12. At the same time, the additional sections 22 which originally have the catching chamber 10d limited, away from each other and release an opening through which the activator 1 can be moved out of the catching chamber 0d.

In the figures 13 to 16 a further embodiment of the invention is shown, which is comparable to the embodiment of Figures 9 to 12 and from this by a simplified embodiment of Coupling parts 10 different. Also in the embodiment of Figures 13 to 16, the coupling member 10 is integrally formed integrally over two hinge arms to the support arms 12 with the locking cam 13. The coupling part 10 itself is in the form of a half-shell, the open side of which faces the activator 11.

As FIG. 13 in particular clearly shows, the hinge arms 20 extend at an angle to one another in the case of preloaded compression springs 7, wherein the hinge arms 20 in this position are inclined in each case in the direction of the activator 11, starting from the retaining arms 12. In the transition region between the two hinge arms 20, a joint 21 is again provided at the lowest point of the half-shell-like coupling part 10, which - as in the exemplary embodiment according to FIGS. 9 to 12 - is formed in the manner of a film hinge by material weakening.

Run now in the apparent from Figure 13 position of the entire system of the activator 1 1 in the coupling part 10 and is moved further in the insertion direction, is caused by the force of the incoming activator 11 that the two hinge arms 20 against its current position in the direction of rear end of the guide rail 2 are pushed. The two hinge arms 20 then run opposite to the apparent from Figure 13 inclined position and at the same time the half-shell-like coupling member 10 is deformed such that the activator 1 1 is fully or partially engaged behind. In addition, the locking cams 13 are moved out of the locking recesses 14 of the housing, so that the driver 6 can be moved by the force of the prestressed compression springs 7 in the closing direction.

Since the activator 1 1 is engaged behind in the deformed half-shell-like contour of the coupling part 10, when driving rail 3 extends over the activator 1 1 of the driver 6 with simultaneous renewed voltage

Compression springs 7 are moved to a position in which the locking cam 13 again engage in the locking recesses 14. A further displacement of the driver 6 is thereby prevented, so that a further extension of the running rail 3 leads to the structure of the hinge arms 20 and the coupling part 10 again being transferred to the position shown in FIG. 13 and the opening side of the coupling part 10 is again completely released, so that the activator 1 1 moved out of the coupling part 10 and can be freely moved together with the running rail 3. In FIGS. 17A and 17B, a substantially plate-shaped component 30 is shown, on which a pin-shaped activator 11 is integrally formed. The plate-shaped member 30 is clipped into a recess of the track, but can also be attached to the track in other ways. Integral with the component 30, a switching element 31 is formed, which is formed as a projection and protrudes on the same side as the activator 11. The switching element 31 has an elongated contour in plan view.

The activator 1 1 and the switching element 31 cooperate with a coupling part 40, as shown in Figures 18A to 18E. The coupling part 40 comprises bendable locking webs 4, which can be inserted into an opening on the driver 6, so that the coupling part 40 is rotatably mounted about an axis 42 on the driver 6. On the opposite side to the latching webs 41 groove-shaped channels 43, 44 and 46 are recessed, wherein between the channels 43 and 44, a projection 45 is formed. In the groove-shaped channels 43, 44 and 46, the control element 31 and / or the peg-shaped activator 1 1 retract to rotate the coupling member 40, as partially explained already in the first embodiment.

FIG. 19 shows a pullout guide in which the component 30 with the activator 11 and the switching element 31 is fixed to the running rail 3. For better clarity, the plate-shaped component 30 is not shown, but only the switching element 31, which just enters a channel 44 of the coupling part 40.

The function of the switching element 31 and the coupling part 40 will be explained below with reference to FIGS. 20 to 23. In normal operation, the activator 11 is coupled during retraction with the coupling member 40, which is rotated via the activator 11 and then moved together with the driver 6, as described in the first embodiment. In the opposite direction, the spring 7 is stretched over the driver 6 until the coupling member 40 has reached an end position and is then locked there by turning to release the activator 11. It can now happen that in the case of a faulty locking an independent unlocking takes place without the activator 1, the coupling member 40 is actuated, so that the driver 6 is moved back into the relaxed starting position, without taking the running rail. In such a malfunction, the switching element 31 is used. When the running rail 3 retracts, the shift element 31 can pass by the projection 45 in the channel 44 in the direction of slinging, if necessary with bending of the control element 31 and behind the projection 45 on the latter. The coupling member 40 is still in a locking position, so that the switching element 31 strikes against the projection 45 during renewed extension of the running rail 3 and thus entrains the coupling part to the unlocking position, which will be described below. The control element 31 can also be deformed due to the thinner wall thickness, so that it latches behind the projection 45.

If now the running rail 3 of the drawer guide is moved again in the opening direction, the switching element 31 pulls the driver 6 in the cocked position until the driver 6 can not be moved further and then the

Switching element 31, the coupling member 40 rotates and locks, as shown in Figure 21. Upon further extension of the running rail 3, the switching element 31 via the channel 43 (possibly also with slight Verbieg ung) leave the coupling member 40, but without further rotation of the switching element 31. The switching element 31 can now be moved together with the activator 1 1 again in the opening direction.

During the next closing operation, the switching element 31 is retracted through the channel 43 into the coupling part 40. Thereafter, the activator 1 enters the channel 43 and then reaches a contact surface, wherein the coupling member 40 then, as shown in Figure 22, is rotated counterclockwise and thereby rotated from a locking position to an unlocking position. Thereby, the activator 1 1 is disposed adjacent to the projection 45 and can be moved under coupling with the coupling member 40 in the closed position. As shown in FIG. 23, the switching element 31 is located in the channel 46 and does not obstruct the rotational movement of the coupling part 40 about the axis 42. During the next opening operation, the activator 11 can then move the coupling part 40 back into an end position and then turn it, so that the activator 40 is decoupled and the catch 6 is locked in the end position by turning the coupling part 40. The switching element 31 can be pulled out of the coupling part 40 via the channel 43 after the coupling part 40 has been rotated. It is also possible to provide other switches in order to couple the coupling part 40 back to the activator 1 1 in the event of a faulty operation. The present mechanism has the advantage that the user only has to close and open the pullout guide, in order then to be able to couple the activator 11 to the coupling part 40 again.

FIG. 24 shows a further exemplary embodiment of a coupling mechanism of an activator 11 having a coupling part 40 'which can be used in a pull-out guide according to the preceding exemplary embodiments. An activator 1 1 comprises a pin-shaped portion and an integrally laterally projecting arm 11 a, which are integrally formed with a plate-shaped member 30 ', which is fixed to a running rail 3 of the pullout guide, preferably by latching or clamping means. On the component 30 ', a switching element 31 is further integrally formed, which is formed as a projection and also protrudes on the side of the activator 1 1.

In FIGS. 24 and 25, the plate-shaped component is shown as window-like broken away in the middle region, so that the activator 11 and the switching element 31 can be shown in an illustrative manner, while the plate-shaped component

Component 30 'outside the break window without the running rail 3 is shown. The activator 11 and the switching element 31 are still in FIG

spaced from a coupling part 40 ', which is in the latched position.

When moving the running rail in the closing direction, the switching element 31 now firstly enters a run-in channel 43 'of the coupling part 40', as shown in FIG. When retracting the activator 1 1 in the coupling part 40 "now hits the boom 1 1 a of the activator 1 1 with its end against a projection 47 'of the coupling part 40', so that the coupling part 40 'about an axis 42' can be rotated. The axis 42 'can be formed by a latching web, as in the preceding exemplary embodiment, the axis 42' being shown only schematically The cantilever 11a increases the effective lever length R, since the cantilever 11a has its end section at a location on the projection 47 'impinges, which is relatively far away from the axis 42 ", for example, more than 30% of the maximum length of the coupling element 40', in particular greater than 0.5 cm. As a result, the unlocking of the coupling part 40 'by a corresponding rotational movement can be done easily and with little effort. This leads to a better feel and also the noise when operating the coupling member 40 'are relatively quiet. By turning the coupling part 40 ', the retaining arms 12 are released (Figure 6), so that the locking cam 13 can be moved out of the locking recesses 14 and thereby the driver 6 can be moved in the closing direction 7 due to the force of the compression springs.

In Figure 26, the coupling member 40 'is shown in the rotated unlocked position. By the action of the driver 6 by the compression springs 7 now presses a projection 45 'of the coupling part 40' against the pin-shaped portion of the activator 1 1, while the boom 1 1 a spaced from the projections 45 'and 47' is arranged.

For an opening operation now arranged on the running rail 3 drawer can be pulled from the closed position in the opening direction, whereby the activator 1 1 is moved in the opening direction and pulls through the system on the projection 45 'and the coupling member 40' with the driver 6 in the opening direction until an end position is reached and the driver 6 is locked again.

In Figure 27, fixed to the running rail 3 plate-shaped member 30 'is seen in perspective view, seen on the underside, on which integrally the activator 1 1 with the laterally projecting arm 11 a and the switching element 31 are integrally formed.

In Figure 28, the coupling part 40 'is shown in a perspective view on the top, which has three channels 43', 44 ', and 46' and projections 45 ', 47' and 48 '. As in the previous embodiment, the switching element 31, the coupling member 40 'rotate when it is arranged, for example, without Einkoppetn the activator 11 in the closed position, as with reference to Figures 20 to 23 has been explained.

The above-described constructions and modes of operation are, of course, best realized by the use of components made of elastic plastics.

In the illustrated embodiments, compression springs 7 are always used, which can be stretched between the end stops 8 and 9. Alternatively, it is also conceivable to use tension springs, which are then preferably connected in the region of the running rail 3 facing the front ends of the driver 6 at this. This also makes a compact design of the entire self-retracting device 4 possible.

Finally, it should be noted that even with the use of only one compression spring 7 or a corresponding tension spring advantages of the invention of the overall construction can be achieved.

LIST OF REFERENCE NUMBERS

1 pullout guide

2 guide rail

3 track

4 self-closing device

5 housing

6 drivers

7 compression spring

8 end stop

9 end stop

10 coupling part

10a cam

10b button

10c Haiteflanke

10d catching chamber

11 activator

11a boom

12 holding arm

13 locking cams

14 latching recess

15 dampers

16 recess

17 drive pinion

18 rack

19 hinge

20 hinge arm

21 joint

22 section

30 component

30 'plate-shaped component

31 switching element

40 coupling part

40 'coupling part

41 snap bar

42 axis

42 'axis

43 channel

43 'entry channel 44 channel 44 'channel

45 projection 45 'projection 46 channel

46 'channel

47 'lead

48 'lead

R lever length

Claims

claims

1. pull-out guide (1) for a furniture pull-out part, preferably a drawer, wherein the pull-out guide (1) has a guide rail (2) which can be fixed to a furniture body and a running rail (3) which can be coupled to the furniture pull-out part and optionally an extendable middle rail and with a self-closing device ( 4) which has a housing (5) with a driver (6) displaceable therein within limits and coupled with a spring-type energy store, and the driver (6) during a displacement of the running rail (3) relative to the guide rail (2) from a given completely inserted extract part basic position out of the energy storage spans and it is in driver connection with an activator (1), which repealed on further displacement of the running rail (3) and the driver (6) is blocked against displacement and this blockade only by a renewed coupling of the activator (1 1) with the driver (6) can be canceled is, after which then the pull-out member is moved back by the energy storage in the feed direction, characterized in that the energy storage of at least one compression spring (7) or from a front, the running rail (3) facing end portion of the driver (6) connected to this tension spring in that the driver (6) has a coupling part (10, 40) for coupling with the activator (1), the driver being provided with at least one holding arm (12) movable transversely to its displacement axis, with at least one locking cam (13), which engages with tensioned energy storage in at least one latching recess of the housing and is fixed in this position by the coupling part (10, 40).

2. pullout guide according to claim 1, characterized in that the energy accumulator consists of two compression springs (7), on the one hand to end stops (8) of the housing (5) and on the other hand to end stops (9) of the driver (6) are supported.

3. pullout guide according to claim 1 or 2, characterized in that the driver (6) with two retaining arms (12) is equipped with locking cams (13).

4. pullout guide according to one of the preceding claims, characterized in that the coupling part (10, 40) consists of a rotary About is formed, which is rotatably mounted on the driver (5) and provided with a control cam (10 a), in which engages the activator and which is shaped such that the rotary valve through the activator (11) in a release and in a blocking position is rotatable.

5. pullout guide according to one of claims 1-3, characterized in that the coupling part (10, 40) integrally connected via integrally formed hinge arms (20) with the holding arms (12) and a deformable receiving tray or receiving claw for the activator (11), wherein the receiving tray or the receiving claw in blocking position of the energy storage device (7), the activator (11) free and with a free energy store with the activator (11) connected in a form-fitting manner.

6. pullout guide according to claim 5, characterized in that the coupling part (10, 40) is in the form of a half-shell, the opening of the activator (11) facing and that the half-shell with decoupled driver (6) the activator (1) completely or partially in the sense of a driver connection encloses.

7. pullout guide according to one of claims 1 to 5, characterized in that the coupling part (10, 40) in the coupling state with the activator (11) has an activator (1) almost completely enclosing collecting chamber (10d), after blocking the driver (5) is open in the extension direction of the running rail (3).

8. pullout guide according to one of the preceding claims, characterized in that the self-closing device (4) is equipped with a damper (15).

9. pullout guide according to claim 8, characterized in that the damper (15) is a rotary damper.

10. pullout guide according to claim 9, characterized in that the rotary damper (15) is equipped with a drive pinion (17) which meshes with a preferably integrally formed on the housing (5) rack (18).

11. pullout guide according to one of the preceding claims, characterized in that the driver (6) and the respective coupling part (10, 40) are made of plastic.

12. pullout guide according to one of the preceding claims, characterized in that a switching element (31) is provided, by means of which the coupling part (40) for the coupling with the activator (11) can be actuated.

13. pullout guide according to claim 2, characterized in that the

Switching element (31) causes a rotation of the Koppiungsteils (40) causes to align an opening of a Einfahrkanals (43) on the coupling part (40) to the activator (11).

14. pullout guide according to claim 12 or 13, characterized in that on the coupling part (40) channels (43, 44, 46) for receiving the activator (11) and the switching element (31) are formed.

15. pullout guide according to one of the preceding claims, characterized in that on the activator 11, a boom (11 a) is arranged, which is arranged on one of a rotational axis 42 'of the coupling part 40' side facing away from the activator 11.