WO2017029392A1 - Dustbin closure having a switching mass which is movement-inhibited by an inhibiting member - Google Patents

Abstract

The invention relates to a dustbin closure having a switching mass (2) which is arranged in a lock housing (1) and which, during a tilting of the lock housing (1) about a horizontal tilting axis (K) from a basic position, which corresponds to an upright dustbin, through a tilting angle into a tilted position, which corresponds to a dustbin brought into an emptying position, is displaced by the action of gravitational force from a blocking position which blocks the closure against an opening into a release position which allows an opening of the closure. An inhibiting member (3) in the form of a leaf spring which has such a movement-inhibiting action on the movement of the switching mass (2) provides that the switching mass is displaced beyond an inhibiting position situated between the basic position and release position only when the tilting angle exceeds a limit value.

Description

 description

Garbage can closure with a movement inhibited by a Hemmglied switching mass

Field of engineering

The invention relates to a trash can closure with a arranged in a lock housing shift mass, which corresponds to a tilting of the lock housing about a horizontal tilt axis from a basic position corresponding to an upright trash can to a tilt angle in a tilted position, the one in a discharge position brought by the action of gravity by a locking the locking against opening blocking blocking position in an opening of the closure ermög- facilitated release position.

State of the art

A garbage bin closure of the aforementioned type is previously known from DE 10 2007 039 351 AI and DE 10 2012 106 531 AI. There, a trash can closure with a lock housing is described, which stores a trap with a trap head and a trap tail. In a closed position of the closure, the case head engages behind a hook of a counter-closing part, so that the dust-bin lid can not be opened. Within the housing is a switching mass, which is designed as a slide. If the garbage can is pivoted about a tilting axis which lies in the horizontal, the shift mass arranged in the lock housing can move in order to assume a release position in the final phase of its displacement, in which the latch assumes an open position, so that the cover the garbage can open for emptying. DE 197 08 193 AI, DE 299 03 911 Ul and WO 2005/111348 also describe such garbage can closures, the shift mass there but not a linearly displaceable slide, but a rotary valve, which is tilted when tilting the lock housing to a Moving rotary axis from a basic position to a release position.

[0004] In the case of the above-mentioned trash can closures, blocking elements are additionally provided which can, in the basic position of the shift mass, enter a blocking position when the lock housing is tilted about a horizontal axis other than the tilting axis or not in the tilting direction, but in the opposite direction. Such blocking elements are movable bodies that are mounted in the housing or in the shift mass and that can not enter the tilting direction about the tilt axis in a locking pocket at a tilting of the closure to block a shift of the shift mass.

In the basic position, the direction of movement of the shift mass is in the vertical. She is pointing upwards. If a garbage bin formed with a generic closure is overturned in the tilting direction, then the direction of movement of the shifting mass changes from the vertical direction into a horizontal direction. Depending on the position of the overturned garbage can, the direction of movement of the shift mass but also be slightly inclined downwards, so that the force exerted when the garbage bin on the shift mass pulse or the force acting on the shift mass in the overturned gravity can shift the shift mass into the release position, with the result that the lid of the garbage can opens.

Summary of the invention

The invention has for its object to provide a nutzsvorteilhaft refined trash can closure. The problem is solved by the specified in the claims invention, wherein the dependent claims represent not only advantageous developments of the subject-matter specified in the main claim, but also independent solutions to the problem. First and foremost, a Hemmglied is proposed. The inhibitor has an effect on the movement of the shift mass, that the shift mass only moves beyond a rest position lying between the initial position and release position when the tilt angle exceeds a limit. The inhibitor thus acts in the inhibition position to inhibit motion on the shift mass. The Hemmglied is preferably designed and arranged in the lock housing, that it only allows a shift of the shift mass beyond the inhibition position, when the momentum of the shift mass or a the Hemmglied acting weight force component of the shift mass exceeds a limit. Preferably, the inhibition position between the basic position and release position, so that the shift mass, starting from its normal position initially can pass through a first uninhibited displacement path before the shift mass is inhibited movement in the inhibition position. The inhibitor stops the displacement of the shift mass when its momentum is too low or the angle of inclination of the direction of movement relative to a horizontal is too low to overcome an inhibiting force exerted by the inhibitor. The switching element can also take the clamping position even in the basic position. Preferably, the inhibitor has a stop edge. This stop edge is preferably in the path of movement of the shift mass. In the inhibiting position, the stop flank acts on a counter-stop flank. The stop flank is acted upon in particular by the force of a spring, wherein the stop edge occurs when exceeding the force applied by the spring limit force from the movement path of the shift mass. The inhibitor can be assigned to the shift mass. The counter-attack flank is then assigned to the housing. Preferably, however, the Hemmglied is assigned to the housing stationary. The counter-stop flank is then formed by the switching mass. The stop flank may be an inclined surface. The counter-stop flank can also be a sloping flank. However, the stop flank or the counter-stop flank can also be rounded. The rounding or obliquely running flank runs in such a way relative to the direction of movement that, in order to overcome the inhibiting force, a sloping flank on a counter oblique flank, a rounding on a sloping flank or a rounding on a counter-rounding slide off. But it is sufficient if only one of the two flanks is oblique or rounded. The other flank can be formed by an edge. The abutment edge may be formed by a stop body, which is arranged for example in an opening of the switching mass forming moving body or the housing. The stopper body can then be acted upon transversely to the direction of movement of the shift mass by a spring, for example a compression spring. In a particularly preferred embodiment, the stop flank is formed by an angled region of a leaf spring. The leaf spring may be attached to the shift mass. Preferably, however, the leaf spring is attached to the housing and more preferably to a bottom surface of the housing. The stop flank may be located between the two spaced apart ends of the leaf spring. Preferably, the elongate leaf spring is supported only with its two spaced-apart ends, for example on a bottom surface of the housing. The middle region of the leaf spring which extends between the ends of the leaf spring can thus escape transversely to a line drawn through the two ends or support points of the spring. In the central region of the leaf spring is the oblique to the direction of movement stop edge, which is preferably formed by an angled portion of the leaf spring. An underside of the switching mass is spaced from the housing bottom such that a clearance is formed there. In this clearance, the leaf spring preferably extends, wherein the extension direction of the leaf spring with the Direction of movement of the shift mass matches. However, the leaf spring can also be supported on another base of a housing part, for example on a housing side part or on an upper housing part. It extends in particular in a distance space between a housing inner surface and the shift mass. The switching mass has the counter-stop, which acts on the stop flank of the leaf spring after a first unrestrained displacement of the shift mass. Due to the slope or rounding of the stop flank, a force acting transversely to the extension direction of the leaf spring on the leaf spring develops. If this force exceeds the spring force, the stop forming portion of the spring can dodge transversely to the direction of movement of the shift mass. If the shift mass also has a clear clearance to the cover of the lock, the shift mass can also move there. The stop forming region of the leaf spring is overrun by the shift mass when the shift mass shifts beyond the inhibition position out into the release position. With regard to the further embodiment and the operation of the locks, in particular concerning the control of a latch tail of a case by a control cam of the shift mass and the operation of a head of the case and its interaction with a fixed to the garbage can counter-closing part is to DE 10 2007 039 351 AI and DE 10 2012 106 531 Al and DE 10 2015 100 405.4.

The operation of the garbage can closure is the following: The closure housing is located on the inside or outside of a vertically extending wall of the refuse container, which is closed by a lid. A trap head of the closure is engaged by a hook part attached to the lid. The lock housing is assigned to the garbage bin in such a way that the shift mass, which is preferably in the form of a linear slide, is in a lower basic position and has its direction of movement pointing upwards. If the garbage can is tilted about a horizontal axis, which does not coincide with the tilting axis for emptying the garbage bin, blocking elements which are associated with a movement mass forming the switching mass, pass into locking pockets of the housing so as to block a displacement of the switching mass from the basic position into the release position. In addition, a further locking part is provided which enters a locking pocket when the garbage can is not tilted in the discharge direction, but in the opposite direction about the tilting axis. If the trash can overturned in the tilting direction, no blocking elements come into effect. Because of the case taking place rotation of the garbage bin in space, the direction of movement of the shift mass changes in a horizontal direction. On the switching mass having moving body while a pulse is transmitted. The direction of movement of the shift mass can pivot when reversing but also beyond the horizontal direction in a slightly inclined direction, so that the force acting on the shift mass weight shifted the switching mass having moving body in the direction of the release position. The inhibiting member according to the invention ensures that the movement mass having the shifting mass only moves into the inhibition position. In this inhibition position, the latch tail is still held in the locked position. However, the first, unrestrained displacement path is sufficiently long for the locking elements to lose their local association with the locking pockets, with the result that the locking elements in the braking position can not enter the locking pockets. A further tilting of the garbage bin beyond a critical angle of, for example, 45 ° then leads to an overcoming of the inhibition position, since then the force acting in the direction of the shift mass force component of gravity is sufficiently large to overcome the inhibiting force, so that the one control body shifting shift mass shifted to the release position. In the course of the final phase of this second displacement of the latch tail is controlled by sliding along a control pin on a control cam of the shift mass in an open position in which opens the garbage bin lid, as the case head leaves the hook. The border win The angle can range from 30 ° to 60 ° to the horizontal. But it can also be smaller, for example between 15 ° and 30 °.

In a variant of the invention it is provided that the leaf spring has a free end which extends arcuately. When overcoming the inhibition position, the sheet is flattened when overflowing the shift mass of the leaf spring. The leaf spring forms a stop, which is arranged in the transition region between a rectilinear portion of the leaf spring and the arcuate portion of the leaf spring. A counter-attack of the shift mass is in the inhibition position on this stop. A free end of the arcuate portion of the leaf spring may be supported on the housing.

In a further variant of the invention, the Hemmglied is formed by a leg spring. This leg spring is preferably also a leaf spring. It has a fixed leg attached to the housing. This can hedge in incisions of a rib structure of the housing. From the fixed leg of the leg spring, the movable leg protrudes into the path of movement of the shift mass. The movable leg forms a stop against which a counter-stop of the switching mass is applied. In the inhibition position, the movable leg protrudes approximately transversely from the fixed leg. There are preferably provided two arranged in a fold-symmetrical arrangement leg springs, which are each arranged on a side wall of the housing. In overcoming the inhibition position of the counter-stop of the shift mass slides along the movable leg of the leaf spring to pivot the movable leg in the direction of the housing-fixed leg. The movable leg occurs in a clearance between switching mass and housing. Brief description of the drawings

In the following the invention will be explained in more detail with reference to embodiments. Show it:

Figure 1 is a plan view of the housing cover 1 'of a closure in the normal position.

Figure 2 shows the section along the line II - II in Figure 1 looking towards a designed as a leaf spring 4 Hemmglied 3 in the basic position in which a shift mass 2 occupies a vertical lower position.

Fig. 2a enlarges the detail IIa in Fig. 2;

Fig. 3 is a view according to FIG. 1, but with the housing cover V removed, so that the view of the shift mass 2 and supported by it barrier elements 18, 19 is free;

Fig. 4 is a view according to FIG. 2 and the section line IV - IV in

 Fig. 5, wherein the shift mass 2 has moved away from the basic position in a braking position in which it bears against a stop of the leaf spring 4;

Fig. 4a enlarges the detail IVa in Fog. 4 to illustrate the stop 8 of the leaf spring 4, against which a counter-stop 15 of the shift mass 2 is applied,

5 shows an illustration according to FIG. 3, but with shifting mass 2 displaced into the inhibiting position; 1 to illustrate the position of the locking elements 18, 19 and their spatially associated locking recesses 23, 24, in which the locking elements 18, 19 can dip when the closure in a view according to FIG. 6 rotated by 180 °, so that the housing cover 1 'is below;

Fig. 6a enlarges the detail 6a in Fig. 6 to illustrate the spatial position of the leaf spring 4; a sequential view of Figure 4 after a shift of the shift mass 2 on the inhibition position addition into a release position.

Fig. 7a enlarges the detail Vlla in Figure 7 to illustrate the position of the leaf spring in the release position.

8 shows a representation according to FIG. 5, but in the release position;

9 shows an exploded view of the individual elements of the closure, the leaf spring 4 forming the inhibiting element 3 being shown in a completely relaxed position, in which the two spring arms 10, 22 occupy an angle of approximately 120 ° to 150 °;

10 shows a second embodiment of the invention, in which the free end 13 of the leaf spring 4 extends on a curved line in the inhibition position. 11 shows the second embodiment after overcoming the inhibition position;

Fig. 12 shows a third embodiment of the invention, wherein the

 Hemmglied 3 is formed by two leg springs 4; Fig. 13 increases the section XIII in Figure 12 in the inhibition position and

Fig. 14 shows the detail of Figure 13 after overcoming the inhibition position.

DESCRIPTION OF THE EMBODIMENTS With regard to the physical arrangement and the functional properties of the functional elements of the garbage can closure, reference is made to the relevant explanations of DE 10 2007 039 351 A1 and DE 10 2012 106 531 A1. Their disclosure content is therefore fully included in the disclosure of this application. The garbage can closure shown in the drawings has a two-part housing 1, which has a bottom part 1 "and a cover part 1 'Within a housing cavity of the housing 1 is a switching mass 2, which is designed as a linear slide, and along The displacement of the shift mass 2 from a basic position in which the latch head 16 of a latch assumes a blocking position into a release position in which the latch head 16 assumes an open position unrepresented counterpart In the basic position, the closing part is tied to the case head and released in the release position.

The case head 16 is connected to a latch tail 17, which forms a control pin 20 which engages in a control recess of the shift mass. The control recess has a cam 21 which is formed so that the latch tail 17 is slightly pivoted at a displacement of the shift mass 2 from the basic position to the release position, so that the case head 16 is also pivoted.

The switching mass 2 carries movable locking elements 18, 19, which can occur in blocking recesses 23, 24 of the housing cover 1 'when the housing 1 is pivoted with switching mass 2 located in the basic position about a different horizontal axis than about a tilting axis K. or the housing 1 is pivoted about the tilt axis K, but counter to a tilting direction, so that a shift of the shift mass 2 is blocked in the release position (see also the relevant explanations in DE 10 2007 039 351 AI or DE 10 2012 106 531 AI).

On the housing bottom 6 of the bottom part 1 "extends parallel to a guide rib, a leaf spring 4. The leaf spring 4 forms a Hemmglied 3, which acts on the shift mass 2 movement inhibiting when the

Schaltmasse 2 has covered a first uninhibited displacement.

The leaf spring 4 has a mounting end 11, which has openings through which fixed to the housing mounting pin 12 extend to tie the leaf spring 4 in the region of the housing 1 to the housing 1, in which the shift mass 2 is in the normal position ( see Figure 2). In an alternative, not shown, the attachment end 11 of the Blattfe- 4 but also be arranged between two housing parts and in particular be clamped between two housing parts.

The leaf spring 4 extends within a distance space 5, which is located between the housing bottom 6 and a bottom 7 of the switching mass 2 designed as a slide. The bottom 7 of the switching mass 2 opposite top of the switching mass 2 has a free space to the housing cover part 1 '. The shift mass 2 is thus with a lateral movement play in the cavity of the housing 1 a.

The leaf spring 4 has a fastening end 11 directed away from free end 13, which rests only in contact bearing on the housing bottom 6. The leaf spring 4 has such a spring bias that it stands out over the entire central region between the fastening end 11 and the free end 13 of the housing bottom 6. A arranged in the central region of the leaf spring 4 stop 8, which is formed by an oblique bend, is therefore in the trajectory of a counter-attack 15 of the shift mass 2 (see Figure 2a). The counter-stop 15 is formed in the embodiment of a rounded edge of the shift mass 2. The edge may have a rounding. The counter-stop 15 can also be formed by a sloping flank. It is also possible that the stop 8 is formed by a rounded portion of the leaf spring 4 or by a step which cooperates with a rounded or oblique counter-stop.

Between the stop 8 and the free end 13, an immediately adjacent to the stop 8 connecting portion 9 of the spring extending approximately in the direction parallel to the spring arm 10 between the fastening end 11 and stop 8 extends. The connection area 9 is followed by a second ter spring arm 22, which extends to the free end 13. The leaf spring 4 may have a kink 14 here.

In the basic position (Figure 2a), the stop 8 is spaced from the counter-stop 15. Due to the spring bias of the spring arm 10, which extends between attachment end 11 and stop 8, is located on the counter-stop 15 at. In the basic position of the closure has an upright position, so that the trajectory of the shift mass 2 is directed within the housing 1 in the vertical direction upwards. If the housing 1 to the

Tilting axis K tilted in a tilting direction, which corresponds to a direction of emptying a garbage bin on which the closure is arranged, the closure reaches an intermediate position in which the direction of movement B of the shift mass lies in a horizontal plane. Due to the inertia of the shift mass 2, the shift mass 2 can move within the housing 1 in its then horizontal direction of movement B, when the housing 1 is accelerated, which may be the case, for example, in a tumbling a garbage bin in the tilting direction. However, due to the inertial force acting on it, the shifting mass 2 can initially only shift into the braking position in which the counterpart stop 15 abuts the stop 8 and stops the movement of the shifting mass 2 (see FIG. 4, FIG. 4a). A similar situation is achieved when the shutter is slightly tilted beyond the horizontal position, so that the direction of movement of the shift mass 2, for example, by 5 ° to 10 ° facing down. After overcoming the static friction, the shift mass 2 also shifts initially only up to the inhibition position in which the counter-stop 15 abuts against the stop 8. The weight in the slight inclination is not sufficient to the applied by the tension of the spring arms 10, 22 force with which the stopper 8 acts on the counter-stop 15 counter to the direction of movement B, to overcome. First when the tilt angle of the lock housing exceeds a predetermined limit, which may be in the range between 15 ° and 60 ° and may for example be 45 °, the force exerted on the stop 8 by the shift mass 2 force is large enough to the stop 8 in Direction transverse to the direction of movement of the shift mass 2 to displace, so that the stop 8, so the inclined edge portion can dip into the clearance space 5. It then supports only the connection portion 9 on the bottom 7 of the shift mass 2 and unfolds a low frictional force on the shift mass 2, so that the shift mass 2 can move substantially uninhibited from the inhibition position in its release position. The height of the spacer space 5 need not necessarily correspond to the full height of the stop 8, since the shift mass 2 can also escape into the free space 25 to the cover 1 '.

FIGS. 10 and 11 show a second exemplary embodiment of the invention in a representation according to FIGS. 4a and 7a, the free end of a leaf spring 4 here extending along a curved line. The end portion of the free end 13 is also supported here on a housing wall. The free end 13 thus forms an arc section. The bow section 13 adjoins directly to a rectilinear section of the leaf spring 4 that is fixed to the housing. The stopper 8 is formed by a portion of the arcuate portion 13 adjacent to the rectilinear portion of the leaf spring 4. The arc section 13 extends in the inhibition position in the range of motion of the shift mass 2. If the shift mass 2 overcomes the inhibition position, the arc section 13 is flattened so that it rests in the clearance clearance 5 between the shift mass 2 and the housing wall. The end of the arcuate portion 13 can slide over a sliding surface of the housing during flattening. In the embodiment shown in Figures 12 to 14, the Hemmglied 3 is formed by two leg springs 4. In a variant not shown, however, the garbage bin closure has only one leg spring 4. A housing-fixed leg 11 of the leg spring, which is preferably designed as a leaf spring, is fastened to the housing. It lies in incisions of a ribbed structure of the housing. A projecting approximately in the direction transverse to its direction of extension of the housing-fixed leg 11 movable leg 13 of the leg spring 4 is in the trajectory of the shift mass 2 and forms a broadside a stop 8, which is in the direction of movement of the shift mass 2 in front of a counter-attack 15 of the shift mass 2 , When overcoming the inhibition position, the counter-abutment 15 slides along the broad side surface of the movable leg 13 of the leg spring 4, with the movable section 13 moving toward the fixed section 11. In the release position, the movable leg 13 is pivoted so far that it rests in a clearance clearance 5 between shift mass 2 and housing. The free end of the movable leg 13 has been released in this position from the counter-stop 15. It is spring-loaded on a lateral surface of the shift mass 2. The above statements serve to explain the total of inventions covered by the application, which further develop the state of the art, at least by the following feature combinations in each case independently, namely:

A garbage bin closure, which is characterized by a movement-inhibiting acting on the movement of the shift mass 2 such

Hemmglied 3, that the shift mass 2 only one between basic Position and release position lying inhibition shifted out when the tilt angle exceeds a limit.

A garbage can closure, which is characterized in that the Hemmglied 3 is designed and arranged in the lock housing 1, that it is acted upon by a first, unrestricted displacement of the shift mass 2 and the shift mass 2 only on the inhibition position out to the release position further displaced when the pulse of the shift mass 2 or a the Hemmglied 3 acting on weight component of the shift mass 2 exceeds a limit. A dustbin closure, which is characterized in that the Hemmglied 3 arranged in the movement path of the shift mass 2, deflected against the force of a spring 4, a stop edge 8 having portion, wherein the stop edge 8 of a counter-abutment edge 15 is applied is, and the section on exceeding a force applied by the spring 4 limit force exits the trajectory.

A garbage bin closure, which is characterized in that the stop edge 8 and / or the counter-stop edge 15 obliquely or rounded to the direction of movement of the shift mass 2 extends.

A garbage bin closure, which is characterized in that the stop edge 8 is formed by an angled portion of a leaf spring 4.

A garbage bin closure, which is characterized in that the stop edge 8 between two spaced apart ends 11, 13 of the Leaf spring 4 is arranged and can dodge elastically to a line through the ends 11, 13 laid line.

A garbage can closure, which is characterized in that the Hemmglied 3 is assigned to the housing 1 stationary. A garbage can closure, which is characterized in that the elongated leaf spring 4 extends in the direction of movement of the switching mass 2 and is attached to a mounting end 11 to a part 1 "of the housing 1 and slidingly with its free end 13 on a sliding surface. 6 of the housing part 1 "is supported. A trash can closure, which is characterized in that the stop flank 8 is formed by a portion 13 of the leaf spring 4 extending along an arc.

A garbage can closure, which is characterized in that the Hemmglied 3 is a leg spring 4 with a housing-fixed leg 11 and an overcoming the inhibition position on the housing-fixed leg 11 to be moved free leg 13th

[0038] A trashcan closure, which is characterized in that the shifting mass 2 is a slider and, in the locking position, holds a latching tail 17 connected to a latching head 16 in a locking position to a counter-closing part, which latching shaft 17 in the final phase of the displacement of Shift mass 2 is controlled in the release position in an open position in which the counter-closing part can separate from the case head. A garbage can closure, which is characterized by locking elements 18, 19 which lock at a tilting of the housing 1 about a different axis than the tilting axis K, the displacement of the shift mass 2 in the release position, and unfold in the inhibition position no blocking effect. All disclosed features are essential to the invention (individually, but also in combination with one another). The disclosure content of the associated / attached priority documents (copy of the prior application) is hereby also incorporated in full in the disclosure of the application, also for the purpose of including features of these documents in claims of this application. The subclaims characterize with their features independent inventive developments of the prior art, in particular to make on the basis of these claims divisional applications.

List of reference numbers

 1 housing B direction of movement 1 'cover part K tilting axis

 1 "bottom part

 2 switching mass

3 inhibitor

 4 leaf spring

 5 clearance clearance

 6 caseback

 7 bottom

8 stop

 9 connection area

 10 spring arm

 11 fixing

 12 mounting pins

13 free end

 14 kink

 15 counter-attack

 16 case head

 17 trap tail

18 blocking element

 19 blocking element

 20 control pins

 21 cam

 22 spring arm

23 locking recess

 24 locking recess

 25 free space

Claims

claims

1. garbage bin closure with a in a lock housing (1) arranged switching mass (2), which in a tilting of the lock housing (1) about a horizontal tilt axis (K) from a basic position corresponding to an upright garbage bin to a tilt angle in a Tilted position, which corresponds to a garbage bin brought into a discharge position, displaced by the action of gravity from a blocking position blocking the closure against opening into a release position enabling opening of the closure, characterized by a movement-inhibiting effect on the movement of the shift mass (2) Hemmglied (3) that the shift mass (2) only shifted beyond a between the normal position and release position inhibition position when the tilt angle exceeds a limit.

2. garbage bin closure according to claim 1, characterized in that the Hemmglied (3) is formed and arranged in the lock housing (1) arranged that it after a first, uninhibited displacement of the

Switching mass (2) is acted upon and the shift mass (2) only on the inhibition position out to the release position further shifted when the pulse of the shift mass (2) or the Hemmglied (3) acting on weight component of the shift mass (2) has a limit exceeds.

3. garbage bin closure according to one or more of the preceding claims, characterized in that the Hemmglied (3) arranged in the movement path of the shift mass (2), against the force of a spring (4) evasive, a stop edge (8) having portion wherein the stop flank (8) from a counter-stop flank (15) is applied, and the section on exceeding a force applied by the spring (4) limit force exits the trajectory.

A garbage bin closure according to claim 3, characterized in that the stop flank (8) and / or the counter stop flank (15) extends obliquely or rounded to the direction of movement of the shift mass (2).

5. garbage bin closure according to one or more of the preceding claims, characterized in that the stop edge (8) is formed by an angled portion of a leaf spring (4).

A trashcan closure according to claim 5, characterized in that the stop flank (8) is arranged between two spaced-apart ends (11, 13) of the leaf spring (4) and can deflect elastically transversely to a line laid through the ends (11, 13).

A garbage bin closure according to one or more of the preceding claims, characterized in that the inhibiting member (3) is associated with the housing (1) in a stationary manner.

A trashcan closure according to any one of claims 5 to 7, characterized in that the elongate leaf spring (4) extends in the direction of movement of the indexable mass (2) and is fastened to a part (1 ") of the housing (1) by a fixing end (11) and with its free end (13) slidably supported on a sliding surface (6) of the housing part (1 ").

9. garbage bin closure according to claim 5, characterized in that the stop edge (8) is formed by an extending along an arc portion (13) of the leaf spring (4).

A garbage bin closure according to claim 5, characterized in that the inhibiting member (3) is a leg spring (4) with a leg fixed to the housing (11) and a free leg (13) to be moved upon overcoming the inhibiting position on the leg (11) fixed to the housing.

A garbage bin closure according to one or more of the preceding claims, characterized in that the shift mass (2) is a slide and in the blocking position holds a latch tail (17) connected to a latch head (16) in a locking position to a counter-closing part. 17) is controlled in the final phase of the displacement of the shift mass (2) in the release position in an open position in which the counter-closing part can separate from the case head.

A garbage bin closure according to one or more of the preceding claims, characterized by blocking elements (18, 19) which block the displacement of the shift mass (2) into the release position when the housing (1) is tilted about an axis other than the tilt axis (K) which unfold in the inhibition position no blocking effect. 13. garbage bin closure characterized by one or more of

 characterizing features of any one of the preceding claims.