CN104936481B - Accelerating device for moveable furniture or domestic-appliance parts - Google Patents

Abstract

An accelerating device for moveable furniture parts, in particular drawers or doors, has a housing (2), an energy store (4), which has a first end fastened on the housing (2), at least one driver (13), which is arranged in a displaceable manner on the housing (2) and can be prestressed by the energy store (4), and a deflecting device (10), which is mounted on the housing (2) and via which the energy store (4) is connected to the driver (13), wherein the deflecting device (10) is coupled to a mechanical blocking device, by means of which the energy store (4), during the course of a stressing operation, can be secured in at least one intermediate position between a minimally stressed position and a maximally stressed position.

Description

Accelerator for movable furniture component or removable home appliances part

Technical field

The present invention relates to a kind of preamble according to claim 1 for movable furniture component or removable domestic The accelerator of device component, described accelerator is especially for drawer OR gate.

Background technology

From the prior art, from EP 7 669 393 A1, for example become known for the device for opening of movable furniture component, Wherein movable furniture component is accelerated via ejecting mechanism in the direction of the opening by device for opening and thus ejects, and this can Moving furniture parts (such as drawer) are primarily remain in closed position and are solved by pulling against ejection direction or pressing Lock, movable furniture component is thus moved to outside furniture body.

This open or close on device use for make this movable furniture component accelerate elastic stretching system big Linear elasticity rigidity is had on body and is tensioned in continuous moving, such as when this movable furniture component is back into it It is tensioned during closed position in furniture body.

Disadvantageously, in known opening and closing device from the prior art, especially in close installing space In the case of the spring of very strength be arranged on side, be therefore applied to end position and the non-tensioned of tensioning in the device End position between movable furniture component on power difference (big Δ F) very big, wherein user is negatively thought After tensioned, driving force terminates suddenly.No extra deflection system and typically can not using the spring with flat spring rigidity Can.

Also disadvantageously, from the prior art known system in tensioning process interrupt, against the direction of motion by spring Until the energy that absorbed of this point is released again, the result that this leads to is to wait to be opened or pent furniture parts moves again Return to initial position and user may be injured in the case of the worst.

In order to prevent this problem, for example, include automatic self closing from drawer system known to DE 102 46 438 A1 System and the holding system being manually released, the drawer with this drawer system can overcome the spring force of various location to protect Hold in the open position.Disadvantageously, user needs manual intervention to discharge locking mechanism in this case, i.e. user Need in drawer lower gripper to be unlocked.

Content of the invention

It is an object of the invention to provide a kind of accelerator for movable furniture component, i.e. with actively or passively Accelerated mode is supported or execution is opened and/or the device of closing process, in the apparatus, is connected to the driving member of this accelerator The tensioning of at least one energy storage unit can without damage interrupt and can operate in a straightforward manner.

This purpose by have claim 1 characteristic the accelerator for movable furniture component Lai real Existing.

In the case of the accelerator according to the present invention, this accelerator includes arrangement for deflecting, and this arrangement for deflecting is installed On the housing of device for ejecting or self-closing device, energy storage unit is connected to driving member via this arrangement for deflecting, this deflection Device is coupled with locking device, and by coupling of arrangement for deflecting and locking device, this energy storage unit can during tensioning To be fixed at least one centre position between minimum tension position and maximum tension position.

Which ensure that in the case of device for ejecting, for example, be tensioned drawer is reinserted into this energy storage unit When in wherein furniture body, can not reach final due to impacting too weak to drawer on the direction along the closed position of drawer Position, then this energy storage unit be maintained in described centre position, be therefore directly or indirectly coupled to this energy storage The drawer of unit is only partly without fully ejecting again from furniture body.Thus effectively prevent in described energy Energy storage unit is made to unload completely before the termination of tensioning process of storage element.

The preferred embodiment of the present invention is the theme of dependent claims.

According to the preferred embodiment of the present invention, this arrangement for deflecting has and changes from inclined during tensioning or release of tension The operation curve of the distance to the pin joint of energy storage unit for the rotary shaft of rotary device.This arrangement for deflecting especially includes dish type Matrix, the matrix of this dish type can rotate around rotary shaft, and connecting element can be wound on this disk in the rotation of matrix In the circumferential edge parallel to rotary shaft alignment of the matrix of shape, described connecting element is connected to the base of driving member and arrangement for deflecting Body and this driving member is connected to this arrangement for deflecting via this connecting element.

The change of moment by change the distance of application point from the center of rotation of arrangement for deflecting to energy accumulating device Lai Produce, during the tensioning of movable furniture component, in the comfortableness to operation for this change, there is favourable effect, because In the case of not changing tensile force or the closing forces required for system, the driving force terminating as above can be no longer perceived To or formed in the way of being substantially reduced.

According to another embodiment of the present invention, the matrix of arrangement for deflecting includes the groove extending radial to rotary shaft, Driving member described in this groove is directed to parallel to the rotary shaft extension of this arrangement for deflecting, and described driving member can be convex in control It is directed in wheel, described control cam is integrally attached on described housing and/or the lid of the described housing of closing.Described control cam Preferably include the centre position defining between the minimum tension position of energy storage unit and maximum tension position extremely A few latched position.

Due to this arrangement for deflecting and combining of controlling cam, so that forming latched position in a simple manner decoupled, at this In mode, the energy storage unit being preferably arranged as tensioning spring can be kept during the tensioning of energy storage unit, And by movable furniture component being pressed further or further pulling on its end position without manually discharging lock Fixed, enabling to completely close in a straightforward manner or open movable furniture component.

Brief description

The present invention is explained in greater detail by reference to embodiment shown in the accompanying drawings below, wherein：

Fig. 1 shows that the perspective of the embodiment of the accelerator with energy storage storage system according to the present invention is divided Xie Tu；

Fig. 2 and Fig. 3 shows the enforcement of the accelerator being formed as device for ejecting during release according to the present invention The top view of mode, this accelerator includes energy storage storage system (removing lid)；

Fig. 4 shows the view that the local of the device for ejecting of Fig. 2 raises, and shows the tensioning state in energy storage unit In control cam, this control cam integrated in the housing and lid lower section；

Fig. 5 shows just the facing of the device for ejecting according to Fig. 1 to Fig. 4 before the ejection of movable furniture component Figure；

Fig. 6 shows the detailed view of the details being marked with VI in Fig. 5, and the detail section that this is marked with VI is used for illustrating to hold in the palm The off-position of frame；

Fig. 7 to Figure 12 also show the front view of the device for ejecting being in ejection process in continuous position；

Figure 13 and Figure 14 shows during the tensioning of the energy storage unit in being in certain position according to Fig. 3 and Fig. 4 In the front view of the embodiment of device for ejecting, wherein said energy storage unit is maintained in the first latched position；

Figure 15 shows that device for ejecting corresponding with Figure 14 is in the embodiment of the rising of the local in the second latched position Front view；

Figure 16 to Figure 19 show reach closed position not long ago or after reaching closed position device for ejecting reality Apply the front view of mode；

Figure 20 and Figure 21 shows that the impact of device for ejecting discharges the front view of the adjusting screw of process.

Specific embodiment

In the following explanation to accompanying drawing, underneath with the term of such as up, down, left, right, before and after etc. only refer to It is explanation and the position as selected housing, energy storage unit, driving member, arrangement for deflecting etc. in various figures of example Put.These terms are not construed as restricted, i.e. these are with reference to can be by different operating positions or specular Configuration etc. is changing.

Accompanying drawing is used in FIG for the entirety of the embodiment of the accelerator of movable furniture component according to the present invention Labelling 1 represents.

Based on the device for ejecting illustrating, accelerator is described in other explanation as an example, wherein energy storage list Unit 4 is in movable furniture component (for example, with respect to furniture body (such as drawer) movably drawer elements, sliding door or pivot Revolving door) closing process tensioning in described device for ejecting.This accelerator removable using being for example considered as supporting The self-closing device of the closing process of dynamic furniture or removable home appliances part, or it is considered as the slip supporting to be maintained on hinge Door or pivoted door open and/or closing process self-closing device.

Device for ejecting 1 shown in Fig. 1 includes the lid 3 of housing 2 and seal casinghousing 2.Show in detail as in the decomposition view of Fig. 1 Go out, the first guide rail 25 and the second guide rail 26 are arranged in housing 2, the first guide rail and the second guide rail on most fractional part each other Extend parallel to.

Driving member 13 is directed in the first guide rail 25, and this driving member can be locked in first end position in known manner In putting, in this first end position, its make position can be located at by the movable furniture component that described driving member ejects In.Tilt in the described end position of the curved extremities section in the first guide rail 25 for the driving member 13.

In order to trigger ejection process, the bar 8 being rotatably installed on housing 2 is used in the bending section of the first guide rail 25 Driving member 13 is lifted from its obliquity, bracket 15 may move and via the drive being fixed to bracket 15 in the second guide rail 26 Dynamic tappet 16 clashes into movable furniture component to be ejected, in the moving process from the bracket 15 that housing 2 projects, described bar 8 By bracket 15 against ejection direction X slightly move press down on bar 8 a lever arm so that bar 8 another lever arm under The pin joint of side and driving member 18 closes, and the pin of driving member 18 is used for guiding driving member 13 in the first guide rail 25, and this driving member 13 connects It is combined in guide rail 25, thus driving member 13 is lifted out from the curved extremities section of the first guide rail 25 and parallel to the first guide rail 25 In the region of the second guide rail 26.

Due to driving member 13 being risen in the region parallel to the second guide rail 26 of the first guide rail 25, the point of driving member 13 Termination is combined in the retainer rear of bracket 15 and is engaged with bracket 15 on ejection direction.

For another example Fig. 1 and for example shown in Fig. 2, driving member 13 is via the second connecting element 9, arrangement for deflecting 10 and the first connection Element 5 connects to the energy storage unit 4 being preferably arranged as tensioning spring, wherein as shown in Fig. 2 working as driving member 13 to be located at first When in the position in the bending section of guide rail 25, energy storage unit 4 is by tensioning to greatest extent.It is preferably tension band or cable segment The first end 23 of the second connecting element 9 be fixed on driving member 13, and the second end 24 is fixed on the base of arrangement for deflecting 10 The receiving member 12 of body 28.It is also conceivable to, the second connecting element 9 is arranged as stiffener, such as tooth bar.

Therefore, the first end of the first connecting element 5 is fixed on the energy storage being arranged as tensioning spring in this case Unit 4 and the other end are fixed on the matrix 28 of arrangement for deflecting 10.According to energy storage unit 4 configuration it may be considered that by energy Amount storage element 4 is directly connected in arrangement for deflecting 10.

As Fig. 1 is shown in more detail, arrangement for deflecting 10 is the matrix 28 of wheel shape generally by the local with receiving member 12 Composition, described receiving member 12 extends radially into inside from circumferential edge, for accommodate the second connecting element 9 one end 24 and Especially it is arranged as one end of the first connecting element 5 of cable segment or tension band.

In the special embodiment illustrating, arrangement for deflecting 10 is rotatably installed on housing 2 and lid 3, wherein, from The distance of the pin joint to energy storage part 4 for the rotary shaft 23 of arrangement for deflecting 10 has in the case of the process opening or closing Change operation curve.

The circumferential edge 27 parallel to rotary shaft 23 alignment of matrix 28 is used for accommodating connector 9, and connector 9 is connected to biography Moving part 13 and connecting element 9 can be in described circumferential edge 27 in the rotary course of matrix 28.

One section of the edge 27 of the matrix 28 of dish type includes direction recess 11 in the predetermined angular range of matrix 28, should Direction recess upwardly extends in the side of deflection, and in direction recess 11, one section of energy storage unit 4 or be connected to energy Storage element 4 and be fixed on the predetermined rotation angle range inner radial in arrangement for deflecting 10 for first connecting element 5 of matrix 28 On be closer to the rotary shaft 23 of arrangement for deflecting.Which ensure that and pass through to change by energy during the position close to driving member 13 Amount storage element 4 (the being arranged as tensioning spring) application point of power that is applied on arrangement for deflecting 10 and reduce and act on arrangement for deflecting Moment of torsion on 10, and thus prevent the power of driving during the tensioning of device for ejecting and terminate suddenly.

As shown in Figure 1, Figure 2 and Figure 4, cam 20 is controlled to be arranged in the region of arrangement for deflecting 10 on housing 2 and/or cover On 3 inner side towards housing 2, wherein, driving member 18 is directed to, and driving member 18 extends in the rotary shaft 31 radial to matrix 28 Groove 19 in be directed to so that arrangement for deflecting 10 control cam 20 in rotate during, driving member 18 is in matrix 28 It is directed in radially movable mode in groove 19.Cam 20 is controlled to include limiting at least one interposition of latched position Put, this at least one centre position is between the minimum tension position of energy storage unit 4 and maximum tension position.In accompanying drawing institute In the embodiment showing, cam 20 is controlled to be formed with the first latched position 21 and the second latched position 22.

In alternative embodiment, can in controlling cam 20 driving member 18 cloth by this way that be directed to Put：Driving member 18 locking or be clamped in control in the way of continuous variable in the motor process against tension direction of matrix 28 In cam 20.

The expected order of ejection process and device for ejecting 1 are subsequently inserted into process to describe by reference to Fig. 2 to Figure 18.As On have been described above, Fig. 2 shows the initial position of device for ejecting, and in this initial position, driving member 13 is located at first guide rail Engage in 25 bending area and with bracket 15.Energy storage unit 4 is in this position by farthest tensioning.

By making bracket 15, against ejection direction X, (driving member 13 is on this ejection direction X from the bending of the first guide rail 25 Region moves to the region (as shown in Figure 5) parallel to the second guide rail 26 of the first guide rail 25) move to execute ejection process After release, driving member 13 passes through connecting element 9 and arrangement for deflecting 10 by energy storage unit 4 (this energy on ejection direction X Storage element 4 is connected to arrangement for deflecting via connecting element 5) pull-out, and press on ejection direction in the second guide rail 26 Bracket 15 reaches the other end of respective guide rail 25,26 until driving member 13 and bracket 15, and energy storage unit 4 is It is brought to possible maximum off-position.This position display is in fig. 12.

Fig. 7 to Figure 11 shows each centre position, and it particularly illustrates connecting element 5 and is ejecting when motion starts in base Be directed in the groove 11 of body 28, thus be applied to moment of torsion on arrangement for deflecting 10 due to the distance from rotary shaft 31 to application point little And relatively low, and connector 5 departs from and position in arrangement for deflecting 10 rotary course in the clockwise direction from groove 11 In the circumferential edge 27 of matrix 28, the increase connector with torsion angle radially advances to from rotary shaft 23 according to its shape Outside so that not long ago driving member 13 to was moved in end by peak torque in the ejection end points reaching bracket 15 or driving member 13 Portion position.

As shown in Fig. 8 and Figure 10, in this ejection process, driving member 18 is first along the predefined paths controlling in cam 20 Control cam 20 the passage zone coaxial with rotary shaft 31 on be directed to, and make driving member 18 from predetermined beyond angle more Move (referring to Figure 10) near rotary shaft 31.

Bracket 15 or driving member 13 be subsequently inserted into move back into initial position as shown in Figure 2 during (as schemed Shown in 13 to Figure 18), driving member 13 is pushed back to the initial position shown in Fig. 2, hinged support part 14 by hinged support part 14 It is pivotally secured to bracket 15.Thus, energy storage unit 4 is tensioned again.If bracket 15 pushes away during tensioning Power is interrupted, and driving member 18 will be advanced by the middle position current according to driving member in the inner radial path controlling cam 20 In in the first latched position 21 (as shown in figure 14) or in the second latched position 22 (as shown in figure 15), therefore because energy stores up Deposit part 4 tensile force prevent driving member 13 rebound so that by simply again promote bracket 15 resist device for ejecting, quilt The closedown campaign being trapped in the first latched position 21 or the second latched position 22 can continue, until reaching biography as shown in figure 17 The end position of moving part.

As shown in Figure 18 and Figure 19, energy storage unit 4 is fixed on pulling off device 1 via energy storage unit keeper 6 Housing 2.Described energy storage unit keeper 6 preferably includes regulating element 7, and described regulating element is preferably arranged as adjusting Section screw, and being pre-tensioned of energy storage unit 4 can be with regulating element by making energy storage unit keeper 6 in bullet Individually to adjust on outgoing direction X or against ejection direction X movement.Fig. 8 shows the position of energy storage unit keeper 6, The energy storage unit 4 being wherein arranged as tensioning spring is tensioned to low degree, and shown in Figure 19, energy storage unit the last 4 Power it is pre-tensioned in the position of energy storage unit keeper 6.

Left regulation wheel 29 is additionally arranged on housing 2, and left regulation wheel 29 is used for the preconditioning in the lifting for triggering device for ejecting Middle tolerance balancing, bar 8 can be set to specific initial position with left regulation wheel so that according to left regulation wheel position (this regulation Wheel is provided with the bearing edge 30 of centrifugation arrangement, and bearing edge 30 is located on the bottom side of dorsad driving member 13 of bar), the carrying of bar 8 Rising amount is adjustable.Figure 20 and Fig. 6 shows the different set of left regulation wheel 29.

Related, lead in the closing process of the drawer with device for ejecting 1 as above and in driving member 13 In the case of crossing the impulsive force promotion drawer closing of deficiency, the tensile force being acted on by energy storage unit on driving member is locked Device stops at least one centre position, thus the tensile force of only only a part will be directed back into guidance system.Thus Drawer will be pressed back with a fairly low speed on the direction of user, and wherein, user then can be by simply again Secondary pressing and lock completely closing drawer without manual release.

Reference numerals list

1 accelerator

2 housings

3 lids

4 energy storage units

5 first connecting elements

6 energy storage unit keepers

7 regulating elements

8 bars

9 second connecting elements

10 arrangements for deflecting

11 direction recess/groove

12 receiving members

13 driving members

14 hinge support

15 brackets

16 tappets

18 driving members

19 grooves

20 control cams

21 latched positions

22 latched positions

The first end of 23 connecting elements

The second end of 24 connecting elements

25 first guide rails

26 second guide rails

27 circumferential edge

28 matrixes

29 left regulation wheels

30 bearing edges

31 rotary shafts

Claims (15)

1. a kind of accelerator for may move home appliances part, described accelerator includes：

- housing (2)；

- energy storage unit (4), the first end of described energy storage unit (4) is fixed on described housing (2)；

- at least one first driving member (13), at least one described first driving member (13) is movably disposed within described housing (2) go up and can be pre-tensioned by described energy storage unit (4)；

- arrangement for deflecting (10), described arrangement for deflecting (10) is arranged on described housing (2), and described energy storage unit (4) It is connected to described first driving member (13) via described arrangement for deflecting (10),

It is characterized in that,

- described arrangement for deflecting (10) is coupled with mechanical locking, by described arrangement for deflecting (10) and mechanical locking Connection, described energy storage unit (4) can be fixed between minimum tension position and maximum tension position during tensioning At least one centre position in,

Described first driving member (13) can be locked in first end position, and described energy storage unit (4) is accelerating By farthest tensioning in the initial position of device.

2. accelerator according to claim 1 is it is characterised in that described first driving member (13) connects unit via first Part (9) is connected to described arrangement for deflecting (10).

3. accelerator according to claim 2 is it is characterised in that described first connecting element (9) is formed as tension band.

4. accelerator according to claim 1 is it is characterised in that described arrangement for deflecting (10) includes opening or closing During change the distance of rotary shaft (31) from described arrangement for deflecting (10) pin joint to described energy storage unit (4) Operation curve.

5. accelerator according to claim 3 is it is characterised in that described arrangement for deflecting (10) includes the matrix of dish type (28), the matrix (28) of described dish type can rotate around rotary shaft (31), and with described first driving member (13) and described Described first connecting element (9) that the matrix (28) of the described dish type of arrangement for deflecting (10) connects can be in the matrix of described dish type (28) in rotary course wound on described dish type matrix (28) the circumferential edge alignd parallel to described rotary shaft (31) (27) on.

6. accelerator according to claim 5 is it is characterised in that the described circumferential edge of the matrix (28) of described dish type (27) a part has the constant distance of the described rotary shaft (31) from described arrangement for deflecting (10), and the base of described dish type At least another part of the described circumferential edge (27) of body (28) has the described rotary shaft (31) from described arrangement for deflecting (10) The first distance, described first distance deviate described constant distance.

7. the accelerator according to claim 5 or 6 is it is characterised in that the described circumference of the matrix (28) of described dish type The part at edge (27) includes the direction recess (11) extending in the circumferential, in described direction recess (11), described energy A part for storage element (4) is located in the predetermined rotation angle range of described arrangement for deflecting (10), or is connected to described energy Second connecting element (5) of amount storage element (4) and the matrix (28) being fixed on described dish type is located at described arrangement for deflecting (10) Predetermined rotation angle range in.

8. accelerator according to claim 7 is it is characterised in that described second connecting element (5) is formed as tension band Or cable segment.

9. accelerator according to claim 5 is it is characterised in that the matrix (28) of described dish type is included radial to described The groove (19) that rotary shaft (31) extends, the second driving member (18) is directed in described groove (19), described second driving member (18) extend parallel to described rotary shaft (31) and described second driving member (18) can be directed to controlling in cam (20), Described control cam (20) is integrally formed on described housing (2) and/or the lid (3) of the described housing of sealing (2).

10. accelerator according to claim 9 is limited to minimum it is characterised in that described control cam (20) has At least one latched position (21,22) in the described centre position between tension position and maximum tension position.

11. accelerators according to claim 9 are it is characterised in that guiding in cam (20) can be controlled described Described second driving member (18) is arranged so that institute in the motor process against tension direction of the matrix (28) of described dish type State the second driving member (18) locking or be clamped in described control cam (20) in the way of continuous variable.

12. accelerators according to claim 11 are it is characterised in that described second driving member (18) is arranged as rubbing Wheel.

13. accelerators according to claim 1 are it is characterised in that described first driving member (13) can be in described shell Move in first guide rail (25) of body (2) and can be locked in first end position, and with described first driving member (13) It is movably mounted in second guide rail (26) of described housing (2) with the bracket (15) of described movable furniture component connection.

14. accelerators according to claim 1 are it is characterised in that described accelerator is used for movable furniture component.

15. accelerators according to claim 14 are it is characterised in that described movable furniture component is drawer OR gate.