DE1927901A1 - Knob - Google Patents

Description

SEL CONTACT COMPONENTS

GMBH
Nuremberg
Foundry Street 3

Gases: H.E.J.Kroll - H.Ό.Ziegler 9-2

Knob

The invention "refers to a fastened on the operating shaft of a device handle, which at its the device • side facing a cavity for receiving a locking posture, which serves to Pestlegen of rotational positions of the .. shaft. The need for such knobs is in particular rotary switches before , which have an operating button mounted on their actuating shaft, with which certain switching positions of the shaft can be set.

The setting of switching positions of an actuating shaft is known to take place by means of a latching device that is connected to the device to be operated, e.g. built into the device is. In a known rotary switch, this locking position consists of pre-tensioned to engage with fixed notches Bullets. You can for example be enclosed by a part of the housing forming spacer while the remaining parts of the housing are made up of stator parts that surround the shaft and are placed on top of one another. Electric Rotary switches of this construction have already been largely miniaturized by keeping their parts very small will. However, this miniaturization is with regard to the operating forces that occur, even if they are as possible be kept small, certain limits are set, because one

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unwanted change in shape of the switch or its functionally important Parts must be avoided. As a result, the known rotary switches cannot be further reduced in size are.

To remedy this disadvantage, it has already been proposed to create a cavity in the rotary knob of the rotary switch to be provided, which is designed as a latching contour on its side facing the device to be operated, in the holding members slide, which in turn are guided by a locking body arranged in this cavity. This locking body at the same time has means for attachment to the device.

The above proposal was based on the idea that that the knob as a handle must have a certain size, but not the space it encloses is used, while the device itself should be built to save space. The invention proceeds from the same Consideration from and has set itself the task of creating a rotary knob for fastening on a shaft, the at the same time contains a locking position, so that it is possible to use certain devices in which a shaft rotates or should be set to miniaturize to very small dimensions. According to the invention, this is at a Rotary knob of the type mentioned achieved in that the locking member of the latching position with the rotary knob in is connected in the axial direction, provided with a shaft bore, the end socket facing on ihr.dem device Side has means for fastening to the device and a latching contour on its side facing away from the device carries, in the spring-loaded, guided by a support body coupled with the shaft in a movement-dependent manner Retaining links slide.

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H.E.J. Kroll-H.D. Ziegler 9-2

The invention has the advantage that it is possible just by exchanging the rotary knob, certain devices, in which an actuating shaft is to be fixed in desired rotational positions, with a detent attitude to provide. It is possible to mount the rotary knob from one side as before. Another The advantage that can be achieved by the invention is that such devices assume very small dimensions such as are required, for example, when installing in printed circuit boards.

In addition, the invention offers the advantage of a possibly required stop function from the device to be able to move into the rotary knob, which further saves space in the device. According to more advantageous Further development of the invention, this is achieved in that in the cavity of the rotary knob a is inserted with this motion locking connected stop device with which it is possible to twist exclude the shaft beyond a certain angle.

For a better understanding of the invention, let these and advantageous Developments of the invention explained in more detail using an exemplary embodiment that is shown in the figures of Drawing is shown. Show it:

Figure 1 of the dung OF INVENTION _T is a longitudinal section through a turning knob with latching attitude und.Anschlageinrichtung;

FIG. 2 shows a plan view in the direction of the arrow "A" of this rotary knob with the front panel removed;

Figure 3 shows a cross section along the line B-C through the from Rotary knob shown in FIG.

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According to FIG. 1, the rotary knob 10 shown has a inner housing 20 and this at least partially positively enclosing outer housing made of three housing parts 30, 40, 50 which can be placed on top of one another, with 30 a housing base carrying the inner housing, with 40 is a housing sleeve having gripping surfaces 41 and denoted by 50 is a housing cap that closes it. This housing cap is releasably locked with the housing sleeve 40 by means of a resilient retaining claw 51. Of the Housing bottom 30 abuts with one end on the front side of the housing sleeve 40 adjacent to it and is in the inner housing 20 also releasably attached by means of a snap connection. To this end, the removable Housing bottom 30 has a circular groove 31 on its inside and the inner housing 20 on its housing bottom facing outside a circular cam 21 that fits into the circular groove. A display device formed on the housing base 30 32 is used to identify the respective rotary position of the rotary knob 10. For adjustment and The circular cam 21 fixes the display device 32 slots arranged along its circumference in an angular division corresponding to the latching positions of the rotary knob 10 22, into which a radially inwardly pointing nose 33 formed on the inner circumference of the removable housing base 30 can intervene.

The mechanical connection of the housing sleeve 40 and thus of the rotary knob 10 with the actuating shaft 60 of the to be operated Device takes place via a collet 70 provided with a shaft bore 71, which is located in a device facing away from the device Cavity 23 of the inner housing 20 is housed. For this purpose, the housing sleeve 40 has one therein Cavity-facing collar 42, to which the clamping nut 80 of the collet 70 is pressed via a washer 90.

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Clamping nut 80 and washer 90 are in a cavity 52 of the housing cap 50 or in one of the housing caps adjacent cavity 43 of the housing sleeve 40 is arranged. Since die'Beilagscheibe 90 in turn on an adjacent The end face of the housing sleeve 40 rests, thereby at the same time a mechanical connection between inner housing 20 and outer housing sleeve 40 created.

In addition to the collet chuck 70, that is to say parts of the device for axial fixing, the inner housing 20 contains the entire latching device for holding rotational positions. The locking member of the locking position is a terminal socket 100 which is connected axially to the rotary knob 10 and provided with an I / Vellenbohrung 101, which must be stored in a fixed position, for example on the front panel 110 of the device to be operated. For this purpose, the connection socket has a part which protrudes from the inner housing 20 and to which means for fastening to the device are attached. In the exemplary embodiment shown in FIG. 1, a shoulder 102 resting against the front plate and a circular groove 103 lying in front of the shoulder for receiving a locking washer (not shown) are therefore provided on this part. In order to prevent relative movements between the terminating socket 100 and the front panel 110 of the device, the terminating socket is also provided with a locking member 104, which is designed, for example, in the form of a nose engaging the front panel. On the side opposite the device side, ie in the button inside the locking member 104 may also serve as a fixed stop for limiting the rotary movement of the actuating shaft 60 _t The locking member 104 shown allows a particularly simple torsionally secure attachment of the end connector on the device or its front panel 110, since when mounting the rotary knob 10, the locking lug is only simple

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inserted into a corresponding recess in the front panel will. The required anti-twist protection can, however, also take place in another way, e.g. by using a Indentation is provided in the terminating socket 100, in which then an attached to the front panel 110 of the device Nose engages. The terminating socket 100 can also be connected to the device in a completely different way, for example by screwing or gluing. The axial cohesion between the terminal socket 100 and the actuating shaft 60 is secured by a locking ring 120, which is in a Annular groove 24 of the inner housing 20 is arranged and on a collar 105 of the conclusion book se in the area of their in the The end face facing the cavity 27 of the inner housing.

TJm to achieve a locking rotation of the rotary knob 10, it is necessary to act as a locking member terminating sleeve 100 to be provided with a latching contour 106. This locking contour, in the resiliently mounted, in a suitable Way held and guided support members slide, is located on the device or its front panel facing away from the end face of the terminating bushing 100. Balls 130, HO, in particular, come into consideration as holding members. The holding body guiding these balls is designed in the form of a ring 150 surrounding the actuating shaft 60, the balls are mounted in the circular recesses. So that the guide ring 150 when. Actuate the shaft 60 is taken along by the housing 20 rotatable about the terminating socket 100, it engages with its outer one Circumferentially arranged segment-shaped projections 151 in correspondingly adapted recesses 25 on the inside of the housing 20.

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H.E.J.Kroll-H.D.Ziegler 9-2 - T "-

By an attached to the inner circumference of the guide ring 150, inwardly facing pinger 152, which is in a Longitudinal groove of the ViTeIIe 60 engages positively, can * Locking and shaft position are set relative to each other. For this purpose, the inner circumference of the guide ring 150 can also match the profile of the actuating shaft, e.g. Flat wave, adapted sep_n. This is important, for example, if rotors are mounted on the shaft 60, which rotate with it and carry contact parts, which in turn interact with stator contact parts with corresponding opening and closing. If the shaft 60 is actuated, then move the balls 130, 14-0 step by step from notch to notch in order to determine the rotational position of the shaft and thus determined Bringing stator and rotor contact parts out of contact or into contact. The arrangement of the rotors and stators and their contact parts can be done in the usual way and is not essential to the invention.

In the exemplary embodiment according to FIG. 3, there are two diametrically opposite, circular ones in the guide ring 150 Openings arranged at the same distance from the shaft 60. This ensures that the locking pressures of the two balls 130, 140 with respect to the load on the shaft 60 cancel. In order to produce the necessary detent pressure, a ball thrust washer provided with a shaft bore is placed 160 by an elastic device against the balls 130, HO. This is done by means of a helical compression spring 170, which in an axially extending circular groove 26 of the housing 20 concentric to the Shaft is held and guided. This helical compression spring thus presses the balls 130, 140 against the end wall of the Terminating socket 100 and thus against the locking contour 106. By the for. Shaft 60 continuously concentric support of the

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Helical compression spring 170, the ball thrust washer 160 is pressed evenly against the balls 130, 140 and it This results in a particularly precise and smooth engagement in all rotary positions of the rotary knob 10 at the required actuation torque. The invention is of course not restricted to the fact that only two retaining members are used, and can also instead of the balls as holding members rollers are used.

In order to limit the rotational movement of the shaft 60, stop rings 180, 190 are provided, which are attached to their outer Circumferentially arranged segment-like projections 181 (or 191) in correspondingly adapted recesses 25 engage the inside of the housing 20. Two stop rings 180, 190 are expediently used which, like can be seen from Figure 1, lie on top of each other and around a certain angular division can be rotated with respect to the rotary knob housing. Point at their inner circumference the two stop rings 180, 190 each one inwards extending stop lug 182 or 192. The two Stop lugs 182, 192 close one determined by the number of desired rotary positions (switching positions) Angle with each other and work with a stationary stop, e.g. with the locking lug 104, in the sense of a limitation the rotational movement of the actuating shaft 60 in both directions together. For example, a 12-part locking device uses an anchor device, in which the two stop lugs 182, 192 form an angle of 30 ° with one another. By inserting them differently of the two stop rings 180, I90 it is possible to adjust the stops in any way. Furthermore, the stop can also be removed by removing the rings 180, 190 can be omitted entirely. It is also possible instead

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H.E.J. Kroll-H.D. Ziegler 9-2 9

two rings to use a single ring that has two lugs 182, 192. In this case the distance can

the stops can no longer be adjusted. Is only one If a single stop is provided, a stop ring 180 or 190 with a stop lug 182 or 192 is sufficient. In this case, the shaft 60 can only be rotated through 360 ° be, the stop lug in question 182 or 192 to limit the rotational movement to opposite Sides of the stationary stop, e.g. the locking lug 104, hits.

The axial fixing of the stop rings 180, 190 with respect to the actuating shaft 60 takes place on the one hand by the Lock washer 120 arranged in rotary knob housing 20 and on the other hand by the inwardly projecting annular extension 34 of the housing bottom 30. To adjust the Stop rings 180, 190 · it is then only necessary to temporarily remove the housing base 30; the function the rest position is not affected.

The rotary knob 10 according to the invention can in the usual way be mounted on a shaft 60. It is only necessary that some suitable anti-rotation device for the Terminating socket 100 is provided. As already mentioned, this rotation lock can be achieved through a recess in the front panel 110 of the device. In addition, solely by using a rotary knob according to the invention Switches or other devices that can be operated with a shaft are provided with a latching device.

The rotary knob 10 shown in FIGS. 1 to 3 can consist of any material. Preferably, however, the three outer housing parts of the rotary knob 10,

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40

the housing base 30, the housing sleeve 40 and the housing cap 50, made of a suitable injection-molded plastic, on the other hand the inner housing 20 as well as the closure sleeve manufactured as zinc die cast.

Investments;

29 claims
3 sheets. Drawings, 2 sheets. List of the designations used

009849/1133

Claims (28)

H.E.J.Kroll-H.D.Ziegler 9-2 claims 1.) On the actuating shaft of a device, in particular a rotary switch, attachable rotary knob that has a cavity on its side facing the device to accommodate a Has latching that is used to set rotational positions of the shaft, characterized. that the locking member of the locking position is connected to the rotary knob (10) in the axial direction, with a shaft bore (101) provided terminating socket (100), the. on its side facing the device (110) has means (102, 103, 104)! 3Ur attachment to the device and to their the side facing away from the device carries a latching contour (106) in which the spring-mounted, one of which is locked in motion with the shaft (60) coupled holding body (150) guided holding members (130, 140) slide. 2.) Rotary knob according to claim 1, characterized in that the terminating sleeve (100) axially to the shaft (60) by a Circlip (120) is fixed, which on one in the region of the into the cavity (27) of the rotary knob (10) Front side of the terminating socket attached collar (105) rests. 3.) Rotary knob according to claim 1 or 2, characterized in that the terminating socket (100) on its from the rotary knob (10) protruding part a shoulder (102) resting against the device (110) and one lying in front of the shoulder Has circular groove (103) for receiving a locking washer. 009849/1133 4.) Rotary knob according to one of claims 1 to 3, characterized in that that the terminating socket (100) with a relative movement en between the terminating socket and device (110) preventing locking member (104) is provided. 5.) Rotary knob according to claim 4, characterized in that the locking member (104) on the side facing away from the device (110) at the same time serves as a stationary stop to limit the rotary movement of the actuating shaft (60). 6.) Rotary knob according to claim 4 or 5, characterized in that that the locking member (104) is designed in the form of a nose engaging the front panel ™ (110) of the device. 7.) Rotary knob according to one or more of claims 1 to 6, characterized in that in the cavity (27) of the rotary knob (10) at least one motion-locked with the rotary knob connected stop ring (180, 190) that can be rotated by a certain angular division with respect to the rotary knob is inserted. 8.) Rotary knob according to claim J _1, characterized in that the stop ring (180, 190) engages with segment-shaped lugs (181, 191) arranged on its outer circumference in correspondingly adapted recesses (25) on the inside of the rotary knob (10) and has a radially inwardly extending stop lug (182, 192) on its inner circumference, which interacts with a stationary stop (104) in the sense of limiting the rotational movement of the actuating shaft (60) 009849/1 133 H.E.J. Kroll-H.D. Ziegler 9-2 --3 ~ - 9.) Rotary knob according to claim 7 or 8, characterized in that that two stop rings ('180, 190) connected in a motion-locking manner to the rotary knob (10) are provided, the Stop lugs (182/192) by the number of the desired Rotation positions include certain angles with each other. 10,) rotary knob according to claim 2 and one of claims 7 to 9> characterized in that the stop ring (s) (180, 190) by the inside of the rotary knob (10) arranged Circlip (120) is set axially to the shaft (60) (are). - ■ ·· ■■ 11.) Rotary knob according to one of claims 7 to 10, characterized in that that the rotary knob (10) has a removable part (30) on its side facing the device (110) an inwardly projecting annular projection (34) for formation a counter-bearing for the Arischlagring (s) (180, 190) arranged inside the rotary knob, 12.) Rotary knob according to claim 11, characterized in that the detachable rotary knob part (30) an integrally formed display device (32) for indicating the respective rotary position "of the" rotary knob (10). 13.) Rotary knob according to claim 11 or 12, characterized in that that the removable rotary knob part (30) by means of a snap connection is attached to the other knob part (20). 009849/113 H.E.J.Kroll-H.D.Ziegler 9-2 - «* - 14.) Rotary knob according to claim 12 or 13, characterized in that the removable rotary knob part (30) on its inside with a circular groove (31) and the other rotary knob part (20) on its facing the removable rotary knob part The outside is provided with a circular cam (21) that fits into the circular groove and runs along its circumference has slots (22) arranged in an angular division corresponding to the latching positions, into which one on the inner Can engage the circumference of the removable rotary knob part, radially inwardly pointing nose (33). 15.) Rotary knob according to one or more of claims 1 to 14-, characterized in that the holding members (130, 140) of the latching position guiding the holding body (150) in the form a ring surrounding the actuating shaft (60) is formed which is arranged with on its outer circumference segment-shaped projections (151) in appropriately adapted Recesses (25) engages on the inside of the rotary knob (10). 16.) Rotary knob according to claim 15, characterized in \ that the retaining ring (150) has on its inner circumference means (152) for a motion-locking coupling with the shaft (60). 17.) Rotary knob according to claim 15 or 16, characterized in that the retaining ring (150) with several, in particular with two diametrically opposed, circular openings for incorporating as holding members of the latching position acting balls (130, 140) is provided. 18.) Rotary knob according to claim 17 »characterized in that a Ball thrust washer (160) rests elastically against the balls (130, 140) and these into the locking contour (106) of the terminating socket (100) presses. - 5 009849 / 1Ί33 HEJKroll-HDZiegler 9-2 - * r - 19.) Rotary knob according to claim 18, characterized in that the elastic device of one of the actuating shaft surrounding helical compression spring (170) is formed. 20.) Rotary knob according to claim 19> characterized in that the helical compression spring (170) in an axial direction extending circular groove (26) of the rotary knob (10) is held concentric to the shaft (60). 21.) Rotary knob according to one or more of claims T to-20, characterized in that the rotary knob (10) has a further cavity on its side facing away from the device (110) (23,43), in which means (70, 80, 90) for the fixed connection of the rotary knob to the actuating shaft (60) are arranged. 22.) Rotary knob according to claim 21, characterized in that in the further cavity (23, 43) a collet (70) with a clamping nut (80) provided with a shaft bore (71) is housed essentially form-fitting. 23 ·) Rotary knob according to claim 22, characterized in that the rotary knob (10) has one pointing into the further cavity (23, 43) Has collar (42) for pressing the clamping nut (80) over a washer (90). 24.) Rotary knob according to one or more of claims 1 to 23, characterized in that the rotary knob (10) consists of one inner housing (20) and an outer housing (30, 40, 50) that can be attached to it. 0 0 9 8 4 9/1133 H.E.J. Kroll-H.D. Ziegler 9-2 25.) Rotary knob according to claim 24, characterized in that divide the outer housing (30 »40, 50) from three housings that can be placed on top of one another, namely a housing base (30) with a central feed-through opening (35) for the terminating socket (100), a housing sleeve provided with gripping surfaces (41) (40) and a housing cap (50) that closes it. 26.) Rotary knob according to claim 24 and 25, characterized in that that the housing sleeve (40) and the housing base (30) enclose the inner housing (20) essentially in a form-fitting manner. P 27.) Rotary knob according to claim 23 and one of claims 24 to 26, characterized in that the inner housing (20) is clamped to the outer housing (40) by pressing the washer (90) against the inner housing. 28.) Rotary knob according to one or more of claims 1 to 27 i, characterized in that in the inner housing (20) the entire latching position (106, 130, 140 »150» 160, 170) for holding rotational positions, the stop device (104, 180, 190) for limiting the rotary movement and parts of the device (70) for axially fixing the rotary knob (10) are accommodated. 29?) Rotary knob according to claim 23 and 28, characterized in that the clamping nut (80) and washer (90) are arranged in a cavity (43) of the housing sleeve (40) adjacent to the housing cap (50). Kb / b - May 20, 1969 009849/1133