DE1014428B - Tripod head for film cameras with swivel device - Google Patents

Description

Tripod head for film cameras with swivel device The invention relates to a tripod head for film Aufaufnahmekarneras with swivel device with each one of the vertical and horizontal movement level of the camera table assigned, over one each Gear set driven and optionally disengageable able flywheel. Pivoting devices for cameras that are in deal Tripod heads are built especially for Film recordings used; with these is the camera attached to a table that serves as a support, which can be swiveled in the vertical plane and in horizontal valley level rotatable in the. Device is stored. The swivel device consists of the usual wise from a housing part, for example, a about half-round shape and on which the stand supports. are articulated and in the one that Housing, bottom plate closing at the top, horizontally is used quite rotatable. This base plate carries bearing arms extending vertically upwards which the camera mount, mounting plate or camera table through downward protruding arms in tical level is pivotally mounted. Since the film camera has a considerable weight, it is especially for seamless, successive the following round shots - in a horizontal plane, so-called panorama images, but also for rectified recordings in a vertical plane of particular importance that twisting or Pivoting the camera in the tripod head completely occurs smoothly, as experience has shown that some what irregularities in the movement in the Reproduction of the recordings is extremely disadvantageous make noticeable. To make such jerk-free or shock-free movements achieve., are within the housing of the direction two each the boi, the direction of movement Inertia masses assigned to the camera table provided that in the housing - as frictional as possible stored free i and via a template with high over- are driven. The drive. takes place there depending on the movements, the camera table. With the horizontal rotation of the basic plate of the device, this is done by rolling a drive pinion of the within a housing of the device protruding, cylindrical Housing extension of the base plate and arranged stored drive countershaft also in the Base plate housing mounted flywheel one on the bottom of the device housing non-rotatably anchored spur gear. From the tilting movements of the camera table becomes the driving torque for these movements zugeo -rÜnete, also in the housing continuation, tz the Flywheel mounted on the base plate in the previously known devices of this type from a = within. the fork support of the camera table ordered., with because the camera table with panned Bevel gear segment derived and via an in bevel gear engaging this segment into the forward drive of the flywheel. Through this training. the swivel device it is achieved that the movements of the camera table_ the respectively assigned centrifugal masses given high kinetic energy to counterbalance the camera weight acts and after initiating a for the desired angular velocity of the Ka, merabisch.es required moment by the respective flywheel: 'the camera table completely is moved evenly without jerking, whereby for constant angular velocity after conduction of the flywheel accelerating Starting moment at that for this on the camera table attached swivel lever only so @ a lot of power must be expended, i.e. no delay in the Movement occurs. Rapid speed changes in the Rotating and swiveling movements of the device are but not possible because-every such speed- change in workload only with a certain delay can be brought about, 'because the flywheels with their drive as a result of the Inertia of such speed changes Oppose resistance and the concerned Centrifugal mass only up to: the desired change in behavior must be accelerated, which is natural requires a certain transition period. Swivel devices of this type designed in this way so only correspond to the = one. Purpose of use, for which they are intended, namely, for Panoramic recordings are largely jerk-free Bring about movement of the recording camera. It has now been proposed to design the swivel devices for film cameras so that they can be used for all kinds of recordings, in that the drive of each of the two centrifugal masses serving for the horizontal and vertical movement of the camera table can be switched on and off as desired is. The two centrifugal masses are each to be driven by a gear mesh with a high gear ratio in order to give them a high speed. through perseverance. of these masses. to bring about a uniform and jolt-free movement of the hand-operated camera table. Switching on and off. takes place by means of a friction wheel drive that can be engaged and disengaged.

If in this way: one or the other centrifugal mass is switched off, so that it is not driven with the table movement concerned and at the manual operation of the device is therefore not a slow, completely uniform one Movement is forced, the respective assigned additional gearbox runs anyway with. The real purpose that can be achieved by switching off the flywheel should, namely a resistance-free and rapid turning and / or Schnvenken the camera, however, is not or only imperfectly by such a device Way, because the respective gear reduction gear with its high sequence, contradicts itself still has to run along. However, as practice has shown, this is necessary precise setting of a camera, which is also used for single shots, especially for objects moving very quickly, must be done quickly, very disadvantageous. A Another disadvantage of the flywheel drive, by means of rotating wheels, is the danger of the sliding, which occurs especially when the manual operation of the device for some reason a great force is applied or when the springs that are provided for the necessary frictional engagement, signs of fatigue over time. that can hardly be avoided. By the mentioned sliding or slipping the friction wheel drive and the resulting consequences can be a film - strip, which was manufactured with great expenditure of time and money, can be completely worthless.

The device according to the invention does not have these disadvantages, since with her the flywheels that switch off: clutches in the power flow between the Swivel table and the gear sets are arranged.

Through this arrangement, both the gear transmission as also switch off the flywheel mass connected to it and put it in the rest position bring. The tripod head can be swiveled quickly and easily because it is in this condition does not have to overcome any resistance caused by the gearbox.

In a further embodiment of the invention, one is preferably torsionally stiff Connection with the flywheel back gear standing sleeve is provided which the drive shaft for the flywheel.envorgeil.ege surrounds, with radial holes in the sleeve displaceably mounted balls are arranged as coupling members between serve the sleeve and the shaft.

Over this sleeve, in which the balls are mounted, is a coupling ring postponed, which is set under spring tension in the sense of coupling. the cylindrical bore of the ring holds thanks to the action of the spring loading it the balls in engagement with the drive shaft, in which this in on the circumference the drive shaft provided longitudinal driving grooves rest. The coupling ring has a double-T-shaped cross-section and is by means of an in its outer ring groove engaging shift fork against .the pressure of him in one sliding direction loading spring axially displaceable.

When moving the coupling ring against the spring pressure in accordance with the storage of the balls used for coupling in the the sleeve surrounding the drive shaft provided bores reaching cross-sectional zone of the ring is preferably .ein the contour lines of the balls adapted recess larger diameter than the blind hole of the coupling ring provided in the the balls can dodge, creating the coupling between the sleeve and the drive shaft is resolved.

In, another advantageous, specifically for the intended For a particularly suitable modification, this coupling can be designed in such a way that that the switching ring has a recess in its serving to disengage the clutch pass over: the cylindrical recess with a larger diameter than its blind hole has, which runs out into the blind hole with inclined surfaces against which the slightly larger selected balls with their protruding beyond the outer circumference of the sleeve Support the surfaces in the engaged position of the clutch. Will the annular External rotation of the switching ring is now wider than the width of the in this rotation corresponds to engaging arms of the shift forks, so it is a Securing this flywheel drive created against overload; because at introduction excessive torque in the device, which may cause damage of the flywheel drive, stands out in this form of training the clutch against. the pressure of the engagement spring automatically releases and moves in the same way automatically reacts under the action of the engagement spring when the overload is over.

It does this because of the inclined contact surfaces of the balls is the resultant due to the excessive torque on the drive shaft forces exerted on the balls raise the switching ring against the spring pressure causes the balls to move into the disengaged position. Again outweighs the strength the spring acting on the clutch ring in the direction of engagement, the ring is restored in. Engaging position moved, and it get through the balls. back into theirs Latched position within the longitudinal grooves of the drive shaft @ at the same time However, this also means a completely backlash-free coupling, as each and every one of them may occur Game is made automatically by the spring, which in the present case of is of particular importance, as otherwise the would be bought through considerable structural effort jerk-free rotary movement of the device by a. such play in the drive again would be nullified to a certain extent.

For optional actuation of the clutch is provided according to the invention, that the shift fork used to move the coupling ring is preferably on a threaded sleeve, which is guided by means of a coarse thread on control shafts, in turn with the help of a base plate that can be rotated in the horizontal plane the device can be driven axially displaceably mounted rack.

It is made possible in this way that by simple longitudinal displacement the one stored in the base plate Rack what with the help of a Schi °: betas.te: rs can take place, optionally the drive of the flywheel in question can be switched on and off quickly and easily. Since the camera swivel device Two centrifugal masses with countershaft drive assigned to the individual motion bones are preferred in the base of the device according to the invention two racks provided with sliding buttons provided and stored.

A camera panning device is created by the design according to the invention designed to be used on all sides, as they can be switched off by switching off the associated Flywheel drive also for single shots that require rapid turning or Panning is required, can be used and the conversion from one to other type of recording is quick and easy, so that even during panoramic recordings can be switched over to single recordings instantly and in the meantime, and vice versa.

In. The drawing shows the subject of the invention, for example: namely, Fig. 1 shows a vertical section through the designed as a tripod head Pivoting device for the camera table with the coupling according to the invention for your Flywheel drive associated with the horizontal rotary movement of the device Flywheel and its drive, Fi.g. 2 a vertical section through this device, placed through the fork bearing of the camera table, with the drive of the associated Flywheel for the pivoting movements of the table in the vertical plane, Fig. 3 a Top view of the horizontal rotatable base plate of the device with the in it mounted rack with slide switch for actuating the clutches, Fig. 4 shows a vertical section through the base plate of the device, in which the in of these mounted racks and @ di.a of these actuated shift shafts and shift forks. for moving the coupling rings of the couplings can be seen, and FIG. 5 shows a the couplings according to the invention on an enlarged scale in longitudinal section in the the form of training serving overload protection.

The camera table 1 is by means of the arms extending downward 2 and 3 on upright support arms 4 and 5 on the base plate 6 of the device pivoted in the vertical plane. The base plate 6 has one. you are downwardly extending cylindrical housing extension 7. The base plate 6 is in the preferably hemispherical housing 8 of the pivoting device by means a rotary ball bearing 9 horizontally easily rotatably mounted, the cylindrical Housing, extension 7 in the base plate into the Vorrichtun.g-sgah.äuse 8 protrudes. Inside the housing extension. 7 of the base plate 6 is that of the horizontal rotary movement The flywheel 9 'associated with the base plate 6 is as frictionless as possible in ball bearings stored (Fig. 1).

Also within this Gchäusefortsatzes 7 is also the. drive the flywheel 9 'serving Vorgeleige arranged high translation. This exists from .the spur gears 10, 11, 12, 13 and 14, with the direct -the flywheel 9 'driving gear, which meshes with the tooth raid 14, is not visible, since its Axis in a plane behind the section: level. The drive shaft 15 shows at its lower end that the drive pinion: zel16 for the flywheel countershaft on. This tickle 16 meshes with the spur gear which is stationary in the device housing 8 17th

If the base plate 6 is rotated in the housing 8, it is learned through the rolling of the tickle 16 on the gear 17 via the back gear 10, 11, 12, 13, 14 and a. Invisible further drive wheel the flywheel 9 'a drive at high speed, which gives the flywheel 9 'a high kinetic energy, which, after the initiation of the initial torque, is attached to the camera table Schweil.kheb ° I, which is not shown, a rock-free rotation of the camera table is brought about.

According to the invention, a sleeve 18 is pushed onto the drive shaft 15, that surrounds this wave. This sleeve 18 is in torsionally rigid connection with the Drive gear for the flywheel 9 ', d. H. with: the gear wheel 10. In the sleeve 18 radial bores 19 are provided in which balls 20 are radially displaceable store, which act as coupling members between the sleeve 18 and the drive shaft 15 to serve. Over the sleeve 18 is a coupling ring 21 with a double-T-shaped cross-section pushed, which is under the action of the spring 22, which the switching ring in his in the execution, for example lower end position presses. In this position of the ring the clutch is pressed in, as in this the balls 20 from the cylindrical bore of the ring 21 are held in their locked position in which they are in longitudinal grooves in the drive shaft 15. The coupling ring 21 has a diameter formed larger than the blind hole, the contour lines of the balls 20 adapted Turning 23 into which, when lifting, the switching ring 21 against the pressure of the spring de balls 20 can evade, causing them to disengage from the longitudinal grooves in the shaft 15 come and the Schwungmass.enantrieib is disengaged.

The clutch is lifted out by means of a shift fork 24 (Fig. 4), which is attached to a switching sleeve 25, which is guided in the steep thread of a switching shaft 26 is, sits. The rotatably mounted selector shaft 26 carries a at its upper end Gear 27, which can be rotated by shifting a rack 28 horizontally can.

In this way, the shift fork 24 is raised and with her the Switching ring 21, whereby the clutch is disengaged. The racks 28 are in the base plate, 6 of the device axially versc.hiiehlich and supported by sliding buttons 29 to operate (Fig. 3). The drive of the pivoting movement of the camera table 1 in the vertical plane associated flywheel, takes place by the pivoting movement of the camera table in this direction via a Kegelza @ hnraidseg .m, ent 31, which is torsionally rigid is connected to the support arm 2 of the camera table 1 and therefore with this is twisted. In this tooth segment engages a bevel gear 32 via which the Rotary movement on the drive shaft 33 for da.s spur gear transmission of the flywheel 30 "is forwarded. Otherwise the flywheel drive corresponds to the flywheel 30 that of the flywheel 9 ', that of the horizontal rotary movement of the base plate 6 and is assigned to the camera table 1, and therefore does not require any further, detailed description.

The inventive coupling of the pivoting device can after Invention can still be designed in such a way that they act as overload protection for the Flywheel countershaft works (see Fig. 5, in which the same for a better understanding Part descriptions are chosen as in. Fi.g. 1).

In this modification according to the invention, the clutch has Coupling ring 21 has a larger diameter cylindrical bore 34, which in the extension 23 serving to disengage the clutch passes over. This enlarged cylindrical bore 34 itself runs with inclined surfaces 35 in the basic bore of the Coupling ring 21 from. Those chosen in this case to be slightly larger in diameter Switching balls 20: those in the coupled position in the longitudinal grooves 36 of the shaft 15 are locked, are in this case with their over the Urifang of the sleeve 18 protruding peripheral surfaces on the inclined surface 35 of the coupling ring 18 at.

Claims (5)

PATENT CLAIMS: 1. Tripod head for film recording cameras with swivel device, each with one of the vertical and. The flywheel mass, which is assigned to the horizontal plane of movement of the camera table, is driven by a gear set and can optionally be switched off, characterized in that the clutches which switch off the swing masses are arranged in the power flow between the swivel table and the gear sets. 2. Apparatus according to claim 1, characterized in that the Drive shafts (15) of the flywheels (9 ', 30) from a torsionally rigid connection with .den flywheel back gear (10, 11, 12, 13, 14) standing sleeve (18) with as Coupling members between the sleeve (18) and the shaft (15) serving in radial Bores (19) of the sleeve (18) are surrounded by displaceably mounted balls (20), from the cylindrical bore (34) one axially on the sleeve (18) by means of a Shift fork (24) displaceable in the sense of coupling under spring tension Switching ring (21) double-T-shaped cross-section, which is in a different cross-sectional zone with a recess (23) adapted in cross section to the contours of the balls (20) larger diameter than the bore of the switching ring (21) is provided in the the balls (20) can evade when moving the switching ring, in the engaged position with longitudinally extending driving grooves provided on the circumference of the drive shaft (15) (36) are kept. 3. Device according to claims 1 and 2; characterized, that the switching ring (21) in its your disengagement of the balls (20) serving recess (23) passing cylindrical recess (34) of larger diameter than its blind hole possesses, which runs out into its blind hole with inclined surfaces (35) against which, the balls (20) with their circumferential surfaces projecting beyond the outer circumference of the sleeve (18) Support in the engaged position. 4. Device according to claims 1 to 3, thereby gelzennzoichnet that the intended for actuating the switching rings (21) Shift forks (24) sit on threaded sleeves (25) which are mounted on shift shafts by means of coarse threads (26) are performed, which in turn can be rotated in the horizontal plane with the help of Base plate (6) of the swivel device axially displaceably mounted racks (28) can be driven. 5. Device according to claims 1 to 4, characterized in that the guide grooves for the shift forks (24) on the shift rings are held wider than the shift forks (24). Documents considered: French Patent No. 703,349; U.S. Patent No. 1977 154.