DE928979C - Extension tube, especially for tripods - Google Patents

Description

Extension tube, especially for tripods The invention relates to a particular for tripods, such. B. photographic tripods or cinema tripods, certain extension tube with at least three telescoping links, one of which the middle one in the upper one by means of a clamping device to be closed by the pressure of the ground it can be determined @the one control body that can be displaced in the direction of the pipe axis for clamping bodies which can be pressed against the wall of the upper member, while the lower link in the middle through a transverse to the tube axis movable into a hole the wall of the middle member engaging locking member can be determined that at the same time for coupling a push rod carrying the control member of the clamping device serves with a part that absorbs the ground pressure.

In an already known extension tube of this type, there is the lower one Link made up of two tubes arranged one inside the other, the outer one in the middle Member of the extension tube is sucked out, while the inner one in the outer tube Easily displaceable by an amount suitable for closing and releasing the clamping device sits. The inner tube of the lower link also contains the coupling element serving locking member and carries at the lower end of the foot to be placed on the floors of the extension tube. The control body of the clamping device is under the action of a shifting it in the sense of pressing the clamping body against the wall of the upper link Spring which is dimensioned so that the clamping bodies usually lie against the pipe wall be held without, however, a clamping effect occurs.

This is what distinguishes the object from. This well-known pull-out tube of the invention forming extension tube essentially in that its lower element consists of a single tube in the middle section, the head of which is that at the same time contains serving as a coupling element locking member, while its lower end the The base of the extension tube. The only tube of the lower link is in the middle Link guided with a sliding seat that prevents the lower link from sliding out unintentionally prevented, and the limited displaceable control body of the clamping device is in the sense of relieving the clamping body under the pressure of a spring that is suitable is to overcome the friction of the lower limb in the middle.

The subject of the invention stands out against, over the known similar extension tube is initially characterized by greater simplicity, because the additional, limited displaceable inner tube of the lower link is saved. Farther there is the advantage that all members of the extension tube are guided into one another so that they close tightly can be so that the tube in the extended, stiff and a solid State of the tripod formed from extension tubes according to the invention is achieved. In the case of the known pull-out tube of the same type, there is therefore such a fixed stand cannot be achieved because the inner tube consists of two tubes arranged one inside the other existing lower member in the outer tube must be easily displaceable, whereby Very often there is lateral mobility of the foot carried by the inner tube compared to the entire extension tube.

In the drawing .is the invention shown in one embodiment. 1 shows an extended tripod leg on a reduced scale in a side view. with parts of the links to save space. have broken away.

Fig. 2 the extended tripod leg in approximately natural size in longitudinal section, also parts of the links are broken away, Fig. 3 is a cross-section along the line A-A in Fig. 2, Fig. 4 shows a cross section along the line B-B in Fig. 2., Fig. 5 is a repetition of the central part of FIG. 2 in a position of Parts when pushing the tripod leg together.

The tripod leg shown consists of three telescoping members, or tubes i, 2 and 3. A cylindrical plug 4 is screwed into the upper end of the central tube 2 and is guided in the top tube i. To achieve a closing guide and a static friction that prevents unwanted displacement of the central tube in the top tube; are in the annular grooves of the plug 4 two; acting in the manner of piston rings, resilient rings 5 arranged with a flat cross-section. The central tube receives further guidance in that the lower edge 6 of the top tube i is bent inward and encloses the central tube 2 without play. The stopper 4 has a cylindrical cavity 7 in which a conical control body 8 is arranged so as to be axially displaceable. This cone sits at the upper end of a rod 9, which is guided down through a hole in the bottom -o of the plug 4 - and ends at some distance from the lower end of the central tube: 2. The wall of the hollow plug 4 contains three radial bores ii, in which three rolling elements i2 lead. In the example, these rolling elements are balls, but they could also essentially be barrel-shaped rollers. The balls r2 are designed to clamp the center tube .2. In the top tube i in any position. For this purpose, they are pressed against the wall of the top tube by the control cone 8 when the rod 9 carrying the cone is pushed upwards. directional pressure is applied. As long as this pressure is absent, the control cone 8 is shifted slightly downwards by a spring 13, with the result that the balls are depressurized and therefore the center tube: 2 in the top tube i can be moved by hand. The spring 13, designed as a helical compression spring, is connected between the upper end of the control cone 8 and the cover 14 of the hollow plug 4, where it is guided in a bore of the latter and on a pin-shaped extension of the control cone. It is advisable to connect a second, weaker compression spring 15 between the cone 8 and the bottom -o of the plug 4, which counteracts the upper spring 13. This makes it possible to move the control cone 8 in the sense of disengaging the from. the balls i2 formed clamping device to arrange a particularly strong and therefore durable spring with numerous turns. In addition, effected by the release spring 13 of the shift control cone 8 is limited .elastisch by the additional spring.

A plug 16 is also screwed into the upper end of the down tube 3. This is guided in the central tube 2 and contains, in an annular groove, a spring ring 17 which acts in the manner of a piston ring and which effects a closing guide. In addition, the down tube is guided by the inwardly curved lower edge 27 of the central tube. A stopper 18 is screwed into the lower end of the down tube, which is designed as a foot and has an insert made of soft rubber or a similar material with high static friction on its standing surface. The upper plug 16 of the down tube 3 contains a transverse channel 2o which is open at one end and in which a small slide 21 is guided. This is under the action of a compression spring 22, which it outwards. looking to move. The slide 2i initially serves as a locking element to fix the extended down tube in the central tube. For this purpose, he asked for a pin-shaped projection 23 at its outer end which, when the down tube 3 is extended, engages in a hole 24 in the wall of the central tube 2 (FIG. 2). If the tubes of the tripod leg are not secured against rotation, several, z. B. three holes 24 offset by i2o ° are provided so that the locking pin 23 can snap into one of the holes in several different rotational positions of the tube 3, and in those cases where the pin does not immediately face a hole 24 when the down tube is extended, only a small one Partial rotation of the down tube is necessary to adjust it to an engagement hole. The holes 24 are formed into elongated holes which extend in the axial direction of the tripod leg so that the down tube 3 can still be displaced by a small amount after the locking pin 23 has engaged in one of the holes.

The gate valve 21 also serves as a coupling member between the Down tube 3 and the rod g carrying the control cone 8. The plug 16 contains a central bore located partly above and partly below the slide 21 25 for engagement or passage of the rod g. Furthermore, the slide 21 is with a the rod through hole 26 is provided. This is in the locked position Slider offset from the plug hole 25, so that the rear end of the slide : 2i closes this hole (Fig. 2). The one with the down tube extended and locked 3 in the upper part of the bore 25 of the plug 16 engaging rod g is supported then with its lower end on the slide 21, making it with the down tube is coupled such that a pressure exerted on the latter upward through the Slide 21 is transferred to the rod g. This then has the consequence that the control cone 8 presses the balls 12 against the top tube i, causing the center tube 2 in the top tube is clamped. The upward pressure on the down tube 3 results when placing the tripod leg on the floor from the weight of the tripod and, of the apparatus carried by it. So will the tripod leg after moving it by of the central tube 2 in the top tube i is set to the desired length, to the The bottom tube is then automatically locked in the top tube a.

If the ground pressure ceases as a result of lifting the tripod leg, then will the clamping effect is canceled again in that the spring 13 with the control cone 8 the rod g moves down a little. The down tube must be at this shift 3 participate. To make this possible, the plug 16 of the down tube is in the center tube 2 a lower friction than the plug 4. of the center tube in the top tube i, and Although the friction is chosen so that it can be overcome by the spring 13. For this reason, the plug 16 of the down tube 3 also carries only one spring ring 17. Since the tripod leg points downwards with its foot when in use, the spring becomes 13 usually due to the weight of the cone 8, rod g and down tube 3 including stopper 16 and foot 18 supported.

When the locking slide 21 is moved into its inner end position for the purpose of pushing the tripod leg together (Fig. 5), which may happen automatically when the central tube 2 is pushed into the top tube i through the lower edge 6 of the latter, the bore 26 of the slide opens the axial bore 25 of the plug 16 leading to the lower end of the rod is set so that the rod g can pass through the slide bore 26. The coupling between rod 9 and down tube 3 is thus canceled, and the latter can be pushed into the central tube 2, the rod g entering the lower tube 3 with the greater part of its length.

Although the friction between the down tube 3 and the middle tube 2 is sufficient to prevent the down tube from automatically sliding out of the middle tube due to its own weight when the tripod leg is pointing downwards, it is advisable to provide a locking device to prevent the lower tube being pushed in Tube 3 holds in the middle tube 2. This locking device is also intended to prevent the down tube from sliding out if you perform a pushing movement with the collapsed tripod or swivel it around, so that either the mass acceleration or the centrifugal force acts on the down tube to push it out. According to FIG. 2, the inhibiting device can easily consist of a ball 28 or a pin with a spherical or conical head, which sits in a transverse bore 29 of the plug 18 forming the base and partially emerges through a hole in the lower end of the tube 3. The ball 28 is advanced by a compression spring 30 provided behind it in the bore 29, which movement is limited by the stop of the ball against the edge of the hole in the tube 3. When the down tube is pushed in, the ball 28 engages behind the inwardly curved edge 27 of the central tube 2. Together with this it forms a kind of snap lock that is automatically released when the down tube is intentionally pulled out by the pressure of the tube edge 27 on the spherical surface.

It should also be mentioned: that the complete extraction of the pipes 2 and 3 from the surrounding tubes through near the lower ends of the tubes i and 2 provided, inwardly projecting beads 31 and 32 is prevented which the plugs .a. and hit 16.

Of course, the invention is not limited to what is shown Example, on the contrary, many changes and other designs are possible. So it could. Tripod leg or extension tube, possibly more than three links have e.g. B. could be attached to the top tube i of the tripod leg shown Connect the fourth pipe on this pipe, which is in the extended state can be locked against the top tube by a known locking pin. The the Klemmv orriTion 8, 12 containing head. of the central tube 2 and the locking and coupling member 21, 23 containing the head of the down tube 3 need not necessarily, e in the Pipes screwed in plugs, like q. and 16, to be, rather they can also from the expanded sleeve-like and, if necessary, reinforced with inserted rings and head ends of the tubes 2 and 3 closed with sheet metal walls are formed. In addition to tripods for photographic apparatus, the invention also applies to tripods for measuring devices as well as for other devices with pull-out tubes or pull-out and collapsible legs applicable.

Claims (3)

PATENT CLAIMS: i. Extracting tube, especially for tripods, with at least three nested links, of which the middle one can be locked in the upper part by means of a clamping device which is to be closed by the ground pressure and which has a control body, which can be moved in the direction of the tube axis, for the clamping body to be pressed against the wall of the upper link, while the lower member in the middle can be locked by a locking member which is displaceable transversely to the pipe axis and which also serves to couple a push rod carrying the control member of the clamping device to a part which absorbs the pressure on the ground, characterized in that its lower member (3) consists of a single, in the middle Member (2) is displaceably guided tube, in whose head (i6) the locking member (2i, 23), which also serves as a coupling element, is guided, while its lower end carries a foot (i8, i9). 2. Extracting tube according to claim i, characterized in that the only tube of the lower link (3) in the middle link (2) with one of its unwanted displacement preventing sliding fit is guided and the control body (8) of the clamping device (8, 1.2) in the sense of relieving the clamping body (I2) under the pressure of a to Overcoming the friction of the lower link (3) in the middle link (2), suitable Spring (i3) stands. 3. Extension tube according to claim i, characterized in that the the. Control body (8) in the sense of relieving the clamping body (i2) shifting Compression spring (i3) is counteracted by a weaker compression spring (i5).