DE1108013B - Holding device for rod-shaped objects - Google Patents

Description

Holding device for rod-shaped objects For connecting Crossing pipes, round bars and the like are pipe clamps for larger diameters, so-called double sleeves known for smaller diameters. The former are semicircular, hinged flat strips or castings or sheet metal angles facing opposite Sides semicircular curved legs secured by cap screws and nuts are pulled against each other and pinch the tubes or rods between them. the Double sleeves, which are preferably used in chemical laboratories, are mostly castings with two non-isosceles, angled holding arms, each with a holding object encompassed by the long, semi-arcuate angle leg and with an adjustable one Wing screw is pressed and clamped against the inner surfaces of the bracket, whereby the two holding objects form a fixed angle of intersection with one another. Double sleeves with arbitrarily adjustable crossing angle arise when the holding arms from different Castings are formed, which, with a sleeve or pin inserted into one another, a pair form and to the mutual rotation by a arranged in the sleeve, prevented with its end on the lateral surface of the pin pressing fixing screw will.

The principle of pressing the objects to be held against two angular surfaces by a pressure screw is also used in laboratory devices, their rod-like Ends are flattened and bent twice at right angles and encompass a stand rod, to which the last corner of the device end is pressed by a pressure screw. A union of two such ends in one piece results in a rigid one again Clamping device.

The rotatable double sleeves have the disadvantage that the contact pressure the fixing screw only acts on a point-like surface of the pin and only causes a rectilinear contact in a generatrix of the pin and sleeve. The resistance to twisting is therefore low and the angle of intersection of the holding objects is low changes with shock and vibration.

In essence, the same are also tendons, in which the holding article is clamped by the thrust screw in a C-shaped curve and two such tensioning elements are connected by a nipple. The resistance to twisting is again exerted by a fixing screw in each tendon, with the screw end pressing on the threads of the nipple. This creates additional difficulties due to damage to the thread tips. There are also known Klenunvorrichtungen with arbitrarily adjustable crossing angle in which the objects to be held between eccentrically drilled through and lined up on a threaded rod holding disks are clamped by means of locknuts. The inclination of the discs caused by the construction causes bending of the screw spindle and damage to the threads. Since the objects are clamped and the angle of rotation is fixed by one and the same pair of nuts, torques occurring on the objects also cause the clamping members to loosen.

Finally, this subheading also includes two-part, rotatable pipe connectors with saddle-shaped castings connected by a pivot and to the pipe axis eccentric pressure screws. A fixation of the crossing angle of the saddle pieces or the pipes are not given, which is why these pipe connectors are unsuitable for laboratory purposes are.

A transition from the rigid to the changeable position of the trapped Rods brings a connecting piece, with an intermediate piece consisting of a head and tenon, in which a single pressure screw either movably arranged between the rods acts directly or indirectly on the intermediate piece, which further increases the pressure transfers to the rods or tubes to be clamped. Depending on whether the intermediate piece is one or two parts, there is a rigid or limited mobility connection before. The frictional force of the pressure screw again acts on the lateral surface in a punctiform manner of Trunnion and is therefore too small, which is why this outer surface is heart-shaped to provide an additional in the event of unintentional twisting To achieve clamping. This additional clamping is only after twisting achieved in one direction, while an oppositely directed rotation the fixation cancels.

Purpose of the invention is to avoid the disadvantages described by creating an unequal-leg in two, rotatable about a centering angles existing fixture for two clampable in variable able sta7, Y! Örmigge items that holds them in to adjustable to 1800 crossing angle and large , ensures constant resistance to twisting in the selected position after each direction of rotation without damaging parts of the device. If a twist occurs due to a special external influence, it does not result in a loosening of the clamping.

The invention essentially consists in the fact that two known, unequal-leg clamping angles interlock with the short legs, the inner surfaces of the short legs facing each other, and the object encompassed by the long, hook-shaped bent leg of an angle to the outer surface of the short leg of the Angle can be pressed against rotation by special clamping means or by self-resilience while securing the interlocking legs in the same way. According to the invention, between two angles holding the objects, a carrier which is bent twice at right angles can be switched in to increase the object distance. The second angle can also be the end of a laboratory device bent at right angles. The particular nature of the Erflndungsgegenstandes also permits the arrangement of the clamping elements between the short legs or the assumption of the clamping and frictional force by the inherent resilience of a long in angled limb. The holding device according to the invention has the advantage over all known rotatable connections that it is secured against rotation by large friction surfaces with normal clamping forces which are equally effective in every direction without damage to their parts. It also has the advantage over the clamping devices with additional fixing screws that they are no longer necessary, which simplifies and accelerates handling. It can be used for both large and small diameters of the objects to be held. The distance between the axes of the holding objects can be increased as required. It is superior to the cited holding device formed by clamping disks due to the variety of clamping and twisting movements, which prevent unintentional twisting of the clamp parts with one another, canceling out the clamping force and the resistance to twisting.

It is also particularly superior to the rotatable device with two-part spacers, since the crossing angle can be set after the holding objects have been inserted and the anti-twist device is equally effective in every direction; in addition, the first object can be clamped independently of the second. Further features of the invention will be explained in greater detail on the drawing, are shown in the various in Figs. 1 to 6 embodiments.

The basic form is composed of two known, non-isosceles angles 1 and 2 (Fig. 1) which with its long, bent inwards SchenIkeln la and 2a, each one of the include objects to be held and lb with their short legs and 2 b according to the invention interlock in such a way that their inner surfaces face one another; the object encompassed by the hook-shaped, long leg la or 2 a of the angle 1 or 2 is attached to the outer surface of the short leg 2 b or 1 b of the other, in each case with the former co-operating angle 2 or 1 by the pressure screw 4 or 5 pressed on. Both angles 1 and 2 are in a known manner lb and a short leg to the normal 2 b centering pin 3 rotatably. The centering pin could also be replaced by bulging and counter-bulging on the inner surfaces of the short legs. The included angle of 1, first object is pressed by the clamping member, the pressure screw 4, to the inner surface of the angle 1 and the outer surface of the short leg 2b of the angle 2 and clamped; At the same time, the short legs of both angles are pressed against one another by the transmission of the pressure of the pressure screw 4 and prevented from twisting from the selected position by the friction thus generated between the inner surfaces. In laboratories, the first item is usually the fixed stand rod, and the process described attaches the holding device to the stand rod. While the second object is being inserted, its position in relation to the first object can be corrected by slightly reducing the pressure of the screw 4. By tightening the pressure screw 5 , the analogous process is repeated for the second object. In addition, as well as the pressure between the inside surfaces of the short leg 1 b and 2 b, and thus also the frictional resistance against rotation is approximately doubled C. The resistance to twisting caused by this strong frictional force is a multiple of the resistance that can be achieved with the usual fixing screws and can also be increased by the special surface design of the short angle legs. A change in the angle of intersection of the objects caused by special external influences has no influence on the magnitude of the clamping force and the frictional resistance.

Fig. 2 shows a further embodiment according to the invention, which is particularly suitable for pressure-sensitive objects, e.g. B. glassware is suitable. At angle 1 the threaded hole is replaced by a smooth hole; a threadless pressure bolt 7 guided in the smooth bore and which can be pressed against the encompassed object by a helical spring 6 is provided as a new pressure element. The angle 2 corresponds to the basic shape and is expediently used to attach the device to the stand rod.

A further embodiment of the inventive concept is shown in FIG. 3. Here, an essential advantage of the invention is that a bow-shaped carrier 8 is connected between the Klenun angles 1 and 9 to increase the distance between the objects. The ends 8 a and 8 b bent at right angles take over the function of the short angle legs.

The left half of the holding device according to FIG. 3 shows a further modification of the subject matter of the invention. The longer leg 9 a of the second bracket 9 is resilient. By virtue of its spring force, this angle 9 assumes the function of the clamping element without the interposition of a pressure screw or a pressure bolt. The right angle with the short angle leg 9 b can be rigid and and with the long, resilient angle leg 9a z. B. be connected by spot welding. It is more practical to use in conjunction with a normal bracket and is only associated with the carrier for technical reasons.

As general purpose of the subject invention is, FIG 4. While the clamping member in the previously set-chain embodiments -. Screw, sealing bolts, resilient angled limb - acts so to speak, from the outside, the clamping member can be 10 and 11 also arranged between the short angle legs. (The arrangement of the simple display is redrawn in connection with the support 8 sake, but these clamping members may also be the only one clamping member between two retaining angles!) In the center hole of the right end of the carrier 8 a is formed at one end as a threaded spindle with adjusting ring 14 Centering pin 10 mounted; the possibly resilient angle leg 12a rests directly on the enclosed object, the centering hole of the short angle leg 12b is provided with a thread into which the spindle thread of the centering pin 10 engages. By turning the rimmed or provided with insertion holes adjusting ring 14, the angle 12 is pulled in the direction of the short support leg 8 a and clamps the encompassed object.

A compression spring 11 concentrically enclosing the elongated centering pin can also be used as such an inner clamping member (FIG. 4 left). In this case, the centering pin 3 is screwed into the short end of the beam 8 b.

Finally, FIG. 5 shows that, in the case of the types with an external clamping element, the resistance to rotation can be increased by increasing the friction between the abutting inner surfaces of the short angled legs by means of a radially toothed friction ring 15 .

The twist resistance can according to Fig. 6 between the coaxial jacket surfaces of a centering pin designed as a double cone 16 and the bore 17 or 18 of the short angle legs are placed, wherein a press fit between the centering pin 20 and the brackets is achieved by the action of the clamping members.

The individual elements of the holding device according to the invention are simple and inexpensive to manufacture from rolled material. This can be adapted to the respective requirements. Aluminum and plastic can be selected as well as mild steel and stainless steel. The overall length is already shorter compared to the simple double socket and even more so compared to the conventional rotatable double socket; it is particularly short in the case of devices with an internal clamping element. The large number of possible designs also allows adaptation to the fastening task. The holding device can be used both in laboratories and in installation technology and when building pipe scaffolding or the like.

Claims (2)

PATENT CLAIMS: 1. Holding device for two rod-shaped objects that can be clamped in a variable position, consisting of two unequal-sided angles that encompass the objects in a clamping manner, at one end hook-shaped angles that can be rotated around a centering pin, and clamping means, characterized in that the angle ( 1, 2, 9, 12, 13) with their short legs (1 b, 2 b, 9 b, 12 b, 13 b) directly or indirectly via an intermediate carrier (8) with short legs (8 a, 8 b ) interlock, with the respective short legs (lb, 2b, 8a, 8b, 9b, 12b, 13b) facing each other with their inner surfaces, and the long legs (la, 2a, 9a, 12a, 13o) bent from the hook-shaped, angled (1,2,9,12,13) comprised the object on the outer surface of the short leg (lb, 2b, 8 a, 8 b, 9 b, 12 b, 13 b) of the other angle or the Bow-shaped support by special clamping means (4, 5, 7, 10, 11) or by natural springing under g easy securing of the interlocking legs can be pressed against rotation (Fig. 1 to 4). 2. A holding device according to claim 1, characterized in that as clamping element there is provided in a bore of the long angle leg (la) overall convicted, pressable by a spring (6) against the encompassed object-threaded pressure bolt (7) (Fig. 2 ). 3. Holding device according to claim 1, characterized in that the long angle leg (9a) is resilient and thereby acts itself as a clamping member (Fig. 3). 4. Holding device according to claim 1, characterized in that the possibly resilient, long angle leg (12 a) rests directly and without the interposition of a pressure screw or a pressure bolt on the encompassed object and as a clamping member between the short angle legs - or between a short angle leg ( 12 b) and a support end (8 a) - arranged centering pin (10) designed at least at one end as a screw spindle with adjusting ring (14) is provided (Fig. 4). 5. Holding device according to claim 1, characterized in that as a clamping member between the short angle legs - or between a short angle leg (13 b) and a support end (8 b) - arranged, the centering pin (3) concentrically enclosing compression spring (11) serves (Fig. 4). 6. Holding device according to one of claims 1 to 3, characterized in that to increase the frictional force between the short angle legs (1 b and 2 b) - or a short angle leg and a trigger end - a known friction ring (15) is arranged (Fig. 5). 7. Holding device according to one of claims 1 to 3, characterized in that the centering pin (16) is designed as a double cone, the outer surfaces of which with the hole walls of the coaxial bores (17, 18) of the short angle legs (1 b, 2 b) or the carrier ends can be pressed by the clamping members to secure against rotation (Fig. 6). Documents considered: Austrian Patent No. 170 440; British Patent Nos. 600 43 1, 630 409; USA. Patent Nos. 1,486,158, 2,088,890, 2,638,301th