PL43330B1 - - Google Patents

Description

The invention relates to a clamp for flexible pipes arranged on a joint provided with grooves, in particular for anti-burst pipes. The invention consists in that at least one elastically clamped ring is provided around the circumference of the conduit, which is slipped over the conduit located on the connector and which presses the conduit into the grooves in the connector by means of a sleeve that slides over at least one such ring. as a result of which the ring is radially compressed, and the part of the conductor below it is simultaneously pressed into the grooves, which results in the sealing itself. An embodiment of the subject matter of the invention is schematically shown in the drawing, in which Fig. 1 shows a longitudinal section of the clamp, Fig. 2a - a side view of the ring, Fig. 2b - a part of the ring in a front view, Fig. 3 - a side view of a rectangular section with oblique guide planes, Fig. 4 - a side view of the ring with rectangular cross-section with guiding planes in the shape of a roof, fig. 5 - a ring in a side view, consisting of several wires, fig. 6 - various ring profiles, fig. 7 - longitudinal section of a clamp intended for connecting high pressure conductors, and fig. 8 - longitudinal section of a sleeve provided with internal grooves in the form of sawtooths. In the example of the embodiment according to Fig. 1, a flexible hose 1, e.g. fire protection, is clamped on connector 2. The number 3 is marked with a hooded line, by means of which the cable is connected to, for example, another cable. The nipple is fitted with grooves 4, 5. The rings 6, 7 are slid onto the places where the current lies directly over the grooves. The rings are made so that they can be compressed radially around the entire circumference. Radial forces & 0 inwards press the rings and the parts of the conductor below them into the grooves. A sleeve 8 is provided for pro-rm clamping, which is slid over both rings. In front of us; of the cable over the connector and putting the rings on, slide the sleeves at the end of the cable to the rear, and then the sleeves along the length of the cable over both rings, it is advantageous to have the edges of the sleeves facing inwards, respectively outwardly the edges of the rings were obliquely cut or rounded. A wedging action is then obtained which facilitates the insertion of the sleeve. At least a partial clamp can be pre-cut by hand or with a special tool. When the sleeves are inserted, the parts of the cable under the rings are pressed into the grooves. The cable can be pressed in this way to the bottom of the grooves, thereby obtaining a seal - Attaching the cable to the connector Attaching the cable to the connector is very simple. The sleeve itself ensures that the rings are always tightened with evenly needed pressure and that the cable fits evenly pressed against the connector. In the event of a high load on the cable, the breaking strength is such that experience has shown that the cable will break rather than tear off the connector from the cable. 2a and 2b show an example of the embodiment of a ring that can be elastically compressed around its circumference. This ring is in the form of the well-known cylinder piston sealing ring. The rings have two axially overlapping sliding guide caps 10. In order to press the flexible conductor against the bottom of the groove in the connector, it is necessary that the material from which the cable is connected. done, he was susceptible. In hemp and rubber hoses their flexibility is sufficient. If the cables are made of a more solid material, e.g. plastic, it is advisable to put a flexible layer on the bottom of the connector, e.g. a rubber tape washer. The use of a clamp on hemp cables is especially advantageous. The fabric swells with the passage of water and thus increases the sealing pressure on the joint. In addition, differences in diameter can be compensated. The method of pressing the cable against the grooves ensures a reliable hold of the cable on the connector, even at the highest working pressures. Due to internal overpressure, the hose tends to slide off if the overpressure exceeds the frictional force of the hose at the connector. When such sliding of the conduit occurs, the side ring that is taken up thereby presses the conduit against the opposite side surface of the groove. According to FIG. 1, the conduit becomes jammed in this case as a result of the pressure force Pk, and an additional sealing effect is then carried out. Thus, the sealing pressure increases with the axial operating pressure Pb. The radially acting force Pr, which is applied to the ring, remains constant under the action of the pulled sleeve. When properly implemented, this seal is absolutely reliable, also when the radial compression of the conduit is not particularly great or if the tolerance is not strictly adhered to. This feature is especially advantageous in fire protection cables, as the fitting of couplings, for example at fire sites, can be done simply and quickly. Figures 3 and 4 show further examples of the implementation of rectangular rings using oblique guide planes which also overlap laterally, i.e. in the axial direction. Fig. 5 shows a ring made of one or more wires. The ends of the wire rings overlap laterally, and thus also axially. The rings may also have pressure relief planes, the different profiles of which emphasize Fig. In this case, the sealing makes it possible to obtain a greater pressure distribution on the surface of the hose, thus avoiding crushing of the hose. Fig. 7 shows an example of a clamp designed for cables intended to withstand high pressure. In this embodiment, the sleeve has a thread 12, by means of which the sleeve is screwed with considerable force on the rings or the coupling when using, for example, high-pressure lines provided with a steel jacket. In the embodiment according to Fig. saw-tooth-shaped internal grooves. This prevents the sleeve from slipping. The clamp according to the invention can also be used for a double nipple in which the pipe has grooves on both sides in order to connect one hose on each side. - 2 - PL

Claims (2)

1. Patent claims 1. Clamp for flexible pipes, in particular for fire protection cables, characterized in that it has at least one ring, compressed elastic around the circumference and slides over the cable placed on the connector, which presses it into the groove in the connector by means of a sleeve that slides every at least for one such ring, so that the ring is radially compressed and the portion of the conduit below it is simultaneously pressed tightly into the groove. 2. Clamp according to claim The method of claim 1, characterized in that the rings have axially overlapping guide sockets. 3l Clamp according to claim The method of claim 1, characterized in that the rings have oblique parallel slits. 4. Clamp according to claim A method as claimed in claim 1, characterized in that the rings are made of a wire of one or several wires, the ends of which overlap axially; 5. Clamp according to claim A method according to claim 2, characterized in that the cross-section of the rings is straight. 6. Clamp according to claim A method according to claim 2, characterized in that the rings have at least one convex pressure surface. 7. Clamp according to claim The method of claim 1, characterized in that flexible washers are inserted into the grooves. 8. Clamp according to claim The sleeve of claim 1, wherein the sleeve is threaded and screwed onto the connector. 9. Clamp according to claim The sleeve of claim 1, characterized in that the sleeve has sawtooth grooves on its inner wall. Hans Oetiker Zastepca: engineer Boleslaw Grochowski, patent attorney For the patent description No. 43330 Figt 6? .? Fig. 6 Fig. 8 Fig. 7 Vf 9§4. RSW "Press", Kieke. PL