RU207143U1 - Crimping device - Google Patents

Abstract

The utility model is intended for fastening fittings at the ends of high pressure hoses (HPH) by means of radial compression. In the cylindrical cavity of the body, two annular wedges are installed, facing each other with the narrow ends of the wedges. One is fixed motionless, the other - with the possibility of axial movement under the action of the drive pusher. Between the clips, crimping cams with double-sided bevels are located along the circumference, by means of which they are mated with the wedges. When moving the movable cage towards the fixed one due to the bevels on the cams and wedges, the fitting is forcefully compressed at the end of the hose placed in the center. A feature of the utility model is that the mating surfaces of the cams and wedges are made flat. Due to this, the contact stresses are distributed over the plane, which provides increased wear resistance.

Description

The utility model relates to equipment for the manufacture of high pressure hoses (HPH), specifically for fixing fittings at the ends of hoses by radial compression.

A device for assembling a permanent connection of a high pressure hose is known, containing a crimp with an inner cone, cams with an outer conical surface, mated with a crimp cone, and a pusher coupled with the ends of the cams (RU 2153124 C2, 1998).

The closest to the useful model is a device for crimping couplings at the ends of sleeves, which contains pressure (movable) and fixed (support) annular clips installed in the body, each of which consists of separate segments (wedges), together forming a cone with an inner conical surface. The pressure and support clips face each other with large cone bases. Between the wedge holders there are crimping cams with tapered bevels at the ends, by means of which they mate with the tapered surfaces of the wedges. Also, a pusher is installed in the body, adjacent to the wide ends of the wedges of the pressure clip. The crimping jaws are spring loaded with each other in the tangential direction (SU 1536148 A1, 1988).

The technical problem of both of the above devices is the low wear resistance of rubbing parts - wedges and cams. This is because the mating surfaces of the segments and crimp jaws are tapered. Geometrically, with the mutual sliding of two cones with the same angle along the generatrix, surface contact is observed only in one position, when the cross sections of the cones with the same radius coincide in one plane. In all other positions, there is a line contact. Therefore, the segments and cams, being in constant mutual motion under a heavy load, experience excessive local contact stresses along the contact lines. This leads to intense uneven wear, distortion of the shape of the surface of the cones and, as a consequence, loss of performance.

The challenge is to improve the durability of the device. The essence of the utility model is as follows. In the cylindrical cavity of the body, there are two circular clips of segments (wedges). The clips are facing each other with the narrowed ends of the wedges. In this case, the wedges of one holder - the supporting one, are fixed in the body motionlessly. Another clip is movable, installed in the body with the possibility of axial movement. A pusher is also installed in the body, the end of which is adjacent to the wide ends of the wedges of the movable holder. Between the clips, crimping cams are located along the circumference, mated with wedges. In this case, the cams are spring-loaded with each other in the tangential direction.

In contrast to the prototype, the mating surfaces of the wedges and crimping cams are made flat, which ensures minimal and uniform wear of the rubbing parts. The technical result consists in increasing wear resistance.

FIG. 1 shows a crimping device for crimping end fittings of high pressure hoses, longitudinal section; in fig. 2 - cross section AA.

The crimping device for crimping the end fittings of the RVD contains a housing 1 with a cylindrical cavity. There are two circular wedges in the cavity: a holder for supporting wedges 2 and a holder for pressing wedges 3. The supporting wedges are fixed in the body immovably. The pressure wedges are installed with the ability to move along the axis of the body. The pressure and support wedges face each other with their narrow ends. Between the supporting and pressing wedges there are crimping cams 4 with bevels at the ends, by means of which they are mated with the supporting and pressing wedges. The mating beveled surfaces of the wedges and crimp jaws are flat. A pusher 5 adjoins the wide ends of the pressure wedges 5. The crimping cams are spring-loaded with each other around the circumference by springs 6.

The device works as follows. The pusher 5 under the action of a drive, for example, a hydraulic cylinder, makes a translational movement along the axis of the housing 1 together with the pressing wedges 3 to approach the supporting wedges 2. Due to the angled mating surfaces of the wedges and crimping cams 4, the latter, performing synchronous radial movement, are squeezed on the end of the hose is a fitting placed in the center between the cams. After the completion of the pressing, the pusher 5 moves in the opposite direction together with the pressing wedges 3. The crimping cams 4 under the action of the springs 6 are unclenched and release the pressed product.

Claims (1)

A crimping device containing a cylindrical body, an annular cage of support wedges fixed in the casing, an annular cage of pressing wedges articulated with a pusher with the possibility of joint axial movement along the axis of the casing, and the support and pressing wedges are facing each other with narrowed ends, crimping cams with bevels at the ends, by means of which they are coupled with the supporting and pressing wedges, spring-loaded among themselves in the tangential direction, characterized in that the mating surfaces of the crimping cams and wedges are made flat.

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