SU1551466A1 - Method of automatic installation of rod fasteners into holes of parts - Google Patents

Abstract

The invention relates to mechanical engineering, in particular, to methods for automatically installing rod fasteners in the holes of parts. The purpose of the invention is to increase productivity by successively installing fasteners in holes placed on the same straight line. The assembly device comprises an air-vortex oscillation generator, consisting of a housing 1 with a fixed sleeve 2, in which channels for supplying air are made, and a sleeve 3, freely mounted in the sleeve 2 with the possibility of rotational movement. The rivet feed system 4 is installed coaxially with the pneumatic vortex generator. The latter are installed on the transport system 5. The rivets from the rivet feed system 4 under the action of a jet of air under pressure P ₁ of 0.15 - 0.20 MPa are fed to the pneumatic vortex generator. Simultaneously with the feeding of the rivet, the transport system 5 is turned on. Under the influence of the air flow P ₂ , the sleeve 3 rotates, and the rivet 9 rotates with it. along a number of holes. 2 Il.

Description

The invention relates to the field of engineering, in particular when assembling parts by riveting.

The aim of the invention is to increase the productivity with the sequential installation of fasteners in the holes of parts placed on one straight line.

FIG. 1 rolled device

For the implementation of the method, a general view is cut through FIG. 2 view L in FIG. one .

The assembly device implementing the method comprises a pneumatic-vortex oscillation generator consisting of a body 1 with a fixed part 2 ,.

in which channels for the supply of air are made along the tangent and inner hole, and the sleeve 3, which is freely installed in the sleeve 2, with the possibility of rotational movement. A rive feed system 4 was installed in the coaxial pneumatic eddy oscillation generator. The pneumatic vortex generator and the rivet feeding system are mounted on a transport system 5, which allows it to move at a uniform speed along a series of holes made in parts 6.

The device is mounted on the assembled parts 6 by means of guides 7 and clamps 8.

The method of mounting rod fasteners, such as rivets, in the hole is as follows.

The assembly tool is installed along the row of holes of the assembled parts, the rivet 9 is fed to the pneumatic-vortex generator under the action of pressure P of 0.15-0.20 MPa. At the same time, compressed air P ″ is supplied to the pneumatic vortex generator and the transport system 5 is switched on.

Example. Rivets with a /) 5 mm from the system 4 supplying rivets under the action of a directed stream of air under a pressure of 0.15-0.2 MPa served in the pne

0

five

d 5 0

45

five

oscillating oscillator. Simultaneously with the feeding of the rivet, the transport system of 5 linear movement is switched on, which ensures the movement of the pneumatic-vortex generator with a speed of 0.5-0.6 m / min.

Under the influence of a vortex flow under pressure of 0.1-0.15 MPa, coming from the openings of the housing 1 and the stationary sleeve 2, the sleeve 3 is rotated. Together with the sleeve 3, the rivet begins to rotate. A hole is searched in the parts to be assembled, rivets one by one as they arrive without interrupting the transport system are inserted into the holes of the assembled parts 6.

Claims (1)

Invention Formula A method of automatically mounting the rod fasteners in the hole of the parts, which means that the rod fastener is moved into the part hole in the hollow case of the safety device that is pre-aligned with the parts, and during movement the fastener is informed by rotation vortex air flow, characterized in that, in order to improve performance during the sequential installation of fasteners in the holes of parts placed on one Directly, the fastener is pre-placed in a sleeve, which is freely installed in the housing cavity of the assembly tool, is swirled by an air flow on the sleeve, while moving to the rod fastener is affected by an additional axial air flow under a pressure of 0.15-0.20 MPa, the assembly tool is moved along the row of holes with uniform speed. Type A FIG. 2