SU120165A1 - Actuator of the machine for pressing the inner part into the body cavity with the subsequent introduction of an elastic ring between their surfaces - Google Patents

Description

Devices for pressing elastic, for example, rubber parts into the housing using a rotating hollow spindle for this are known.

However, when assembling plastic or rubber parts, difficulties arise because of the lack of stability and dimensional rigidity; the fixing of the parts to be assembled must therefore be carried out on the principle of self-alignment, the working strokes must be self-regulating, and the efforts made to connect the parts must be adjustable. The rubber ring after landing in its place as a result of elastic deformation, tends to bulge and get out of the seat.

A distinctive feature of the proposed actuator is the use of an axial movement in a pinch cavity, a rod articulated by means of springs with a coaxial rod, carrying at the end a rammer for the inner part being pressed, and with a sleeve surrounding it to release the sealing ring when it is unclamped under the influence of a conical edge rammer, the subsequent final installation of the sealing ring is carried out with the aid of a ram sleeve with an undulating wavy surface tew. Such an implementation of the proposed mechanism eliminates the difficulties that usually arise during the assembly of parts made of plastics, rubber, etc., resulting from the lack of rigidity and stability of their sizes and the elastic deformations arising in them.

FIG. 1, the proposed mechanism is shown in axial section; in fig. 2-position of the working unit of the mechanism at the time of the start of work, in FIG. 3-position of the same node at the time of completion of work; and on

No. 120165

FIG. 4 is a separately shown view along arrow A in FIG. 1 straight sleeve with face wavy surface.

In the slot of the rotary disk 1 of the machine lay the collected rubber obturiruyu ring 2, the plastic inner part 3 and the housing 4.

When you turn the disk 1, the next slot goes to the working place — to the fixed ring 5, fixed on the table coaxially with the body 6 of the actuator. At the moment of approach of this nest, the part 3 and the ring 2 fall down through the ring 5, respectively on the rammer 7 and on the end of the sleeve 8, and the body 4 fits under the fixed stop 9.

The actuator performs the following basic movements. Through the yoke 10, the cam 11 and the clevis 12 from the cam camshaft, the upward movement of the rod 13 is transmitted and then through the strong spring 14 to the sleeve 8. The force of this spring is greater than the force used to press in part 3, but weaker than the force capable of destroying the assembled plastic the details. At the same time, the rod 16 moves upwards through a weak spring 15, which by its rammer 7 lifts the part 3 to contact it with the case 4. However, the force of the spring 15 is not enough to press the part 3, and the rod / 6 stops.

Part 3, which plays the role of a membrane in a product, is weak and allows pressure force only on the front part of its more durable rim. The sleeve 8, backed up by the spring 14, continues to rise along the stopped rod 16 and causes the collet 17 sitting on it to open its petals, thanks to their meeting with the lower conical edge of the rammer 7.

The petals of the collet, in turn, straighten the rubber sealing ring 2, and, approaching part 3, prop it up against the end of the strong rim. Upon further upward movement of the sleeve 8, the part is pressed in by the 3 ends of the collet. At the end of the press-in, the sleeve 8 will stop and the spring 14 will begin to compress. To this point, a spindle sleeve 18 of spindle 19 is attached to the rubber ring. Spindle 19, backed by a spring 20 and in constant displacement, can be mixed along the sleeve 21, the spacing sleeve 18, goes to the rubber ring, transplants it from the collet 17 to its a place.

The peculiarity of the sending sleeve 18 is its face wavy surface, with the help of which, when the sleeve is rotated simultaneously with the batching, the rubber ring 2 is rolled.

Subject invention

The executive mechanism of the machine for pressing the inner part into the housing cavity with the subsequent insertion of a ring ynpjToro between their surfaces by means of a rotating pressure hollow spindle, characterized in that in the cavity of the rotating spindle is placed axial movement of the brush, articulated by means of springs with coaxial rod bearing the end of the rammer for the inner part, and with the surrounding sleeve bearing the collet for unfolding the sealing ring when it is unclamped under the influence of the copy a clamping device, followed by the final installation of the specified ring, placed on a rotating spindle by a removal sleeve with an end wavy surface.