SU703680A1 - Hydraulically and pneumatically driven reciprocation machanism - Google Patents

Description

(54) HYDROPNE-MOTOR DRIVE MECHANISM RETURN. PROMOTIONAL DISPLACEMENT

The invention relates to the field of hydro-pneumatic actuators, relates to mechanisms for reciprocating movement, and can be used as actuators, pump drives, etc. in various sectors of the national economy. Hydropneumatic drive mechanisms of reciprocating movement are known, containing a fluid-filled, at least one flexible torus shell installed in the pilind and enclosing the stem, and a source of driving medium l. A disadvantage of the known mechanisms is the relative complexity of the design, since it requires a special system for feeding the torus shell with a fluid to seal the drive cavity, which is made in dilation on one side of the torus shell. The purpose of the present invention is to simplify the design of the mechanism. For this, the pyLyndr is made stepwise, and the internal cavity of the torus shell is connected to a source of driving medium. In addition, to reduce weight and facilitate storage, the dilinor can be made of a mesh, and to provide back-and-breakthrough movement during translational mixing of the stem, the outer surface of the torus shell is rolled along a spiral line. FIG. 1 and 2 shows the scheme of the mechanism at various extreme positions of the rod; in fig. 3 - axonometrics of the reticulated inlinder. The flexible torus shells 1 2 are installed in the stepped cylinder 3 and enclose the jaws 4. The internal cavities 5 and 6 of the torus shells 1 and 2 through the hoops 7 and 8, the pipelines 9 and the switchgear 10 are connected to a source of driving medium not shown). The cylinder may be mesh, as shown in FIG. 3. To provide returnable gk 703680

gate movement line 4, the outer surface of the torus shells 1, and 2 is curled along a helix. shells can be obtained, for example, when the ends of a piece of a thin-walled elastic tube are turned outward, after / ches these ends of the skid-1 vagot odal. relative to the other and tightly connected. The braid thus obtained has an outer surface that is coiled along a helix.

When connecting, the source of the driven medium through the switchgear 10, pipelines 9 and fittings 7 and 8 alternately to one of the cavities, 5 or 6 Topiovyh. shells 1m 2, the latter by the pressure of the pivotal medium are squeezed out and rolled from the narrow part of the cylinder 3, to its wider part, moving from one extreme position to the other. With its double shell 1 .and 2, it pulls the rod 4, causing it to make reciprocating movements with a stroke length of twice the stroke length of the shells.

When using shells 1 2, the bottom of which is reversed is a screw line, points of contact of rod 4 and shells 1 and 2 when the movement returns. The sheaths of the stock move along a helix. . .

In a tahsim fashion, the stem 4 is attached to the turn-turn movement simultaneously with the reciprocating movement. It can be; used, for example, in drives of drilling machines and mechanisms.

Since the driven medium is fed into the inner cavities 5 and 6 of the torus shells 1 and 2, the cylinder can be made from the mesh. This allows you to reduce its weight, and when using a soft mesh, it makes it easier to store it ..

Claims (2)

1. Hydropneumatic drive mechanism for reciprocating movement containing a fluid-filled at least one flexible torus shell mounted in the cylinder and enclosing the rod, also hastoy of the drive medium, characterized in that, in order to simplify the design, the cylinder is stepped, and the inside of the cavity shell is exactly the same for the drive medium; 2. Hydropneumatic gear Claim 1, characterized in that, in order to reduce weight and facilitate warehousing, the cylinder is suspended from the screen. 2. Hydropneumatic drive mechanism. According to claim 1, that is, with the fact that, with the aim of ensuring the return movement of the rotary movement — as the brush moves forward, the outer surface of the torus shell is rolled up by VIVDOVA ... Sources of information, taken into account during the examination 1, US Patent N 3373694, class, 417-571, 1968.