RU3970U1 - RIVER AND PISTON MECHANISM - Google Patents

Abstract

A rack-and-piston mechanism comprising a shaft, a rack made in the form of a pipe, and a driving link on the shaft, characterized in that the rack has four rectilinear, arc-conjugated gear sections forming a closed loop, and a gear wheel as a drive link.

Description

Rack-and-piston mechanism

The utility model relates to mechanisms for converting reciprocating motion into rotational and vice versa, namely, to a combination of a piston group and rack gear and can be used in internal combustion engines, compressors and other machines

Known mechanisms for converting reciprocating motion into rotational and vice versa, based on the diagram of a gear-pinwheel mechanism with a Shaped rail, see Artobolevsky I. And Mechanisms in modern technology, 198O, t No. 4, s, 258, 2432), for example mechanism according to 117O99, 1957, containing a housing and a gear placed inside a C-shaped hollow cylindrical rack having quadrilateral double-profile teeth. This complex device is not applicable in piston mechanisms

The closest to the proposed device for the combination of essential features is a device for converting rotational motion into reciprocating in a, with N 1036989 (published in BI N 31 for 1983), This device contains a shaft, a rail made in the form of a pipe, and a driving link while grooves in the form of teeth displaced by half a step are cut on diametrically located sides of the pipe

However, all of the above devices are complex and do not allow the conversion of the reciprocating motion into rotational and vice versa continuously,

A one-piece) utility model is the expansion of operational capabilities by ensuring the continuous conversion of reciprocating motion into one-way rotational motion while simplifying the design

This goal is achieved by the fact that the rail, made in the form of a pipe D with cut teeth, has an additional two rectilinear and four arc gear sections forming a closed contour, a. also the possibility of rotation around the axis

Thus, the essence of the utility model is that in the known device for converting rotational motion into reciprocating, containing a shaft, a rail made in the form of a pipe, and a driving link, for example, a gear wheel, the rail has four rectilinear, arc-conjugated gear sections, forming a closed loop

In FIG. shows a longitudinal section of the rack-piston mechanism intermediate position).

The device comprises a shaft i with a gear wheel 2 mounted on it, engaged with a closed rack Z, which is a piston 4 moving in the cylinder 5.

Rack-piston mechanism works as follows. When the gear wheel 2 rotates, the longitudinal gear section of the rack 3 located about it moves and the piston 4 moves with it. Having passed the straight section, the gear along the radial section smoothly passes to the transverse section of the rack, and then the piston rotates around its axis. Next, the gear wheel gets to the second longitudinal section of the rack and interacting with it, makes the piston move in the opposite direction

The described mechanism is reversible.

Under the influence of pressure in the working cavity of the cylinder 5, the piston 4, being a slider, moves to the left (see, Fig., The slider, being in gear engagement with the wheel 2, rotates this gear wheel and the shaft 1 rigidly connected about it,

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Claims (1)

A rack-and-piston mechanism comprising a shaft, a rack made in the form of a pipe, and a driving link on the shaft, characterized in that the rack has four rectilinear, arc-conjugated gear sections forming a closed loop, and a gear wheel as a drive link.