SU804871A1 - Pneumatic two-position switch - Google Patents

Description

(54) PNEUMATIC TWO-POSITION SWITCH

The invention relates to pneumatic mechanisms for automatically controlling the reciprocating movement of a piston of a pneumatic cylinder and can be installed in a working zone of a pneumatic cylinder or an executive mechanism of a machine which reciprocates by means of a pneumatic actuator. An automatic device is known in which direct switching of the spool by any moving stop is impossible, and one of the main reasons for this is the stopping of the mechanism in the middle dead position when pressure is released from the working cavity of the pyramocylinder 1. A disadvantage of the known device is that additional track switches are used to fully switch the spool. The closest in technical essence of the invention is a device comprising a body, a spool, a sleeve and threaded bushings 2. The use of this device creates a complicated system of pipelines or sleeves due to the additional use of switches. The purpose of the invention is to provide self-switching, i.e. expansion of the field of application. This goal is achieved by the fact that in a two-position pneumatic switch containing a concentrically mounted housing with feed, drain and outlet channels, a sleeve with holes and a plunger, cavities are located at the ends of the plunger with movable plugs with holes for communication with the atmosphere, moreover, in the switch housing there are holes for connecting the cavities of the plunger with the atmosphere. FIG. 1 shows the switch circuit and its application options; in fig. 2 - scheme of operation of the switch system - pneumatic actuator, option; in fig. 3 is a pneumatic connection scheme, option. The pneumatic two-way four-way switch consists of body 1, sleeves 2, plunger 3, movable stopper 4, thrust sleeve 5, channel 6 of the pian, holes 7 connecting the atmosphere of the plunger cavity 8, 9 and 10 to the outlet channels and draining the pressure of cavities niier ; actuator, pressure relief port 11 in the movable plug.

The switch works as follows.

Air from line 12 through feed channel 6 (Fig. 2) through an annular recess of plunger 3 through sleeve 13 enters the right cavity of pneumatic cylinder 14, moving the piston to the left. From the left cavity of the pneumatic cylinder, air through sleeve 15 through the other annular undercut of plunger 2 from both sides evenly enters cavity 8 of plunger 2, from where it escapes to atmosphere through openings 11 of right plug, while plunger is held in left position by end pressure of air. The piston, reaching the stop 16, moves it to the left, the stop turns the rocker 17, which, with the stop screw 18, rests against the end of the left plug 4, moves the plunger 2 to the right. When the plunger collar reaches the defined position, channel 10 Tter closes and channel 9 is partially open to release pressure to the atmosphere, but since the air outlet is closed by a plug and the piston, resting against the stop, prevents the plug from opening the reset, the plunger moves to the right to emphasis in the end, for example, a threaded thrust sleeve 19. The rights of the plug 4 at the same time closes the passage of the end, and the end cavity

J

through hole 7 connects to the atmosphere. Air from the right cavity of the cylinder through the opening 11 of the left plug 4 is released into the atmosphere. The line 12 of the pneumatic cylinder is connected to the line 12 through the annular recess of the plunger and the sleeve 15, moving the piston to the right. In practical manufacturing, 1/3 of the diameter before filling.

Claims (2)

1. Distribution and control-regulating equipment, ENIMS, 1972, p. 44, rice 25 2. Barun V. A. Budinsky A. A. Automatic control of machine tools, edition II, p. 42, fig. 27 a (prototype).