SU1128004A1 - Air distributor - Google Patents

Abstract

A PNEUMATIC DISTRIBUTOR, comprising a housing with inlet, outlet, and atmospheric channels and a cylindrical bore, installed therein with inlet, outlet, and atmospheric windows, and located in the sleeve with the possibility of reciprocating movement of the spool with ring seals on the backs, characterized in that in order to improve the reliability of operation, the windows in the liner are made in the form of external annular grooves and radial holes, and the sleeve is provided with an additional exit window communicated with the main air main and located symmetrically with respect to the input channel. Yu (P y 00

Description

The invention relates to mechanical engineering, in particular to P1} evmatic control systems of machines and mechanisms for changing the direction of the flow of compressed air from the main to the actuator and from the device to the atmosphere.

A pneumatic valve is known, comprising a housing with a sleeve installed therein with openings of different diameters, inside of which a slide valve with elastic round seals 1 is moved.

The disadvantage of such a pneumatic distributor is that the sealing rings are in direct contact with the sharp edges of the orifices, which causes their increased wear.

A pneumatic valve is known, comprising a housing with inlet, outlet, and atmospheric channels and a cylindrical bore, a sleeve installed in it with inlet, outlet, and atmospheric windows and a spool that can be reciprocated with an o-ring on the tracks 2.

However, the flow of supply air draws rings into the holes connecting the supply cavity to the outlet channel and causes damage to the switching sealing rings. The holes in the sleeve are made of small diameter, which reduces the flow characteristics of the valve.

The purpose of the invention is to increase reliability in operation.

This goal is achieved by the fact that in the pneumatic distributor, comprising a housing with inlet, outlet and atmospheric channels and a cylindrical bore, a sleeve installed in it with inlet, outlet and atmospheric windows and a spool with reciprocating displacement of annular seals The windows in the sleeve are made in the form of external annular grooves and radial holes, and the sleeve is provided with an additional exit window communicated with the main air line and located symmetrically it is relative to the input channel.

FIG. 1 shows the structural scheme of the pneumatic distributor; in fig. 2 shows the intermediate position of the annular seal separating the inlet channel with the outlet cavity; in fig. 3 - the intermediate position of the annular seal separating the outlet cavity from the atmospheric one.

The valve includes a housing 1 with an inlet 2, an outlet 3 and atmospheric 4 channels and a cylindrical bore 5, a sleeve 6 installed in it with an inlet 7,

output 8 and atmospheric 9 windows and a spool 10 with annular seals 11 on tracks 12, which can reciprocate and move displaceably. The sleeve 6 is equipped with an additional output window 13 communicated with the output window m 8 by the air line 14. The valve works as follows in a way.

When supplying compressed air to the inlet

channel 2 and the control signal Upr 1 into channel 15, the spool 10 moves to the extreme left position (Fig. 1). At the same time, the atmospheric channel 4 is cut off from the output 3, and with further movement of the input channel 2 is connected to the output channel 3, the supply pressure enters the output channel 3 and to the actuator (not shown). ,

O-ring seal 11 does not experience any load when the atmospheric cavity is disconnected from the output, since there is still no air pressure in these cavities.

FIG. Figure 2 shows the intermediate position of an annular seal 11 connecting the inlet channel 2 to the outlet cavity. In the process of moving the ring seal 11 along the cylindrical surface of the sleeve 6, it experiences a force, shown by a flat arrow, from the pressure of compressed air in the inlet channel 2. As the gap between the ring

the seal 11 and the entrance window 7 change the vectorial direction of the force to the seal 11 towards the axis of the spool 10 (the ring is pressed against the slide). In the final position, the air pressure on the ring seal 11 is leveled, the latter being in the unloaded condition. Therefore, the compaction of the seal 11 into the window does not occur.

When supplying compressed air to the input channel 2 and the control signal to the channel 16, the spool 10 moves to the extreme right position (Fig. 1). The input channel 2 is cut off from the output channel 3, and with further movement the output channel 3 is connected to atmospheric 4. The air pressure from the exit cavity is vented to the atmosphere. O-ring seal 11 when disconnecting the input channel 2 from the output channel 3 is not experiencing any loads, since the air pressure in the output cavity and in the input channel 2 is the same.

FIG. Figure 3 shows the intermediate positions of an annular seal 11 connecting the outlet cavity to the atmosphere. In the process of moving the annular seal 11 along the cylindrical surface of the sleeve 6, it experiences the force shown by the arrow from the pressure of compressed air in the outlet cavity.

As the gap between the O-ring II and the radial hole changes, the vectorial direction of the force changes to the seal 11 in the direction of the axis of the spool 10 (Fig. 3, dashed line). The giving of the seal 11 into the radial window does not occur.

The application of the invention will allow to increase the reliability and durability by reducing the labor intensity of manufacturing, since the proposed pneumatic valve consists of a small number of parts.

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Claims (1)

PNEUMOR DISTRIBUTOR, comprising a housing with inlet, outlet and atmospheric channels and a cylindrical bore, mounted in it with inlet, outlet and atmospheric windows and placed in a sleeve with the possibility of reciprocating movement of the spool with ring seals on the belts, characterized in that, in order to increase reliability in operation, the windows in the sleeve are made in the form of external annular grooves and radial holes, and the sleeve is equipped with an additional output window communicated with the main pneumatic line and located symmetrical to it relative to the input channel.