SU830065A1 - Locking arrangement - Google Patents

Description

(54) SPLITTING DEVICE

one

This invention relates to reinforcement engineering.

A shut-off mechanism of a direct-flow valve driven by a rod located perpendicular to the flow direction of the medium is known, which contains a disk valve mounted for rotation on an axis, as well as a hinged lever mechanism with a hinge link connecting the valve with valve 1.

A disadvantage of the known device is limited, the area of its application is unsuitable for operation in vacuum installations, since there is no reliable sealing of the valve.

Also known vacuum lever shutter containing a rotary valve body, a relief valve, drive brush with bellows seal and lever actuator, including levers, articulated by means of a groove and passed through him G23.

and the knuckleed system of a known device is structurally complicated by the presence of three levers with their axes and fingers and a bracket rigidly fixed on the body. When closing the valve such a lever, the sietem operates on the thrust only due to the length of the levers without a limiter. Under these conditions, the stem may advance beyond the moment the arms expand, which will result in a failure of the seal.

The purpose of the invention is to improve the reliability of sealing.

To achieve the goal, the end of the lever, which interacts with the locking member, is made in the form of an eccentric, and at the other end there is a supporting platform with a lock and 5 a spring is installed, which interacts with the lever and the locking member, with the lever groove made elongated in the direction of the spring axis.

Fig, 1 shows a device, a general view (section in the closed position); in fig. 2 shows a section A-A in FIG. in fig. 3 is a section BB in FIG. in fig. 4 - the device, a general view (a section in open position).

The locking device comprises a housing consisting of two parts 1 and 2 rigidly interconnected. In part 1 of the body there is a ta-, 0 / reel locking organ 3, which

(movably mounted on axis 4 in housing 1 and movably connected by axis 5 to one end of locking lever 6; This end is designed as an eccentric 7, which locks the disk-shaped locking member 3. At the second end of the lever 6 there is a clamp 8, which fixes the spring 9 an obstacle to its displacement, and to ensure a constant pressing of the lever 6 along the axis of the retainer 8, an extended groove 10 is made in the lever b. The second end of the spring 9 rests on the disk locking member 3 on which it is fixed by the retainer 11, and its axis 12 is movably connected There is a lever b with the cheeks of the head 13 of the movable flange 14, which has a left-side nut 15 on its second side. The flange 14 has a cutout on one side and this part of the flange is rigidly fixed by a guide 16, which centers the flange 14 when it moves to part 2 of the housing, on the end of which an end cut-out 17 is made (see Fig. 4). The device is sealed by a bellows 18, one end of which is fixed / for example, by soldering in the movable flange 14, and its second end is fixed in the cover 19, which is fixed nut 20 at the end of cha STI 2 body. In this case, the rod 21 with two threads (right 22 and left 23) is connected to the nut 15 and the cover 19, respectively. The flywheel 24 is rigidly fixed at the end of the rod 21, which closes and opens the locking member 3. The presence of the left and right threads of the rod 21 prevents the bellows from twisting, since the twisting forces are balanced by different directions of the threads of the rod 21. Thus, the bellows perceive only axial load. In the axial direction, a technological opening 25 is made at the stem 21, which serves, for example, to solder the sylphone 18 if necessary to depressurize its internal volume.

The closure of the locking device is as follows.

By turning the handwheel 24 clockwise, the rotation is transmitted to the rod 21 and the external right-hand lero thread 22 is screwed into the cover 19, and the end of the rod 21 with the left-hand thread 23 is screwed out of the nut 15 of the movable flange 14.

The head 13, moving, transfers the axial force to the axis 12 and further from the latter to the end of the locking lever 6. The second end of this lever, resting on the axis 5 with the possibility of turning it on the axis, also rests with its part in the form of an eccentric 7 in the center on the locking body 3, as a result of which it closes.

In order to improve the permanent sealing of the closure body 3 in the closed position, the lever 6 by means of the eccentric 7 provides a constant preload by the spring 9, which is supported by the locking body 3 and the end of the lever 6 by the presence of an elongated groove 10 in the lever 6 When the valve opens, the locking mechanism operates in the opposite direction, in which case the flywheel 24 must be rotated counterclockwise.

Such an embodiment of the device makes it possible to work with various media both at atmospheric pressure and under high vacuum conditions, and also increases the reliability of sealing by ensuring a uniform distribution of the pressing force around the circumference of the seal.

Claims (2)

1.Patent of Germany No. 1053262, l-l. 47 g 19/02, published 1959. 2. Authors certificate of the USSR 252789, cl. F 16 K 41/10, 1965.