SU1747348A1 - Device for free circulation of granular material in bins and hoppers of belt conveyers - Google Patents

Description

The invention relates to devices for the demolition of bulk material in bunkers, transshipment units of belt conveyors and can be used in the mining, metallurgical and construction industries.

The aim of the invention is to improve the reliability of the device,

During operation, when opening the exhaust nozzle opening and sharp braking of the piston-piston-valve system at the end of the piston stroke, high axial loads on the piston rod occur. With an insufficient number of control points, the stem can be bent and failures in operation.

The goal is achieved by the fact that the exhaust valve is equipped with a shank fixed coaxially with the stem and resting on the support of the shank located and fixed in the confuser with the help of spacers.

Figure 1 shows a pneumatic pulse device; figure 2 - section aa in figure 1; on fig.Z - section 6-B in figure 4; FIG. 4 is a view B of FIG. one.

The pneumatic pulse device includes a housing 1, inside of which is located a cylinder 2 with a piston 3, connected by a rod 4 to an exhaust valve 5. A valve 6 is coaxially attached to the valve, which enters the support 7, located in the confuser 8 and is fixed with spacers 9, the housing is equipped with an exhaust nozzle 10 connected to the housing through the confuser. A spring 11 is placed to return the piston to its initial position after the compressed air has been released from the tank. To release compressed air into the cylinder and to release compressed air from the cylinder, there is a two-way valve 12c with inlet 13 and outlet 14 nozzles.

For the quick release of compressed air from the piston space in the bottom of the cylinder, there are outlets 15, blocked by a valve 16 fixed to the rod,

From the piston chamber, compressed air enters the housing through a channel 17, which may be blocked by a valve 18.

The device works as follows.

When translating two-position valve 12 to the position of the release of compressed air from the piston space, the compressed air begins to flow out of the piston

the valve 18 closes the channel 17, and the compressed air in the housing 1 begins to move the piston 3 to the bottom of the cylinder 2. The valve 16 opens the exhaust ports 15, the air quickly goes out of the piston chamber, the valve 5 opens the nozzle opening and the air goes out from the housing 1 through the nozzle 10.

Then the spring 11, compressed during the movement of the piston 3 to the bottom of the cylinder 2, returns the piston to its original position, the valve 5 closes the opening of the exhaust pipe and 10 and the air-impulse device

prepared for work.

The valve stem is coaxial with the stem and located in the liner support. The axis of the support hole coincides with the axis of the rod, cylinder, piston.

The shank support can move freely in the axial direction. When the device is triggered and the valve is opened, the shank does not come out of the support and makes it impossible to bend the rod, and therefore, the exhaust valve always reliably closes the outlet nozzle, and the reliability of the air-pulse device increases.

To reduce the local coefficient

resistance and increase the energy of the pulse cross section of the struts and supports are made of an ellipsoidal shape.

Claims (3)

1. A pneumatic pulse device containing a container for compressed air with an exhaust nozzle, a pneumatic cylinder with a piston located in the tank, a valve installed in the exhaust nozzle, a valve connected to the piston rod, and a system supply and release of compressed air, communicated with a pneumatic cylinder, characterized in that, in order to increase reliability in operation, it is provided with a valve mounted on the opposite side the stem and coaxial with it, the shank located between the tank and the exhaust nozzle confuser and installed in it with the help of spacers support for the valve stem. 2. The device according to claim 1, characterized in that the support section has an ellipsoidal shape. 3. The device is pop.1, characterized by the fact that the struts and cross-section have an ellipsoidal shape. A - A 6-6 FIG. 2 Fig.Z Buff in Fy