Quick release trigger valve and blast aerator

Dispensing – Gas or vapor dispensing

Reexamination Certificate

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Details

C222S195000, C137S493100, C137S493700, C137S493900, C138S031000

Reexamination Certificate

active

06726059

ABSTRACT:

BACKGROUND OF THE INVENTION
I. Field of the Invention
This invention relates generally to air-accumulator and discharge devices of the type generally known as air blasters, air cannons, or blast aerators. More particularly, the present invention relates to heavy duty blast aerators of the type classified in U.S. Patent Class 222, Subclasses 2, 3 and 195 and Class 251, Subclass 30.02.
II. Description of the Prior Art
As is well known to those with skill in the art, the passage of bulk materials through conventional handling equipment is often degraded or interrupted. Typical bulk materials comprise concrete mixtures, grains, wood chips or other granular materials disposed within large hoppers or storage bins. In conventional, conically shaped hoppers, for example, bridges or arches of bulk materials often form, preventing or minimizing the orderly flow or delivery of granular materials. Often, “rat holes” or funnels build up, and material passage is severely degraded or halted altogether. Particles of bulk material may form cohesive bonds either by adhesion due to chemical or electrostatic attraction, or particles may interlock because of horizontal and vertical compression. Such materials usually tend to cake or congeal during bulk processing. When moisture accumulates, unwanted caking tends to block flow. It is also recognized that friction between bulk material and the walls of a typical bunker or hopper in which the material is confined tends to interfere with proper flow.
Blast aerators or air cannons have long been employed to dislodge blocked or jammed bulk material. Storage bins or hoppers, for example, are often fitted with one or more high pressure air cannons that periodically blast air into the interior to dislodge caked particles, break funnels and bridges, and destroy rat holes. Bulk flow problems can temporarily be stopped by physically vibrating the hopper or container to shake loose the jammed materials. But not all materials may be dislodged in this manner. For example, large concrete bunkers may be impossible to vibrate. Materials like soft wood chips ordinarily absorb vibratory energy and must be dislodged by other methods.
Air blasters are preferred over vibrators because of efficiency. The forces outputted by blast aerators are applied directly to the material to be dislodged, rather than to the walls of the structure. Modern air blasters are also preferred over air slides, air wands, and various air screen devices which operate at low pressures. Live bottoms in hoppers or bins are limited in their effectiveness, since they may tend to create bridging or arching of material. Modern air cannons or blast aerators are intended for use as a flow stimulator against materials that are primarily moved by gravity. They are not intended to be the prime movers of such materials, and for safety purposes they should not be used to initiate the flow or movement of bulk materials unless a gravity feed is employed.
Typical blast aerators comprise a large, rigid holding tank that relatively slowly accumulate air supplied through standard, high pressure air lines available at typical industrial facilities. A special valve assembly associated with the tank includes a high volume discharge opening directed towards or within the target application. External, solenoid-activated valve assemblies are employed to periodically activates the air cannon, whereupon the large volume of air that was slowly accumulated in the holding tank is rapidly, forcibly discharged within a few milliseconds. The volume of compressed air released by a modern blast aerator strikes the bulk material at a rate over 1000 feet per second. Materials exposed to this high volume inrush are forcibly dislodged by impact. The large volume of air outputted by the aerator spreads throughout the bin or hopper, distributing forces throughout the interior that tend to homogenize and dislodge the mixture. After an exhaust blast, the actuator assembly signals the apparatus to return to a “fill” position, wherein the displaceable internal blast piston blocks the aerator blast output path. The cycle repeats as air that has relatively slowly accumulated again within the blaster is subsequently discharged during the next cycle.
U.S. Pat. No. 4,469,247, issued Sep. 4, 1984, and owned by Global Manufacturing Inc., discloses a blast aerator for dislodging bulk materials. The blast aerator tank has a blast discharge opening coaxially aligned with its longitudinal axis. The blast discharge assembly comprises a rigid, tubular discharge pipe comprising an internal shoulder that forms a valve seat. A resilient piston coaxially, slidably disposed within the pipe abuts the valve seat to seal the tank during the fill cycle. In the fill position the seal is maintained by a chamfered end of the piston that matingly, sealingly contacts a similarly chamfered seat portion of the valve seat assembly. A cavity at the piston rear is pressurized to close the valve by deflecting the piston. During periodic cycles, discharge occurs in response to cavity venting, whereupon the piston is rapidly displaced away from the valve seat, exposing the discharge pipe opening to the pressurized tank interior.
Similar blast aerators may be seen in U.S. Pat. Nos. 3,651,988; 3,915,339; 4,197,966; 4,346,822; and 5,143,256. Other relevant blast aerator technology may be seen in Great Britain Pat. Nos. 1,426,035 and 1,454,261. Also relevant are West German Patent 2,402,001 and Australian Pat. No. 175,551.
Global Manufacturing U.S. Pat. No. 4,496,076 teaches a method of employing a plurality of air cannons in a controlled array.
In some prior art aerator designs, the piston and valve assembly are disposed at a right angle relative to the discharge flow path. In addition, many blast aerators use a valve assembly that is mounted externally of the accumulator tank. The latter design features are seen in U.S. Pat. Nos. 3,942,684; 4,767,024; 4,826,051; 4,817,821; and 5,853,160.
U.S. Pat. No. 5,441,171 discloses a protrusion on the rear of a slidably captivated piston to help slow the piston after firing. This design does not bleed air off in a controlled fashion and in fact the protrusion does not shut off the flow of air out of the valve body.
U.S. Pat. No. 5,517,898 discloses a pneumatic cylinder in which coaxially disposed “pistons” include dampening sleeves. In other words, ports are interconnected with internal passageways including stein portions of the cylinder to dampen piston movement by compressed air.
During the hundreds of thousands of repetitive discharge cycles occurring over the normal life of a typical blast aerator, critical moving parts will inevitably wear and deform. Typical aerator actuating pistons encounter extremely high stresses from heat, friction, and pressure that eventually result in component failure. As the aerator piston deforms or wears, its ability to properly seal during the critical “fill cycle” is impaired. In many prior art designs that portion of the piston utilized to create a seal also functions as the working surface upon which tank pressure acts to force the piston to its rearward “blast” position, further aggravating component stress and shortening valve life. In operation, the blast piston must rapidly travel away from the seal during the discharge cycle. As it deforms over hundreds of thousands of blast cycles however, it may lose its symmetry, and misalignment within the valve tube can slow piston travel, enlarging the blast time period and denigrating the force of the discharge.
Of course, problems with wear and tear also afflict the exhaust valve or actuator assembly that triggers the blast aerator. A variety of solutions have been proposed in the prior art for controlling blast aerator assemblies. All of the aforementioned patents disclose some means for firing the aerators. Various venting means including electrical solenoids have been provided previously. All of these are intended to periodically vent critical, internal volumes of aerators, ultimately causing a blast discharge. Many of the actuator devices cyclica

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