DE1174695B - Pneumatic conveyor device for solid particles - Google Patents

Description

Pneumatic conveying device for solid particles The conveyance or the suspension of solid particles by means of gases or vapors is generally known.

For the purpose of promoting with simultaneous dosing of finely divided Solids of a certain grain size from a container, e.g. B. for filling cement, Lime, soda ash or artificial fertilizer in bags or for introducing coal powder in a volumetrically determined amount in burners or furnaces or from catalysts In reaction vessels, an apparatus consisting of an expedient was used there is a conically shaped storage container at its bottom part, which is just above the bottom has a gas-permeable grate and an air supply line in the center is introduced, which is slightly above the grate in a truncated cone at its lower end formed suction or delivery pipe opens, either vertically through the whole Container and through its lid to about the middle of one arranged above it Container or diagonally through the storage container up to the at the upper part of a Side wall or on the one lid side arranged container is performed. In this device is the finely divided material located in the storage container first loosened or in the flowing state by means of air introduced through the porous grate offset and then passed through an inert through the suction and delivery pipe Gas is sucked in according to its flow rate and into the upper dosing container promoted. It is therefore only a matter of conveying and simultaneous dosing of one Good made of solid particles of uniform consistency and grain size. The production a fluidized bed is not intended here and also as a waste of energy to see, since the only thing that matters here is to loosen up the crowd so that they can get away from it the suction is more easily grasped.

Another known pneumatic conveyor consists of a top and bottom conical mixing container, the one at the top of the lower conical part has a gas-permeable grate and on one side with a Storage container is connected, from which the finely divided to be mixed and conveyed Good is supplied, which then initially by means of a gas introduced through the grate brought into the flowing state and mixed and then pumped up, and through a line into which the conical upper part of the mixing container opens. Through the conduit, the formed uniform suspension of solid particles becomes in the carrier gas then their determination, e.g. B. a reaction vessel supplied.

Here, too, determines the flow rate of the imported Gas is the concentration of the suspension of solid particles in the carrier gas and thus the quantitative dosage.

In contrast, the device according to the invention is designed so that the supplied solid particles by means of a gaseous medium initially in a fluidized bed are transferred and then the upper part of the fluidized bed is exposed to an additional flow of a gas or vapor that produces a certain Removes proportion of solid particles from the upper zone of the fluidized bed.

This additional flow reaches the upper zone of the fluidized bed, and its flow rate is controlled so that it goes with the flow of the gas or steam used for fluidizing the solid particles removes solid particles in a certain amount from the upper part of the fluidized bed. Also the flow rate of the gas or vapor forming the fluidized bed Medium can be regulated or adjusted accordingly, so that the fluidized bed zone get a variable height above the confluence of the additional stream can and thereby a correspondingly larger or smaller amount of solid particles can be discharged.

Individual gases, for example Air, or vapors or gas mixtures can be used.

For a pneumatic conveying device for solid particles, consisting of from a container equipped with a porous, ventilated bottom, the merges upwards into the delivery line and the solid particles from the side are supplied, the inventive training can be seen in that from below through the middle of the porous base into the container to above the material supply line another line for supplying a further conveying gas is routed.

According to a preferred embodiment of the invention, it bifurcates the supply line for the pressure medium and connects to both the under the porous Bottom reaching line as well as the line opening into the container, wherein the two lines are provided with valves.

In the drawing, an embodiment of the training is according to the invention shown schematically in section.

The pneumatic conveying device consists of a container 10 with a porous bottom 11, a conduit 12 through which the solid particles are introduced into the container, a line 13, which is connected to the compressed air supply line 17 connects, which is provided with a valve 14 and below the porous At the bottom opens into the container 10, a line equipped with a valve 16 15, which also connects to the compressed air supply line 17, through the porous Bottom 11 is enough and ends in the container above the material supply line 12, and one Line 18 through which the particle suspension formed is discharged.

The solid particles pass through line 12 under their force of gravity in the container 10, where it is by means of a through line 17 via line 13 supplied gas are transferred into a fluidized bed. The flow rate of the gas and thus the degree of fluidized bed formation of the particles is means of the valve 14 regulated. The gas introduced into the upper part of the fluidized bed flows from the pipe 17 through the line 15 while regulating its flow rate through valve 16.

When the fluidized bed has risen past the end of line 15 is, the gas flow flowing out of this line takes the particles of this upper one Layer and removes it through line 18. The quantitative transfer of the Particle from the fluidized bed is thus on the one hand by appropriate adjustment of the valve 14 for the fluidized bed gas flow and on the other hand by setting the Valve 16 for the additional introduced into the upper part of the fluidized bed To regulate gas in practically any way. An increase in the gas flow through the line 13 causes the fluidized bed to rise to a greater or lesser extent beyond the end of the line 15, so that through the additional gas flow out the line 15, the flow rate of which can also be increased, In the unit of time different amounts of solid suspended particles are removed can be.

In the device according to the invention can consist of relatively fine solid particles of the same or different grain size continuously by means of gases or Steaming a fluidized bed of different intensity can be formed and simultaneously solid particles, optionally a certain one, from the upper part of this fluidized bed Grain size range, in controllable quantities by means of an additional conveying gas flow for various purposes.

Claims (2)

Claims: 1. Pneumatic conveying device for solid particles, consisting of a container equipped with a porous, ventilated bottom is, which merges upwards into the delivery line and which from the side the solid particles are supplied, characterized in that from below through the middle of the porous Bottom (11) into the container (10) up to above the material supply line (12) further line (15) is guided for supplying a further conveying gas. 2. Apparatus according to claim 1, characterized in that the supply line (17) for the pressure medium forks and both to the porous bottom (11) reaching line (13) as well as to the line opening into the container (10) Line (15) connects, the two lines being provided with valves (14, 16) are. References considered: U.S. Patent No. 2793 914,2509,984