DE1024881B - Device for the uniform feeding of dusty to gritty bulk material - Google Patents

Description

Device for the uniform application of powdery to gritty Bulk Die Ernnd. ung refers to a. e Device for even feeding from. Bulk material that comes from a sluice that revolves around a vertical axis consists, the end walls of two horizontally lying, self-sealing discs are formed, and which is surrounded by a known pneumatic. Locks rotating around a vertical axis are known per se. At The goods are assigned to these individual chambers through the force of gravity and are made by means of the force of gravity Blow current a, driven out.

The invention is now seen in the fact that the filling of the individual Lock chambers pneumattsch made by diverting the good two times in its direction and at the same time under the influence of through the porous bottom of the housing flowing loosening air is brought.

The quantitative allocation of the goods to the chambers takes place in accordance with the appointment. ß through. Regulation of the speed of the lock or the pressure of the loosening air. This ensures that the chambers are loaded evenly and continuously at least one of the chambers comes to be emptied. It also prevents foreign bodies from entering both in the chambers and in the facilities downstream of the lock prevented.

The device according to the invention consists of a cellular wheel body, which revolves between two horizontal panes that form the front walls. That The bucket wheel is articulated to the drive shaft, so that the bucket wheel and end walls can adapt to possible axis deviations.

The bucket wheel body has a variety of arbitrarily designed Chambers that are expediently offset from one another. so that the guarantee is given that at least one of the chambers is constantly being emptied. The supply of the material into the individual chambers takes place pneumatically. For this purpose, the bucket wheel is in receiving housing a known pneumatic loosening and Fordlersystem arranged. That through the. Inlet material entering the housing is hereby constantly loosened and kept in a flowable state and flows over the Edge of the upper end wall of the bucket wheel body by one or more provided therein Openings in the respective chamber or chambers below and is through, one or more openings provided in the lower end wall into the material outlet emptied. The emptying of two or more chambers can overlap here. The pneumatic system, designed like a traffic loop, has the advantage of that foreign bodies contained in the added material do not get into the cellular wheel chambers.

The foreign bodies do not interfere with the operation; they can from time to time can be removed by opening a flap provided on the housing. By setting a certain pressure below the porous bottom of the pneumatic system or At a certain speed of the rotary feeder, the amount of material to be allocated can be kept constant hold or change.

A baffle plate is arranged underneath the porous floor which undesirable components contained in the loosening air, e.g. B. dust, Oil or the like. Be retained, so that clogging of the pore entrances of the porous Soil is degraded. For the extraction of the introduced air is in the top of the housing or an AusJa.ufs.tu.tzen provided in the material infeed, e.g. B. to one to one Entstaubungseinnchtung leading line is connected.

To prevent z. B. Material settles in the chambers, can in the upper forehead. the mouth of a blowpipe can be connected via the material outlet which one is located in the chamber or chambers above the outlet Well is forcibly emptied by supplied air. By introducing compressed air alternatively, the blowpipe also provides the option of putting material in to the To bring in pressurized equipment connected to the outlet. The drive the device expediently flows via a control gear.

Two exemplary embodiments of the device according to the invention are shown in the drawing. 1 shows the device with a pneumatic loosening and loosening device attached to the side Conveying system in section, FIG. 2 shows a section through the device in the direction A-B, Fig. 3 the device with a pneumatic surrounding the cellular wheel on all sides System, Fig. 4 shows a section through the device in the direction C-D.

The same parts are provided with the same reference symbols.

In the housing l, according to FIGS. 1 and 2, this is in a large number of Chambers 2 subdivided cellular wheel 3 supported by the shaft, which is mounted in a dust-tight manner 4 is driven, which is articulated with the cellular wheel. The chambers 2 can be designed in any way. The cell wheel is horizontal at the top and bottom between the lying end walls 5 and 6 out. As a result of the sealing elements of the The pressure exerted on the shaft, the upper end wall and the star feeder is self-sealing between the walls and the cellular wheel.

The upper end wall 5 has an opening 7 and is fixed by or adjustable retaining pins 8 held in place. The one with the bottom of the building connected end wall 6 has an approximately heart-shaped opening 9, which can also be arbitrary can be designed. This is located above the outlet nozzle 10.

At the same height as the lower end wall 6, but outside of the In the area of the cellular wheel, the porous bottom 11 is arranged, dfer to the inlet point can run inclined in the cellular wheel chambers.

Under the porous floor is the air duct 12 with the air supply valve, etching 13, above which a baffle plate 14 is provided. The space above the porous The bottom is t through the partition 15 against the rest of the housing space and against the Pinion 3 locked. The material inlet 16 is located in the top of the housing, the height of which can be adjusted according to the respective quantity of bulk material. In the material! inlet is a controllable air outlet 17 is arranged, which is connected to a (not shown) dedusting device or the like. Is connected.

Oer the material outlet opening 9 in the upper end wall 5 can The mouth of the blowpipe 19 may be arranged, which is airtight through the housing wall 1 and to which air is supplied from any source. The order of the blowpipe is shown in dashed lines in FIG. Openings 7 and 9 can can also be designed as sieves.

To remove foreign objects that have got into the housing with the material the flap 18 is used.

The chambers 2 and the outlet opening 9 or OS openings can be round, square or oval, etc. be designed.

The embodiment according to FIGS. 3 and. 4 differs from fig described above in that the cellular wheel on its entire circumference of the pneumatic System is surrounded, which is limited by the housing wall. The upper end wall 5 is secured by three holders 8 with adjustable pins attached to the inner wall of the housing held in their position so that it is possible to prevent any wear and tear on the contact points between the bucket wheel and the two. Compensate for end walls 5 and 6. Of the adjustable Air outlet 17 is provided in the housing cover. The inlet funnel 16 can in his The drive shaft 4 is also mounted in a dust-tight manner.

Another modification of the devices described above is that the material inlet chute 16 at the same time represents part of the outer boundary of the housing, down to its lower end the porous bottom 11 is increased in length. Parallel to the shaft is in the Housing cover arranged a slide through which the inflow to the inlet point can be limited in the cellular wheel chambers 2.

The arrows shown indicate the individual flow directions of the Material or the air again.

Mode of operation The space above the porous floor 11 is constantly with The air supplied through the porous floor loosens the material, so that it becomes fluid. The moving goods now eat over the upper edge the upper end wall 5 through the opening 7 or openings provided therein into the in each case located underneath or benndUchen chambers 2 of the rotating cell thread 3 a. As soon as the filled chambers reach the opening 9 in the lower end wall, empty their contents into the outlet 10. Since the cell wheel 3 is provided with a multiplicity of chambers 2 which is achieved by regulating the speed or the pressure is evenly charged, the continuous feed of material is always guaranteed.

The characteristics of the sub-panels should only be related to the main claim belong to the protected invention.

Claims (9)

PATENT CLAIMS: 1. Device for the uniform Aufgeljen of dusty to griessigom bulk material by means of a revolving around a vertical axis, sluice divided into several cells, which is located between two horizontally lying, each with one or more arbitrarily designed inlets and outlets provided with self-sealing End walls and is completely or partially surrounded by a pneumatic system marked that the good a. On its way from the material inlet (16) via the the housing (1) which completely or partially surrounds the sluice to the cells (2) of the sluice (3) deflected twice in its direction (pneumatic stowage loop) and at the same time under the action of loosening air flowing through the porous bottom of the housing in the area of the material inlet is brought, with the quantitative allocation of the material to the cells (2) by regulation the speed of the lock (3) or the pressure of the thawing air takes place while the filled cells (2) above the outlet (100 in a manner known per se by means of axially supplied compressed air can be emptied. 2. Apparatus according to claim l, characterized in that the claß Material space on the inlet side against the rest of the housing space (1) through a partition (1%) is locked. 3. Device according to claims 1 and 2, characterized in that the air duct (12) below the porous floor (11) in the area of the stagnation loop above the air supply nozzle (13) a baffle plate (14) is arranged. 4. Apparatus according to Claimlbis 3, characterized in that the Chambers (2) can be arranged offset from one another: can. 5. Device according to Claims 4, characterized in that the openings (7, 9) are designed as sieves in the end walls (5, 6). 6. Apparatus according to claim 1 to 5, characterized in that the housing use (1) is provided with an adjustable air or gas vent (17) which is connected to n a! dedusting deviceod. Like. Is connected. 7. Apparatus according to claim 1 to 6, characterized in that a cleaning flap (18) is provided on the housing. 8. Device according to Claim 1 to 7, characterized in that one part of the housing from the material inlet duct (16) is formed up to its lower The end of the porous base (11) is extended. 9. Device according to claims to 8, characterized in that parallel A slide is arranged for the inlet shaft (16) in the housing cover. In, considered publications: German Patent Specifications No. 555 366, 575 176, 909 323; French patent specification No. 901 421.