DE1266231B - Container discharge device - Google Patents

Description

Container discharge device The invention relates to a discharge device for materials that are difficult to handle, such as B.

Chips, fibrous material, wet sand, clay and the like.

The problem of material discharge from storage bins, i.e. H. the Problem of the inevitable continuous flow of most bodies from reservoirs has been a difficult and costly bottleneck in continuous for many years or automatic work processes. Wherever solids from a storage container must be discharged for processing, the first step in this procedure has to namely the continuous discharge of material from the reservoir, so far the most varied and costly procedures involved in order to achieve this reach. The problem is complicated because there are many changing factors such as B. the size, the shape and the special material properties, the temperature, the humidity etc. have a say. Fibrous, adhesive and the like materials tend to bridge even over very large horizontal stretches. Another one The problem is the material getting stuck on the container walls while it is being used The middle of the container leaks more easily, which leads to the formation of holes.

It has been determined that the industry as a result of procedural interruptions due to faulty material flow from the storage container, millions are worth every year loses. In addition, millions have been spent trying to find a solution of the problem.

The construction of reservoirs per se is subject to more extensive subjects and thorough investigations both mathematical and empirical in nature. However, those skilled in the art have found that despite the best container construction no reliable material discharge can be achieved without auxiliary devices, which interact with the container to use.

Many auxiliary devices and arrangements have been proposed to promote the outflow of material from the reservoirs, including Vibrators attached to the outer wall of the container, one or more Screw conveyors, which are arranged above the container bottom, rotating arms, which as huge agitators work inside the container, pulsating cushions attached to the Inner wall of the container are attached, etc. While the previously known devices and arrangements, each for use under limited conditions and for certain Materials were satisfactory, none has really been approved for use Difficult to handle materials such as wet sand, clay, wood chips etc., proved to be suitable.

It is also known to have a funnel that can be made to vibrate to be arranged under the lower funnel-shaped container opening, the such an angled Discharge tube has that the material flow from the discharge tube only when in vibrations displaced hopper takes place, but is interrupted when the hopper is stationary. Even with this known discharge device, there may be bridges in the container itself. and / or hole formations occur, as has been described above.

The invention is based on a known one that comes closest to it Discharge device, which is plate-shaped, concave at the top and with a middle Outlet opening formed bottom part at the lower open end of a container by means of Vibration dampers stored and by a vibration generator firmly connected to it can be displaced in vibrations directed at right angles to the container axis, wherein a baffle covering the outlet opening at an axial distance above the same is arranged and the bottom part is inclined towards the outlet opening so flat that the material discharge is interrupted when the bottom part does not vibrate.

In this known device, the retaining wall is fixed to the bunker connected and can therefore not vibrate the material in the bunker offset. This includes a secure, even flow of the material inside the bunker, especially when it comes to materials that are difficult to handle of the specified type acts to discharge, so that there are holes and / or bridges comes in the bunker. Another disadvantage of this known device is in this to see that the retaining wall as a relatively high cone with such a point Angle must be formed so that deposits of material on it, which then do not takes place, cannot be avoided. In this training, once the material between the cylindrical socket of the bunker and the retaining wall and on the other hand, strengthen the connection between the nozzle and the conical funnel Exposed to the effects of congestion, so that bridges form at these points can.

The invention aims to provide an improved discharge device Kind be created in the. even discharge is difficult to achieve handling materials such as chips, fibrous material, wet sand, clay and the like, should be ensured by bridging and / or hole formations in the container that regularly cause operational disruptions and interrupt the regular discharge, to be avoided with certainty.

This object is achieved according to the invention in that the bottom part and the storage wall firmly connected to each other and as a unit by means of adjustable lengths Vibration dampers are suspended from the container and that the bottom part has an inner, has upwardly concave portion by an upwardly directed circumferential shoulder with an outer, upwardly concave, concentrically arranged section connected is.

With the discharge device designed according to the invention the long known, but not yet solved problem of the discharge difficult to handle - materials to surprisingly simple, yet extremely effectively resolved. Congestion that leads to the formation of holes and / or bridges lead in the storage container, were in the discharge devices designed according to the invention no longer observed.

The inner bottom part, which is offset downwards, creates a collecting zone created for loosened, strong vibrations exposed material that is concentric is moved from all sides towards the outlet opening, whereby the uniform discharge is achieved. The cross section of the discharge opening and the slight inclination of the inner one Part of the bottom is dimensioned so that there is a sufficient damming effect on the material to be discharged Material is applied so that generally with the device not vibrating no material discharge can take place, whereby of course the properties of the material to be discharged play a role.

Around pressures of the material and the accumulation effects caused thereby To exclude even greater security, the invention provides that the retaining wall Expediently has a diameter corresponding approximately to the inner base part the baffle has an upwardly convex surface for depositing material thereon to avoid.

In a preferred embodiment, many different Difficult-to-handle materials have proven to be very suitable is the angle of inclination the connecting line from the outer edge of the outer bottom part to the inner edge of the Outlet opening smaller than 450.

The vibration generator according to the invention is expedient on the outside Perimeter of the bottom part attached.

An embodiment of the subject matter of the invention is shown in Drawings shown. It shows F i g. 1 shows a plan view of the device according to FIG of the invention, with a portion of the baffle broken away, FIG. 2 one Side view of the device, with part of the concave forming the container bottom Parts of the floor has broken out, F i g. 3 is a side view showing the device shows attached to a reservoir, on a smaller scale, and FIG. 4 is an enlarged partial view of the attached to a storage container Device with certain parts shown in section.

Reference is now made to FIGS. 1 and 2, in which a vibrating container discharge device according to the invention shown is. This device has two metal, plate-shaped parts 10 and 11 and one tubular part 12, which are arranged concentrically to one another and to one another are welded to form a sturdy, unitary structure - the floor a container is used. The upper ends of the bottom parts 10 and 11 have relatively short, cylindrical flanges 13 and 14 respectively. It may be pointed out at this point that these bottom parts in different sizes and contours from stock are available, whereby an economical production is made possible and in addition further advantages can be achieved, as can be seen from the following description will be.

To produce the container discharge device, there is 10 in the bottom part a central opening is provided in which the cylindrical flange 14 of the associated Bottom part 11 is added and welded, as the weld 15 shows. In the same way, a central opening is provided in the bottom part 11, which for Receiving the cylindrical portion 12 is used, these parts also, such as shown at 16 are welded together. In this way the parts 10, 11 and 12 a coherent construction with the opening 17, which is used as the material outlet opening serves. The concave contour of these parts makes components of great strength created so that they can be relatively thin-walled, which saves material and entails a reduction in the overall weight of the device. For example a wall thickness of approx. 8 mm is sufficient for parts with a diameter of up to to 3 m, regardless of which particular material is to be stored. Two Angle irons 19 and 20 extend over the interior of the bottom part 10 and are with their ends welded to the cylindrical flange 13 of the same.

An upwardly curved retaining wall 21 is welded to this angle iron, whose circumferential surface is at a distance from the inner wall of the bottom part 10 to one annular material passage from the storage container into the base parts 10 and 11, as this is to be written in more detail below bF.

Horizontal mounting plates 22 arranged opposite one another and 23 are adapted and welded to the bottom part 10 with their inner edges; the mounting plates are on. the Corners with holes for receiving provided by tie rods on which the device can vibrate on the storage container is hung up. Reinforcing plate pairs 24 arranged at a distance from one another, 25 and 26, 27 are on the lower surfaces of the respective mounting plates 22 and 23 and welded to the outer wall of the bottom part 10. The one in one plane lying outer edges of the mounting plate 23 and that arranged below Stiffening plates 26, 27 are welded to a vertical plate 30, which with Threaded holes for receiving fastening bolts for a vibration generator 31 are provided. Such a vibration generator is preferably as an in completely closed unit and has an electric motor with vertical Shaft on which one or more weights are attached eccentrically. at Exciting the motor, the weights rotate in a horizontal plane and practice violent vibrations on the bottom of the container. With the attachment shown of the vibration generator have the vibrations exerted on the container bottom predominantly a direction that is perpendicular to the vertical axis of the container lies. These vibrations in the bottom of the container make the material it contains effectively flowable, whereby an inevitable discharge of the same through the Outlet opening 17 is promoted. The speed of rotation of the eccentrically arranged weights of the vibrator and the amplitude of the vibrations exerted on the device changes with the size of the respective container bottom and that held in stock Materials. In general, a relatively large rotational frequency with a relatively small oscillation amplitude are combined.

It was found that an oscillation frequency of 1800 to 3000 Vibrations per minute and an amplitude of 0.5 to 3 mm a working range results, which is suitable for use with very large storage containers, which Contain materials that are generally believed to be difficult to handle. For example becomes an oscillation frequency of 1800 oscillations per minute for a motor and Weights that produce an amplitude of 3 mm, recorded materials, such as wet Effectively put sand, clay, wood shavings etc. into a flowable state.

It is now referred to FIG. 3 referred to, in which the in vibrations displaceable bottom is shown attached to a reservoir 34 which has a has conical, lower portion 35. There are four consoles on the container wall welded, of which in the view of FIG. 3 only two, 36 and 37, are visible are. Each console has a horizontal plate, which with a hole for Receipt of the associated pull rod 38 and 39 provided at the ends with a thread is provided. With particular reference to the tie rod 38, it can be seen that the upper end thereof the hole provided in the horizontal plate 40 and the vibration isolators 41 and 42 penetrated during the lower end the hole provided in the mounting plate 22 and the vibration isolators 43 and 44 passes through it. A desired distance between the lower end of the reservoir and the bottom is reached by means of suitable nuts that are on the tie rods unscrewed are as follows with reference to FIG. 4 will be described later. Suffice it to say for the moment that the annular gap between the upper, cylindrical portion of the bottom part 10 and the wall, which the discharge opening of the funnel, is closed by an elastic band 45, which is held in position by two circular straps 46, 47. Through the Suspension of the floor on the storage container by means of the four tie rods and the associated one Vibration isolators can use the device relatively freely as a result of the they exerted by the eccentrically arranged weights of the vibrator 31 Vibration forces oscillate.

The details of the mounting arrangement for the vibratory Suspension of the floor in the working position on the storage container is best off the partial view of FIG. 4 can be seen. This view shows one of the triangular, vertical panels 36 and the horizontal panel 40 of the console. The upper vibration isolator 41 has a projection which penetrates the hole provided in the plate 40 and bears against the lower vibration isolator 42. The upper end of the pull rod 38 is by means of nuts 50 and 51, which abut flat washers 52 and 53, respectively, in Position held. The lower end of the tie rod is through bolts 54 and 5S and the discs 56 and 57 held in place on the opposite sides the mounting plate 22 are arranged and on the vibration isolators 43, 44 support, the vibration isolators 41 to 44 are preferably made of rubber manufactured. It should be seen that the four tie rods and the associated Vibration mountings (all of the tie rod and the vibration mountings just described same) the bottom of the storage container can vibrate in the working position opposite support the reservoir.

A ring 60 with an angular cross-section surrounds the conical wall 35 of the container and is with both this and the horizontal plate 40 of Bracket 36 welded. The vertical leg of the ring 60 is at a distance from Arranged at the end of the cylindrical section 13 of the bottom part 10 and aligned to the gap being made of rubber or some other suitable elastic Material made band 45 is closed. This strap is held by two metal straps 46 and 47 held in place, each tightening strap by conventional means, for example a turnbuckle, is provided, whereby the band 45 firmly on the ring 60 and the Section 13 can be tightened.

It will now be clear that the upwardly convex retaining wall 21 supports the material load contained in the funnel and that the annular gap with a vertical height Y a passage for the material from the bottom part 10 forms in the bottom part 11. Only when the bottom of the storage container is vibrating is moved, material can pass through gap Y or a bridge over this gap form. When the material passes this gap as free flowing material, it comes it to rest on the surface S. In any case, the flow of material is out of the hopper interrupted for all practical purposes until the device is through the Vibration generator is set in vibration.

The distance Y between the baffle plate 21 and the bottom part 10 depends on the material to be treated.

Free flowing materials usually require a lower plate position as non-free flowing materials. Indeed, some materials can use with With pronounced bridging properties, no baffle plate is required at all make, since the own bridging effect exerted by the baffle plate Approximates function, d. i.e. that the top load of the material is above the final Outlet opening 17 is supported. However, the baffle plate is preferred in all cases, to ensure that material is discharged from the storage container, initially is directed inwards and then outwards.

When the vibrator works, the one bridging the gap Y will be Material exposed to violent vibrations, this effect tending to affect the material particles that would normally form a bridge across this gap.

Once the material has been released from gap Y, it moves quickly to the bottom part 11, which acts as a collector above the final Outlet opening acts. Material collects in the bottom part 11 to a depth of several centimeters, and since this material is in a more violent state If there is agitation, it takes on a quasi-liquid property and therefore occurs through the outlet opening 17 in a liquid-like flow. If the tubular Part 12, which forms the outlet opening 17, directly with the larger, upper one Would be connected to the bottom part 10 instead of the lower bottom part 11, the material would must enter the tubular part 12 via the connecting edge, this Place a weir that would greatly delay the discharge of material.

In the case of the bottom of the storage container which can be set in vibration the type described above is the material flow taking place under vibrations final outlet opening 17 through the downward sloping surface of the bottom part 11 supported.

The mean inclination of the bottom parts 10 and 11, which between the with Assuming points designated M and N should preferably be less than 45 ° to the horizontal. With such a tendency, there is an inevitable Discharge of the material through the outlet opening 17 when the vibration exciter is actuated while at the same time a material discharge is prevented when the vibration generator is at a standstill.

The speed of material discharge from the opening 17 in the floor is extremely uniform in the construction described and has a Deviation in the order of 5 c / 0 from minute to minute, regardless of the Amount of material in the hopper or hopper. To this In a way, the device described does not only result in an inevitable discharge of material ensured from the storage container, but also a uniform material discharge speed achieved through the outlet port 17.

Since the material exits through the final outlet opening when the Vibration generator no longer occurs, this eliminates the need for locking devices having to provide turned off. Even with relatively free flowing material the material that collects through the annular opening Y by gravity can pass, only on the surface F of the lower bottom part.

Storage containers or funnels are generally designed in such a way that that they are filled quickly and take up a relatively large amount of material can, subsequently, continuously at a desired flow rate or is carried out at intervals. These requirements usually lead to a container construction in which the lower portion is tapered or funnel-shaped is designed to end in a relatively small discharge opening. One such construction causes clogging and compaction of the material the container discharge opening. This compression effect becomes even more serious, when storing adhesive materials such as wet sand, which have a tendency to bridge even over long, horizontal distances, and if there are materials that consist of irregularly shaped pieces, such as wood chips that lock each other. These and others Factors cause an interruption in the flow of material from the container discharge opening. In the device according to the invention, the container discharge opening is intentional kept relatively large, d. H. considerably larger than the one desired Material discharge speed is required. Essentially any movement will of the material from the main part of the container through the baffle plate 21 and the inner surface of the bottom part 10 held up. This means that there is only one up to the level of the baffle plate relatively little convergence of the material takes place. The main converging one Effect only takes place in the zone under the baffle plate, where the material is completely can move freely. The material moves freely within this zone as it is covered by the top load of the material within the container is relieved and since the material in this zone is subjected to a violent agitation and also since the area is never completely filled under the baffle. The annular gap Y, the is subjected to violent vibrations, causes the release of the particles through this gap on a more or less individual basis. This arrangement facilitates not only the flow of material from the final outlet, but also the movement of material down from the upper regions of the container. As for a removal of the material care is taken in the zone of the discharge opening in the bottom of the container, a loosened zone created directly above the baffle plate, which it the overlying Material allows it to move down easily. For materials which have a pronounced tendency to bridge, such as wet Satnd, wood chips or the like, it may be necessary to remove the side walls of the container to set it in slight vibrations, for example by means of small vibration generators 65, 66 shown in FIG. 3 are shown. These auxiliary vibrators need to transmit only very small vibrations to the container wall in order to a To cause collapse of the bridging material as in the lower zone of the container would result in an empty space if the material were to pass through the annular opening Y moves while the bottom of the container vibrates is.

Now that the invention and its mode of operation have been described has been, it should be clear to those skilled in the art that various Changes can be made without, however, departing from the inventive concept, such as it is expressed in the following claims to deviate.

Claims (5)

Claims: 1. Discharge device, as a plate-shaped, according to concave at the top and bottom part with a central outlet opening at the bottom, open end of a container stored by means of vibration dampers and through a vibration generator firmly connected to it at right angles to the container axis Vibrations can be displaced, with a baffle covering the outlet opening is arranged at an axial distance above the same and the bottom part to the outlet opening is inclined so flat that the material discharge when the bottom part is not vibrating is interrupted, d a d u r c h g e - indicates that the bottom part (10, 11) and the retaining wall (21) firmly connected to one another and as a unit by means of adjustable lengths Vibration dampers (41 to 44) are suspended from the container (34) and that the bottom part has an inner, upwardly concave portion (10) through an upward directed order circumferential shoulder (14) with an outer, upwardly concave, concentric section (11) arranged for this purpose is connected. 2. Apparatus according to claim 1, characterized in that the retaining wall (21) has a diameter approximately corresponding to the inner bottom part (11). 3. Apparatus according to claim 1 or 2, characterized in that the baffle (21) has an upwardly convex surface. 4. Device according to one of claims 1 to 3, characterized in that that the angle of inclination of the connecting line (M-N) from the outer edge of the outer bottom part (10) to the inner edge of the outlet opening (17) is less than 450. 5. Claim according to one of claims 1 to 4, characterized in that that the vibration generator (31) is attached to the outer periphery of the bottom part (10, 11) is. Considered publications: German utility model no. 1,823,982; British Patent No. 508,528; French patent specification No. 937 024.