NO135585B - - Google Patents

Description

The present invention relates to a device at silos for collapsible goods, comprising a rotating agitator placed centrally in the silo, consisting of a rotatable disc provided with at least one rigid, arc-shaped arm which is supported on the disc about a bearing axis offset in relation to its center axis, and which is guided yieldingly through the goods in the silo in a more or less splayed position depending on the relationship between the force exerted by impactors on the arm, and the reaction pressure from the contents of the silo, as the convex front of the arm comes into contact with the silo contents.

For stirring the contents of silos for collapsible goods and discharging the contents through an opening in the bottom, it is known to arrange rotatable agitators with fixed, rigid paddles or arms inside the silo, e.g. just above its bottom. Such agitators are in danger of being overloaded when the resistance from the goods in the silo becomes very great.

Agitators with yielding arms have therefore also been developed. Thus, from NO-PS 101 986 a rotating agitator is known with a rigid arm which is stored for yielding oscillation about an axis which is offset in relation to the central axis of the agitator, at the same time that a capsule mainly covers the arm in the in-swing position. The arm will be able to take several positions between the swung-in position and a fully extended position where it works in the zone between the capsule's circumference and the silo walls. From US-PS 3 476 233 there is known a device for discharging the contents of a silo, consisting of arms which are rotatably stored as two-armed weight bars. However, the two-arm design only has the purpose of exerting a turning moment on the arm, as a driving turning force is exerted at the end of the straight inner weight arm against the reaction pressure from the contents of the silo which only acts on the outer arc-shaped weight arm. Furthermore, according to the patent document, the entire barbell, when it is in an unaffected state, is covered by a roof, and in the swinging position only the outer curved barbell exerts an agitator effect, while the inner straight barbell will always be protected from the silo contents by the roof 13.

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In DT-OS 1 940 714 there is described a discharge device for silos, where the weight rods or stirrer arms are arranged under a capsule that covers the stirrer arms in a swing-in position. In the swing-out position, only part of the stirrer arms will protrude into the area where the contents of the silo are located, and the moment that the contents exert on the arm will then be large due to the fact that there is no balancing moment on the parts of the arms located inside the pivot points of the arms.

In the case of the known discharge devices, the reaction moment that the collapsible goods exert on the arm when it is in an arbitrarily swinging position will be relatively large. Thereby, the impactors that serve to swing the arm must be dimensioned for a moment-exerting reaction force that is proportional to the length of the arm and the reaction pressure from the silo contents. In the device according to NO-PS 101 986, the impactors are also placed inside the capsule above the arm. This makes it difficult to access the influencing bodies for regulation, inspection, maintenance and repair, as the entire silo must then be emptied of its contents.

The purpose of the present invention is to eliminate the above-mentioned disadvantages. This has been achieved by the part of the arm projecting from the bearing axis being extended on the opposite side of the bearing axis to a part that also acts on the material in the silo, so that the reaction pressure from the contents of the silo on h<y>is a<y> the two arm parts in the swing-out position the arm will cancel each other out to a certain extent, and that both parts generally extend along an arc with a radius of curvature that generally corresponds to the distance between the axis of rotation and the bearing axis, so that the arm in the closed position is guided along a circular arc around the axis of rotation with minimal agitator action.

In the present invention, the entire agitator arm is constantly exposed to the material in the silo, and in the swing-out position of the weight arm, the reaction pressure from the contents of the silo will be balanced to a certain extent on the two weight arm parts.

In the swing-out position, the arm will extend partly all the way to the silo wall and partly within the storage point on the disc and towards the axis of rotation. In the fully extended position, the arm will thus sweep over the entire bottom of the silo with maximum digging or agitator action, as the agitator arm is effectively able to influence the part of the contents of the silo which is located in and close to the center of the silo. In a fully swung position, it will be guided through the goods with minimal agitator action, as the arm can then be turned so that it will follow a circular arc around the axis of rotation.

A preferred embodiment of the invention will be described below with reference to the drawing.

Fig. 1 is a horizontal section through the silo.

Fig. 2 is a vertical section through the lower part of the silo. In the drawing, 1 denotes the silo itself. 2 denotes a support bracket which is attached to the underside of the silo's floor 3. Centrally in the silo's floor 3 is a circular opening 4, in which a circular disk 5 can rotate. The disc 5 is secured on its underside to a shaft 6 which extends in the silo's central axis 7 and through the support bracket 2 which serves for axial and radial support of the shaft 6. The shaft 6 is rotated by means of drive devices not shown and has a central bore 8 which itself serves as or contains a line for drive fluid for connection between a stationary, not shown, source of pressure fluid and a hydraulic cylinder 9 which is attached to the underside of the disc 5 by means of a bracket 10. From the cylinder 9 leads a transition line 11 which via another radial bore 11' in the upper part of the shaft communicates with the central bore 8 in the shaft 6. The cylinder 9 is operated by hydraulic fluid from the source not shown

for hydraulic fluid, and the hydraulic fluid affects a piston 12 in the cylinder 9, the piston 12 being attached to a piston rod

13 which via a chain 14 is in connection with a sprocket 15 on the lower end of a shaft 16 offset in relation to the axis 7 of the silo. This is rotatably supported in the disc 5 and carries at its upper end an agitator arm 17 which has the shape of a ring segment or an arc, whose radius of curvature roughly corresponds to the radius of the disc 5 at the bearing point for the arm 17. Furthermore, the arm 17 is designed as a two-armed barbell, as it can rotate on the shaft 16. In fig. 2, two lengths a and b are indicated. The ratio between the lengths a and b can be chosen arbitrarily depending on the other dimensions of the silo 1 and the disc 5, but it is desirable to make b so long that the difference between a and b is not too great. The radius of curvature for the arm 17 must mainly correspond to the distance between the silo's center axis 7 and the arm's pivot axis 17<1>.

In fig. 1 shows two positions of the agitator arm 17. The position of the arm 17 which is shown with solid lines will occur when the piston 12 rests in the one in fig. 1 position, which will be the case when a reaction torque from the material in the silo is exerted on the arm 17 which is smaller than the torque resulting from the hydraulic pressure in the cylinder 9. This fully extended position of the arm 17 gives maximum agitator effect when the disc 5 rotates, and in this position both weight arms a and b are affected by the material in the silo. During the agitator action from the arm 17, the collapsible goods in the silo 1 will thus rush through an outlet opening 18 in the floor 3 of the silo. To further increase the digging or agitator effect, the arm 17 is made with a series of spikes or hooks 17<1>' as well as a curved end part 19 which curves in the opposite direction to the main part of the arm.

If the goods in the silo are tightly packed, the reaction torque on the agitator arm 17 will increase, and the arm 17 will then turn as much towards the fully swung position as shown in dashed lines in fig. 1,

that the reaction moment on the agitator arm is balanced by the moment from the cylinder 9. In the one in fig. 1 dashed position, the agitator arm 17 will exert minimal agitator action, as it is then dragged through the contents of the silo. Between these two extreme positions, the arm's angular position will determine how large an agitator effect the arm will exert, as maximum agitator effect is exerted when the arm extends across the direction of movement, and minimal agitator effect when the arm extends in the direction of movement.

As the source of hydraulic drive fluid is arranged outside the silo, the pressure in the cylinder 9 can be adapted to the type and quantity of the goods in the silo. The pressure can, however, be provided by means designed for relatively low pressures, as the reaction forces due to the contents of the silo, which act on each of the arms a and b of the agitator arm, balance each other to a certain extent. In addition, the two-armed design of the agitator arm means that in a fully extended position the arm sweeps over the entire bottom of the silo without leaving any unaffected zone in the middle of the bottom. In the embodiment shown, the part b of the arm 17 is not extended all the way towards the center of the disc, and in this case it may be appropriate to arrange a central vane member on the middle part of the disc. This paddle member can then serve to displace the part of the contents that would rush down towards the center of the disk, out into the area where the agitator arm is active.

The embodiment shown can be varied within wide limits without going beyond the scope of the invention. For example the driving fluid for the cylinder movement can be air or another suitable fluid. Instead of a hydraulic cylinder, other forms of power accumulators can be used, e.g. springs. In addition, the torque on the shaft 16 for the agitator arm can be transferred from the power store via a cable, a gear transmission or in a similar way.

By placing two or more agitator arms on the disc

a further effective agitator effect can be achieved. From the side of the support bracket, one will have access to the influence means arranged under the disk 5 for the arm, and this access is not dependent on stopping the operation or emptying the contents of the silo. Commissioning, running in and inspection will therefore be greatly simplified with the device according to the invention.

The principle according to the invention can also be used with one or more arms placed on different discs at different heights above the bottom of the silo. As the arms can be made to sweep over virtually the entire horizontal surface of the silo, the possibility of the contents of the silo getting stuck between the discs will be reduced. However, with the discs further arranged one above the other, you will not have the same access to the impactors as with the device that is closest to the bottom of the silo.

Claims (5)

1. Device for silos for collapsible goods, comprising a rotating agitator placed centrally in the silo consisting of a rotatable disk (5) provided with at least one rigid, arc-shaped arm (17) which is stored on the disk (5) about one in relation to its center axis displaced storage axis, and which is guided yieldingly through the goods in the silo in a more or less oscillated position depending on the relationship between the force slom influence organs (9, 14, 15) exerts on the arm, and the reaction pressure from the contents of the silo, as the convex front of the arm comes into contact with the silo contents, characterized in that the part (a) of the arm (17) protruding from the bearing axis is extended on the opposite side of the bearing axis to a part (b) which also acts on the material in the silo, so that the reaction pressure from the contents of the silo on each of the two arm parts in the extended position of the arm will cancel each other out to a certain extent, and that both parts (a and b) mainly extend along an arc with a radius of curvature which mainly corresponds to the distance between the axis of rotation and the bearing axis, so that the arm in the swung position is guided along a circular arc around the axis of rotation with minimal agitator effect. 2. Device as stated in claim 1, characterized in that the arm (17) on its convex front side is made with spikes or hooks (17'') so that it can tear away the collapsible goods in the silo. 3. Device as specified in claim 1, characterized in that the influencing means consist of a hydraulic cylinder (9) which is in a power-transmitting connection with a rotatable shaft (16) on which the arm (17) is supported. 4. Device as specified in claim 3, characterized in that the shaft (6) which turns the disk (5) is made with a bore (8) which either itself serves as or contains a line for pressure fluid for connection between a stationary source for pressure fluid and the hydraulic cylinder (9). 5. Device as stated in one of the preceding claims, characterized in that two arms (17) which are known per se are arranged at different heights above the bottom of the silo.