DE801904C - Gear for briquette extrusion - Google Patents

Description

Gear for Briquette Extruders The invention relates to a connection between the push rod and the bolt of a joint for the toggle lever drive one Briquette extruder.

In the case of a briquette extruder, a lot occurs in the drive during the press stroke large compressive forces, compared to which, however, relatively small tensile forces Return stroke. The large compressive forces occurring during the press stroke cause a special one careful training of the joints in the drive. The object of the invention is a simple connection between the push rod and the bolt to accomplish. This object is achieved in that the push rod with its end, that has a rectangular cross-section and one perpendicular to the rod axis Has head surface, rests in an incision in the bolt that is parallel to the bolt axis one or more dowel pins lead through the bolt and the rod end <these in the area of the side walls of the bolt incision are smaller in diameter 1-eltalten, namely on such a route, Bali those in the push rod acting longitudinal forces in the weaker parts of the dowel pin or pins mainly only generate lying loads.

In the drawing, an embodiment of the invention is 1) eisl) iels @ \ eise shown.

The A111. i shows a schematic representation of a toggle lever drive for a briquette extruder.

The 2 shows one of the joints of the toggle lever drive> it in a vertical position Longitudinal section.

Fig. 3 shows a section along the line 111-11I of Fig. 2.

The -1b. .4 is a representation corresponding to A11. 3. The parts are however in _ \ 11. .1 so drawn, like them under the influence the forces change their position to each other during the return stroke.

The toggle lever drive shown in Fig. I for a briquette extruder has a crankshaft i, on the crank pin of which the rocker arm 2 is seated. On the swing arm 2 are two push rods 3 and hinged. The push rod 3 is articulated with the Press ram 5 connected. The push rod 4 is supported in an articulated manner against the frame 6 of the press. The joints that are identical to one another are denoted by 7.

In Figs. 2 to 4, for example, the joint between the push rod is 3 and the rocker arm 2 shown.

The end 8 of the push rod 3 has a rectangular cross section and a perpendicular to the rod axis head surface 9. With this end 8 rests Push rod 3 in an incision io of the bolt t i. It is useful if that Push rod end 8 is seated as free of play as possible in the bolt recess. Parallel to Bolt shafts lead through the bolt i i and the push rod end 8, two dowel pins 12. The number of dowel pins 12 is arbitrary. The dowel pins 12 have the peculiarity on that they have a smaller io in the area of the side walls 13 of the bolt incision Have a diameter of length a.

If the bolts had the same throughout their entire length Diameter, they would be in the plane of the side walls 13 of the bolt recess io and the side walls 14 of the rod end 8 resting against these 'through the strong Compressive force, d. H. by shear, heavily used and destroyed in the long run. The reason for this is that the part of the rod end 8 between the head surface 9 and the dowel pins 12 elastically greatly deformed as a result of the compressive force, so that also the middle part of the dowel pins 12 is taken from the push rod 3 and thus considerable shear stresses in the dowel pins in the planes of the side walls develop.

The dowel pins 12 are now in the area of the side walls 13 of the bolt recess io kept smaller in diameter on such a distance a that by the above described deformation in the weak parts 15 mainly only bending stresses develop. The dowel pins 12 are firmly clamped in their other places, can however, in their weaker parts 15 according to the bending stress deform. They act like feathers. Under the action of the opposite of the compressive force acting return force in the push rod 3, d. H. a pulling force, also kick in the parts 15 of the dowel pins 12 essentially only bending stresses.

It is not absolutely necessary for the rod end 3 to be rectangular Cross-section has; it can e.g. B. also have a circular cross-section and in a be inserted correspondingly circular recess of the hinge pin i i.

The bending stress is less, the smaller the dowel pin diameter is. It would therefore be desirable to aim for a dowel pin diameter that is as small as possible. on the other hand the dowel pin must have a certain strength to absorb the return force. By Both of these conditions limit the strength of the dowel pin.

In special cases it can happen that the return force is unusual becomes large, and one would therefore have to use very strong dowel pins. Still would in these pins due to the deformation of the rod end 8 between the head surface 9 and the dowel pins that occur during the compression stroke, too high a bending stress to be triggered. This is e.g. B. the case when the press ram gets stuck. This difficulty is countered according to the invention in that the weaker Parts 15 of the dowel pins 12 are dimensioned by diameter and length so that when When the stronger return forces occur, the weaker parts 15 of the dowel pins 12 come into contact with the hole walls in the push rod 3 and in the bolt i i and that with this change in shape the elastic limit is not exceeded. This can be seen from Fig. 4 in an exaggerated representation. At the touch the weaker parts 15 of the dowel pins 12 with the hole walls become the weaker ones Parts 15 also stressed to shear. So the bending stresses add up and the shear stress of the dowel pins, making them much more resilient -, become and are able to absorb stronger return forces without the bending stresses at Druckhul) become too big.

In a further embodiment of the invention, provision is made for in the event that the press ram gets stuck and cannot be withdrawn. So that the dowel pins 12 are not destroyed, the hinge screws 16 are dimensioned so that that their tensile strength is less than the strength of the dowel pins 12. The Hinge screws 16 are therefore torn before the dowel pins 12 undergo a permanent change in shape accept. The hinge screws 16 hold two lateral brackets 17 that hold the bolt ii span.

Claims (3)

PATENTA \ APPLICATION: i. Gear, in particular toggle lever gear, for a briquette extruder with pressure rods and bolts attached to them, the are held in bearings, characterized in that the push rod (3) with its End (8) that has a rectangular cross-section and one perpendicular to the rod axis lying head surface (9) has, in an incision of the bolt (i i) rests that parallel one or more dowel pins to the bolt axis through the bolt and the rod end (12) lead and that this in the area of the side walls of the bolt incision in diameter are kept smaller, and in such a way that the in the push rod acting longitudinal forces in the weaker parts (15) of the alignment pin or pins mainly only generate bending stresses. 2. Transmission according to claim i, characterized in that the weaker parts (15) of the dowel pin (12) after The diameter and length are dimensioned in such a way that when return forces occur, @ #, - elche significantly exceed the return forces generated in regular operation, the weaker part of the dowel pin with the wall of the hole in the push rod and in the bolt comes into contact and that with this change in shape the elastic limit is not is exceeded. 3. Transmission according to claim i or 2, characterized in that <let the screws (16) for the bearing cover (17) are dimensioned so that the tensile strength these screws is less than the strength of the dowel pins.