WO2013117452A1 - Feed element for a transport surface of a feed device - Google Patents

Abstract

The invention relates to a feed element (10), in particular pin element, having a carrying part (12) which carries a hard-material element (14) in or on a receptacle (13), wherein the hard-material element is supported indirectly or directly with respect to the carrying part by way of a fastening section (18). In the direction of the upper end (17) thereof which faces away from the fastening section, the hard-material element has at least one first inclination surface (24) which is inclined at a first angle (a) with respect to the centre longitudinal axis (ML).

Description

 Feed element for a transport surface of a feed device

The invention relates to a feed element for a transport surface of a feed device.

Such advancing elements in the form of steel pins are used, for example, in harvesters, in particular harvesters or harvester harvesters. Woodworkers are special wood harvesting machines that perform semi-automatic precipitation, delimbing and cutting. These machines have a crane arm at the end of which a felling head is mounted. The felling head is usually equipped with feed rollers, a length measuring unit, a hydraulically driven chain saw and delimbing knives. In operation, a pair of feed rollers engage on both sides of the trunk of a tree to be felled, strained and limed. The transport surfaces of the feed rollers are conventionally occupied with steel pins, which press in on the outside into the wood. The steel pins are welded onto the transport surface. By turning the feed rollers, the sawed tree trunk is transported in its longitudinal direction. The steel pins act as feed elements, which ensure a defined feed and secure traction when moving the tree trunk.

The feed rollers have the task of moving the tree trunk as far as possible so far that the chain saw attached to the felling head can saw off the trunk into sections of predefined length. This is essential for the transport, storage and further processing of the wood sections.

The use of feed rollers causes the steel pins to wear out so that slippage can lead to erroneous path measurements and thus incorrect lengths of the wood sections. The steel pins must therefore be replaced in good time to maintain the desired feed and Traktton. It is very time-consuming to remove the worn steel pins from the transport surface of the feed roller and to weld new steel pins. Depending on the shape of the steel pins, attention must be paid to orientation when welding. In the welding process itself, it is not easy to maintain the predefined orientation.

From the state of the art so-called stud bolts are known as wear protection of surfaces subject to heavy wear. Thus, for example, from DE 86 12 180 U1 such Noppenbofzen known, comprising a support member has a good weldable steel material. The support member is equipped with a receptacle which may be formed for example as a bore or a conical seat. In or on the receptacle is a hard material element, in this case a hard metal piece arranged. If a hole is made in the support part, a hard metal pin is used as the hard material that is soldered into this hole.

The studded stud serves to protect the wear of surfaces subject to heavy wear. For this purpose, a plurality of stud bolts in a grid spaced from each other are welded onto the surface to be protected. For example, the surface to be protected may be part of an earthworking tool. During the work intervention Erdmateria! passed over the surface and the stud bolts. Due to the grid structure soil settles in the spaces between the stud bolts, forming a kind of natural wear protection. The carrying part of the dimpled pin wears off during machining; The hard material element, on the other hand, is only subject to less wear due to its material characteristics.

When using feed elements on the transport surface of feed rollers, however, spaces between the individual feed elements should not be transported by the wood material to be transported or forwarded! be added. This would mean that the feed elements can not press sufficiently deep into the tree trunk to be processed. This in turn leads to a deteriorated traction during the feed movement, so that the chainsaw attached to the felling head can not cut the trunk into sections of precisely predefined length.

It is therefore an object of the invention to provide a feed element of the type mentioned that in operation at abrasive load as particularly stable and easy to replace in case of replacement. In addition, the feed element should ensure a particularly good traction of the wood piece to be processed. The object of the invention is achieved by a feed element according to the Merkmaien of claim 1. Advantageous developments are each described in the subclaims.

Accordingly, the feed element on a support member which carries a hard material element in or on a receptacle, wherein the hard material element is indirectly or directly supported with a mounting portion on the support member. The hard material element is particularly wear-resistant and securely fixed in the supporting part. The support member in turn can be attached in a simple manner by a rapid stud welding process on the transport surface of the feed device. In addition, there is no clogging of the spaces between adjacent feed elements on the transport surface of the feed roller.

Furthermore, the hard material element has at least one first inclination surface inclined in the direction of its upper end facing away from the attachment section at a first angle to the central longitudinal axis. With this design it is achieved that the advancing element penetrates particularly easily into the wood material to be transported and, after the transport step, also easily loosens again without unduly damaging the wood material. According to a preferred embodiment, the hard material elements may also have a second inclined surface extending in a direction inclined towards the upper end at a second angle to the central longitudinal axis, which forms a cutting edge with the first inclined surface at the upper end of the hard material element. With this Cutting edge, the penetration of the feed element is further simplified in the Hoizmaterial.

A particularly sharp cutting edge results when the first inclination surface and the second inclination surface are formed on two opposite sides of the hard material element with respect to the cutting edge. Such a cutting edge can only be made of hard material in a particularly wear-resistant design. For a reliable assembly of the hard material element, it can be provided according to the invention that the receptacle for the hard material element in or on the support part is at least partially surrounded by a jacket part. At the Mantelteii the hard material element can be aligned correctly and reliably during assembly.

If the feed element is such that the mating surface of the support part is formed by a base part, which preferably has a cylindrical outer contour, and from which the mantle part rises, then a simple design is achieved, which can be easily manufactured.

A particularly preferred variant of the invention is such that the support member indirectly or immediately after the mating surface has a preferably truncated conical tapered portion, which narrows the cross section of the support member in the direction of the lower end of the support member facing away from the hard material element. The shape with the cross-section tapered section is characterized by good weldability, as this optimizes the flow of current during the welding process. Particularly preferably, the tapering section has a contact element which serves for contacting during the welding operation. This contact element may be formed, for example, as an aluminum tip. The object of the invention is also achieved by a combination consisting of a feed element according to one of claims 1 to 7 and a weldable transport surface of a feed device for a workpiece, in particular workpiece consisting of wood or the like organic material. With such a combination, according to the invention it can be provided, in particular, that an at least partially encircling, bead-shaped welding region is formed on the outside in the transition region between the base part and the jacket part. The bead-shaped welding region has a greater wear resistance than the supporting part, and thus protects the transition region of the supporting part to the workpiece and thus serves as leaching protection.

The object of the invention is also achieved by a combination consisting of a feed element according to one of claims 1 to 7 and a ceramic ring having a cylindrical inner receptacle for the feed element. To carry out the welding process, a welding tool which makes electrical contact with the supporting part can be attached very comfortably to the ceramic ring.

In such a combination, it may be provided according to the invention, in particular, that the advancing element in the cylindrical inner receptacle of the ceramic ring is rotatable about its central longitudinal axis. Thus, the orientation of the advancing element can be established before welding. In such a combination, it can further be inventively provided that the ceramic ring has a lower support surface which is placed on a weldable transport surface of a feed device. With this arrangement, the feed element to be welded can be easily and securely positioned before welding.

The invention will be explained in more detail with reference to an embodiment shown in the drawings. 1 shows in simplified side view and in full section a feed element surrounded by a ceramic ring, wherein the feed element is placed together with the ceramic ring on a transport surface of a feed roller; Figure 2 in a simplified side view and in full section the feed element according to the figure 1 welded onto the transport surface of the feed roller;

FIG. 3 shows a perspective side view of the feed element according to FIG. 1;

FIG. 4 is a perspective perspective view of the feed element according to FIG. 1 surrounded by the ceramic ring; FIG. 5 shows a perspective bottom view of the feed element according to FIG. 1 surrounded by the ceramic ring; and

Figure 6 in simplified partial side view of a feed roller occupied with a Variety of feed elements.

1 shows a simplified side view and in full section a feed element 10 surrounded by a ceramic ring 44, wherein the feed element 10 is mounted together with the ceramic ring 44 on a transport surface 52 of a feed roller 50 of a Holzvoilernters.

The advancing element 10 has a supporting part 12 and a hard material element 14. The support member 12 is made of a weldable material with good electrical conductivities. It has a base part 32, from which a ring-shaped circumferential jacket 30 rises. The jacket 30 encloses a cylindrical cavity 13. On its outer contour, the jacket 30 has a first cylinder section 30a ascending from the base section 32, which continues in a second cylinder section 30b of smaller outer diameter than the first cylinder section 30b. In this case, the first Zyünderabschnitt 30a passes in a stepped manner in the second Zyiinderabschnitt 30b.

The base part 32 forms, facing the cavity 13, a bottom-side Gegenfiä- surface 20 and has a cylindrical outer contour. To the base! 32, facing away from the jacket 30, joins a tapered section 34 of frustoconical shape. In the tapering section 34, a bore 37 is introduced, wherein the bore axis of this bore 37 is aligned with the central longitudinal axis ML of the feed element 10. In the bore 37, a contact element 38, consisting of a good electrically capable material, for example aluminum, pressed.

The support member 12 takes in the cavity 13, a hard material element 14, consisting for example of ceramic or hard metal, on. The hard material element 14 has a cylindrical attachment section 18 with a bottom-side support surface 16 on. In this case, the support surface 16 is aligned orthogonal to the central longitudinal axis ML of the hard material element 14.

To assemble the hard material element 14 in the cavity 13 of the support part 12, for example, a solder is used. This is positioned in the transition region between the support surface 16 and the Gegenfiäche 20. About the solder joint, the hard material element 14 is firmly bonded to the Tragteii 12.

A first inclination surface 24 and a second inclination surface 26, which form a cutting edge 28 at the upper end 17 of the hard material element 14, adjoin the fastening section 18 in the direction of the upper end 17 of the hard material element 14 facing away from the support surface 16.

In an alternative embodiment (not shown), only the first sloping surface 24 may be provided.

The first inclined surface 24 is inclined at a first angle α to the center longitudinal axis ML, whereas the second inclined surface 26 is inclined at a second angle β to the central longitudinal axis ML. The first angle α is carried out in the range of 40 ° to 50 °, whereas the second angle ß 5 ° to 10 ° is made smaller than the first angle.

The first inclination surface 24 and the second inclination surface 26 are formed on two opposite sides of the hard material element 14 with respect to the cutting edge 28. The cutting edge 28 formed between the two tilting surfaces 24 and 26 at the upper end 17 of the hard material element 14 is offset in the direction of the second inclined surface 26, so that the upper end 17 of the hard material element 14 is not mirror-symmetrical. As is clear from Figure 1, this is Hard material element 14 is not rotationally symmetrical to the central longitudinal axis ML constructed. In this case, the first inclined surface 24 in the transport direction T of the feed roller 50th

FIG. 3 shows the feed element described with reference to FIG. 1 in a perspective side view.

In FIGS. 1, 4 and 5, the advancing element 10 is shown surrounded by a ceramic ring 44. FIG. 1 shows a simplified side view and a full section, FIG. 4 shows a perspective view, and FIG. 5 shows a perspective view of this arrangement.

For carrying out the welding operation (not shown), the ceramic ring 44 shown in FIGS. 1, 4 and 5 is used which has a cylindrical inner receptacle 46 which receives the feed element 10. The feed element 10 is rotatable in the cylindrical inner receptacle 46 of the ceramic ring 44 about its central longitudinal axis ML and thus adjustable in its orientation with respect to the transport direction T of the feed roller 50.

The ceramic ring 44 has a lower support surface 48, which can be placed on the transport surface 52 of a feed roller 50, for example, a Holzvoilernters. The transport surface 52 is to be provided with a plurality of feed elements 10.

In a simplified partial side view, a feed roller 50 of a Holzvoilernters busy with a plurality of feed elements 10 is shown in FIG. The feed elements 10 are preferably arranged on the transport surface 52 in the pitch grid. As shown in Figures 1, 4 and 5, the ceramic ring 44 is provided in the region of the support surface 48 with recesses which serve as gas outlets 49. For fastening the advancing element 10 on the transport surface 52, a (not shown) welding tool is attached to the ceramic ring 10, which contacts the Tragteii 12 electrically. In the support member 12, a welding current is then introduced, which generates an arc between the contact element 38 and the transport surface 52. As a result, on the one hand, the feed roller 50 is melted in the region of the transport surface 52. On the other hand, the tapering portion 34 and the contact element 38 is melted. Subsequently, the feed element 10 sinks into the molten metal thus formed.

As shown in FIG. 2, after cooling, a firm welded joint results in the transition region between the base part 32 and the transport surface 52 of the feed roller 50. The welding process is carried out in such a way that in the transitional area between the base part 32, the shell part 30 and the transport surface 52 of the feed roller 50 forms a circumferential, bead-shaped welding area 40.

Claims

claims

1. feed element (10) for a transport surface (52) of a feed device (50),

 characterized,

 in that the advancing element (10) has a supporting part (2) which carries a hard material element (14) in or on a receptacle (13), the hard material element (14) being provided with a fixing section (18) opposite the supporting part (12 ) is supported directly or indirectly,

 wherein the hard material element (14) has at least one in the direction of the mounting portion (18) facing away from the upper end (17) at a first angle (a) to the central longitudinal axis (ML) inclined first slope surface (24).

2. Feed element according to claim 1,

 characterized,

 the hard-material elements (14) also have a second inclination surface (26) which slopes in a direction towards the upper end (17) at a second angle (β) in relation to the central longitudinal axis (ML) and which has the first inclination surface

(24) at the upper end (17) of the hard material element (14) forms a cutting edge (28).

3. feed element according to claim 1 or 2,

 characterized,

 in that the first inclination surface (24) and the second inclination surface (26) are formed on two opposite sides of the hard material element (14) with respect to the cutting edge (28).

4. feed element according to one of claims 1 to 3,

 characterized,

 the receptacle (13) for the hard material element (14) in or on the support part (12) is surrounded at least in certain areas by a molded part (30).

5. Feed element according to one of claims 1 to 4,

 characterized,

 in that the mating surface (20) of the support part (2) is formed by a base part (32) which preferably has a cylindrical outer contour and from which the mantle part (30) rises.

6. Feed element according to one of claims 1 to 5,

 characterized,

 in that the support member (12) has, directly or indirectly adjacent to the mating surface (20), a preferably tapered tapered section (34) which extends the cross section of the support member (12) in the direction of the lower end (36) facing away from the hard material element (14) ) of the Tragteiis (12) tapers.

7. feed element according to claim 6,

 characterized,

in that the tapering section (34) carries a contact element (38).

8. Combination consisting of a feed element (10) according to any one of claims 1 to 7 and a weldable transport surface (52) of a feed device (50) for a workpiece, in particular workpiece consisting of wood or the like organic material.

9. Combination according to claim 8,

 characterized,

 that in the transition region between the base part (32) and the casing part (30) on the outside an at least partially encircling, bead-shaped welding region (40) is formed

10. Combination consisting of a feed element (0) according to one of claims 1 to 7 and a ceramic ring (44) having a cylindrical inner receptacle (46) for the feed element (19).

11. Combination according to claim 10,

 characterized,

 the feed element (10) is rotatable in the cylindrical inner receptacle (46) of the ceramic ring (44) about its central longitudinal axis (ML).

12. Combination according to claim 0 or 11,

 characterized,

 the ceramic ring (44) has a lower support surface (48) which can be placed on a weldable transport surface (52) of a feed device (50) for a transport item.