阅读说明：本技术 用于输送器的输送线路 (Conveying line for conveyor ) 是由 C·基尔施尼奥克 于 2019-10-04 设计创作，主要内容包括：本发明涉及一种输送线路(1),其包括：至少一个接板链(2),其由多个带有相应两个接板(4,5)的链节(3a,3b)构成,其中,至少一个链节(3a,3b)包括带有固定区段(10)的角形架(9a,9b)；以及至少一个输送器件(11),其可借助于固定器件经由装配区段(12)固定在角形架(9a,9b)处。(The invention relates to a conveying line (1) comprising: at least one link chain (2) consisting of a plurality of chain links (3a,3b) with two respective link plates (4,5), wherein at least one chain link (3a,3b) comprises an angled frame (9a,9b) with a fastening section (10); and at least one conveying means (11) which can be fixed to the angle brackets (9a,9b) by means of fixing means via the mounting sections (12).)

1. A conveying line (1) comprising

-at least one link chain (2) consisting of a plurality of links (3a,3b) with two link plates (4,5) respectively, wherein at least one link (3a,3b) comprises an angled bracket (9a,9b) with a fixing section (10), and

-at least one conveying means (11) which can be fixed at the angle brackets (9a,9b) via an assembly section (12) by means of a fixing means,

characterized in that an alignment element (13) is formed on the angle bracket (9a,9b) and/or on the assembly section (12) in such a way that the assembly section (12) can be positioned in a predetermined manner relative to the angle bracket (9a,9b) before being fixed by means of the fixing means.

2. The conveying line (1) according to claim 1, wherein the alignment element (13) is configured at the fitting section (12) and a corresponding alignment element (14) is configured at the angle bracket (9a,9b), in particular at a fixing section (10) of the angle bracket (9a,9 b).

3. The conveying line (1) according to claim 1 or 2, wherein the alignment element (13) comprises a recess, a bump or a protrusion.

4. Conveying line (1) according to claim 2 or 3, wherein the corresponding aligning element (14) has a complementary shaping to the aligning element (13).

5. Conveying line (1) according to any one of the preceding claims, wherein the alignment element (13) is formed by a ridge surrounding a hole, which ridge engages in an aligned state into a further hole (14) complementary to the ridge, and wherein the fixing means is guided through both holes in a fixed state.

6. Conveying line (1) according to any one of the preceding claims, wherein the fixing means comprise bolts or rivets.

7. Conveying line (1) according to any one of the preceding claims, wherein the conveying means (11) are configured in the form of a bucket, a plate or a cabin.

8. Conveyor, in particular bucket conveyor or steel crawler, with a conveying line according to one of claims 1 to 7 closed on itself.

Technical Field

The invention relates to a transmission line (Foerderstrang) comprising: at least one link chain (Laschenkette) which is formed from a plurality of chain links each having two link plates, wherein at least one chain link comprises an angle bracket (Winkelhalter) having a fastening section; and at least one conveying means which is fixed/fixable at the fixing section of the angle bracket via the assembly section by means of the fixing means.

Background

The link of such a conveyor line is known, for example, from EP 1592898B 1, in which an angle bracket is arranged on a single link plate (Einzellasche) of the link, which is bent with its fastening section outward and forward from the longitudinal axis of the link. In the fastening section, the holes are configured as fastening elements, through which rivets or screws are guided as fastening means for fastening conveying means in the form of buckets (Becher), plates or cabins (Zelle). For this purpose, the assembly section of the conveying means has, for example, coupling elements in the form of holes, which have to be aligned relative to the fastening elements of the angle brackets in order to mount the fastening means.

The coupling dimensions (Anschlussmass) for the transport means also vary for differently large lug chains, which differ from one another in the dimensioning of the lugs and the angle brackets. In particular, the spacing of the fastening elements from the central longitudinal axis of the link chain varies in the fastening section of the angle bracket. However, this means that for each size of the link chain, the assembly section of the conveying means must also be adapted accordingly. This means that for link chains differing from each other in the size of the links, transport means differing from each other in the arrangement of their coupling elements have to be manufactured or provided.

For the assembly of the complete conveyor line, the assembly section of the conveyor means must furthermore be precisely prepositioned relative to the fastening section of the angle bracket until fastening means in the form of bolts or rivets are guided through corresponding holes in the assembly section and the fastening section, thereby making assembly difficult.

Disclosure of Invention

The object of the present invention is therefore to eliminate the disadvantages described in relation to the prior art and in particular to specify a conveying line whose assembly is simplified. In addition, the production of modular versions of the conveyor line with differently large plate link chains should be simplified.

This object is achieved by a transmission line with the features of the independent claim. Advantageous developments of the conveying line are specified in the dependent claims and in the description, wherein the individual features of the advantageous developments can be combined with one another in any desired manner in a technically expedient manner.

This object is achieved by a transport route having the features mentioned at the beginning, in which an alignment element (Ausrichtelement) is formed at the fastening section and/or at the mounting section of the angle carrier, so that the mounting section and in particular the transport means can be positioned in a predetermined manner relative to the angle carrier before being fastened by means of the fastening means.

The invention provides in its basic concept that the fastening section and/or the mounting section of the angle bracket are shaped and/or designed such that the mounting section can be initially placed at the fastening section of the angle bracket in a predetermined manner by the alignment element before it is fastened by means of the fastening means and preferably also be held in this position, as long as no further forces act on the mounting section. Due to the alignment element, no additional effort is required for holding the assembly section in the desired position during the fastening of the fastening means.

For example, the alignment elements can be formed in or on the fastening section and/or the mounting section in the form of recesses (aussaproung), recesses (ehoehung) or projections (ehoehung). For example, the mounting section as an alignment element can have a recess whose shape corresponds at least in sections to the outer contour of the fastening section of the angle bracket, so that the alignment of the mounting section at the fastening section of the angle bracket is defined by the recess. However, it is preferred if the alignment element is configured at the mounting section and the corresponding alignment element is configured at the angle bracket, in particular at the fixing section of the angle bracket. Both the mounting section and the fastening section of the angle bracket then have corresponding alignment elements. The corresponding alignment element comprises in particular a shaping (formtasting) complementary to the alignment element. If, for example, the alignment element is configured by a protrusion, the corresponding alignment element will be configured by a correspondingly shaped recess or clearance.

In a preferred embodiment, the alignment element is formed by a ridge surrounding the hole, which engages in the aligned state into a further hole complementary to the ridge, wherein the fixing means is guided through both holes in the fixed state. The pre-centering (vorzenterizing) takes place directly in this region, in which the fastening section of the angle bracket is connected to the mounting section by means of a fastening means.

The fastening means can be configured, for example, as bolts or rivets.

The conveying means are constructed in particular in the form of buckets, plates or compartments.

The assembly section can be integrated in particular in one piece and thus into the conveying device itself. However, it is also possible to provide the mounting element on an element to which the delivery device is connected or connectable in a force-, form-and/or material-fit manner.

The link chain is in particular formed with a plurality of links which are arranged alternately and pivotably to one another, wherein the pins of the links are arranged rotatably in the bushings of adjacent links. Plate link chains, in particular bush conveyor chains (buchsenfoerkeytte).

For example, the preferably closed-loop link chain can be formed by an alternating arrangement of outer links and inner links, wherein the two pins, which are each connected in a rotationally fixed manner to an outer web of an outer link, are arranged in one of the two bushings, which are connected in a rotationally fixed manner to an inner web of an adjacent inner link. Alternatively, the toggle link chain can also be designed as a crank-like chain, in which each chain link has a pin which is connected in a rotationally fixed manner to the toggle link and a bushing which is connected in a rotationally fixed manner to the toggle link, wherein the pin of a chain link is arranged in the bushing of an adjacent chain link. The chain link thus comprises, in particular, two bushings, two pins or one bushing and one pin.

The plate link chain is designed, in particular, as a reinforced chain link at least in subsections (Teilabschnitt) comprising a plurality of chain links, such that adjacent chain links of the chain link or of the entire chain can be pivoted freely relative to one another for turning in the pivoting direction (Umlaufrichtung), wherein pivoting movements in the direction opposite to the pivoting direction are limited in a manner known per se, for example by the formation of stops/anti-stops (Gegenanschlag) at adjacent chain links.

It is also proposed that the fastening section of the angle bracket arranged at the first web point inward in the direction of the second web, i.e. toward the interior of the link chain.

The fastening section of the angle bracket, which has fastening elements in the form of coupling bores (anshlussbohrung), holes or pins (Stift), can be arranged between the two webs and thus in particular in the interior of the web link formed by the chain links or above/below its central longitudinal axis. This means that the fastening elements of a chain link or all fastening elements of all chain links can always be arranged centrally between the webs, even for different dimensioning of the webs and the angle brackets. The respective assembly section of the conveying means does not have to be adapted to differently large link chains with the coupling dimensions of its coupling elements, since the relative position of the fixing element with respect to the central longitudinal axis of the link chain does not change with the size of the link chain. This is achieved in particular if the fastening element is arranged between the two webs.

It is possible to provide that the angle bracket is constructed in one piece with the web. In this way, the angle brackets can be configured accordingly, for example already during the forging, casting or stamping of the webs. Alternatively, the angle brackets can then be constructed accordingly by deforming (bending) the first flat butt plate.

Alternatively, it can be provided that the angle bracket is fixed as a separate component to the first web. In this manner, the corresponding angle bracket can be installed (e.g., screwed, riveted or welded) in a form-, force-and/or material-fitting manner on the outer side or on the inner side of the first web. The angle brackets can thus also be installed later on to the plate link chains. It can also be provided that the respective angle bracket is fixed in the region of the bushing/pin at the respective web.

Furthermore, it can be provided that an angle bracket is arranged at the first and second webs, respectively, the fastening section of which preferably points in the direction of the other web. The fastening sections of the angle brackets arranged at the opposing webs are arranged one behind the other, in particular in the longitudinal direction of the chain link. The arrangement of the angle brackets at the two webs results in a uniform distribution of the forces acting on the chain links.

The angle bracket is in particular the section of the chain link which extends from the tab to a fastening section which is arranged approximately parallel to the plane of the chain link which is braced by the bushing/pin.

The angle brackets extend from the respective first web, i.e., preferably in the direction of the opposite web, and are directly/directly connected to the opposite (second) web, but in particular not in any manner, since this would result in additional assembly effort.

Although in principle it is sufficient for each web to be formed from exactly one single web, in one embodiment it can also be provided that the web is formed by two or more single webs, wherein at least one single web of the first web is provided with angle brackets.

For an even force distribution, it can now be provided that adjacent chain links have an angled bracket at the lugs arranged opposite one another with respect to the longitudinal axis of the lug chain. Alternatively, it can be provided that adjacent chain links each have an angled support at the web arranged on the same side with respect to the longitudinal axis of the web.

Furthermore, a conveyor, in particular a steel crawler belt (Stahlgliederband), a bucket conveyor (beccherwerk) or a cabin bucket conveyor (zellenbercwerk) with a conveying line according to the invention is proposed, wherein the conveying line itself is closed. In particular, the conveying line also has pulleys or guides with which the conveying line is guided at corresponding guides (e.g. rails) or corresponding pulleys of the conveyor.

Drawings

The invention and the technical environment are exemplarily explained below with reference to the accompanying drawings, in which schematically:

figure 1 shows a cross-section through a conveyor line,

figure 2 shows a side view of the butt plate chain and the conveying means of the conveying line,

figure 3 shows a top view of a first embodiment of the butt-strap chain,

figure 4 shows a top view of a second embodiment of the plate link chain,

FIG. 5 shows a top view of a third embodiment of a butt plate chain, an

Fig. 6 shows a partial cross-sectional view through a further embodiment of the link chain.

Detailed Description

Fig. 1 shows a conveyor line 1 with a link chain 2 and a conveyor means 11. The conveying means 11 is shown by way of example as a belt mat (bandmat) and comprises a fitting section 12 with coupling elements with alignment elements 13. The alignment element 13 is configured as a bulge surrounding the hole.

The link chain 2 includes inner links 3a and outer links 3 b. The inner link 3a has a first web 4a and a second web 5 a. The inner chain link 3a furthermore comprises two bushings 7, which are connected in a rotationally fixed manner to the first web 4a and the second web 5a, respectively, and which space them apart from one another.

The outer link 3b comprises a first web 4b and a second web 5 b. The first web 4b and the second web 5b are connected to one another in a rotationally fixed manner and are spaced apart from one another by two pins 8, wherein the pins 8 are each rotatably arranged in the bushings 7 of adjacent inner links 3 a. The webs 4,5 of the inner links 3a and the adjacent outer links 3b are thus stacked on top of each other.

A separate angle bracket 9a is mounted on the first web 4a of the inner chain link 3a and a separate angle bracket 9b is formed on the first web 4b of the outer chain link 3 b. The angle brackets 9a,9b each have a fastening section 10 which points in the direction of the opposing second web 5a,5b and thus extends on the central longitudinal axis of the web link 2. In the fastening section 10, a bore 14 is formed, which serves as a fastening element for a fastening means, not shown, and as a complementary alignment element for the alignment element 13. Accordingly, the shape of the opening 14 corresponds to the raised shape of the alignment element 13 of the delivery device 11. Fastening means in the form of bolts or rivets, not shown, can be guided through the holes of the alignment element 13 and the holes 14. Due to the alignment elements 13 and the holes 14, the conveying means 11 can be simply held in the desired alignment relative to the link chain 2 before fixing, so that the effort for fixing can be reduced.

Since the hole 14 of the angle bracket 9 can be arranged in the middle of the butt straps 4,5, it is not necessary to change the dimensioning of the assembly section 12 of the conveyor means 11 when the dimensioning of the chain links 3 of the butt strap chain 2 is changed.

Fig. 2 shows a further embodiment of the contact plate 4. It is recognized that the angle bracket 9 is constructed integrally with the web 4. The embodiment of fig. 2 corresponds to the embodiment of fig. 1.

Fig. 3 to 5 show top views of different link chains 2, which differ from one another in the arrangement of the angle brackets 9. The link chain 2 is formed from inner links 3a and outer links 3b, as already explained in detail with reference to fig. 1.

According to fig. 3, the angle brackets 9a,9b of adjacent inner links 3a and outer links 3b are arranged at the same side of the jointed chain 2.

In contrast, according to the embodiment of fig. 4, the angle braces 9a and 9b of adjacent inner links 3a and outer links 3b are arranged alternately on opposite sides with respect to the longitudinal direction of the link chain 2.

Again, according to fig. 5, both the first webs 4a,4b and the second webs 5a,5b of the inner links 3a and the outer links 3b have angled braces 9a, b.

If the previously described embodiment of the link chain has only one single link as link plate, the link plates 5a,5b,4a,4b are each constructed from two single link plates 6, with the angle brackets 9b being arranged only at one single link plate 6, according to the embodiment of fig. 6.

List of reference numerals

1 conveying line

2 link plate chain

3a inner chain link

3b outer chain link

4a, b first tab

5a, b second web

6 single connecting plate

7 liner

8 pin

9a, b angle frame

10 fixed section

11 conveying device

12 assembly section

13 alignment element

14 holes.