DE1018787B - Swivel connection for endless conveyors arranged one behind the other - Google Patents

Description

Swivel connection for endless conveyors arranged one behind the other The invention relates to a pivot connection for endless, one behind the other arranged conveyor, one conveyor by means of a carriage on the subsequent one Conveyor can be moved lengthways and horizontally on the carriage by means of a circular arc guide is pivotable.

Especially in underground mining, where the ore or the coal from the mining site to the loading or filling station further back with the help is brought by funding institutions, which consist of a number of promoters and dismantling and loading machines exist, it is necessary that the individual conveyors are free are mutually pivotable to the necessary mobility in the tunnel or Mining strut too. Reach, With a swivel connection according to the invention, the Opportunities for insulting the individual sponsors against each other better and more effectively made possible than was previously the case.

Funding institutions, of which the mineral from the mining door to a backward one Operating point is funded, generally consist of a construction machine or from a loader that feeds the mineral to a bridge conveyor, to which it is loaded a main conveyor excluding it is settled.

Here it is desirable to place the bridge conveyor on the main conveyor so avoid that both a longitudinal movement as well as a pivoting movement is possible so that the main conveyor does not have to be moved every time the Mining machine or the loader changes position. There were therefore pivot connections developed, which consists of two guide parts arranged side by side at a distance exist on one conveyor and two circular arc guides on the other conveyor. the two circular arch guides have the same radius with different centers, which are each at one end of the opposite arch. Each of the two guided in the guides guide parts is about a vertical axis of the opposite Part swiveling. It follows that the pivoting of the conveyor in each case can only be done around one of the two lateral arc centers.

It is also known, two conveyors by means of a slewing ring around one vertical center axis pivotable against each other and by means of the slewing ring to make carrying car against each other longitudinally displaceable.

It is the main object of the invention to provide a swivel connection create, which not only have a low overall height and a resistant Structure has, but also allows better mobility, a larger loading area can be exploited than with known connections of the same length or the required Connection length reduced at the same. large loading area.

This task will. according to the invention thereby, solved, that the circular arcs a, us consists of two opposite arch guides, which in the first section after a radius with a common center point and then in the second section after a radius twice as large around the leading end of the opposite first sections are formed, and that each of the two in the Guided tours. Telile around a vertical axis of the opposite. Part of it is schwekbear. In the basic principle, the invention is thus placed in the. Understanding, that there are two known types of arching, the circular arcs with common Center point (slewing ring) and the writing curve with a larger radius at not common center, working together in one in two successive sections have an effective swivel connection.

A special embodiment of this pivot connection is still characterized by the fact that the two parts guided in arched slits each consist of two There are plates spanning the slot, which rollers and 5 slotted rollers exhibit.

In the drawing, an embodiment of the invention is shown. It shows Fig. 1 the side view of a loading machine with a B bridge conveyor, which is pivotally connected to a Haput conveyor, Fig. 2 shows a section the line 2-2 in Fig. 1 on an enlarged scale, Fig. 3 in plan cin. Guide member of the pivot connection, Fig. 4 a Sclmitt along the line 4-4 in Fig. 3, Fig. 5 a section along the line 5-5 in Fig. 4, Fig. 6 a section according to the line 6-6 in FIG. 4, FIG. 7 a section according to the line 7-7 in FIG. 1.

Fig. 8 a. Section along line 8-8 in FIG. 7.

Fig, 9 and 10 in plan view of the pivot connection in two different Layers to the rear pulley of the bridge conveyor (a well-known connection is indicated by dashed lines).

To. Fig. 11: lis 8 is a bridge conveyor 10 between a feed conveyor 11 attached to a loading machine 12 and a main conveyor 13, the bridge conveyor Contains an endless belt of a chain 14 which goes around a front pulley 15 and a Rückwärige pulley 16 is running. With the swivel connection between the conveyors 10, 13 a guide plate 21 is part of a carriage 20, which is longitudinally movable on the conveyor 13 The plate 21 is cut out from and contains two slots 51 and 51 serving as guide tracks, each slot is shaped according to two different sized radii. In the front, first section 53 and 54, each slot is shaped as a circular rim around the common center point 50. In the subsequent second section 55 or 56, each slot is an arc of a circle formed around its own center point 57 or 58, which is on the center line of the opposite first slot portion 53 or 54 at its front end lies. The radii of sections 55 and 56 of the guideways are twice as large like the radius of the guide slots 53 and 54. A stop 60 between the ends the arcuate slots on the plate 21 limit movement along the guideways. the guide plate 21 is provided with reinforcing ribs to increase its rigidity.

In the arched slots guide parts 65 and 66, which roll with are connected to the bridge conveyor and each have two. Cross-slot Plates 67, 68 are made and are held together by screw bolts 69. The screw bolts carry sleeves 70 which roll along the edges of the slot. The top plate 67 is on theirs! both ends gregabelt and each forms a Pair of support arms 72, 73 and 74, 75 in which the Acvhsen 76 and 77 of the rollers 78 and 79 rotatably mounted wind. The roles. 78 and 79 reach over the slot and roll freely on the top of the plate 21. In an opening 83 in the top Plate 67 is a. vertical pin 80 or 80 'attached to the freely pivotable Connection of the bridge conveyor 10 is used.

The bearings on the conveyor 10 into which the pivot pins 80 and 80 engage. lie in a vertical plane with the axis of the rear pulley 16. die The pivoting movement of the bridge conveyor takes place as far back as possible lying point.

When the bridge conveyor from fer largest pivoting with respect to the deflection drum 16 is pivoted back counterclockwise according to FIG. 10, then the guide part 65 moves forward along the sheet guide 55, wherein a pivoting movement takes place un the pin 80 'of the guide part 66, which is next still in your position at the front closed end (at 57) of the bow guide 54 lingers. If. the guide part 65 approaches the position shown in FIG and the end of the sheet guide 55 and thus the beginning of the Arch guide 53 reached has, then the guide part 66 begins to move backwards along its arc guide 54 to move, in the same way as the guide part 65 continues to tangle moved until the conveyors are longitudinally aligned.

The conveyor parts 65 and 66 are located here in that shown in FIG normal situation.

If the bridge conveyor continues in the counterclockwise direction is pivoted, the guide part 65 comes to the end 58 of the sheet guide 53. Then the guide part 66 then moves on the sheet guide 56 in the direction of the stop 60.

In FIGS. 9 and 10, a known pivot connection is shown in dashed lines also drawn in to show the different mode of action. At the known Connection is cut from the guide plate 121 and forms two circular arc guides 151 and 152. their centers at 157 and 158, respectively, at the front end of the opposite one Arch guide lies. The guide parts, which are located along the arch guides 151 and 152 move, lie in a plane passing through the axis of the rear Deflection roller 116 extends. From this it follows that with disengaged funds both Guide parts rest against the front end of their guide.

From this position when the bridge conveyor is pivoted only one guide part moves back, while the opposite guide part remains in the fulcrum. If the bridge conveyor and the main conveyor at a The arrangement is aligned according to the invention, bisects the plane by the axis of the rear pulley 16 approximately the guides 53 and 54, and. at a twist the conveyor changes a rotary movement about the axis 50 into one about the Point 57 or 58, depending on which direction is pivoted. When aligned According to the Erfing, the rear pulley is closer to the task of conveyors of the main conveyor than with the known connection. According to the invention, the Bridge conveyor 10 can be moved further away from the main conveyor 13 than it is with the known swivel prevention would be possible, so that the main conveyor does not so often must be relocated. This difference in length is approximately 35 cm and if it is taken into account that a corresponding connection also between the bridge conveyor and the loader or the mining machine is arranged, then the profit is at Move already 70 cm.

Due to the additional usable loading area, a facility is also included greater effectiveness created.

On the other hand, the length of the bridge conveyor can instead be increased by about 70 cm reduced in order to be able to cover the same usable loading area, like it using known. Swivel connections is achievable.

Claims (2)

P A T E N T A N S P R Ü C H E: 1. Swivel connection for endless, conveyors arranged one behind the other, one conveyor by means of a scales longitudinally movable on the subsequent conveyor and on this carriage by means of a Arc guide is horizontally pivotable, characterized by the fact that the Circular arch guidance from two opposing arch guides (51, 52) consists, which in the first section (53, 54) after a radius with a common center (50) and then in the second section (55, 56) one double as large a radius around the feeler end (57, 58) of the opposite first section (53, 54) are shaped, and that each of the two parts guided in the guides (65, 66) pivotable about a vertical axis (80, 80 ') of the opposite part is. 2. Swivel connection according to Anspurch 1, characterized in that the two in bow slots (51, 52) guided parts (65, 66) each from two the slot overlapping plates (67, 68) exist, which rollers (78, 79) and slotted rollers. (70) have. Documents considered: German Patent No. 882 668; U.S. Patent No. 2,604,201.