DD290166A5 - TWO-DRIVE DRIVE FOR BELT BAND FOLDER - Google Patents

Abstract

The invention relates to a two-drum drive for Gurtbandfoerderer, which is advantageously applicable in all areas of Foerdertechnik. The technical object of the invention is to develop a two-drum drive for Gurtbandfoerderer in which a 360-degree wrap angle for the power transmission to the drive drums without a tail pulley and without the use of the support side of the conveyor belt can be realized. According to the invention, the technical object of the invention is achieved by arranging an intermediate band circulating over both drive drums between the drive drums and the conveyor belt. The intermediate band has an elasticity value which is smaller than the elasticity value of the conveyor belt and, if appropriate, drum lining arranged on the drive drums. The drive drums have either a same or decreasing diameter in the conveyor direction. Belt conveyors; without tail pulley; Drive drums; conveyor belt; increased stiction; 360-degree wrap angle; no change of bending direction; reduced wear; Intermediate band; low elasticity value}

Description

For this 1 page drawing

Field of application of the invention

The invention relates to a Zweitroinmelantrleb for belt conveyor, which is advantageously applicable in all areas of the conveyor.

Characteristic of the known state of the art

In ZILLICH, E .: Conveyor technology for study and practice, Volume 2: Mechanically operating continuous conveyors, Werner-Verlag Dusseldorf 1972 various types of drive assemblies have been described by belt conveyors. Head drives, final drives and head and final drives in the form of single or multi-drum drives are used individually. To achieve high GurtzugkrXfte multi-drum drives, z. Example in the form of two-drum drives, application in which a large wrap angle can be realized, which allows the transmission of large forces from the drive drums on the conveyor belt. These multi-drum drives consist of drive drums, which operate either as head, end or head and final drive, and idler pulleys. In order to meet the requirement that the conveyor belt is not performed with the support side on the drive drums, as this would result in an unreasonably high wear, the conveyor belt is guided under not too high train on these guide drums. However, this arrangement has the disadvantage that the conveyor belt in the leadership of the drive drums and the idler pulleys a certain number of bending changes, in particular Biegerichtungswechseln exposed. In order to keep the bending stress caused by the high load on the conveyor belt is limited to not to choose the drum diameter too small, the number of bending changes and especially the Biegerichtungswechsel to keep as small as possible and sufficiently large distances between the drums quickly successive Biegerichtungswechsel avoid. In order to realize the required for a sufficient power transmission angle of the conveyor belt to the drive drums and to meet the requirement that the conveyor belt is not guided with its support side on the drive drums, can on the idler pulleys, which are the actual cause of adverse Biegerichtungswechsel, at the known solutions are not waived. Even if the Biegerichtungswechsel be kept to a minimum, such. B. in a two-drum drive in which only a Biegerichtungswechsel occurs, the remaining Biegerichtungswechsel still has a significant impact on the life of the conveyor belt.

Object of the invention

The object of the invention is to reduce the wear of conveyor belts on belt conveyors with two-drum drives.

Explanation of the essence of the invention

The technical object of the invention is to develop a two-drum drive for belt conveyors in which a 360-degree wrap angle for the transmission of power to the drive drums without a tail pulley and without the use of the support side of the conveyor belt can be realized.

According to the invention the technical object of the invention is achieved in that between the drive drums and the conveyor belt a circulating over both drive drums intermediate band is arranged. The drive drums have either a same diameter or decreasing in the conveying direction. This ensures that the surface contact between the conveyor belt and intermediate belt is greatest and accordingly optimal power transmission is secured by the drive drums on the intermediate belt on the conveyor belt.

The intermediate band has an elasticity value which is smaller than the elasticity value of the conveyor belt and a drum lining possibly arranged on the drive drums.

The intermediate belt, which rotates directly on the drive drums, wraps around the anti-drums at a 360-degree angle and ensures reliable slip-free power transmission from the drive drums to the conveyor belt through the large surface contact with the conveyor belt and the low elasticity value. Especially when starting slip slip is converted into a Dehnschlupf.

With this simple but effective solution, the previously required deflection rollers can be dispensed with in two-drum drives. The fact that now no Biagerlchtungswechsel longer occurs and the intermediate belt simultaneously acts as a wear band and drum lining, the wear on the drive drums and on the conveyor belt is reduced by shifting to the intermediate belt. The distance between the drums can be chosen arbitrarily small in the inventive solution, so that the drive of the two Antriebstrommoln can advantageously be done via a common motor with an intermediate gear, creating a smaller, compact Bauwelse the two-drum drive is possible. Since both drive drums are not driven independently of each other, plant damage can not occur, as is the case with bekannton solutions, which is caused by the stoppage of a drive drum

 The two-drum drive according to the invention can be used both as a head, end or head and final drive.

Ausführungsbelsplel

The invention will be explained in more detail with reference to an embodiment. For clarification, an inventive two-drum drive is shown in FIG.

This two-drum drive should be suitable for the transport of pleistocene masses. For this it is necessary that when the Pleistocene masses are thrown off, there will be no follow-up of the Pleistocene in the age. The two-drum drive for the transport of pleistocene masses consists of the drive drums 1 and 2, the intermediate belt 4 and the conveyor belt 3. The drive drums 1 and 2 are provided in conventional Welse with a drum pad. The drive current 2, which is arranged in the conveying direction in front of the drive drum 1, has a larger diameter. The intermediate belt 4 is guided completely around the drive drums 1 and 2 and thus realizes a looping angle of 360 degrees. On this intermediate belt 4 of the conveyor belt 3, which rotates the drive drum 1 and the drive drum 2 only touches tangentially. Due to the contact surface between the intermediate belt 4 and conveyor belt 3 a large static friction is achieved. If one or more of the distance and the size of the drive drums 1 and 2 dependent support rollers disposed between the two drive drums 1 and 2, the power transmission between the intermediate belt 4 and conveyor belt 3 can be further increased. These support rollers are then used at the same time for clamping, in particular dos intermediate band 4, whereby only only one tensioning device for tensioning the conveyor belt 3 on the tail pulley is required. The intermediate band 4 consists of a PVC band with two running sides. This material has compared to the conveyor belt 3 and the drum pad of the drive drums 1 and 2 to a smaller elasticity value. The minimum diameter of the drive drum 1 with the small diameter is known to depend on the conveyor belt 3 used in each case. The diameter of the drive flow 2 is to be selected as a function of the Pleistocene masses to be conveyed and the size of the drive drum 1. Due to the two-drum drive with two Aritriebstrommeln 1 and 2 with different diameters, a Vorabwurf the Pleistocene masses is realized before the actual drop. By arranging the drive drums 1 and 2 in the lower run at the same height, a maximum preliminary discharge can be achieved. In addition, the pre-discharge of the Pleistocene masses can be tuned by selecting the ratio of the drive drum diameter or the distance of the drive drum 1 and 2 to the respective Pleistocene masses to be conveyed. The replacement of the drive drums 1 and 2, the change in the distance of the drive drums 1 and 2 and the intermediate belt 4 can be carried out by simple means.

With this two-drum drive, it is possible to substantially reduce the wear of conveyor belt 3 and drive drums 1 and 2, since the main load is borne by the intermediate belt 4. This intermediate band 4 is in turn easily replaceable, so that the cost of maintenance and service can also be reduced. The two-drum drive according to the invention represents a completely novel solution for the drive of belt conveyors, which, while simple in construction but complex in effect, eliminates the disadvantages of the known solutions and, moreover, offers additional advantages.

Claims (3)

1. two-drum drive for belt conveyor, consisting of a conveyor belt and two drive drums, characterized in that between the drive drums (1,2) and the conveyor belt (3) via both drive drums (1,2) circulating intermediate belt (4) is arranged. 2. two-drum drive according to claim 1, characterized in that the Antriebstrommw'n 1,2 have the same or a decreasing diameter in the conveying direction. 3. two-drum drive according to claim 1, characterized in that the intermediate band (4) has a modulus of elasticity, which is smaller than the elasticity value of the conveyor belt (3) and optionally on the drive drums (1,2) arranged drum pad.