DE1756660A1 - Conveyor belt - Google Patents

Description

Conveyor belt The invention relates to rubber or rubber-like Plastics made with embedded reinforcement inserts, if necessary endlessly assembled from several sections to form joints Conveyor belts, preferably in the form of closed rings or loops in the belt body arranged electrical conductors, the conductivity state of the moving belt can be transferred to scanning means that are fixed relative to it.

According to known proposals, conductor loops are in the belt body used to indicate the penetration of foreign bodies into the moving belt and by triggering a signal or switching off the drive motor, especially for Conveyor belts with wire or cable inserts that run exclusively in the longitudinal direction to avoid the dreaded slashing. The arrangement is made so that the current carrying capacity of the conductors on mechanical, inductive, capacitive or other appropriate ways tapped by the fixed scanning elements and only in the event of interruptions in a conductor, such as the penetration of a foreign body is connected to the moving belt, an external control circuit is switched. The invention is based on the field of application of the known monitoring devices and to the early detection of impending belt separation or cracks to expand.

The task given for conveyor belts is the one described at the beginning According to the invention, generic money is paid in that the effective part of the electrical conductor aligned in the longitudinal direction or approximately in the longitudinal direction of the conveyor belt and its elongation at break is lower than that of the belt but higher than that in normal Conveying operation occurring elastic belt stretch is measured. As "more effective "Ladder part the part is to be considered, the continuity of which is used to switch the control circuit is interrupted.

The invention provides one of the belt construction and texture and -Arrangement of the pre-strengthening inserts to monitor the independent device State of elongation of conveyor belts and their connections. Offers particular advantages they are responsible for securing the always critical connection points in Bandbergen, Steilford and Elevator belts, as they recognize impending separations so early on made possible because # the conveyor system is still shut down before the complete rei-ben and greater damage with the risk of human life from falling Conveyed goods and parts of the operating systems can be avoided. She goes from here from the knowledge that a connection point can be reached without damage up to a certain point Limit can stretch. Only after this limit value is exceeded do dangerous Operating states, and the increase in elongation beyond the limit elongation is to be equated with breaking the connection. The practical application of this knowledge amounts to setting the tensile strength of the conductor between the two limit values. In this case, the monitoring device of the normal elastic strains of the conveyor belt is not affected, but to respond immediately if the Elongation can take on a dangerous order of magnitude when the limit value is exceeded should. For example, it can jam individual buckets in elevator systems come in the scoop, which increases the strength with the drive motor running of the connections cause tensile force in the pulling strand that exceeds several times became. Similar critical operating states are also in conveyor systems with more or less steep or horizontal conveying direction due to overloads or other external influences possible. Since the electrical conductors acting as signal transmitters in the design and arrangement according to the invention even more critical before the occurrence Tensile force values tear and thereby the circuit that regulates the driving force in the Influence the disconnection senses, the load cannot swell to the breaking point. An essential prerequisite for the intended effect is that the ladder are adhesively connected to the surrounding electrical material of the belt body.

The obvious production of conductors from metal wires is not mandatory; instead, profile strands, for example, could also be used made of electrically conductive rubber or plastic mixtures can be used. Of the high ohmic resistance of such materials would only be the choice of other electrical ones Sizes, but without fundamental changes in the effect according to s3ch draw.

The invention is illustrated using exemplary embodiments.

It means Fig. 1, 3-5 sections of a conveyor belt in plan view with the arrangement of ladder elements in different designs; Fig. 2, 4-6 cross-sections through the conveyor belt according to the assigned top views and FIG. 7 shows the schematic representation of a bucket elevator system in side view.

In all cases, the illustrated exemplary embodiments have a steel wire conveyor belt underlying, d. H. alsc one made of rubber or rubber-like elastic plastics Belt body 1 with continuous in the longitudinal direction without mutual contact made wire ropes or cables 2 as reinforcements. However, the invention is not limited to this, but independent of the type of conveyor belt and in particular the belt core applicable. In the lower one facing away from the conveyor belt Cover plate are in the area of the connection point or not further indicated also embedded in large numbers over the Gurtlärge ladder 3 distributed. According to the Representation in Fig. 1 and 2 are, for example, consisting of a copper wire strand Head formed into a self-contained loop, the arrangement being so met is that essentially elongated, straight running Peripheral parts of the loops aligned approximately parallel to the side edges of the conveyor belt are. This basic design creates the prerequisite for immediate transfer the tensile forces acting in the longitudinal direction of the belt on the conductors 3 themselves and their proportional forces Distribution based on the elongations that occur. The intermediate parts running in the transverse direction the conductor loops are as extensible as possible from the point of view of extensibility relocated to the changes in shape of the belt cross-section associated with the usual trough to be able to follow unhindered in the promotional strand. You can therefore use a zigzag gradient or have the drawn serpentine shape or are designed as spirals and the like be.

In comparison to the underside of the conveyor belt are slightly Distance to this one or more distributed over the length of the conveyor system Scanning heads 4 are provided, which the state of the conductor loops 3, for example scan inductively and via a connected control circuit 5 to a Report switching relay not shown or directly to another signal transmitter. The circuit 5 remains unaffected as long as the conductor loops 3 are closed and form an electrically oscillatable circuit. As soon as, however, as a result excessive stretching of one of the rectilinear parts of the ladder ruptures and the circle becomes one Experiences an interruption, the scanning head 4 triggers a signal or switching the relay to another by stopping the drive motor To prevent an increase in the tensile force built up in the belt.

Basically the same mechanism of action is also used for the embodiment according to FIGS. 3 and 4 determining. In this case, however, the conductor 3 is not considered to be closed Formed loop, but as a performed in performance across the width of the belt and on both side edges cffencalling connecting element between two of the sikh rolling follower rollers 6. The rollers 6 are freely rotatable at vertical pins standing on the surface of the conveyor belt and electrically connected to each other via a switching relay 7 inclusive control circuit 5 tied together. Design and management of the conductor 3 are in view of the underlying Task preferably on a longitudinal extension with extensive transverse deformation possibility oriented. By making contact with the two scanning rollers 6 with the exposed ones The relay 7 receives a pulse that affects the conductor ends connected monitored signal circuit. This state will disturbed if the pulse fails due to an interruption in conductor 3.

In Fig. 5 and 6, a further variant is shown. The head 3 consists of a profile strip of an electrically conductive rubber or Plastic mixture, which is embedded in a finite form in the underside of the conveyor belt and in the area of its exposed end portions of two on the underside of the belt rolling scanning rollers 6 can be passed over to form contact. Apart from that from the mounting of the rollers 6 to axes of rotation parallel to the surface of the conveyor belt For this embodiment, those mentioned in connection with FIGS. 3 and 4 apply Explanations of the mode of operation unchanged.

FIG. 7 shows a possible application of the invention using the example a bucket elevator shown. The provided with attached cups 8 endless Belt 1 is in an approximately vertical orientation over an upper drive drum 9 and a lower deflection drum 10 to scoop granular or powdery material to be conveyed out of the sump 11 and over eject the drive drum 9 into a hopper, not shown. To the Connection point of such belts are particularly high requirements because there is always the risk of excessive tensile stress as a result of overloading the cups or jamming within the sump. The greatest stress values occur in the upper section of the load strand, because in this area the weight of the fully loaded Cup 8 added to the tensile force acting from above. A high degree of security against tearing open a belt connection is achieved under these circumstances if Scanning heads or rollers in the arrangement according to the invention below the drive drum 9 on the load side of the belt 1 approximately at the point indicated by the arrows I # I are provided.

Claims (6)

Claims: 1. Made of rubber or rubber-like plastics with embedded reinforcement inserts, possibly from several pieces endlessly assembled conveyor belt, preferably with in the form of closed rings or loops in the belt body arranged electrical Ladders, the conductivity of which changes from the moving belt to a fixed relative to it Scanning means can be transmitted, characterized in that the effective part the ladder (3) in the longitudinal direction or approximately in the longitudinal direction of the conveyor belt aligned and its elongation at break is lower than the elongation at break of the belt, but higher than the elastic elongation of the occurring in normal conveying operation Belt is sized. 2. Conveyor belt according to claim 1, characterized in that the ladder da8 are arranged to run essentially over the entire length of the belt. 3. Conveyor belt according to claim 1, characterized in that several da8 Ladder with mutual distances are distributed over the length of the belt. 4. Conveyor belt according to claim 1 or 3, characterized in that the conductors in each case in the area of the connection point or connection points are arranged. 5. Conveyor belt according to claims 1 to 4, characterized in that that the ladder adheres to the elastic material of the belt that absorbs them are connected. 6. Conveyor belt according to one of claims 1 to 5, characterized in that that the conductors as profile strands of an electrically conductive rubber or plastic mixture are trained.