DE2739826A1 - Braking system for mining conveyor - has directly-driven pump for pressure medium and pump with independent drive - Google Patents

Abstract

A rotating conveyor device uses a braking system. The drive or reversing drum of the conveyor drives a pump which pumps the pressure medium during normal operation along a circuit through a magnetic valve dependent on the current circuit of the conveyor band drive. When there is a current failure of the conveyor is switched off, the magnetic valve automatically leads the pressure medium into a brake cylinder. In addition to the pump directly driven by the conveyor drive there is a further pump with an independent drive the output of which is brough to zero when the current fails or the conveyor is switched off, whilst the first pump applies its output to operate the mechanical braking device.

Description

Method and device for braking a

Conveying means The invention relates to a method and a device for braking a circulating conveying means by a braking device, wherein the drive or reversing drum of the conveying means drives a pump that via a solenoid valve that is dependent on the power supply of the conveyor belt drive in normal operation the pressure medium is pumped around in a circuit without pressure 'during a power failure or shutdown of the conveying medium, the solenoid valve, the pressure medium automatically directs to a brake cylinder.

When stopping or emergency shutdown of circulating funds it is necessary that this is safely to a standstill in a given time be braked. Depending on the external disturbance variables occurring on the conveyor, such as B.

the loading condition of the conveyor, its inclination the scattering coefficients of friction of the brakes depending on their operating state, the fluctuating running resistance of a clean or heavily soiled conveyor belt, different braking distances or braking times arise when braking. Through this If the conveyors are switched one after the other, there are overflows at the conveyance transfer points or there is a risk of accident when people are traveling.

There are conveyor systems known in which individual disturbance variables detected and serve as a trigger for the change in braking force.

DT-PS 1247 939, for example, has a device that measures the loading of a belt Deflection roller, which triggers more or less strong braking values when heavily loaded. This deflection roller is not able to detect other disturbance values of the conveyor and braking device to be recorded and incorporated into the braking force.

The braking device described in DT-OS 2405 801 is a double shoe brake that.

a spring-loaded, unilaterally loaded adjusting cylinder and has a flow valve lying in the drain line, with a controller and computer fitted. The computer receives a dem Motor current proportional Input signal, changes it according to the parameters of the system and executes it as an output signal to a controller that controls the opening width of the flow control valve and thus changing the braking effect. This braking device can neither have scattering coefficients of friction The specific running resistance of the belt conveyor still fluctuates with the shoe brake as they are not signaled.

When braking conveyor belts according to DT-OS 2252 709, the drive units are electronically controlled in such a way that the deceleration or

the braking distance after switching off is the same under all operating conditions remain. In the event of a power failure, regulation is not possible and the conveyor operation, especially when people are traveling.

The DT-PS 1226 934 describes a braking device in which a Pump driven by the drive or reversing drum of the revolving conveyor will.

The pressure medium is this via a power supply-dependent solenoid valve Pump circulated without pressure during normal operation, while in the event of a power failure the solenoid valve automatically releases the pressure medium, possibly via a pressure delay valve switches to a brake cylinder. This is intended to achieve will, that without an additional energy source, such as accumulators or hydraulic accumulators, when Switch off the drive of the outgoing conveyor as required for braking Brake pressure generated by itself. In this version, the disturbance variables of the encircling belt, but does not guarantee that the belt is decelerated takes place in a predetermined period of time, since a regulation dependent on the setpoint value is not provided.

None of these procedures and devices ensure compliance a predetermined braking time, since not all disturbance variables of the belt operation are recorded and evaluated.

The invention is therefore based on the object of the braking devices for rotating conveyor systems so that they can be used under all operating conditions achieve a constant braking distance or a constant braking time.

The invention proposes that the delivery volume of one from Conveyor belt driven pump (actual value pump) wholly or partially on the suction side Another pump (setpoint pump) is fed, which is independent of the conveyor belt drive owns, is operated with a specified power, and their suction power after a power failure or switching off the conveyor drive is brought to zero in an adjustable time, with the remaining delivery volume the actual value pump also acts on the mechanical braking device.

Because the volume of the actual value pump is partially or temporarily is also completely absorbed by the suction side of the setpoint pump, a residual volume remains, which in normal operation is pumped around without pressure via a power supply-dependent solenoid valve is, but when switching off, d. H. The conveyor belt drive is de-energized, via the switching solenoid valve also acts on the applied mechanical brake. Depending on the setpoint deviation, a different one occurs during the braking time Remaining volume and thus a different additional braking force in the sense of a automatic regulation.

The setpoint pump is a pump with an adjustable delivery volume, the adjustment takes place by means of a control pump on the drive shaft the setpoint pump is arranged.

The control pump, which is depressurized during normal operation via a solenoid valve pumps, controls the delivery volume after a power failure or shutdown of the system the setpoint pump to zero in a specified braking time. To in case of power failure to largely maintain the speed of rotation of the setpoint pump during the braking time, a flywheel is arranged on the drive shaft of the setpoint pump.

In a further embodiment of the braking device according to the invention is provided, the setpoint pump and the control pump connected to it not from one Drive motor, but via an overrunning clutch from the drive shaft of the actual value pump to drive. During the braking time, the flywheel then drives the setpoint pump regardless of the actual value pump.

The additional hydraulic application of the mechanical friction brake for the conveyance takes place through a pressure cylinder, which with the brake lever arm the mechanical friction brake is connected.

Because the conveyor belt in the braking time without drive under the action the disturbance variables run out, but at the same time also the remaining volume of the actual value pump Additionally acts to regulate the mechanical brake, it is ensured that the conveyor belt comes to a standstill within a specified time, d. H. one under all operating conditions constant braking distance is maintained.

The invention is explained below with reference to drawings, and although show: Figure 1: The schematic representation of the braking device in normal operation the conveyor belt system, without hydraulic ancillary equipment such as filters, valves, Safety devices, Figure 2: The same system after a power failure or shutdown, Figure 3: Another embodiment of the drive of the setpoint pump and the Brake cylinder.

The belt conveyor belt (1) is via a drive drum (2) by means of Gear (3) and motor (4) driven. Motor (4) and gear (3) are via one Coupling (5) connected to one another, which is equipped with a brake drum (6) is. (To the The brake drum and the mechanical brake shown pulled out in the figures). On the brake drum (6) the brake shoes (7a and 7b) of a double-shoe brake (8) and their brake release levers act (9) is connected to a brake fan (10). The brake release lever (9) will loaded by a pre-tensioned brake spring (11), the spring force of which is a measure of the Braking force is. A brake cylinder (12) is attached to the brake lock lever (9), which can increase the braking force of the brake spring (11). The double shoe brake (8) is kept open by the brake fan (10) during normal operation of the conveyor system.

The gear (3) drives a pump, the actual value pump (13), which during normal operation of the system via a line (14) from the container (15) liquid sucks in and via the line (16), through the brake cylinder (12) and an open one Solenoid valve (17) is fed back into the container (15) without pressure. The capacity the actual value pump (13) is directly proportional to the conveyor belt speed and it thereby records all disturbance variables acting on the conveyor belt.

Another pump, the setpoint pump (18), has its own from Conveyor belt drive motor (4) independent drive motor (19). The suction side of this The pump is connected to the pressure side of the actual value pump (13) via the line (20).

The pressure side of the setpoint pump (18) delivers via line (21) into the container (15).

The setpoint pump (18) is a regulating pump, i. H.

their delivery rate is adjustable as well as via a control device (22) adjustable to zero as a function of time. For loading the control device a control pump (23) is provided, which is connected to the setpoint pump (18) and its drive motor (19) is arranged on a shaft. In normal operation (Fig. 1) the control pump sucks (23) the liquid from the container (15) via the line (24) and conveys it without pressure via the line (25) and the opened solenoid valve (17) back into the Container (15). The flywheel (27) arranged on the motor shaft serves to maintain it the speed in the event of a power failure.

In the event of a power failure or shutdown of the conveyor system (Fig. 2), the The brake release (10) is unlocked and the brake spring (11) acts with its specified value Spring force Via the brake locking lever (9) on the double-shoe brake (8), its brake shoes (7a and 7b) against. the brake drum (6) is pressed, the braking process begins.

At the same time, the solenoid valve (17) also switches over. This will the liquid flow of the control pump (23) via the line (25) and (26) to the Control device (22) of the setpoint pump (18) out and its suction power within the predetermined braking time controlled to zero, as well as the drain line of the brake cylinder (12) locked.

During the braking process, the delivery rate of the actual value pump decreases (13) also counteracts, depending on the disturbance variables acting on the belt speed Zero off. Since the delivery volume of the actual value pump is more or less dependent on the setpoint pump (18) is sucked off, a residual volume is created which acts on the brake cylinder (12) and the braking force is increased depending on the deviation from the setpoint. Through this self-acting adjusting braking force, the conveyor will come to a standstill in the specified time brought. Under these circumstances, the braking distance remains constant for all disturbance variables.

In a further embodiment of the invention, as in FIG shown, the drive motor (19) for the setpoint pump (18) omitted if the shaft on which the flywheel (27) and the setpoint pump (18) are attached, by means of an overrunning clutch (28) to the shaft of the actual value pump (13) is connected.

The brake cylinder (12) can also be used in a different manner than in FIG and 2, act on the brake release lever (9). While in Figure 1 Cylinder (12) is attached to a spring-loaded brake release lever (9) acts according to the illustration in Figure 3 of the brake cylinder (12) additionally on a weight-loaded Brake closing lever, the weight (29) giving a predetermined braking force. the The piston rod (30) is hinged to a fixed point.

Claims (6)

Claims ç Method for braking a circulating conveyor by a braking device, the drive or reversing drum of the conveyor drives a pump, which is dependent on the power supply of the conveyor belt drive Solenoid valve in normal operation pumps the pressure medium in a circuit without pressure, while in the event of a power failure or shutdown of the conveyor, the solenoid valve opens the Pressure medium automatically leads to a brake cylinder, characterized in that that the delivery volume of the pump (13) driven by the conveyor belt drive (actual value pump) wholly or partially fed to the suction side of a further pump (18) (setpoint pump) which has a drive (19) independent of the conveyor belt drive (1, 2, 3), is operated with a specified power and its suction power after a power failure or shutdown of the conveyor drive (1, 2, 3) in an adjustable time is brought to zero, with the remaining delivery volume the actual value pump (13) the mechanical braking device (8) is additionally acted upon. 2. Apparatus for performing the method according to claim 1, characterized characterized in that the setpoint pump (18) is a pump with an adjustable delivery volume is. 3. Apparatus according to claim 2, characterized in that the adjustment the delivery volume of the setpoint pump (18) takes place by means of a control pump (23), which is arranged on the drive shaft of the setpoint pump (18). 4. Device according to claims 2 and 3, characterized in that that on the common shaft of the drive motor (19) and the pumps (18, 23) a Flywheel (27) is arranged. 5. Device according to claims 2 to 4, characterized in that that the drive shaft of the actual value pump (13) on the one hand and the drive shaft of the Pumps (18, 23) on the other hand by means of an overrunning clutch (28) are connected to each other (Fig. 3). 6. Device according to claims 2 to 5, characterized in that that for the additional hydraulic application of the mechanical friction brake (8) a pressure cylinder (12) connected to the brake lever arm (9) for the conveying means is.