JP2019210119A - Conveyor belt tensioning device and method for operating the same - Google Patents

Abstract

To provide a conveyor belt tensioning device capable of stably operating by transferring a conveyor driving force even when a slight gap is generated between a conveyor belt and a pulley, and to provide a method for operating the same.SOLUTION: A conveyor belt tensioning device 10, of a conveyor device 20 containing a driving pulley 22 driven by a motor and a following pulley 24 co-rotated via a conveyor belt 26 wound around the driving pulley 22, comprises: a slip detection part 30 for detecting slip of the conveyor belt 26; and a following rotation control part 40 capable of controlling the following pulley 24 for reverse-rotation based on a detection value of the slip detection part 30.SELECTED DRAWING: Figure 1

Description

  The present invention avoids the effects of belt slip and pulsation caused by the elongation (sag) of the conveyor belt between the drive shaft and the driven shaft, which occurs during operation of a conveyor device that continuously conveys powder particles such as coal. The present invention relates to a conveyor belt tensioning device that enables stable operation and an operation method thereof.

The belt slip, vibration, and belt bias of the conveyor device hinder quantitative transportation of the transported goods, and it is difficult to accurately grasp and manage the transport amount. If slip occurs due to a gap between the belt and the pulley, the transported material accumulates in the supply portion, increasing the unbalance of the conveyor load and promoting the occurrence of pulsation.
In addition, if the occurrence of slip frequently occurs, a trouble occurs that the transported material that is not transported overflows, resulting in a decrease in transport efficiency.
Further, there may be a problem that the belt is deteriorated and damaged by heat generated at the time of slipping.

Generally, in order to stably operate the conveyor belt, it is necessary to apply a uniform tension to the belt on the conveyance side. If the tension is insufficient, the drive pulley and the conveyor belt slip and the rotational power of the drive pulley is not transmitted to the belt. On the other hand, if the tension is too large, it will become overloaded, increasing the burden on the pulleys and the drive unit and shortening the life of the equipment.
A typical device for applying tension to the conveyor belt is a take-up device. In this apparatus, a screw shaft that pulls the bearings at both ends of the pulley shaft on the driven side to the opposite side to the tension of the conveyor belt is attached, and the bearing that rotates the screw is slid.

  However, this tension method requires adjustment to periodically apply tension to the belt that is extended by operation, and it is difficult to adjust the tension balance of the bearings on both ends of the driven pulley, and the adjustment operator's ability ( Experience). In addition, a pulley having a weight attached thereto (via a bend pulley) is suspended from the return side of the conveyor belt, and the belt is tensioned by eliminating the extension of the conveyor by the vertical movement of the weight. The conveyor belt bends in the direction of gravity when a transported article is placed on the transport side, the return belt is pulled, the weight moves upward, and the weight is lowered when there is no transported object. In this way, the weight type can adjust the tension without human intervention. There is also a tensioning device in which a weight is attached to a tail pulley via a wire rope so as to apply tension to the conveyor belt (for example, disclosed in Patent Document 1).

These tensioning devices are selected according to the type of transported object, the length of the conveyor belt, and the transporting speed.Because the belt tension varies depending on the elongation of the belt due to the operation of the conveyor device and the transported material, Adjustment work is required.
In the case of the weight type tensioning device, the tensioned state can always be maintained according to the expansion and contraction of the belt, and stability against load fluctuation can be ensured. However, an appropriate selection of the weight of the weight is necessary. When a load is applied with a weight that increases the conveyor tension, the conveyor belt will not loosen, but problems such as meandering due to left-right tension imbalance and equipment wear due to overload will occur.

JP 2012-218843 A

  SUMMARY OF THE INVENTION The problem to be solved by the present invention is a conveyor belt tensioning device capable of stable operation by transmitting a conveyor driving force even if a slight gap is generated between the conveyor belt and the pulley, in view of the above-mentioned problems of the prior art. The purpose is to provide the driving method.

The present invention provides, as a first means for solving the above-mentioned problems, a conveyor of a conveyor apparatus having a driving pulley driven by a motor and a driven pulley that is rotated around a conveyor belt wound around the driving pulley. In the belt tensioning device,
A slip detector for detecting slip of the conveyor belt;
A driven rotation control unit capable of performing reverse rotation of the driven pulley based on a detection value of the slip detection unit;
It is providing the conveyor belt tensioning device characterized by including.
According to the first means, excessive tension is not applied to the conveyor belt, and even if a slip occurs during the conveying operation, it can be quickly eliminated and stable operation can be continued. Further, the conveyor belt is less stretched and can have a longer service life, and the frequency of adjusting the tensioning device can be suppressed.

The present invention provides a second means for solving the above-mentioned problems. In the first means, the driven rotation control unit gives a rotational resistance to the driven pulley when the detected value is smaller than a threshold value, The object of the present invention is to provide a conveyor belt tensioning device that controls to reversely rotate the driven pulley when the detected value is equal to or greater than the threshold value.
According to the second means, according to the generated slip, it is possible to eliminate the slip without interrupting the conveying work due to the rotational resistance or reverse rotation of the driven pulley.

As a third means for solving the above-mentioned problems, the present invention provides the first or second means, wherein the driven rotation control unit is configured to stop the slack of the conveyor belt when the conveyor device is started. An object of the present invention is to provide a conveyor belt tensioning device characterized in that a driven pulley is rotated in reverse and the reverse rotation is stopped and driven when the slack disappears.
According to the third means, the slack can be easily eliminated by rotating the driven pulley in the reverse direction without stopping the apparatus even at the start of operation when the slack of the conveyor belt has already occurred. .

According to the present invention, as a fourth means for solving the above-mentioned problem, in any one of the first to third means, the driven pulley uses a member having a large friction coefficient with the conveyor belt. Another object of the present invention is to provide a conveyor belt tensioning device.
According to the fourth means, a frictional force is obtained between the driven pulley and the conveyor belt, and the occurrence rate of slip can be suppressed.

As a fifth means for solving the above-mentioned problems, the present invention provides a conveyor for a conveyor apparatus having a driving pulley driven by a motor and a driven pulley that is rotated around a conveyor belt wound around the driving pulley. In the driving method of the belt tensioning device,
Detecting slip of the conveyor belt;
A step of performing reverse rotation of the driven pulley based on the detected value of the slip;
It is providing the operating method of the conveyor belt tensioning apparatus characterized by having.
According to the fifth means, an excessive tension is not applied to the conveyor belt, and even if a slip occurs during the conveying operation, it can be quickly eliminated and a stable operation can be continued. Further, the conveyor belt is less stretched and can have a longer service life, and the frequency of adjusting the tensioning device can be suppressed.

According to the present invention, as a sixth means for solving the above-described problem, in the fifth means, in the step of performing the control, when the detected value is smaller than a threshold value, a rotational resistance is given to the driven pulley, The object of the present invention is to provide a method for operating a conveyor belt tensioning device, wherein when the detected value is equal to or greater than the threshold value, the driven pulley is reversely rotated.
According to the sixth means, it is possible to eliminate the slip without interrupting the conveying operation due to the rotational resistance or reverse rotation of the driven pulley in accordance with the generated slip.

According to the present invention, as a seventh means for solving the above-described problems, in the fifth or sixth means, the step of performing the control is performed until the conveyor belt is loosened when the conveyor device is started. An object of the present invention is to provide a method for operating a conveyor belt tensioning device, characterized in that a driven pulley is rotated in the reverse direction, and when the looseness is eliminated, the reverse rotation is stopped and driven.
According to the seventh means, even at the start of operation when the conveyor belt has already slackened, the slack can be easily eliminated by rotating the driven pulley reversely without stopping the apparatus. .

  According to the present invention, excessive tension is not applied to the conveyor belt, and even if slip occurs during the transport operation, it can be quickly eliminated and stable operation can be continued. Further, the conveyor belt is less stretched and can have a longer service life, and the frequency of adjusting the tensioning device can be suppressed.

It is explanatory drawing which shows the structure outline of the conveyor belt tensioning apparatus of this invention. It is a flowchart of the driving | operation method of the conveyor belt tensioning apparatus of this invention.

  DESCRIPTION OF EMBODIMENTS Embodiments of a conveyor belt tensioning device and an operation method thereof according to the present invention will be described below in detail with reference to the drawings.

[Conveyor belt tensioning device 1]
FIG. 1 is an explanatory diagram showing a schematic configuration of a conveyor belt tensioning device of the present invention.
The conveyor device 20 includes a drive pulley 22 driven by a drive motor 23 and a driven pulley 24 that rotates with a conveyor belt 26 wound around the drive pulley 22. For example, a three-phase AC motor with an inverter can be applied to the drive motor 23. By changing the voltage, current, frequency, etc., of the supplied power by the inverter, the torque and the rotational speed of the motor can be arbitrarily changed. it can. A known weight type tension device may be attached to the conveyor device 20.

The driven pulley 24 of the present invention is a pulley that freely rotates in principle, and is driven by the drive pulley 22, but is provided with a driven motor 25 that reversely rotates at a predetermined time described later. The driven motor 25 employs a clutch mechanism that is connected so that the driven pulley 24 rotates freely during stoppage. During driving, the driven pulley 24 rotates the driven pulley 24 in the direction opposite to the rotation direction of the driving pulley 22 (reverse rotation).
The driven pulley 24 may be a member having a large coefficient of friction with the conveyor belt 26. Thereby, a frictional force is obtained between the driven pulley 24 and the conveyor belt 26, and the occurrence rate of slip can be suppressed.

(Slip detection unit 30)
The slip detection unit 30 is electrically connected to the drive motor 23 and can recognize the rotation speed.
The slip detection unit 30 recognizes the rotational speed of the driven pulley 24. Specifically, a rotation detection unit 32 directly connected to the axis of the driven pulley 24 is installed. The rotation detection unit 32 is a device that detects the number of rotations by converting the rotational motion of the driven pulley 24 into an electrical signal.
Then, the slip detector 30 determines whether slip has occurred between the pulleys by taking the difference between the rotational speed of the drive pulley 22 and the rotational speed of the driven pulley 24. The presence or absence of slip detected by the slip detection unit 30 is sent to a driven rotation control unit 40 described later.

(Driven rotation control unit 40)
The driven rotation control unit 40 controls driving of the driven motor 25.
During the transfer operation, if there is no difference based on the detection value of the slip detection unit 30, it can be recognized that no slip has occurred between the pulleys, so the driven motor 25 is stopped (the driven pulley 24 is driven). rotation).
Next, when the difference occurs, it can be recognized that a slip has occurred. In this embodiment, a threshold is provided for occurrence of slip. As an example, this threshold value can be determined from the occurrence frequency of slip, and is the number of slips per measurement time (such as 5 times). When the number of slips is less than the threshold value, it is regarded as a relatively light slip, and the driven pulley 24 is controlled so as to have a rotational resistance by applying a brake or the like. When the number of slips exceeds the threshold value, the driven motor 25 is driven to rotate the driven pulley 24 in the reverse direction so that the slack of the conveyor belt 26 is eliminated.
When the conveyor device 20 is activated, if the conveyor belt 26 is deflected, the driven motor 25 is controlled so as to reversely rotate the driven pulley 24 so that the slack is eliminated.

[Operation method of conveyor belt tensioning device]
The operation method of the conveyor belt tensioning apparatus of the present invention having the above configuration will be described below. FIG. 2 is a flowchart of the operation method of the conveyor belt tensioning device of the present invention.

(At startup)
When the conveyor device 20 is activated, it is determined whether there is any slack on the conveying side of the conveyor belt 26 of the conveyor device 20.
If slack is generated on the conveying side of the conveyor belt 26 (present), first, the driven motor 25 is driven to reversely rotate the driven pulley 24 to eliminate the slack of the conveyor belt 26. And after predetermined time progress, the presence or absence of the slack of the conveyor belt 26 is judged again. As a result, if no slack has occurred, the driven motor 25 is stopped, the driven pulley 24 is freely rotated, and the rotation of the driving pulley 22 is started. Transition to transfer work.

(During transfer work)
During the transport operation, the rotational speed is sent from the drive motor 23 to the slip detection unit 30. The rotation speed of the driven pulley 24 is sent from the rotation detection unit 32. The slip detection unit 30 takes the difference between the rotational speed of the driving pulley 22 and the rotational speed of the driven pulley 24.
If a difference is detected, it can be considered that a slip has occurred. If the number of occurrences of this slip (number of differences) within a predetermined measurement time is smaller than the threshold value, it is regarded as a relatively light slip and the driven motor 25 is braked by the driven motor 25. Thus, the driven pulley 24 is controlled so as to have a rotational resistance.

When the number of slips exceeds the threshold, the driven rotation control unit 40 drives the driven motor 25 to reversely rotate the driven pulley 24 so as to eliminate the slack of the conveyor belt 26.
Further, when vibration or pulsation is found by visual inspection during the transfer operation, the driven motor 25 is driven and brakes are applied to restore the normal operation while applying rotational resistance to the driven pulley 24.
If no slip is detected, the conveyance operation is continued as it is, and then the operation is terminated.
According to the present invention as described above, excessive tension is not applied to the conveyor belt, and even if slip occurs during the conveying operation, it can be quickly eliminated and stable operation can be continued. Further, the conveyor belt is less stretched and can have a longer service life, and the frequency of adjusting the tensioning device can be suppressed.

The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
Moreover, the present invention is not limited to the combinations shown in the embodiments, and can be implemented by various combinations.

  The present invention has industrial applicability particularly during operation of a conveyor device that continuously conveys granular materials such as coal.

DESCRIPTION OF SYMBOLS 10 Conveyor belt tensioning device 20 Conveyor device 22 Drive pulley 23 Drive motor 24 Driven pulley 25 Driven motor 26 Conveyor belt 30 Slip detector 32 Rotation detector 40 Driven rotation controller

Claims (7)

In a conveyor belt tensioning device of a conveyor device having a driving pulley driven by a motor and a driven pulley that rotates around a conveyor belt wound around the driving pulley,
A slip detector for detecting slip of the conveyor belt;
A driven rotation control unit capable of performing reverse rotation of the driven pulley based on a detection value of the slip detection unit;
A conveyor belt tensioning device comprising:   2. The conveyor belt tensioning device according to claim 1, wherein the driven rotation control unit gives rotational resistance to the driven pulley when the detected value is smaller than a threshold value, and the driven gear when the detected value is equal to or larger than the threshold value. A conveyor belt tensioning device that performs reverse rotation control of a pulley.   3. The conveyor belt tensioning device according to claim 1, wherein the driven rotation control unit reversely rotates the driven pulley until the conveyor belt is loosened when the conveyor device is started up, and the loosening is eliminated. A conveyor belt tensioning device characterized in that reverse rotation is sometimes stopped and driven.   4. The conveyor belt tensioning apparatus according to claim 1, wherein the driven pulley uses a member having a large coefficient of friction with the conveyor belt. In a driving method of a conveyor belt tensioning device of a conveyor device having a driving pulley driven by a motor, and a driven pulley that is rotated around a conveyor belt wound around the driving pulley,
Detecting slip of the conveyor belt;
A step of performing reverse rotation of the driven pulley based on the detected value of the slip;
A method for operating a conveyor belt tensioning device.   The operation method of the conveyor belt tensioning apparatus according to claim 5, wherein the step of performing the control gives a rotational resistance to the driven pulley when the detected value is smaller than a threshold value, and the detected value is equal to or larger than the threshold value. A method for operating the conveyor belt tensioning apparatus, wherein the driven pulley is reversely rotated.   The operation method of the conveyor belt tensioning device according to claim 5 or 6, wherein the step of performing the control includes reversely rotating the driven pulley until the conveyor belt is loosened at the time of starting the conveyor device, and the slackening. A method of operating a conveyor belt tensioning device, characterized in that reverse rotation is stopped and driven when there is no more.

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