KR100899696B1 - Auto adjusting carrier stand for preventing belt leaning of belt conveyor - Google Patents

Abstract

The present invention relates to a self-adjusting carrier stand for preventing belt conveyors, comprising: a stand beam, a rotating shaft rotatably fixed to a center of the belt conveyor, and a belt fixed to the rotating shaft to support rotation of a plurality of carrier rolls. In the meander prevention carrier stand of the belt conveyor comprising a flow stand shaft disposed; A tapered roll rotatably fixed to both ends of the roll shaft on which the carrier roll is installed, and on one side of which a drive gear is integrally formed; An idle gear gear meshed with the drive gear and rotatably fixed on the flow stand shaft, the inner gear being integrally formed with a step on an inner surface thereof; A driven gear meshing with the inner gear; A rotating shaft rotatably fixed to the floating stand shaft by a support bracket and fixed to one end of the driven gear; A driving bevel gear fixed to the other end of the rotary shaft; And a rotating plate having a plate rotating gear engaged with the driving bevel gear, the rotating plate being rotatably interposed between the rotating shaft and the stand beam.

According to the present invention, the belt can automatically adjust the meandering of the belt conveyor equipment, thereby reducing a large amount of falls during transport, preventing accidents, and reducing maintenance costs.

Description

AUTO ADJUSTING CARRIER STAND FOR PREVENTING BELT LEANING OF BELT CONVEYOR}

Figure 1 is a perspective view of the main part showing a conventional carrier stand for preventing meandering,

Figure 2 is an installation state of the carrier stand of the present invention,

3 is a perspective view of the carrier stand of the present invention,

Figure 4 is an exploded perspective view of the carrier stand of the present invention,

5 is an operating state of the carrier stand of the present invention.

Explanation of symbols on the main parts of the drawings

4 .... stand beam 5 .... rotation shaft

6 .... FLOW STAND AXIS 20 .... Spinner

28 .... plate rotary gear 30 .... taper roll

32..Elastic body 34..Magnetic disc

36 .... Drive Gear 46 .... Child Gear

46 '.. inner gear 50 .... rotating shaft

52 .... Support Bracket 56 .... Following Gear

58 .... Driven Bevel Gears

The present invention relates to a carrier stand for preventing meandering, which prevents knitting meandering caused by meandering of a ball belt or a loading state of a transport object in a belt conveyor system. The present invention relates to an automatic adjustment carrier stand for preventing meandering of belt conveyors, which is designed to prevent the knitting meandering phenomenon caused by the loading bias of the transport.

The belt conveyor facility, which transports consignments from the raw material processing facility, transfers the consignments to the required process by connecting two adjacent belt conveyors to each other by a connecting chute.

In the lower part of the belt conveyor facility, a plurality of carrier stands 1 as shown in FIG. 1 are disposed at a predetermined interval so that the belt 3 can be rotated while rotatably supporting the plurality of carrier rolls 2. Give it.

The carrier stand 1 is a stand beam (4) is disposed, the axis of rotation (5) is fixed to the center of the length of the stand beam (4), the shape corresponding to the carrier roll (2) on the axis of rotation (5) An integral flow stand shaft (6) bent into a bent is installed, and fixed brackets (7) are fixed at both ends of the flow stand shaft (6), and meander detection rolls (8) are respectively installed on the fixed brackets (7). It is made of a structure.

Thus, when the belt 3 is meandered to one side, the side (edge) of the side belt 3 to be meandered comes into contact with the meander detection roll 8 and presses it, and the meander detection roll 8 is applied by the pressing force. By this push, the movable stand shaft 6 is twisted (rotated flow) in the longitudinal direction of the belt 3 so as to have a speed difference with the other end side of the belt 3, thereby reducing meandering deviation and correcting meandering.

However, this action is merely caused by the degree of the meander detection roll 8 being pushed by the belt 3, and since the belt 3 is rotated under a certain pressure, the torsion radius of the floating stand shaft 6 Since it is maintained in a confined state, the knitting state is very poor, and when the amount of meandering is large, it cannot respond, and the knitting execution expands, causing severe surrounding pollution and equipment accidents such as falling of a transport or trouble of equipment.

In order to solve this problem, various efforts have been made, such as the installation of self-aligning rollers, self-aligning return roller stands, and the installation of shock absorbing carrier stands. However, due to their ineffectiveness, they have tended to become famous and lost. Active and practical measures are urgently called for.

The present invention was created in order to actively respond to the request for overcoming the conventional problems as described above, by using the rotational force of the meandering belt so that the flow stand shaft is rotated without twisting the equipment without straining the equipment. It is an object of the present invention to provide an automatic adjustment carrier stand for preventing the meandering of a belt conveyor to easily adjust the meandering of the belt.

The above object of the present invention comprises a stand beam, a rotating shaft rotatably fixed to the center of its length, and a floating stand shaft fixed to the rotating shaft and disposed in the width direction of the belt so as to support rotation of a plurality of carrier rolls. In the carrier stand for preventing the meandering of the belt conveyor; A tapered roll rotatably fixed to both ends of the roll shaft on which the carrier roll is installed, and on one side of which a drive gear is integrally formed; An idle gear gear meshed with the drive gear and rotatably fixed on the flow stand shaft, the inner gear being integrally formed with a step on an inner surface thereof; A driven gear meshing with the inner gear; A rotating shaft rotatably fixed to the floating stand shaft by a support bracket and fixed to one end of the driven gear; A driving bevel gear fixed to the other end of the rotary shaft; It is achieved by providing an automatic adjustment carrier stand for preventing meandering of a belt conveyor, characterized in that it comprises a rotating plate having a plate rotating gear meshed with the drive bevel gear and rotatably interposed between the rotating shaft and the stand beam.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

2 is a partial perspective view showing an installation state of the carrier stand of the present invention, Figure 3 is an external perspective view of the carrier stand of the present invention, Figure 4 is an exploded perspective view of the carrier stand of the present invention.

According to FIG. 2, the base frame 10 is disposed in parallel in the longitudinal direction along the belt 3 of the conveyor belt facility for transporting the shipment, and on the base frame 10, the belt 3 is crossed across it. A plurality of carrier stands in the width direction of is installed.

The carrier stand is a means for supporting the belt 3 to be rotatable and is disposed at regular intervals along the longitudinal direction of the base frame 10. Particularly, some of the carrier stands, such as a predetermined number of carrier stands, are provided. The auto-adjusting carrier stand of the present invention is arranged in the form of skipping.

3 and 4, the carrier stand of the present invention is fixed to the center of the length of the stand beam 4 so that the rotating shaft 5 can be freely flowed by the bearing, the carrier roll (2) to the rotating shaft (5) The flow stand shaft 6 supporting the rotatably is installed as before.

At this time, between the rotary shaft 5 and the stand beam (4) is formed in a substantially fan-shaped both ends of the rotating plate 20, the plate rotation gear 28 is arranged in an arc shape on the upper surface is rotatably interposed.

In addition, both ends of the roll shaft (RS) to which the carrier roll (2) is fixed, the tapered roll (30) of approximately frusto-conical shape is rotatable and fixedly movable along the longitudinal direction of the roll shaft (RS).

In addition, the roll shaft (RS) is provided with an elastic body 32, such as a spring fitted while being in close contact with one side surface of the tapered roll 30, which is a magnetic body, the magnetic disk (permanent magnet) with the elastic body 32 in between 34 is rotatably fixed without leaving the roll shaft RS.

The drive gear 36 is integrally fixed to one side of the magnetic disk 34.

Here, the drive gear 36 may be integrally formed on one side of the tapered roll 30 directly without intervening the magnetic disk 34.                     

 On the other hand, both ends of the floating stand shaft (6) is rotatably fixed to the idle gear 46 meshed with the drive gear 36, the inner surface of the idle gear 46 has a step with a slightly diameter The small inner gear 46 'is integrally formed.

A driven gear 56 is engaged with the inner gear 46 ′, and the driven gear 56 is integrally fixed to one end of the rotary shaft 50.

The rotary shaft 50 is rotatably supported by a pair of support brackets 52 extended downward from a portion of an outer circumferential surface of the floating stand shaft 6, and a driving bevel gear 58 is formed at the other end of the rotary shaft 50. Is fixed integrally.

The driving bevel gear 58 is meshed with the plate rotating gear 28 formed on the rotating plate 20 described above.

The operating relationship of the present invention made of such a configuration is as follows.

As shown in (a) of FIG. 5, when the belt 3 is performing a normal transportation process, since there is no meandering of the belt 3, there is no contact between the belt 3 and the tapered roll 30. 20) does not rotate.

If, as shown in (b), the belt 3 meanders to the left side, the taper roll 34 rotates simultaneously with the belt 3 while the belt 3 and the taper roll 34 contact each other.

At this time, the tapered roll 34 is pushed while suppressing the elastic body 32 along the roll shaft RS of FIG. 4, and at a moment, is strongly adsorbed by the magnetic force of the magnetic disk 34 to integrally drive together. do.

Accordingly, the driving gear 36 fixed to one side of the magnetic disk 34 rotates, and the idle gear 46 meshed with the driving gear 36 is interlocked, and at the same time the idle gear ( 46 and rotate the driven gear 56 while the inner gear 46 'fixed integrally rotates, and rotate the driving bevel gear 58 while the rotary shaft 50 is rotated by the driven gear 56. The rotating plate 20 is rotated while the plate rotating gear 28 engaged with the rotating plate 28 rotates.

That is, the plate rotating gear 28 of the rotating plate 20 to be engaged with the driving bevel gear 58 through this process is rotated in a direction opposite to the traveling direction of the belt 3 to meander the belt 1. Will be adjusted.

In other words, the rotation of the rotating plate 20 generates an action force for moving the belt 3 in the opposite direction to the meandering direction by the basic operating principle of the belt 3 to automatically adjust the meandering of the belt 3.

Here, it is not necessary to use the magnetic disk 34 with the elastic body 32 interposed for the installation of the drive gear 36, and the drive gear 36 itself may be directly integrated on one side of the tapered roll 30. However, in the present invention, when excessive force is applied, that is, when it is out of the rotation radius of the rotation acceptance range of the rotating plate 20, the power transmission between the tapered roll 30 and the magnetic disk 34 adsorbed by the magnetic force is This is to protect the equipment by breaking it.

In addition, when the meandering of the belt 3 occurs to the right as in (c), the rotation of the rotating plate 20 is performed in the opposite direction through the same power transmission process as the above-described left meandering.

As described in detail above, the present invention can automatically adjust the meandering of the belt in the belt conveyor equipment, it is possible to reduce a large amount of falling during transport, prevent accidents, thereby reducing maintenance costs.

Claims (2)

The stand beam 4, the rotating shaft 5 which is rotatably fixed to the center of the length, and the belt 3 are disposed in the width direction so as to be supported by the rotating shaft 5 to support the rotation of the plurality of carrier rolls 2. In the meander prevention carrier stand of the belt conveyor comprising a movable stand shaft (6); A taper roll (30) rotatably fixed to both ends of the roll shaft (RS) on which the carrier roll (2) is installed, and on one side of which a driving gear (36) is integrally formed; An idle gear 46 meshed with the drive gear 36 and rotatably fixed on the floating stand shaft 6 and having an inner side with a step on the inner side thereof; A driven gear 56 engaged with the inner gear 46 '; A rotating shaft 50 fixed to the floating stand shaft 6 by a support bracket 52 and fixed to one end of the driven gear 56; A driving bevel gear 58 fixed to the other end of the rotary shaft 50; And a rotating plate (20) interposed between the rotating shaft (5) and the stand beam (4) having a plate rotating gear (28) engaged with the driving bevel gear (58). Self-adjusting carrier stand for conveyors. The method of claim 1, The tapered roll 30 is rotatably provided while flowing along the roll shaft RS, and is provided with an elastic body 32 interposed on the roll shaft RS while being in contact with one side thereof. The magnetic disk 34 having the drive gear 36 on one side is rotatably fixed on the roll shaft RS so as to selectively adsorb the tapered rolls 30 between them, thereby driving the tapered rolls 30. Automatic adjustment carrier stand for preventing the meandering of the belt conveyor, characterized in that configured to be interrupted.

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