KR200218645Y1 - Belt meandering adjustment device - Google Patents

Abstract

The present invention relates to a belt meandering device.

This is a device configured to adjust the meandering of the belts 3A and 3B by pivoting the carrier stand supporting the carrier rolls 8A and 8B. A pulley-shaped meandering amount carrier which is freely mounted in the belt width direction together with the meander detecting roll; and the belt 3B is pivoted together with the carrier rolls 8A and 8B to the edge of the belt 3B. It characterized in that it comprises a; swinging inductor forming a contact surface with the meandering amount carrier inclined toward the direction, and has the effect of relatively simple and accurate adjustment of the meandering of the belt.

Description

Belt meandering adjustment device

The present invention relates to a belt meander adjusting device, and more particularly, a meandering vehicle for moving in a belt width direction in conjunction with a meandering of a return side belt, and a carrier roll by turning in response to the movement of the meandering vehicle. The present invention relates to a belt meander adjusting device having an effect of adjusting a meandering of a belt by providing a turning guide that guides it to be made.

In general, the belt conveyor is installed in the belt to move in a trackless motion to be able to continuously transport a predetermined product or raw material is used in the overall industrial equipment.

Fig. 1 is a schematic view showing a conventional belt conveyor 1, which is connected to a driving motor, not shown, for driving a pulley 2 and a belt 3 together with the driving pulley 2; ) Has a driven pulley (4) to allow the caterpillar movement, and a tension roll (5) for imparting a predetermined tension to the belt (3), the belt so that the tension roll (5) can be mounted It has a plurality of turning rolls 6 to change the path of (3).

Fig. 2 is a schematic view showing a belt conveyor 1A which is widely used in steelmaking facilities. The return side belt 3A is installed in a horizontal state by a horizontal support roll 7, while a carrier side belt is installed. (3B) is supported by the carrier roll which consists of the center carrier roll 8A horizontally installed, and the edge carrier roll 8B provided so that it may incline on both sides of the center carrier roll 8A, and is installed so that a center part may progress in concave state. . That is, the central portion is concave, so that the raw coal 9 and the like can be effectively prevented from falling down through the edges.

Also, in the belt conveyor 1A, when the meandering occurs in the belts 3A and 3B, a fall of the raw coal 9 occurs, so that the meandering of the belt is detected and returned to the normal state. Numerous prior art are disclosed.

However, most of the related arts are complicated in structure and have poor effect on meandering adjustment. Therefore, the operator directly sets the size of the turning angle of the carrier roll 8 to be turned when the belt meanders. After turning the rollers, the meandering of the belt was adjusted by maintaining the state using wires or strings. This is not only a problem that the worker's labor load is increased due to the conventional meander adjustment device not functioning, of course, because the worker has to perform the above work in close proximity to the belt conveyor, the risk of safety accident is very high. As the belt was not meandered in time, raw coals fell, causing environmental pollution, and various problems such as cutting of the belt.

The present invention has been made to solve the above-mentioned conventional problems, and its object is to provide a simple structure for pivoting a carrier stand which is installed in a portion adjacent to the driven pulley and supports the carrier side belt in association with the meandering of the return side belt. An object of the present invention is to provide a belt meandering device for adjusting the meandering of the belt.

1 is a schematic view showing the configuration of a typical conveyor belt;

Figure 2 is a schematic diagram showing a conventional belt meandering phenomenon;

3 is a perspective view illustrating main parts of a conveyor belt having a belt meandering device according to the present invention;

4 is a left side view of FIG. 3;

Figure 5a is a perspective view of the main portion showing a conveyor belt with a belt meander adjustment device according to a modification of the present invention;

5B is a left side view of FIG. 5A;

6 is an exploded perspective view of the belt meandering device according to a modification of the present invention;

Figure 7 is an exploded perspective view of the belt meander adjustment device according to another modification of the present invention; to be.

※ Explanation of symbols about main part of drawing ※

3A, 3B: Belt 8A, 8B: Carrier Roll

11, 21A, 21B, 31: slide 14, 24: meander detection roll

16, 26, 36: meandering vehicle 17, 27, 37: turning conductor

42: slewing support

As a technical configuration for achieving the above object, the present invention is a device configured to adjust the meandering of the belt by turning the carrier stand supporting the carrier roll, a plurality of meanders located at both edges of the return side belt idle A pulley-shaped meandering carrier which is freely mounted in the belt width direction along with the sensing roll; and a contact surface with the meandering vehicle which is pivoted with the carrier roll and inclined toward the belt direction toward the edge of the belt. By providing a belt meander adjustment device characterized in that it comprises a swing guide formed.

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

Belt meandering device according to the present invention can be mounted at a predetermined position of the belt conveyor, preferably installed in a portion adjacent to the driven pulley.

Figure 3 is an external perspective view showing an embodiment of the belt meandering adjustment apparatus according to the present invention, Figure 4 is a left side view of Figure 3, 41 is a carrier stand for rotatably supporting the carrier roll (8A) (8B) Denotes a pivotal support provided in the width direction of the belt while rotatably supporting the rotating shaft 41a formed at the center lower portion of the carrier stand 41, and 43 denotes the pivotal support 42 to securely support the pivotal support 42. Indicates the installation frame installed in the longitudinal direction of.

The device 10 is provided with a rail support 18 perpendicular to the lower side on both sides of the longitudinal direction of the pivot support 42 provided in the width direction of the belt, the slide support 11 on the rail support 18 Is mounted, the slide 11 is formed to have a predetermined length and its longitudinal direction is disposed in the width direction of the belt, that is, the longitudinal direction of the pivot support 42, the slide 11 by a predetermined structure Along the rail support 18 is installed to allow free movement in the width direction of the belt. Of course, the length of the slide 11 should take into account the width of the return side belt 3A, and allow the belt 3A to be positioned between the meander detection rolls to be attached to the slide 11. Detailed description thereof will be described later.

Such a structure may be variously described, and an example thereof will be described.

That is, the bent portion 11a bent upwards is formed at both edges in the longitudinal direction of the slide 11, and the rail support 18 of the pivot support 42 is accommodated between the bent portions 11a. The plurality of rolling rolls 12 are mounted in the longitudinal direction on the inner surface of each of the bent portions 11a.

The rolling roll 12 is capable of rolling along the rail 13 continuously mounted in the width direction of the belt to the rail support 18 formed at both edges of the pivot support 42 in the longitudinal direction, and also the The rolling roll 12 and the rail 13 by the combination of the slide 11 should have a structure to prevent the departure to the lower portion of the rail support 18, in the present invention as shown in the drawings rolling roll It turns out that 12 is made into the concave shape at the center, and is prevented from leaving the rail 13.

And the meander detection roll 14 which can be located in the meandering path of the return side belt 3A at the both end part to the longitudinal direction of the said slide 11 is provided to be idling, and this meander detection roll 14 is carried out. It is preferable that the center of rotation line is located in a state far from both edges of the belt 3A in a state perpendicular to the advancing direction of the belt 3A. Of course, the separation distance depends on how much the device will operate when the belt is meandering from the normal path. If the separation distance is very small, the device operates sensitively to the meandering of the belt while Even if the belt meanders to some extent, the device will not work. Therefore, an appropriate separation distance should be set.

Carrier stand turning means 15 is provided to pivot the carrier stand 41 in response to the sliding table 11 moving in the width direction of the return side belt 3A by meandering of the belt. The stand pivot means 15 includes a meandering mass transfer member 16 installed on the slide 11 and a pivoting guide 17 provided on the carrier stand 41.

The meandering vehicle 16 is made of a pulley shape rotatably mounted to the extension 11b fixed to the sliding table 11, and the position of the meandering vehicle 16 is in the longitudinal direction of the sliding table 11. To be the central part

The pivoting guide 17 is formed to be disposed on the moving path of the meandering mass conveying body 16 formed in the pulley shape, and the position of the pivoting guide 17 is centered with respect to the normal path where the belt 3A is not meandered. Shall be. In addition, the pivoting conductor 17 has a symmetrical shape, and the portion in contact with the meandering vehicle 16 is inclined toward the opposite direction of the belt 3B toward the edge of the belt 3B. Have

Figures 5a and 5b is an external perspective view showing a perspective view and a left side view showing a modification of the belt meandering adjustment apparatus according to the present invention, Figure 6 is an exploded perspective view, the device 20 in the width direction of the belt Rail support 28 vertically formed at both sides of the edge of the pivot support 42 provided in the longitudinal direction is formed, the slide support (21A) (21B) is mounted to each of the rail support 28, the slide support ( 21A) 21B is formed to have a predetermined length so that its longitudinal direction is disposed in the width direction of the belt, that is, in the longitudinal direction of the pivot support 42, and the slide 21A, 21B is defined by the predetermined structure. Along the rail support 28 is installed to allow free movement in the width direction of the belt. Of course, the length of the slide 21A, 21B should take into account the width of the return side belt 3A, and the belt 3A is positioned between the meander detection rolls to be attached to the slide 21A, 21B. It should be able to, and a detailed description thereof will be described later.

Such a structure may be variously described, and an example thereof will be described.

That is, the slides 21A and 21B are rotatably mounted with a meandering vehicle 26 made of a pulley shape, which is one of the turning means, at different ends, and the rolling rolls 22 are provided in a plurality of places in the longitudinal direction. It is rotatably mounted, the rolling roll 22 is a plurality of pairs are connected via a connecting shaft 22a, each rolling roll 22 is a rail support 28 of the previous support 42 It is fitted in the longitudinal grooves 23 formed in the cloud to move.

In addition, bar 24a is integrally fixed to each of the slide bars 21A and 21B, and the meandering detection can be located at a meandering path of the return side belt 3A at both end portions of the bar 24a. The roll 24 is rotatably mounted, and the meander detecting roll 24 is positioned so as to be slightly away from both edges of the belt 3A with its center of rotation perpendicular to the direction of travel of the belt 3A. It is desirable to. Of course, the separation distance depends on how much the device will operate when the belt is meandering from the normal path. If the separation distance is very small, the device operates sensitively to the meandering of the belt while Even if the belt meanders to some extent, the device will not work. Therefore, an appropriate separation distance should be set.

The swing guide 27 corresponds to the meandering vehicle 16 mounted on the slides 21A and 21B, and the swing guide 27 is integrally fixed to both ends of the carrier stand 41. The width of the belt 3B is increased toward the edge of the belt 3B, and the meandering amount carrier 16 is configured to move along the edge of the turning conductor 27.

7 is an exploded perspective view showing another modified example of the belt meandering device according to the present invention, the device 30 is formed similar to the device 20 shown in Figs. 5A, 5B and 6 In the following, components having the same structure as the apparatus 20 are denoted by the same reference numerals and detailed description thereof will be omitted.

The device 30 is rotatably mounted to the meandering vehicle 36 made of a pulley shape, which is one of the turning means, at both ends of the slide 31 located on the wake side with respect to the moving direction of the belt 3B.

In addition, the swing guide 37 corresponding to the meandering vehicle 36 mounted on the slide 31 has a swing guide 37, which rotates the center carrier roll 8A and the edge carrier roll 8B. It is possibly supported and pivotally mounted to the pivot support 42, and has a shape inclined toward the opposite direction of travel of the belt 3B toward the edge of the belt 3B. Of course, the meandering quantity carrier 36 is mounted to be movable along the inclined portion of the pivoting conductor 37.

The operation of the present invention with the above configuration will be described.

The devices 10, 20 and 30 of the present invention respectively support the carrier rolls 8A and 8B on the pivot support 42 to support the carrier side belts 3B corresponding to the meandering of the return side belts 3A. The meander is adjusted by turning a predetermined angle.

The meandering of the return side belt 3A is sensed by meander detection rolls 14 and 24 which are disposed in close proximity to both side edges of the belt 3A and are rotatably installed, which means that the belt 3A is on either side. In the case of meandering, the meander detection rolls 14 and 24 come into contact with the edges of the belt 3A, and at the same time, the meander detection rolls 14 and 24 also have a force in the meandering direction of the belt 3A. Is applied.

And the slide 11, 21A, 21B, 31 which supports the said meander detection roll 14, 24 also moves along the width direction of a belt by such a force.

In addition, the slides 11, 21A, 21B, and 31 are provided with meandering mass carriers 16, 26, 36 formed in a pulley shape so as to be idle, and the meandering mass carrier 16 ( 26) 36 also move in the belt width direction by meandering of the belt.

The meandering mass carriers 16, 26 and 36 are mounted to move along the inclined portions of the pivoting conductors 17, 27 and 37, which are the meandering mass carriers 16 and 26. With the movement of 36, the pivoting guides 17, 27, 37 pivot on the pivot support 42, so that the carrier rolls 8A, 8B pivot to adjust the meandering of the belt.

Of course, the device 20 of the present invention, which is presented as one of the modifications, includes a carrier stand 41 having a straight portion having a predetermined length in the belt width direction, and a pivoting conductor 27 having slopes formed on both sides of the carrier stand 41. The meandering quantity carrier 26 moves along the bar, which has a characteristic of not adjusting the meandering of the belt when the meandering quantity carrier 26 moves along the carrier stand 41 having a straight portion.

In addition, the device 30 of the present invention, which is presented as another modification, is applied to the meandering vehicle 36 in comparison with the device 10 of FIG. 3 by installing the meandering vehicle 36 on both sides of the slide 31. It has the property to reduce the load.

As described above, according to the belt meander adjusting device according to the present invention, the meandering amount carrier which moves in the belt width direction in association with the meandering of the return side belt, and the carrier roll by turning in response to the movement of the meandering amount delivery body. It has an effect of adjusting the meandering of the belt by having a turning induction guide to induce it.

Claims (4)

In a device adapted to adjust the meandering of the belts 3A and 3B by turning the carrier stand supporting the carrier rolls 8A and 8B, A pulley-shaped meandering amount carrier which is freely mounted in the belt width direction with a plurality of meandering detection rolls positioned at both edges of the return side belt 3A and idling; and, And a pivoting conductor which pivots with the carrier rolls 8A and 8B and forms a contact surface with the meandering mass carrier inclined toward an advancing direction of the belt 3B toward the edge of the belt 3B. Belt meandering device. The belt meandering device according to claim 1, characterized in that the meandering amount conveying body (17) is arranged in the center between the meandering sensing rolls (14). The belt meandering device according to claim 1, characterized in that the meandering conveying body (27) is disposed at a predetermined distance to both sides from the center between the meandering sensing rolls (24). 4. The turning guide 27 is formed on both sides of the carrier stand 41 for supporting the carrier rolls 8A, 8B, and provides a straight section having a predetermined length between the turning guides 27. Belt meandering device.