KR20010060708A - Bumpering apparatus of conveyor belt - Google Patents

Abstract

PURPOSE: A shock absorber of a belt conveyor is provided to absorb the shock generated in height falling of transport articles and prevent ores from falling by maintaining gaps between a belt and a rubber skirt. CONSTITUTION: A shock absorber of a belt conveyor includes a stand main body(7e) integrately fixed at the top of frames(6), a movable bar(7c) rotatably connected with an end of a fixed bar(7d) integrately installed at both ends of the stand main body, a shock absorbing base(7f) mounted the upper part of the stand main body by interposing elastic substances(7h) and vertically installing fixed brackets to mount a center impact roller(4a) at both parts of the upper part, and movable brackets(7a) having both ends rotatably connected with the fixed brackets and the movable bar to support guide impact rollers(4e) mounted at both sides of the center impact roller.

Description

BUFPERING APPARATUS OF CONVEYOR BELT}

The present invention relates to a reclaimer which is a conveying mechanism for continuously collecting coal, coke, ore and the like stored in a reservoir and transporting it to a belt conveyor. The present invention relates to a shock absorber of a belt conveyor, which can reduce a belt breakage and a drop of transport due to falling of a transport object and breakage of a roller due to an elastic action occurring at this time.

In general, the belt conveyor for transporting the transport material (3) in the raw material processing equipment is connected to the belt conveyor and the belt conveyor to each other by the connection chute (1) to carry out the transport operation to transport the transport material (3) in the required process.

In the transport process, as shown in Figure 1, the height of the connection chute 1 connecting to the belt conveyor 2a is usually 4 ~ 30M dropping from the connection chute 1 of the upper belt conveyor to the lower belt conveyor ( 3) The roller of the carrier stand 4, which is installed at the lower part of the connecting chute 1, is mounted on the impact controller 4a, 4e instead of the general roller 4b to prevent the dropping of the cargo. Will reduce the impact.

Even if the high drop impact of the transport object 3 is reduced, the high drop impact of the heavy transport object 3 strongly impacts the carrier stand 4 so that the carrier stand 4 as shown in FIG. Damage of the impact controller, damage of the stand mounted to the belt and the frame (6) by the roller breakage occurs, the impact controller is severely worn by the impact of the drop impact and weight of the transport (3) a large amount of falling (3a) occurs.

And, as shown in Figure 2, when the impact controller (4a) (4e) wear and breakage of the impact controller should be replaced early, but the early replacement work is awkward due to the following problems.

That is, the fall prevention of ore and rubber cut 5 of the ore installed in the lower part of the connection chute 1 hold the rubber cut 5 to the holder bracket 5c of the skirt support plate 5d using the skirt holder 5a. (5b), and the height of the skirt support plate is lower than the height of the bracket (4c) of the outer side guide impact controller (4e) of the carrier stand (4e), the installation position with the carrier stand (4) 1) The general stand is about 1m, and the fixing bolt of the stand fixing part can be removed to rotate the carrier stand 4 so that the general roller 4b can be replaced, but the impact stand installed at the bottom of the connecting chute 1 has a short installation distance. Even if the fixing bolt of the stand fixing part is removed at 0.3m, the rotating space is not secured, so the scud support plate 5 and the carrier stand 4 cannot interfere with each other, and the carrier stand (4) 2 ~ 3 Remove the set and replace the roller There is discomfort.

The present invention is to improve the various problems as described above, the object is that the shock absorbing carrier stand is installed on the belt conveyor of the lower part of the connecting chute connecting the chute and chute vertical elastic action of the impact controller and its impact on both sides Rotation in the inner direction of the roller prevents falls during the high and low dropout of the transport and keeps the gap between the belt and the rovers cut at all times to prevent falls, and when the elastic body is stretched, the loading height of the belt is changed. It is to provide a shock absorber of the belt conveyor to reduce the enemy and facilitate the exchange of the roller.

1 is a schematic diagram showing the main structure of a conventional reclaimer;

Figure 2 is a schematic diagram showing a belt conveyor structure of the lower side of the conventional connection chute

3 is a schematic view showing a shock absorber of the belt conveyor according to the present invention;

Figure 4 is a schematic diagram showing the operating state of the conveyor buffer according to the present invention

Figure 5 is a schematic diagram showing the engagement and exchange state of the shock absorber of the present invention

Figure 6 is an exploded view of the belt conveyor shock absorber according to the present invention

Explanation of symbols on the main parts of the drawings

4.Impact Lola 7a ... Fluid Bracket

7c ... flow bar 7d ... fixed bar

7e ... stand body 7f ... shock absorption base

7h ... elast material

As a technical configuration for achieving the above object, the present invention, the stand body is integrally fixed to the upper side of the frame,

A flow bar rotatably connected to an end portion of the fixed bar which is integrally inserted into both ends of the stand body;

An impact absorbing base mounted on an upper side of the stand body via an elastic body, and having a fixed bracket installed vertically on both upper sides thereof so that a center impact controller is mounted;

By providing a shock absorber of the belt conveyor made of a configuration comprising a fixed bracket and a flow bracket rotatably connected to the fixed bracket and the flow bar to support the guide impact roller is installed obliquely on both sides of the center impact roller.

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

Figure 3 is a schematic diagram showing the shock absorber of the belt conveyor according to the present invention, Figure 4 is a schematic diagram showing the operating state of the conveyor shock absorber according to the present invention, Figure 5 is a coupling and exchange state of the shock absorber of the present invention 6 is an exploded state diagram of the belt conveyor shock absorber according to the present invention. The present invention is a quadrangular three-dimensional shape in which the guide impact controller 4e is mounted. It is provided with a flow bracket 7a, each of which is internally threaded internally threaded so that the outer flow bar 7c and the inner fixing bracket 7b can be mounted and flow therein.

In addition, a fixed bracket 7b, which is assembled with the inside of the flow bracket 7a of the guide impact controller 4e and which is a “∩” shaped bracket that is a fixed portion of the center impact controller 4a, is installed.

In addition, two “a” shaped bars (BAR) assembled on the outside of the flow bracket 7a of the guide impact trolley 4e are assembled with the fixed bar 7d and the flow bar 7c is installed to rotate. do.

Subsequently, a bracket is processed at the bar end of the upper side in the form of "T" to be assembled with the flow bar 7c, and a fixing bar 7d is attached to the stand body 7e by a square plate at the lower side.

In addition, the fixing bar is assembled with two flow bars (7c) to two one set and each one-set type is attached to both ends of the stand body (7e).

In addition, a fixed bracket (7b) is welded on both sides of the upper side with a triangular rod-shaped body, the elastic lower base (7i) is welded on both sides of the middle portion, and a stand height that can be fixed to the soft frame (6) on the lower sides of both sides. The stand body 7e with the government 7j attached thereto.

In addition, while the rectangular hole is formed in the shape of a rectangular plate, fixing brackets 7b are attached to both sides of the upper side of the plate, and an elastic upper base 7g is attached to the lower side of the plate to which the fixing brackets 7b are attached. A shock absorbing base 7f to be attached is provided.

In addition, one surface of the cylinder is sealed and assembled with the shock absorbing base 7f in a cylindrical form assembled under the shock absorbing base 7f. An elastic upper base 7g is installed to prevent left and right flow.

Further, an elastic body 7h in the form of a coil spring and a rectangular plate assembled with the elastic upper base 7g and assembled with the upper side of the elastic lower base 7i, and the lower side is attached to the stand body 7e and the upper side is an elastic body (7h). An elastic lower base 7i for attaching 7h) and a rectangular plate attached to both sides of both ends of the stand main body 7e, and the plate consists of a stand fixing portion 7j in which two fixing holes are processed.

In addition, an impact controller provided on the upper side of the stand body 7e includes a center Ip controller mounted in the middle of the shock absorbing carrier stand 7 and a guide impact controller 4e mounted on both sides thereof. do.

Referring to the operation of the present invention made of such a configuration as follows.

As shown in Fig. 3 to Fig. 6, the general raw material flow is absorbed in the lower belt conveyor under the connecting chute 1 connecting the chute and chute in the raw material processing facility, as shown in Fig. 1. Carrier stand (4) is sued in the upper belt (2a) while the cargo falling from the upper belt conveyor to the connecting chute (1) is loaded on the lower belt conveyor upper belt (2a) installed in the lower part of the connecting chute (1) The drop weight acts on the shock absorbing carrier stand 4 installed in the lower portion of the upper belt with the impact force.

At this time, the high drop impact force of the transport object is, as shown in Figure 4, the elastic body (7h) and the flow bar (7c) to act at the same time the center impact controller (4a) and the guide impact controller (4e) of the shock absorbing carrier stand (4) To simultaneously perform the action of).

In addition, a high drop impact transmitted to the upper belt 2a by the action of the elastic body 7h generates an impact force to act the center 4a and the guide impactor 4e to the bottom, resulting in the center impactor 4a and the guide. Operate the impact trolley 4e downwards.

This action force is transmitted to the shock absorbing base 7f through the fixing bracket 7b, which is the fixing part of the roller, and acts on two elastic bodies 7h on both sides attached to the lower part of the shock absorbing base 7f to stretch and stretch the elastic body. The stretch width of the elastic body 7h changes in accordance with the discharge amount of the high drop transport material.

In this way, as shown in Fig. 3, when the transport 3 falls down in the connection chute 1, the guide impulse 4e acting at the same time as the action of the elastic body 7h, which causes the apparatus to operate continuously, is inside. When the inner side is lowered by the fixing bracket 7b, which is a bracket, the flow bar 7c assembled on the outside of the floating bracket 7a is assembled with the upper side bracket of the fixing bar 7d attached to the stand body 7e. Thus, the flow bar 7c rotates inward with respect to the bracket of the fixing bar 7d.

The rotation width is equal to the amount of expansion and contraction of the elastic body 7h and the flow bar 7c rotates inward when the elastic body 7h expands and rotates outward when expanding.

In this way, the vertical elastic operation of the elastic body 7h prevents the dropping impact of the transport 3.

In addition, as shown in Figure 4, the rotation operation of the flow bar (7c) is operated by the guide impact controller (4e) between the fall prevention lumbarcat (5) and the upper belt (2a) for preventing falls installed on the connection chute (1) The distance width is made to be reduced as the amount of the transported object 3 increases, so that the force of the lubascat 5 acting inwardly of the guide impact troller 4e even if the scattering force due to the drop impact increases due to the increase of the transported amount. By being in close contact with the upper belt (2a) by the fall can prevent the fall (3a) due to scattering.

In addition, when the elastic body 7h is elastically actuated, the lubacatt 5 and the upper belt 2a are always operated to be kept below a certain width, thereby preventing the impact of elasticity and the lubacatt 5 by the flow bar 7c. ) The shock absorbing carrier stand 7 operates smoothly.

In addition, as shown in FIG. 5, when the guide impact controller 4e is turned off by removing the connecting plate assembled to the fixing bracket 7b of the shock absorbing carrier stand 7 mounted to the frame 6, the guide impact controller ( 4e) can be replaced and the connecting pins can be assembled for easy replacement of the guide impact controller (4e).

As the discharge amount of the transported material 3 increases upon the action of the shock absorbing carrier stand 7, the transport load width of the carrier portion is increased due to the elastic operation of the elastic body 7h. There is an effect that is loaded into the center of 2a).

According to the shock absorber of the belt conveyor according to the present invention as described above, the shock absorbing carrier stand installed in the belt conveyor at the bottom of the connecting chute connecting the chute and the chute, the vertical elastic action of the impact controller and the inner side of the impact impactor It is possible to prevent the fall by constantly absorbing the impact and keeping the gap between the belt and rubber cuts at all times when the transportation object is high and falling due to the rotating action. There is an excellent effect such that the exchange of the rollers is easy.

Claims (4)

In the conveyor belt which is a raw material processing facility, A stand body 7e integrally fixed to the upper side of the frame 6, A flow bar 7c rotatably connected to an end portion of the fixing bar 7d integrally inserted at both ends of the stand body 7e, and An impact absorbing base 7f mounted on an upper side of the stand body 7e via an elastic body 7f, and having a fixed bracket 7b installed vertically on both upper sides thereof so as to mount the center impactor 4a; In order to support the guide impact roller (4e) mounted on both sides of the center impact roller (4a) in a configuration comprising a flow bracket (7a) rotatably connected to the fixed bracket (7b) and the flow bar (7c) Shock absorber of the belt conveyor, characterized in that the upper belt (2a) is mounted on the upper side of the impact roller (4a) (4e) The elastic body 7f inserted into the stand main body 7e and the shock absorbing base 7f is made of a coil spring so as to be supported by the upper and lower elastic bases 7g and 7i having a rectangular plate shape. Shock absorber of belt conveyor 2. The shock absorber of claim 1, wherein the flow bar (7c) to which the guide impact controller (4e) is fixed comprises two bars of "A" shape. The fixed bar 7d coupled to the stand main body 7e and connected to the flow bar 7c is assembled with two flow bars 7c in one set, respectively, and is provided on both sides of the stand body 7e. Shock absorber of the belt conveyor, characterized in that each one set is attached to each end