KR101122282B1 - Cleaner assembly for protecting conveyer belt - Google Patents

Abstract

PURPOSE: A contactless belt cleaner which can reduce residue from the surface of a conveyer belt carrying coal is provided to prevent damage to a belt cleaner and a conveyer belt. CONSTITUTION: A contactless belt cleaner comprises a compressed air supply part, a pneumatic air-blower(20), an air nozzle, and a support stand. The pneumatic air-blower provides the compressed air from the compressed air supply part. The support stand supports the pneumatic air-blower. The compressed air sprayed in the air nozzle is sprayed in the surface of the conveyer belt through the guideline of the compressed air storage.

Description

Non-contact belt cleaner {CLEANER ASSEMBLY FOR PROTECTING CONVEYER BELT}

The present invention relates to a belt cleaner, and more particularly, to a non-contact belt cleaner capable of cleanly removing residue from the surface of a conveyor belt for transporting coal in a thermal power plant or the like.

Belt conveyors are very usefully used for conveying coal, ore, sand, various industrial products, cement, grains, garbage, various kinds of goods, for example.

Belt conveyors can be used for short-haul transport in thermal power plants, or for thousands of meters of long-distance transport from mines to transport points.

In general, a belt conveyor is a device for circulating a belt and continuously transporting a load on the belt. The belt conveyor includes a belt made of a material such as rubber, fabric, wire mesh or steel plate, a head pulley, a tail pulley, and the above two. It consists of a plurality of idlers (Idler) to prevent the sagging of the belt between the two pulleys, the chute is installed in the lower portion of the head pulley to drop the transport.

Depending on the type of consignment, the belt conveyor does not drop the entire consignment into the chute, but transport residues adhere to the surface of the conveyor belt. These residues fall off the conveyor belt and settle underneath on the way to the tail pulley. do. In addition, when the conveyor belt with residue is in contact with the two pulleys and idlers, problems occur in the driving and environmental aspects, such as damage to the surface of the conveyor belt and the surfaces of the pulleys and idlers. Install the belt cleaner.

The belt cleaner of the conveyor belt according to the prior art is, for example, installed so that the blade of the cleaner is fixed at an angle to the bottom of the conveyor belt, and the end is in close contact with the surface of the conveyor belt at a constant pressure or at regular intervals. If the distance between the blade of the belt cleaner and the surface of the conveyor belt is far, the residue on the surface of the conveyor belt cannot be removed, and thus there is no cleaning effect. On the contrary, when the blade of the belt cleaner and the surface of the conveyor belt are in close contact with each other, the cleaning effect is increased. do.

However, the following problems occur due to the close contact between the blade and the conveyor belt, and will be described below with an example of a conveyor belt carrying coal. Coal is self-heating, so the coal residues should be removed from the conveyor belt more cleanly than other products. This is because the conveyor belt deteriorates due to the heat generation characteristics of the coal. Therefore, the conveyor belt and the blade are brought into close contact with each other to remove residual coals from the conveyor belt.

However, due to the close contact between the blade and the conveyor belt, a large load is applied to both the blade and the conveyor belt, and wear occurs on the blade and the conveyor belt, respectively. This wear causes frequent maintenance of blades and conveyor belts, which leads to maintenance costs. In addition, there are cases where replacement is required beyond the limits of maintenance. There is also a problem.

In particular, the load on the belt cleaner's blades and conveyor belt is not constant due to various factors such as uneven load distribution on the conveyor belt or meandering of the conveyor belt, which leads to local wear or damage and severe damage. And lowering the cleaning efficiency. In addition, when the damaged portion of the conveyor belt is caught by the blade portion of the belt cleaner, a large tension is generated in the conveyor belt at the moment, and there is also a problem that breakage of the conveyor belt and deformation of the head pulley, tail pulley and idler are caused.

In order to solve the problem of the contact belt cleaner, a non-contact belt cleaner has been proposed.

The non-contact belt cleaner according to the prior art is divided into a method of using water and a method of using air. The use of former water is not suitable for coal transport equipment. This is because, when the coal is wet with water, the quality of coal is deteriorated and the efficiency of thermal power generation is lowered.

The latter method of using air may be dry to compensate for the disadvantages of wet (water), but there is a problem in that loss of air injected from the air nozzle is generated because the air nozzle is usually protruding.

In addition, since the air nozzle is protruding, there is a problem of being damaged by surrounding structures, falling objects, and the like.

Republic of Korea Patent Publication No. 10-2009-0095779 Republic of Korea Patent Publication No. 10-0979789 Republic of Korea Patent Publication No. 10-0988468

The present invention is to solve the problems described above, to provide a non-contact belt cleaner that can remove the coal residues from the surface of the conveyor belt for transporting coal in a thermal power plant, etc., and also prevent damage to the conveyor belt and cleaner. I want to do that.

A non-contact belt cleaner according to the present invention includes a compressed air supply unit; A compressed air supply pipe installed at a bottom of the conveyor belt along a width direction of the conveyor belt and receiving compressed air from the compressed air supply unit; An air nozzle installed in the compressed air supply pipe along a width direction and spraying compressed air supplied to the compressed air supply pipe to the surface of the conveyor belt to remove residues on the surface of the conveyor belt; And a support for supporting the compressed air supply pipe, wherein the compressed air supply pipe is mounted with the air nozzle, and when compressed air is injected from the air nozzle, the compressed air is stored away from the conveyor belt by the injection pressure of the compressed air. By forming a portion, it is characterized in that the compressed air injected from the air nozzle is configured to be sprayed on the surface of the conveyor belt through the guide of the compressed air storage.

According to the non-contact belt cleaner according to the present invention, the residue remaining on the surface of the conveyor belt can be removed by compressed air to prevent damage to the conveyor belt and the belt cleaner, and the compressed air is concave at the periphery of the compressed air supply pipe. It is supplied through the compressed air storage formed in the form to minimize the loss and to prevent damage to the air nozzle.

1 is a side view of an installation state of a non-contact belt cleaner according to the present invention.
2 is a front view of an installation state of a non-contact belt cleaner according to the present invention.
Figure 3 is an enlarged view of the compressed air supply pipe applied to the non-contact belt cleaner according to the present invention.
4 is an enlarged side view of the non-contact belt cleaner according to the present invention.

As shown in FIGS. 1 to 4, the non-contact belt cleaner 100 according to the present invention includes a compressed air supply pipe 10 for compressing air and a compressed air supply pipe supplied with compressed air supplied from the compressed air supply 10. (20), one or more air nozzles (30) for compressed air supplied to the compressed air supply pipe (20) to the surface of the conveyor belt (1) to remove residues on the surface of the conveyor belt (1), compressed air supply pipe It consists of the support 40 which supports 20.

The compressed air supply unit 10 compresses air to a predetermined pressure and supplies the compressed air supply pipe 20 to the compressed air supply pipe 20 and is connected to the compressed air supply pipe 20 through the flexible connection pipe 11.

The flexible connection pipe 11 absorbs shock when the compressed air supply pipe 20 is initially operated and vibration is generated by foreign matter.

The non-contact belt cleaner 100 of the present invention operates only during the operation of the conveyor belt 1, and for this purpose, detects the operation of the conveyor belt 1 through the belt sensor 50, and the controller 60 detects the belt sensor ( On the basis of the detected value of 50), the compressed air is sprayed or stopped. For example, the controller 60 controls the valve 12 for opening and closing the flexible connecting pipe 11 or the compressed air supply unit or controls the compressed air supply unit 10.

The compressed air supply pipe 20 is installed at the bottom of the conveyor belt 1 (the bottom of the belt pulley 2) along the width direction of the conveyor belt 1 and receives the compressed air from the compressed air supply unit 10. It supplies to 30.

The compressed air supply pipe 20 has a circular cross section, and the compressed air storage part 21 is formed so that the concave compressed air storage part 21 does not come into contact with the surface of the conveyor belt 1 by the injection pressure of the air when the air is blown by the air nozzle 30. Is formed. That is, the compressed air supply pipe 20 is in the form of a circle without the compressed air storage unit 21 when the air is not injected, and the conveyor belt 1 is driven by the pressure of the air injected from the air nozzle 30 when the compressed air is injected. It is formed by pushing to the opposite side of.

The compressed air storage unit 21 provides a space for injecting air without the air nozzle 30 being in contact with the conveyor belt 1, and the compressed air injected from the air nozzle 30 is conveyed to the conveyor belt 1. Guide to spray toward the surface.

Compressed air storage unit 21 is formed along the width direction of the compressed air supply pipe 20, it may be formed in one or a plurality.

The compressed air supply pipe 20 should be flexible so that the portion where the air nozzle 30 is mounted may be pushed to the opposite side of the conveyor belt 1. For example, the compressed air supply pipe 20 may be made of an elastic material. , Or only a part forming the compressed air storage unit 21 is made of a flexible elastic material, and the remaining part may be made of steel or synthetic resin, but without flexibility.
That is, in the latter case, the compressed air supply pipe 20 is made of an inflexible material (steel or synthetic resin) and is installed at the open portion of the compressed air supply pipe main body and the compressed air supply pipe main body having an open portion at the circumference, and the air nozzle is When the compressed air is injected from the air nozzle is mounted and is pushed into the inside of the compressed air supply pipe main body is divided into a flexible storage forming plate forming a compressed air storage unit.

The air nozzle 30 is mounted on the compressed air storage unit 21 of the compressed air supply pipe 20, and sprays the compressed air supplied to the compressed air supply pipe 20 to the surface of the conveyor belt 1 so as to surface the conveyor belt 1. Remove the residue in the, and is installed so as not to protrude from the inside of the compressed air storage unit 21 is not in contact with the conveyor belt 1 even if the compressed air supply pipe 20 is in contact with the conveyor belt (1).

The support 40 installs the compressed air supply pipe 20 through the clamp.

The action of the non-contact belt cleaner according to the present invention is as follows.

The compressed air supply pipe 20 maintains a constant distance from the surface of the conveyor belt 1 through the support 40 or contacts with constant pressure. Before spraying the compressed air, the compressed air supply pipe 20 forms a circle.

When the conveyor belt 1 is operated to transport coal or the like, the operation of the conveyor belt 1 is detected by the belt sensor 50, and the controller 60 moves the compressed air supply unit 10 and the valve 12. Control the opening and closing so that compressed air is supplied.

The conveyor belt 1 carries coal while rotating in a caterpillar shape, and residues such as coal dust remain on the surface of the conveyor belt 1.

Compressed air supplied to the compressed air supply pipe 20 is sprayed on the surface of the conveyor belt 1 through the air nozzle 30, and the residue adhering to the surface of the conveyor belt 1 by the injection pressure of the compressed air is It is removed from the conveyor belt (1). Specifically, when the compressed air is injected from the air nozzle 30, a portion of the compressed air supply pipe 20 (the portion on which the air nozzle 30 is mounted) is pushed inward by the injection pressure of the compressed air to concave compression. An air reservoir 21 is made.

 The air nozzle 30 is installed inside the compressed air storage unit 21, and the compressed air injected from the air nozzle 30 passes through the compressed air storage unit 21 and is injected onto the surface of the conveyor belt 1. Since the compressed air storage 21 is open only to the portion facing the conveyor belt 1, the compressed air is injected onto the surface of the conveyor belt 1 without being influenced by the outside.

When the conveyor belt 1 is stopped, the belt sensor 50 detects this, and the controller 60 determines the stop of the conveyor belt 1 based on the detection value of the belt sensor 50 to open the valve 12. It is closed, and therefore, the injection of compressed air is stopped. When the injection of compressed air is stopped, the compressed air supply pipe 20 restores the compressed air storage unit 21 to its original state by its elastic force to form a circle.

1: conveyor belt, 2: belt pulley
10: compressed air supply part, 11: flexible connector
12: valve, 20: compressed air supply pipe
21: compressed air storage, 30: air nozzle
40: support, 50: belt sensor
60: controller,

Claims (4)

A compressed air supply unit 10 for compressing and supplying air;
A compressed air supply pipe (20) installed at a bottom of the conveyor belt (1) along the width direction of the conveyor belt and receiving compressed air from the compressed air supply unit;
An air nozzle (30) installed in the compressed air supply pipe along a width direction and spraying compressed air supplied to the compressed air supply pipe to the surface of the conveyor belt to remove residues on the surface of the conveyor belt;
It includes a support 40 for supporting the compressed air supply pipe,
The compressed air supply pipe is equipped with the air nozzle and when compressed air is injected from the air nozzle to form a concave compressed air storage portion 21 away from the conveyor belt by the injection pressure of the compressed air, the air nozzle in Non-contact belt cleaner, characterized in that the compressed air is injected to the surface of the conveyor belt through the guide of the compressed air storage unit. The method of claim 1, wherein the compressed air supply pipe main body is divided into a compressed air supply pipe main body and a storage forming plate,
The compressed air supply pipe body is formed of an inflexible material, and an opening is formed at a circumference thereof.
The storage plate forming plate is made of a flexible material and is installed in the opening of the compressed air supply pipe main body, and the air nozzle is mounted. Non-contact belt cleaner, characterized in that for forming an air storage. The method of claim 1 or 2, Belt sensor for detecting the drive of the conveyor belt (50); A flexible connection pipe (11) connecting the compressed air supply unit and the compressed air supply pipe to supply compressed air to the compressed air supply pipe, and to flexibly move according to the movement of the compressed air supply pipe; A valve (12) installed in the flexible connection pipe or the compressed air supply unit; And a controller (60) for opening the valve to eject air when the conveyor belt is driven based on the detected value of the belt sensor. The non-contact belt cleaner of claim 3, wherein the support comprises an elastic member for elastically supporting the compressed air supply pipe.

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