KR101610511B1 - Stone Transporting and Processing System - Google Patents

Abstract

A stone conveying and processing system according to the present invention comprises a first conveyor module (5) into which stone to be processed is input; A pre-processing module (10, 20) to which a stone transferred through the first conveyor module (5) is supplied; A conveyor module 30 for transferring the stone discharged from the pre-processing modules 10 and 20; A stone abrasion module 40 for performing abrasion on the stone being conveyed through the conveyor module 30; And a slope adjusting unit (50) for adjusting the angle of placement of the stone wear module (40), wherein the stone wear module (40) comprises a hollow cylindrical body (41) arranged in a tilted state, A chain drive motor 43 for providing power to the drive chain 42 and a discharge control means 48 disposed at the end of the body 41 The stone which has been worn inside the body 41 by the rotational driving of the body 41 is discharged through the discharge control means 48.

Description

{Stone Transporting and Processing System}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stone conveying and processing system, and more particularly, to a stone conveying and processing system capable of consistently conveying, processing and counting a supplied stone.

In general, parks or roads where people cross the street are used to create roads by arranging sidewalk blocks. It is advantageous that drainage is better than building roads with cement or asphalt without building up soil or dust by constructing the road with the sidewalk block. In addition, when using various colored blocks, the beauty of the city can be improved.

These sidewalk blocks are generally manufactured by cementing through mortar hardening with sand aggregate as a main material. However, road blocks that have undergone a general curing process such as cement mortar have a disadvantage that their appearance is poor and their edges are sharp.

In the conventional press block manufacturing method, a sidewalk block is machined to give a natural feeling. For example, a plurality of shot balls are struck on the surface of a sidewalk block that has been formed, and the sidewalk block surface is locally crushed . However, this machining method has a problem that only a part of the surface of the sidewalk block is crushed, and the sharpness of the corner can not be solved.

On the other hand, as a conventional literature containing contents relating to an aggregate manufacturing apparatus, reference can be made to the registered patent No. 10-0870650 (November 26, 2008). In this document, the grain size of the aggregate specified in the aggregate for concrete production, Discloses a technique capable of obtaining high-quality aggregates by grinding aggregates by primary striking means inside the housing in accordance with the particle diameter and the water absorption rate and by abrading the mortar adhered to the surface by means of abrasive means rotating in a secondary spiral form , There is a limitation that the entire system capable of consistently carrying out stable conveyance, uniform processing, and accurate counting of the supplied aggregate or block is not separately disclosed.

(Patent Document 1) KR10-0870650 B

It is an object of the present invention to provide a stone transfer and processing system capable of consistently carrying out transfer, processing and counting of supplied stone materials such as aggregates and blocks.

In order to achieve the above object, a stone conveying and processing system according to the present invention comprises: a first conveyor module (5) into which a stone requiring processing is input; A pre-processing module (10, 20) to which a stone transferred through the first conveyor module (5) is supplied; A conveyor module 30 for transferring the stone discharged from the pre-processing modules 10 and 20; A stone abrasion module 40 for performing abrasion on the stone being conveyed through the conveyor module 30; And a slope adjusting unit (50) for adjusting the angle of placement of the stone wear module (40), wherein the stone wear module (40) comprises a hollow cylindrical body (41) arranged in a tilted state, A chain drive motor 43 for providing power to the drive chain 42 and a discharge control means 48 disposed at the end of the body 41 The stone which has been worn inside the body 41 by the rotational driving of the body 41 is discharged through the discharge control means 48.

The pre-processing modules 10 and 20 are a press module 10 for performing cutting or compression processing on a stone to be transferred or a crushing module 20 for performing a crushing operation on a stone to be transported.

The stone conveying and processing system further includes a counting module 60 coupled to a lower end of the discharge controlling means 48 and the counting module 60 is fixed to a lower end of the discharging controlling means 48 A coefficient hinge 62 coupled to the fixing table 63, a coefficient plate 61 having one end connected to the coefficient hinge 62, and a coefficient sensor 65 for performing sensing with respect to the coefficient plate 61 .

The inclination adjuster 50 includes a base plate 51 and an actuator 55 and a height adjusting bar 52 disposed between the base plate 51 and the stone abrasion module 40. The height adjusting bar 52 The bar 52 is formed with height adjusting grooves 53 in multiple stages.

The stone conveying and processing system according to the present invention as described above can be applied to a stone such as an aggregate or a block to be supplied from a hopper, conveyed by a conveyor belt, processed by a stone abrasion module rotating around an axis, and discharged from a stone abrasion module It is possible to consistently perform counting on the processed stone to be processed.

The present invention improves the productivity of processed stone by controlling the degree of abrasion of the stone as desired through a series of continuous processing steps, and also enables processing of stone blocks such as sidewalk blocks and bricks at low cost.

The present invention can improve the productivity of stone such as a sidewalk block, process the sidewalk block at low cost, and adjust the slope of the stone wear module to control the wear time of the stone.

1 is a conceptual diagram of a stone transfer and processing system according to an embodiment of the present invention.
2 is a view showing a state in which bricks processed through the system of the present invention are finally discharged.
3 is a conceptual diagram of a stone transfer and processing system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of other various forms of implementation, and that these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know completely. Wherein like reference numerals refer to like elements throughout.

The present invention is to provide a stone conveying and processing system that can alleviate the sharpness of a corner and give a natural feeling in the process of processing stone such as a long pole, a sidewalk, and a brick, but the present invention is not limited thereto, It is possible to produce aggregates of various sizes through crushing and abrasion.

As shown in FIG. 1, the stone conveying and processing system according to the first embodiment of the present invention includes a first conveyor module 5, a first conveyor module 5, and a second conveyor module 5, A second conveyor module 30 for carrying out a conveying function to the front and back seats in a state in which cutting, compression and the like are completed in the press module 10, a conveyor module 10 for performing press- A stone abrasion module 40 for carrying out an edge abrasion function for the pole seats conveyed through the module 30, and a slope adjusting part 50 for adjusting the arrangement angle of the stone abrasion module 40.

The stone processed through the present invention is a long pole, which is a long-shaped stone used for accumulating a scarp layer system or a shaft, and may be a rectangular stone, but is not limited thereto and may be used for a stone requiring polishing of the marginal portion .

The press module 10 allows the raw uniaxial stone to be linearly machined to meet the desired shape through a process such as cutting and compression. That is, the upper press 11, which is moved up and down in the state where the long shaft is transferred through the first conveyor module 5, is lowered to the lower press 13, and the unprocessed shaft shaft is processed.

The stone abrasion module 40 includes a hollow cylindrical body 41, a driving chain 42 that is chain-coupled along the outer periphery of the body 41 to enable rotational driving of the body 41, a driving chain 42, A fixed plate 44 disposed at the lower portion of the body 41 and fixedly coupled to the chain drive motor 43 and a fixed plate 44 fixed to the body 41 along the axial direction with irregular or regular A connecting member 46 connecting the bearing 45 and the fixed plate 44 and a discharge adjusting means 48 disposed at the end of the body 41. [

The body 41 has a cylindrical shape with an empty interior and is provided with an inlet for introducing the stone into one end adjacent to the outlet side of the conveyor module 30 and a discharge adjusting means 48 .

The body 41 is supported so that the height of the inlet port side is higher than the height of the discharge regulating means 48 side. The stone introduced through the inlet moves inside the inclined body 41 and is discharged to the discharge regulating means 48. The inside of the body 41 may be formed of a harder stoner than the worn stone, or may be formed of a steel material.

When the body 41 rotates, the stone inserted into the body 41 rotates and moves toward the discharge adjustment means 48 having a low height. A large number of stones move in the body 41 while bending against the inner wall of the body 41 or striking each other and the edges and surfaces of the stones naturally abrade.

The chain drive motor 43 disposed on the fixing plate 44 provides a driving force to the chain 42 so that the chain 42 formed to wind along the outer circumferential surface of the body 41 can rotate the body 41 do. A chain protrusion (not shown) is formed on the body 41 so that the chain 42 can be engaged with the outer circumference of the body 41. The rotation of the chain 42 coupled to the chain protrusion It is possible to rotate around the center.

The bearing 45 may be in the form of a ball bearing, a roller bearing, a plate bearing, or the like, which is disposed on the fixing plate 44 through the connecting member 46 and surrounds the outer circumferential surface of the body 41. This enables the rotation of the body 41 without large friction.

The discharge adjusting means 48 is gradually narrowed from the other end of the body 41. More specifically, the plurality of rotary members are arranged adjacent to each other along the other end of the body 41. [ In this state, the plurality of rotary members can be coupled to the other end of the body 41 with a spring or the like, through which the discharge adjusting means 48 can be expanded and contracted.

The inclination adjustment portion 50 includes a base plate 51 disposed on the ground surface, an actuator 55 disposed between one side of the base plate 51 and the fixed plate 44, and an actuator 55 disposed between the base plate 51 and the fixed plate 44 A height adjusting bar 52 having a height adjusting groove 53 and a hinge portion 54 capable of adjusting the angle between the other side of the base plate 51 and the fixing plate 44.

The inclination adjusting unit 50 adjusts the inclination angle of the stone abrasion module 40 with the hinge part 54 as a center. The inclination adjusting part 50 uses a height adjusting groove 53 formed stepwise in the height adjusting bar 52 Thereby adjusting the state in which the stone abrasion module 40 is disposed. In this case, the actuator 55 makes it possible to cushion the impact caused by the sudden drop of the stone abrasion module 40 in the state where the tightening of the height adjusting bar 52 is released. Meanwhile, since the actuator 55 is provided with a separate power providing means, the length of the actuator 55 can be adjusted.

Hereinafter, a state in which the stone processed through the stone conveying and processing system of the present invention is discharged from the stone abrasion module 40 will be described with reference to FIG.

The stone transfer and processing system further comprises a counting module (60) coupled to the lower end of the discharge regulating means (48).

The counting module 60 includes a counting plate 61, a fixing table 63 fixed to the lower end of the discharging adjusting means 48, a counting hinge 62 connecting the fixing plate 63 and one end of the counting plate 61, And a coefficient sensor 65.

In view of the operation principle of the counting module 60, the counting plate 61 maintains an initial state in which the counting hinge 62, the counting plate 61, and the counting sensor 65 are aligned. Thereafter, the processed stone is moved downward through the discharge adjusting means 48 to push the counting plate 61 to perform a movement about the counting hinge 62 of the counting plate 61. In this process, the counting sensor 65 senses the distance from the counting plate 61 and counts the processed stone discharged downward from the discharging controlling means 48. The coefficient plate 61 pushed in the downward direction is restored by the restoring force of the counting hinge 62. In this case, the counting plate 61 is adjusted so as not to exceed the point in alignment with the counting sensor 65. [ A separate stop member may be provided for this purpose.

The overall operation of the stone conveying and processing system is as follows.

The stone introduced through the first conveyor module 5 and the press module 10 is sequentially supplied to the second conveyor module 30. The stone conveyed in accordance with the operation of the second conveyor module 30 enters the body 41 of the stone abrasion module 40 and then strikes against the inner wall of the body 41 in accordance with the rotation driving of the body 41 Or the stone collides with each other, and the edge and the face of the stone naturally wear. The stone in the rotating body 41 in an inclined state is counted while passing through the counting module 60 after moving to the discharge adjusting means 48 having a low height.

Hereinafter, a stone transfer and processing system according to a second embodiment will be described with reference to FIG. Hereinafter, description of the same constituent elements as those of the first embodiment will be omitted, and different points will be mainly described.

The stone conveying and processing system includes a hopper 7 into which a stone requiring processing is input, a crushing module 20 that performs primary processing on the stone discharged from the hopper 7, A conveyor module 30 for carrying the conveying module 30, a stone abrasion module 40 for performing edge abrasion for the stone conveyed through the conveyor module 30, (50).

The crushing module 20 includes a crushing cylinder 21, a crushing screw 22 rotatably disposed in the crushing cylinder 21 and a crushing motor 25 coupled to the crushing screw 22. The pulverizing screw 22 includes a rotating shaft 23 arranged in the axial direction in the pulverizing cylinder 21 and a pulverizing blade 24 continuously formed in a spiral shape from one outer circumferential surface to the other outer circumferential surface of the rotary shaft 23.

In the stone transfer and processing system according to the second embodiment, the supplied stone is first crushed by the crushing module 20 and then re-processed through the stone crushing module 40, Thereby further improving it.

The stone conveying and processing system according to the present invention as described above can be applied to a stone such as an aggregate or a block to be supplied from a hopper, conveyed by a conveyor belt, processed by a stone abrasion module rotating around an axis, and discharged from a stone abrasion module It is possible to consistently perform counting on the processed stone to be processed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is determined by the limitations of the utility model registration claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

7: Hopper
10: Press module
20: Crushing module
30: Conveyor module
40: Stone wear module
50:
60: counting module

Claims (4)

In the stone transfer and processing system,
A first conveyor module 5 into which a stone requiring processing is input;
A pre-processing module (10, 20) to which a stone transferred through the first conveyor module (5) is supplied;
A conveyor module 30 for transferring the stone discharged from the pre-processing modules 10 and 20;
A stone abrasion module 40 for performing abrasion on the stone being conveyed through the conveyor module 30; And
And a slope adjusting part (50) for adjusting an arrangement angle of the stone wear module (40)
The stone abrasion module 40 includes a body 41 having a hollow cylindrical shape arranged in a tilted state, a driving chain 42 enabling rotation of the body 41, And a discharge control means (48) disposed at an end of the body (41)
The stone transfer and processing system further includes a counting module (60) coupled to a lower end of the discharge regulating means (48)
The counting module 60 includes a counting hinge 62 coupled to a fixing table 63 fixed to the lower end of the discharging adjusting unit 48, a count plate 61 having one end connected to the counting hinge 62, And a coefficient sensor (65) for performing sensing with respect to the counting plate (61)
The stone, which is worn inside the body (41) by the rotation of the body (41), is discharged through the discharge control means (48)
Stone transfer and processing system.
The method according to claim 1,
The pre-processing module (10, 20) is a press module (10) for cutting or compressing a stone to be transferred or a crushing module (20) for performing a crushing operation on the stone to be transported.
Stone transfer and processing system.
delete The method according to claim 1,
The inclination adjusting unit (50)
A base plate 51 and an actuator 55 and a height adjusting bar 52 disposed between the base plate 51 and the stone abrasion module 40,
The height adjusting bar 52 has height adjusting grooves 53 formed in multiple stages.
Stone transfer and processing system.

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