KR101810596B1 - A compression device for stainless steel turning and scrap having a discharge section capable of changing direction of discharged compressed scrap iron - Google Patents

Abstract

The present invention relates to an apparatus to compress stainless steel turning and scrap including a discharge part capable of changing a direction of discharged compressed scrap iron. According to the present invention, the discharge part (400) comprises: a first moving path (410) connected to a second compression part (200) and having a space to move scrap iron; a second moving path (420) hinge-coupled while connecting one side to the first moving path (410), to selectively adjust a moving direction of the scrap iron in a vertical direction of one side or the other side; and a third moving path (430) hinge-coupled while connecting one side to the second moving path (420), to adjust the moving direction of the scrap iron in a horizontal direction of one side or the other side, and having an end part of the other side not connected to the second moving path (420) lower than a part connected to the second moving path (420). Thus, the direction is able to be variously changed, thereby providing convenience in use as a plurality of discharge parts are not required.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a compression device for stainless steel turning and scrap,

The present invention relates to a compression apparatus for a stainless steel turning and scrap having a discharging portion capable of changing the direction of discharged compressed scrap iron, and more particularly to a compression apparatus for a stainless steel turning scrap and scrap, The present invention relates to a technique for collecting scrap generated during discharge and reusing the same.

Generally, the scrap iron compressing apparatus scrapes scrap metal scraps. However, in the conventional scrap metal scrapers, a plurality of cylinders are provided to compress and scrap the scrap metal injected through the scrap pipe in either or both directions. However, The apparatuses of the present invention have a large number of cylinders, so they are not only expensive to manufacture, but also require a one-time compression process.

In addition, as the working time increases in the production of compressed scrap, the productivity is significantly reduced.

On the other hand, in discharging the compressed scrap iron, a separate cylinder for discharging was constituted and discharged. However, in order to collect and load the compressed scrap at a position spaced apart from the compression apparatus by a considerable amount of inconvenience to install the compressed scrap iron close to the compression apparatus during collection and loading, And a separate discharge unit was constructed and loaded.

That is, as shown in Fig. 1, in the case of the discharging portion, the compressed scrap individually discharged from the compression device is completely dependent on the force of the discharge cylinder, which is configured in the interior of the compression device, to be.

In this case, when the size of the discharge portion is increased, there is a problem that an overload of the discharge cylinder and a hydraulic pressure supplied to the discharge cylinder must be large. When the discharge cylinder is overloaded, the operation of the compression device must be stopped, It has the problem that it is forced to fall.

Conventional compression devices are techniques that rely on a threshing cylinder, generally scrap iron after being compressed.

Korean Registered Patent No. 10-1165022 (July 5, 2012) Korean Patent No. 10-0692746 (Mar. 2, 2007)

Therefore, it is an object of the present invention to provide a method and apparatus for collecting and loading compressed scrap, which is discharged from a pressurizing shaft and completely discharged after scrap iron is introduced into a charging port, In addition, according to the necessity of changing the collecting and loading position, it is possible to change the direction without using a separate discharge part, and to discharge the discharged product so as to promptly respond to situations such as economic efficiency and convenience of use The present invention has been accomplished on the basis of the provision of a compression device for stainless steel turning and scrap having a discharge section capable of changing direction of compressed scrap iron.

”자 형상으로 형성되어 상기 고철이 이동하는 공간이 형성되는 제1이동로(410)와, 정단면이 상기 제1이동로(410)와 동일하게 형성되며, 일측이 상기 제1이동로(410)와 연결되되 힌지 결합되어 선택적으로 일측 또는 타측의 상하방향으로 상기 고철의 이동방향을 조절할 수 있는 제2이동로(420)와, 정단면이 상기 제1,2이동로(410, 420)와 동일하게 형성되며, 일측이 상기 제2이동로(420)와 연결되되 선택적으로 일측 또는 타측의 좌우방향으로 상기 고철의 이동방향을 조절할 수 있게 힌지 결합되고 상기 제2이동로(420)와 연결되지 않은 타측 단부는 상기 제2이동로(420)와 연결된 부분보다 낮도록 제3이동로(430)로 구성되고, 상기 제2이동로(420)의 내부 일측에 구성되되 상기 제3이동로(430)와 연결된 방향으로 서서히 높아지는 방향전환부재(421)가 구성되어, 상기 제2압축부(200)로부터 수평방향으로 이동하는 원형의 압축된 고철을 수직방향으로 서서히 방향을 전환시켜 상기 원형의 압축된 고철이 자연스레 굴러갈 수 있도록 구성되는 것을 기술적 특징으로 한다.Technical Solution In order to achieve the above object, the present invention provides, as a technical idea, a first compression unit (100) configured to push a scraper inserted into an inside of a scraper and a scraped scraper; A second compression unit (200) connected to the first compression unit (100) and configured to completely compress the scraped scrape moved from the first scooping unit (100) and to discharge fully scrapped scrap; A hydraulic pressure supply unit 300 for supplying hydraulic pressure to the first and second compression units 100 and 200; A discharge unit 400 connected to the second compression unit 200 to discharge the compressed circular scrap; Wherein the discharge unit 400 is connected to the second compression unit 200 and has a positive cross section of "

A first moving path 410 formed in a shape of a letter shape and having a space through which the scrap iron is moved, and a second moving path 410 having the same cross section as the first moving path 410, A second moving path 420 connected to the first and second moving paths 410 and 420 and hinged to selectively control the moving direction of the scrap iron in one direction or the other direction; One end of which is connected to the second transfer path 420 and is selectively hinged to adjust the moving direction of the scrap iron in one side or the other of the other side and connected to the second transfer path 420 And the other end of the third traveling path 420 is formed to be lower than the portion connected to the second traveling path 420. The third traveling path 430 is formed at one side of the inside of the second traveling path 420, The direction changing member 421 gradually increases in the direction connected to the second pressure The circularly compressed scrap metal moving in the horizontal direction from the shaft portion 200 is gradually changed in the vertical direction so that the circularly compressed scrap metal can naturally roll.

The third moving path 430 is formed at one side of the third moving path 430 and is formed in an open form so that the scrap that is separated when the compressed scrap is moved after the direction change is dropped, And a collection box 440 for collecting scrap falling down is formed in the lower part of the dropping groove 431. [

The support rods 415, 425 and 435 are fixed to the first, second and third traveling rods 410, 420 and 430 by abutting against the ground. The supports 425 and 435 are configured to be adjustable in height and height.

According to the compression apparatus for the stainless steel turning and scrap having the discharging portion capable of changing the direction of the compressed scrap iron discharged in the present invention, the original purpose of the compression apparatus is maintained, and at the same time, It is not necessary to provide a plurality of discharging portions, so that convenience of use can be provided. On the other hand, the compressed scrap discharged from the compression device is not discharged depending on the discharge cylinder of the compression device, The discharge cylinder of the compression device can be prevented from being overloaded by switching the direction of the scrap iron so that the scrap can be rolled, and at the same time, it is possible to collect and load the scrap generated when the direction of the compressed scrap is changed and moved, It is a useful invention that can maximize the economic efficiency by recycling A.

1 is a front view showing a preferred embodiment of the present invention;
2 is a plan view showing a preferred embodiment of the present invention.
3 is a side view showing a preferred embodiment of the present invention
4 is a front view showing a preferred embodiment of the present invention.
5 is a plan view showing a preferred embodiment of the present invention.
6 is an operational state diagram showing a preferred embodiment of the present invention
7 is an operational state diagram showing a preferred embodiment of the present invention
Fig. 8 is a diagram showing the state of use showing the preferred embodiment of the present invention
9 is a view showing a preferred embodiment of the present invention
10 is a side sectional view showing (A - A '), (B - B') and (C - C '
Figure 11 is an operating state diagram illustrating a preferred embodiment of the present invention.

The present invention is capable of smoothly discharging compressed scrap without having a separate discharging function, and capable of collecting scrap generated at the time of discharge and switching the direction of the discharged scrap metal Provided is a compression device for stainless steel turning and scrap having a discharge part.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

Before describing the present invention,

”자 형상으로 형성되어 상기 고철이 이동하는 공간이 형성되는 제1이동로(410)와, 정단면이 상기 제1이동로(410)와 동일하게 형성되며, 일측이 상기 제1이동로(410)와 연결되되 힌지 결합되어 선택적으로 일측 또는 타측의 상하방향으로 상기 고철의 이동방향을 조절할 수 있는 제2이동로(420)와, 정단면이 상기 제1,2이동로(410, 420)와 동일하게 형성되며, 일측이 상기 제2이동로(420)와 연결되되 선택적으로 일측 또는 타측의 좌우방향으로 상기 고철의 이동방향을 조절할 수 있게 힌지 결합되고 상기 제2이동로(420)와 연결되지 않은 타측 단부는 상기 제2이동로(420)와 연결된 부분보다 낮도록 제3이동로(430)로 구성되고, 상기 제2이동로(420)의 내부 일측에 구성되되 상기 제3이동로(430)와 연결된 방향으로 서서히 높아지는 방향전환부재(421)가 구성되어, 상기 제2압축부(200)로부터 수평방향으로 이동하는 원형의 압축된 고철을 수직방향으로 서서히 방향을 전환시켜 상기 원형의 압축된 고철이 자연스레 굴러갈 수 있도록 구성된다.1 to 5 and 9 to 10, a first compression unit 100 configured to push a scraper introduced into the inside of the scraper and the scraped scraper; A second compression unit (200) connected to the first compression unit (100) and configured to completely compress the scraped scrape moved from the first scooping unit (100) and to discharge fully scrapped scrap; A hydraulic pressure supply unit 300 for supplying hydraulic pressure to the first and second compression units 100 and 200; A discharge unit 400 connected to the second compression unit 200 to discharge the compressed circular scrap; Wherein the discharge unit 400 is connected to the second compression unit 200 and has a positive cross section of "

A first moving path 410 formed in a shape of a letter shape and having a space through which the scrap iron is moved, and a second moving path 410 having the same cross section as the first moving path 410, A second moving path 420 connected to the first and second moving paths 410 and 420 and hinged to selectively control the moving direction of the scrap iron in one direction or the other direction; One end of which is connected to the second transfer path 420 and is selectively hinged to adjust the moving direction of the scrap iron in one side or the other of the other side and connected to the second transfer path 420 And the other end of the third traveling path 420 is formed to be lower than the portion connected to the second traveling path 420. The third traveling path 430 is formed at one side of the inside of the second traveling path 420, The direction changing member 421 gradually increases in the direction connected to the second pressure The circular compressed scrap iron moving in the horizontal direction from the shaft portion 200 is gradually changed in the vertical direction so that the circular compressed scrap iron can naturally roll.

As shown in FIGS. 1 to 3, the first compression unit 100 includes a charging port 101 for charging scrap iron, a compression cylinder 110 for pressurizing and compressing the charged scrap iron, And a pushing cylinder 120 which is installed orthogonally to the compression cylinder 110 for pushing the scrap iron in the direction toward the second compression section 200. The scrap iron finally injected into the second compression section 200 after the press- So that it is possible to manufacture the scrap iron completely compressed by the second compression unit 200.

1 to 3, the second compression unit 200 is located at one side of the first compression unit 100, and is connected to the inlet 201 of the first compression unit 100, An injection path 201 serving as a movement path through which the scrap metal to be pushed from the jamming cylinder 120 of the first compression section 100 can be drawn in is formed and the injection path 201 connected to the injection path 201 A press compressor 220 is formed which is constituted by a compression furnace 210 and is capable of completely compressing the scraped scrap formed on the compression furnace 210. The press compressor 220 is completely compressed Thereby forming a circular scrap iron.

In the case of the press compressor (220), since it has a very large cylinder structure, it operates by hydraulic pressure or pneumatic pressure. In the present invention, hydraulic pressure is supplied from the hydraulic pressure supply part (300).

In addition, a discharge cylinder 230 moving in the horizontal direction is formed in the lower end of the second compression unit 200, so that the completely compressed circular scrap can be discharged through the discharge port 203.

2 to 3, the hydraulic pressure supply unit 300 includes a compression cylinder 110, a threshing cylinder 120, and a press compressor 220 of the first and second compression units 100 and 200, Each of the compression cylinders 110, the pushing cylinders 120 and the press compressors 220 may be operated to supply the hydraulic pressures. Although not shown, a control unit may be provided on one side to selectively control the compression strength .

Here, as shown in FIGS. 1 to 11, the discharge unit 400 is a core component of the present invention. The discharge unit 400 is moved to a position for collecting and loading circular scrap completely compressed by the second compression unit 200 .

”자 형상으로 형성되어 상기 고철이 이동하는 공간이 형성되는 제1이동로(410)가 구성된다. 상기 제1이동로(410)의 경우 일측이 상기 배출구(203)와 연결되는데 그 연결의 사용되는 압축장치의 배출구 구조에 따라서 용접 및 기타 통상의 연결방법 등 다양하게 연결할 수가 있다.3 to 10, the discharge unit 400 is connected to the discharge port 203,

The first moving path 410 is formed in a shape of a letter "" In the case of the first moving path 410, one side is connected to the discharge port 203, and various connection methods such as welding and other conventional connection methods can be connected according to the structure of the outlet of the compression device used for the connection.

”자 형상으로 형성되는 목적으로는 상기 제1이동로(410)의 정면에서 내부는 실질적으로 압축된 원형의 고철의 하부가 맞닿으면서 이동하게 되며 상부 양측으로 돌출되는 목적으로는 상기 각각 돌출된 부분이 상기 압축된 원형의 고철이 이동 중 외부로 이탈되는 것을 방지 하기 위한 구조이다.Here, when the front end surface of the first compression portion 100 is in the "

For the purpose of being formed in the shape of a letter, the inside of the first moving path 410 is moved in contact with the lower portion of the substantially compressed circular scrap iron, and the protruded Is a structure for preventing the compressed circular scrap iron from being released to the outside during movement.

That is, the first moving path 410 has a lower end surface, which is a flat portion of the compressed circular scrap discharged by the discharge cylinder 230 of the first secondary compression section 200, And moves in contact with the inner lower side.

As shown in FIG. 10, the first moving path 410 is formed in the same plane as the first moving path 410, and one side thereof is connected to the first moving path 410, but is hinged to selectively move up and down And a second moving path 420 capable of adjusting the moving direction of the scrap metal.

5 to 10, the second moving path 420 is formed in the same manner as the first moving path 410 as shown in FIGS. 5 to 10, 1 traveling path 410 and is connected to one side of the first traveling path 410 so as to be vertically movable.

In other words, in the case of the second traveling path 420, the height of the end of the second traveling path 420 (the portion connected to the third traveling path) can be adjusted by being hinged to the hinge- .

For the purpose of moving the second traveling path 420 in the up and down direction, it is usually necessary to discharge the compressed circular scrap, collect it, and carry it to other necessary places. It is impossible to collect and load various safety incidents and a large amount of compressed circular scrap iron when the position of the scraper is close to the compression device in the loading box, The third traveling path 430 is connected to the second traveling path 430, and the direction of the discharged compressed circular shape is changed so that it can be naturally rolled by gravity.

9 or 10, a direction changing member 421 is formed at one side of the inside of the second traveling path 420 and gradually increases in the direction of the third traveling path 430, When the direction changing member 421 is moved by the discharge cylinder 230 via the first traveling path 410 and the second traveling path 420, the flat surface of the compressed circular scrap metal is moved in the second traveling path 420 so that the outer circumference of the compressed circular scrap iron is brought into contact with the inner lower side of the second traveling path 420 by gradually changing the direction.

In other words, the moving compressed circular scrap is rotated in the vertical direction from the horizontal direction to change the direction so that the scrap is rolled. The scrap converted in direction is moved through the third moving path 430, And to a loadable position.

In addition, the direction switching member 421 is described and shown as being disposed in the second traveling path 420 as a whole and in the vicinity of the third traveling path 430 because the compressed circular scrap metal When the direction is switched by the direction switching member 421, the discharge cylinder 230 of the second compression unit 200 is no longer influenced (such as overloaded) and discharged naturally.

Although not shown, the direction changing member 421 may be disposed at a position adjacent to the second traveling path 420 in the third traveling path 430, which will be described later. However, the present invention is not limited thereto, No.

As shown in FIGS. 4 to 8, the third moving path 430 is formed in the same shape as the first and second moving paths 410 and 420 and has one side connected to the second moving path 420, And the other end thereof not connected to the second moving path 420 is connected to the second moving path 420 in a portion connected to the second moving path 420, And the third traveling path 430 is lower than the first traveling path 430.

For the purpose of adjusting the direction of the third traveling path 430 in the left-right direction, the position of collecting and loading the compressed circular scrap iron may be varied according to the field conditions. If such a positional variation occurs, 3 moving path 430. The structure shown in FIG.

In other words, the third traveling path 430 can respond to the sudden change of the on-site situation immediately, so that even if the sudden change occurs, it is possible to manufacture a separate discharge part, So that convenience in use can be given.

The third traveling path 430 is disposed so that the portion of the third traveling path 430 that is not connected to the second traveling path 420 is lower than the portion connected to the second traveling path 420, So that the inner circumferential side of the third traveling path 430 abuts against the outer circumference of the third traveling path 430 and is moved to the place where the graphene is naturally collected and loaded by the gravity to be.

On the other hand, at one side of the third traveling path 430 located close to the second traveling path 420, the scrap, which is separated when the compressed scrap is moved after the directional change, And a collection box 440 for collecting scrap falling down is formed in the lower part of the dropping groove 431.

In other words, in the case of the falling groove 431, after being discharged by the discharge cylinder 230 of the second compression unit 200, the scrap generated during the movement is collected and collected The scrap can be recycled when it is compressed.

The supporting rods 415, 425 and 435 are fixed to the first, second and third traveling paths 410, 420 and 430 so as to abut against the ground, The supports 425 and 435 are configured to be adjustable in height and height.

In other words, as shown in FIG. 6, a supporting table 425 for supporting the second moving path 420 by abutting with the ground surface to adjust the vertical angle of the second moving path 420, The height of each of the support rods 425 and 435 supporting the second and third traveling passages 420 and 430 is adjusted by varying the angle of the third traveling path 430 connected to the second traveling path 420, So that it can be stably supported.

The support rods 425 and 435 are divided into a portion contacting the ground and a portion connected to the second and third traveling paths 420 and 430 and the second and third traveling rods 420 and 430 And the height of the support can be adjusted by adjusting the height of the support so as to fix the height of the support to the support surface A plurality of grooves may be formed on the outer periphery thereof, and then a bolt or the like may be fastened to fix the support member to be inserted therein.

The discharge unit 400 of the present invention moves the circular compressed scrap iron moving in the horizontal direction from the second compression unit 200 in the vertical direction to gradually change the direction so that the circular compressed scrap metal can naturally roll And it is a useful invention that can respond immediately to the situation in the field.

100: first compression section 101: inlet port
110: Compression cylinder 120: Threshing cylinder
200: second compression section 201: input path 203: discharge port
220: press compressor 230: discharge cylinder
300: Hydraulic feeder
400:
410: first traveling path 415: support
420: second traveling path 421: direction changing member 425:
430: third traveling path 431: falling groove 435:
440: Collected

Claims (3)

A first compression unit (100) configured to push a scraping tool inserted into the pressing shaft and the scraping tool; A second compression unit (200) connected to the first compression unit (100) and configured to completely compress the scraped scrape moved from the first scooping unit (100) and to discharge fully scrapped scrap; A hydraulic pressure supply unit 300 for supplying hydraulic pressure to the first and second compression units 100 and 200; A discharge unit 400 connected to the second compression unit 200 to discharge the compressed circular scrap; And a compression mechanism for the stainless steel turning and scrap,
The discharging unit 400 includes:
And a second compression unit (200)

A first moving path 410 formed in a shape of a letter shape to form a space through which the scrap metal moves,
The first moving path 410 is formed in the same shape as the first moving path 410 and is hingedly connected to the first moving path 410 to selectively adjust the moving direction of the scrap metal in one direction or the other direction. The second traveling path 420 having the first traveling path 420,
The first and second moving passages 410 and 420 are formed in the same shape as the first and second moving passages 410 and 420. One end of the second moving path 420 is connected to the second moving path 420 and selectively adjusts the moving direction of the scrap iron in the left- And the other end of the third transfer passage 430 is connected to the second transfer passage 420. The other end of the third transfer passage 430 is hinge-coupled to the second transfer passage 420,
The direction changing member 421 is formed at one side of the inside of the second traveling path 420 and gradually increases in a direction connected to the third traveling path 430,
Characterized in that the circular compressed scrap iron which is moved in the horizontal direction from the second compression unit (200) is gradually turned in the vertical direction so that the circular compressed scrap iron can naturally roll. And a discharge section capable of turning the scrap iron.
The method according to claim 1,
The third moving path 430 is formed at one side of the third moving path 430 and is formed in an open form so that the scrap that is separated when the compressed scrap is moved after the direction change is dropped, Is formed,
And a collecting box (440) for collecting scrap falling down is formed in the lower part of the dropping groove (431).
The method according to claim 1,
The support rods 415, 425, and 435 are fixed to the first, second, and third movement paths 410, 420, and 430, respectively,
The supporting rods (425, 435) constituting the second and third traveling passages (420, 430) are configured to be adjustable in height and height. A stainless steel turning fitting And a compression device for scrap.

Images