KR101045971B1 - Cast steel processing device - Google Patents

Abstract

The present invention relates to a slab processing apparatus, and more particularly, to a slab processing apparatus for stably supporting a slab in a space spaced from the ground and freely rotating at various angles for surface measurement of the slab.

The cast steel processing apparatus according to the present invention includes a frame portion having a rotating space of a cast steel inside, a seating portion provided on the inner lower portion of the frame portion, and seated and lifted in the rotating space, and lifting the seating portion. An elevating portion, a support portion coupled to both sides of the frame portion and supporting the cast steel in the rotating space, a rotating portion for rotating the supporting portion to incline or rotate the cast steel in the rotating space, the lifting portion, the supporting portion, and the And a control unit for supplying power to the rotating unit and controlling driving of the supply unit.

Cast, surface measurement, tilting, turning

Description

Apparatus for handling slab}

The present invention relates to a slab processing apparatus, and more particularly, to a slab processing apparatus for stably supporting a slab in a space spaced from the ground and freely rotating at various angles for surface measurement of the slab.

In general, slab produced through a casting process and cut to a certain length for inspection and analysis of surface defects, etc., is measured on a plurality of surfaces of the slab, namely, upper, lower and left and right sides of the slab. This is carried out.

The conventional process for measuring the surface of the cast steel transfers the cast steel (heavy material) to the working position by using a crane (crane), and a magnetic chuck provided at the bottom of the crane, the operation of the crane and the magnetic chuck The surface was measured on one side by tilting and rotating the cast steel.

However, in the conventional surface measurement process, the magnetic chuck is attached to one side of the cast and the crane is lifted and driven to tilt and rotate the cast. Since the magnetic chuck is attached only to a part of the cast, the cast is easily removed from the magnetic chuck. And fall to the ground. Therefore, in order to rotate the cast to the surface of the cast target surface measurement, the above-described process is repeatedly performed, thereby causing a lot of work time for the surface measurement, there is a problem that the work efficiency is reduced. In addition, since the slab raised from the ground by the crane falls, the slab may be damaged due to the collision with the ground, there was a problem that the industrial accident is concerned.

On the other hand, the surface measurement of the cast steel is measured by means of photographing means such as a camera while the cast steel is placed on the floor, and the shooting position becomes unstable because the height of the cast steel does not match the eye height of the work. There was a problem.

In order to solve the above problems, the slab processing apparatus according to the present invention provides a slab processing apparatus for stably supporting and freely rotating the slab in a space spaced from the ground for measuring a plurality of surfaces of the slab.

Cast slab processing apparatus according to the present invention for achieving the above object is provided with a frame portion having a rotating space of the inside of the slab, the lower portion is provided on the inner lower portion of the frame portion is seated, the seat is elevated in the rotating space And a lifting unit for elevating the seating unit, a support unit coupled to both sides of the frame unit and supporting the cast steel in the rotating space, and a rotating unit rotating the support to incline or rotate the cast steel in the rotating space; And a control unit for supplying power to the lifting unit, the support unit, and the rotating unit, and controlling driving of the supply unit.

According to the present invention for stably measuring the surface of the cast steel in the space spaced apart from the ground, and stably freely rotated to position the plurality of surfaces of the cast to be measured according to the operator's eye level to stabilize the posture of the operator It is maintained as, the time required for the rotation of the cast can be shortened to reduce the working time for the surface measurement of the cast.

Therefore, the sharpness and precision of the photographed image according to the surface measurement of the cast steel is improved, thereby improving the reliability of the measurement result according to the surface measurement of the cast steel.

Hereinafter, with reference to the accompanying drawings will be described an embodiment according to the present invention in more detail. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the embodiments are intended to complete the disclosure of the present invention, and to those skilled in the art the scope of the invention. It is provided for complete information. Like reference numerals in the drawings refer to like elements.

1 is a perspective view showing a slab processing apparatus according to an embodiment of the present invention.

Referring to Figure 1, the slab processing apparatus 100 according to an embodiment of the present invention is provided with a frame portion 200 having a rotating space of the cast (S) on the inside, and the inner lower portion of the frame portion 200 The seat (S) is seated and the seating unit 300 is elevated in the rotating space, the lifting unit 400 for elevating the seating unit 300, and coupled to both sides of the frame portion 200 and the cast (S) The support unit 500 to support in the rotating space, the rotating unit 600 for rotating the support unit 500, the supply unit (not shown) for providing power to the lifting unit 400, the support unit 500 and the rotating unit 600 and A control unit 700 for controlling the driving of the supply unit.

The control unit 700 is provided on one side of the frame unit 200, the control unit 700 is provided with a hydraulic system for confirming the driving of the supply unit, the control panel (control panel) in which the operator's operation is provided.

The frame part 200 forming the outer frame of the slab processing apparatus 100 includes a lower frame 210 seated on the ground, an upper frame 220 and an upper frame 220 spaced vertically from the lower frame 210. ) And a plurality of vertical frames 230 that are vertically coupled between the lower frame 210.

In the present embodiment, the lower frame 210 and the upper frame 220 are formed in a "c" shape, and are placed horizontally so that the open one side faces the front of the slab processing apparatus 100.

On the other hand, the plurality of vertical frame 230 that separates the upper frame 220 in the vertical direction from the lower frame 210 is not all the same shape, the edge portion of the upper frame 220 and the lower frame 210 In the adjacent position, a plurality of cylindrical guide tubes 230a are vertically coupled. In the present embodiment, the upper frame 220 and the lower frame 210 are formed in a shape having four corners, and four guide tubes 230a are used. On the other hand, the vertical frame 230 except for the cylindrical guide tube (230a) "H" type beam (beam) was used.

Cast slab (S) enters and exits the rotating space formed inside the frame portion 200 through the magnetic chuck attached to the bottom of the crane and the crane. An upper portion of the upper frame 220 is coupled to the auxiliary frame 240 formed with a guide hole (242) in the center, the auxiliary frame 240 is the upper frame 220 and the cast ( The collision of S) is prevented, and the guide hole 242 guides the cast steel S transferred through the crane and the magnetic chuck to be positioned above the seating part 300 provided below the rotation space. A state in which the slab S attached to the magnetic chuck and transferred through the crane is seated on the seating part 300 is illustrated in FIG. 1.

As shown in FIG. 2, the lifting unit 400 for elevating the seating unit 300 in a state in which the cast steel S is seated on the seating unit 300 is a pair of driving frames that are elevated along the guide tube 230a. 410, the lifting plate 420 is horizontally coupled between the pair of drive frame 410, and the lifting drive unit 430 for lifting the pair of drive frame 410.

In the present embodiment, the pair of drive frames 410 are positioned at the front and rear portions of the cast steel processing apparatus 100, and the guide tube 230a penetrates adjacent to both ends of the drive frame 410.

The elevating driving unit 430 for elevating the driving frame 410 and the elevating plate 420 in the vertical direction from the ground can be configured using various methods such as electric force, mechanical force, and pneumatic pressure. Tensioned wire 436 was used. That is, the elevating driving part 430 is connected to one end of the cylinder rod 432a and the elevating cylinder 432 for advancing or retracting the cylinder rod 432a in the vertical direction, and is connected to the upper surface of the upper frame 220. A wire 436 is guided and redirected by a plurality of rollers 434 attached thereto and connected to the drive frame 410.

The seating part 300 includes a seating plate 310 coupled to the upper surface of the elevating plate 420, and a plurality of shock absorbing feet provided on the upper surface of the seating plate 310 to contact the lower surface of the cast steel S. A plurality of guide plates 330 are provided on the outer surface of the upper surface of the 320 and the seating plate 310 to guide the seating of the cast steel (S).

In this embodiment, the four impact buffering pads 320 on the upper surface of the seating plate 310 is configured to be positioned at the corners, and in another embodiment, a touch sensor (not shown) in the shock buffering pad 320. You can also check the seating state of the cast (S) by attaching. The guide plate 330 is coupled to spread toward the outside of the mounting plate 310 as the upper side rises.

As shown in FIG. 3, the support part 500 closely supports both sides of the slab S raised by the seating part 300 to support it in the rotation space. (When the support part 500 is supported by the cast part S, the support part 500 is supported. The seating unit 300 descends to the lower side and returns to the initial position before the ascension. For this driving, the support unit 500 contacts the contact plate 510 closely contacting both sides of the cast steel S and the contact plate 510. The contact cylinder 520 moves forward or backward in the horizontal direction, and a plurality of guide beams 530 provided between the contact plate 510 and the contact cylinder 520 to prevent idling of the contact plate 510. .

One side of the contact plate (510) in contact with both sides of the cast (S) is attached to a member with high adhesion in order to strengthen the support of the cast (S), the other side of the contact plate (510) The rod 522 of 520 is connected. The close contact cylinder 520 is fixed in the slab processing apparatus 100, and the close contact cylinder rod 522 is moved forward and backward in the direction of the cast (S).

In this embodiment, since the contact plate 510 and the contact cylinder rod 522 are coupled at one point, the contact plate 510 may rotate, and thus, the rotation of the cast steel S may not be controlled. Two guide beams 530 were used to prevent the contact plate 510 from rotating in the contact cylinder rod 522.

One end of the guide beam 530 is coupled to the close contact plate 510, and the other end of the guide beam 530 passes through a flange formed along the outer circumferential surface of the close contact cylinder 520 to drive the close contact cylinder rod 522. Freely move in the flange.

As shown in Figure 4, the rotating part 600 for rotating the cast (S) at various angles to be inclined in the rotation space is attached to a plurality of vertical frames 230 spaced apart from the ground, the support 500 is penetrated The support plate 610, the annular bearing portion 620 provided between the support plate 610 and the support 500, and the rotary drive unit 630 connected to the outer peripheral surface of the support 500 to rotate the support 500 ).

In this embodiment, when the slab S is viewed from the front of the slab processing apparatus 100 by the rotating unit 600, it is set to rotate in units of 90 ° so that one side, the bottom surface, the other side, and the upper side of the slab S are rotated. Although it is set to be easily observed from the front in the order of the surface, in the order of one side, the upper surface, the other side, the lower surface of the cast (S), the cast (S) when viewed from the front of the cast processing apparatus 100 ) Can be freely rotated at various angles in the range of 0 ° to 360 ° without rotating in 90 ° units in order to measure the surface of the cast (S) in a state inclined at a predetermined angle.

The support part 500 in contact with the inner circumference of the bearing part 620 is fixed by means of welding or the like, and on the outer circumference of the bearing part 620 in contact with the support plate 610, a plurality of bearings are disposed in an environment to support the support part 500. Can rotate freely.

As a method of rotating the support part 500, a gear method, a belt-pulley method, and the like may be used. In this embodiment, the support part 500 is formed by using a chain that is provided in a simple configuration and may provide accurate rotational force. ) Is rotated. The chain connected to the support 500 is protected from the outside by a chain cover 632. A driving motor (not shown) for rotating the chain is provided inside the rotation driving unit 630.

The process of removing the cast steel S from the cast steel processing apparatus 100 rotates the cast steel S horizontally by the rotating part 600 and then moves the seating part 300 by the driving of the lifting unit 400. It adheres to the lower surface of S). When the slab S is stably seated on the seating part 300, the supporting part 500, which is in close contact with both sides of the slab S, falls off from the slab S, and the seat part S is driven again by driving the lifting part 400. 300 is lowered to the ground. After this process is completed, the crane attached to the magnetic chuck moves to the upper side of the frame portion 200 to move the cast (S) to the upper side of the frame portion 200 to transfer to another place.

Through the slab processing apparatus 100 configured as described above, the upper surface, the lower surface, and both sides (except for the two sides of the surface contacted by the support part 500) of the slab S can be easily measured. That is, through the cast processing device according to the present invention stably supporting the cast in a space spaced from the ground, and freely rotated by positioning the plurality of surfaces of the cast to be measured according to the operator's eye level by the operator's shooting The posture is kept stable, and the time required for the rotation of the cast steel is shortened, thereby reducing the work time for measuring the surface of the cast steel. Therefore, the sharpness and precision of the photographed image according to the surface measurement of the cast steel is improved, thereby improving the reliability of the measurement result according to the surface measurement of the cast steel.

As mentioned above, although this invention was demonstrated with reference to the above-mentioned Example and an accompanying drawing, this invention is not limited to this, It is limited by the following claims. Therefore, it will be apparent to those skilled in the art that the present invention may be variously modified and modified without departing from the technical spirit of the following claims.

1 is a perspective view showing a slab processing apparatus according to an embodiment of the present invention.

2 to 4 is a perspective view showing the operating state of the slab processing apparatus according to the rotation process of the cast.

Description of the Related Art [0002]

100: cast steel processing device 200: frame portion

210: lower frame 220: upper frame

230: vertical frame 230a: guide tube

240: auxiliary frame 242: guide hole

300: seating unit 310: seating plate

320: shock absorber 400: lift

410: drive frame 420: elevating plate

430: lifting drive unit 432: lifting cylinder

434: roller 436: wire

500: support portion 510: adhesion plate

520: close contact cylinder 530: guide beam

600: rotating part 610: support plate

620: bearing part 630: rotary drive part

700: control unit S: cast

Claims (9)

A frame part having a rotating space of the cast steel inside; A seating part provided at an inner lower portion of the frame part to seat the cast steel and to be elevated in the rotation space; An elevating unit for elevating the seating unit; A support part coupled to both sides of the frame part and supporting the cast piece in the rotation space; A rotating part which rotates the supporting part to incline or rotate the cast piece in the rotating space; A supply unit providing power to the lifting unit, the support unit, and the rotating unit; And A control unit controlling driving of the supply unit; Cast iron processing apparatus comprising a. The method of claim 1, The frame portion, A lower frame seated on the ground; An upper frame spaced apart from the lower frame in a vertical direction; And A plurality of vertical frames coupled vertically between the upper frame and the lower frame; Made of The plurality of vertical frames include a plurality of cylindrical guide pipes vertically coupled to the corners of the upper frame and the lower frame; Cast iron processing apparatus comprising a. 3. The method of claim 2, The upper part of the upper frame slab processing apparatus is coupled to the auxiliary frame formed in the center portion of the guide hole for entering and exiting the rotating space. 3. The method of claim 2, The lifting unit, A pair of drive frames through which the guide tubes penetrate both ends and are elevated along the guide tubes; An elevating plate coupled horizontally between the pair of drive frames; An elevating driving unit for elevating the pair of drive frames; Cast iron processing apparatus comprising a. The method of claim 4, wherein The lifting drive unit, A lifting cylinder for advancing or retracting the cylinder rod in the vertical direction; A wire connected to one end of the cylinder rod and guided and redirected by a plurality of rollers attached to an upper surface of the upper frame and connected to the driving frame; Cast iron processing apparatus comprising a. The method of claim 4, wherein The seating portion, A seating plate coupled to an upper surface of the elevating plate; A plurality of impact buffers provided on an upper surface of the seating plate and in contact with a lower surface of the cast steel; And A plurality of guide plates provided at an outer side of an upper surface of the seating plate to guide the seating of the cast steel; Cast iron processing apparatus comprising a. 3. The method of claim 2, The support portion A close contact plate in close contact with both sides of the cast steel; An adhesion cylinder for advancing or reversing the adhesion plate in a horizontal direction; A plurality of guide beams provided between the contact plate and the contact cylinder to prevent idling of the contact plate; Cast iron processing apparatus comprising a. The method of claim 7, wherein The rotating part, A support plate spaced apart from the ground and attached to the plurality of vertical frames, and through which the support part passes; An annular bearing portion provided between the support plate and the support portion; A rotation driving part connected to an outer circumferential surface of the support part to rotate the support part; Cast iron processing apparatus comprising a. The method of claim 8, The rotary drive unit cast processing device for rotating the support in a chain manner.

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