JP2573040B2 - Top and bottom casting frame alignment method - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method of aligning upper and lower flasks, and more particularly, to a method of arranging a plurality of upper and lower flasks alternately in a line. At the same time, it is intermittently advanced by one casting flask at the same time, and the upper casting flask is lifted at a predetermined position, and the lower casting flask that is advanced immediately thereafter is frame-aligned. The present invention relates to a method for intermittently advancing an upper / lower casting flask together with an upper / lower casting flask group before the frame alignment by one casting flask.

(Prior art and problems) Generally, in the above-described method for aligning the upper and lower casting flasks, the length of the casting flask fluctuates due to thermal expansion and wear due to the heat of the poured molten metal. It is difficult to move the upper and lower casting frames so that the pin and bush for frame alignment respectively provided on the frame come to the predetermined position of the frame alignment point with high accuracy. A conveyor for transferring the frame and a conveyor for transferring the upper and lower flasks after the frame are separately provided, and an end of the conveyor for transferring the upper and lower flasks before the frame alignment, and for transferring the upper and lower flasks after the frame alignment. Between the starting end of the conveyor, a frame aligning device and an upper and lower molding frame transfer device after the frame alignment were arranged, and the upper and lower flasks before the frame alignment were alternately transferred to the end to perform centering. After the frame is aligned by the rear frame aligner, the upper and lower flasks Thus, it is configured to transfer to the conveyor for transferring the upper and lower flasks after the frame is aligned. Therefore, the conventional method for aligning the upper and lower flasks has a problem in that the apparatus for transferring the upper and lower flasks is required, which increases the equipment cost, and requires a large floor area for installing the apparatus.

The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide a method of aligning upper and lower flasks which can omit the upper and lower flask transfer apparatuses and can reduce the installation area of the apparatus. And

(Means for Solving the Problems) In order to achieve the above object, a method for aligning upper and lower flasks according to the present invention is to arrange a plurality of upper and lower flasks alternately and arrange them in a line. The upper and lower flasks are advanced intermittently by one flask, and the upper flask is lifted in the middle and placed on the lower flask that is being advanced immediately after that, and the frames are aligned. After framing, a framing method in which the framed upper and lower flasks are intermittently advanced together with the upper and lower flasks before the framing, comprising: Advance the upper and lower flasks to a position where the earliest upper flask is slightly before the framing point, and then the first upper flask,
The upper and lower flasks after the preceding framing are advanced to a position where the upper framing slightly passes the framing point, and then only the upper framing is retracted to the framing point to facilitate the upper framing. After moving to the framing point with high precision, the upper flask is lifted, and then the upper and lower flask groups before framing are moved, and the first lower framing comes slightly before the framing point. Position, and then, only the foremost lower flask is easily advanced to the framing point and advanced with high precision. Then, the ascending upper flask is lowered and placed on this lower flask. In this case, the frames are aligned.

(Example) An example will be described with reference to the drawings. In the figure (1)
Is a base frame extending in the left-right direction, and a bogie traveling rail (2) extending in the left-right direction on the base frame (1).
And a roller conveyor (3) with a collar for conveying the upper casting frame are installed with the roller conveyor (3) with a collar positioned higher.

A casting frame positioning device (4) is installed near the center of the base frame (1), and the casting frame positioning device (4) is arranged to be able to reciprocate left and right via a roller conveyor (5). A traveling platform (6), a cylinder (7) for reciprocating the traveling platform (6) and having a buffer means, and a single casting mounted on the traveling platform (6) mounted on the traveling platform (6). It comprises a clamp mechanism (8) for clamping the frame and a cylinder (9) pivotally supported by the traveling platform (6) to open and close the clamp mechanism (8). Further, a flask setting device (10) is provided on the flask positioning device (4), and the flask setting device (10) is provided with a downwardly-facing arrangement provided through a portal frame (11). A cylinder (12), an elevating frame (13) fixed to the lower end of a piston rod of the cylinder (12), and a vertically swingable lower part of the elevating frame (13) via a link mechanism (14). Swing frame (15), a guide rod (16) for frame alignment suspended from the lower surface of the swing frame (15), and an upper cast frame mounted on the lower surface of the swing frame (15). And a holding mechanism (17). At the left and right ends of the rail (2) and the roller conveyor (3) with a brim, upper and lower casting frames mounted on the carriage (T) of the rail (2) and the roller conveyor (3) with a brim are provided on both sides. A horizontal cylinder (not shown) which is interposed and moved intermittently by one casting frame is installed.

Next, the operation of the thus configured device will be described.

Using a mold molding machine (not shown), the upper and lower molds
The lower mold (C) and (D) are respectively molded, and the upper mold (C) is placed on the roller conveyor (3) with the collar, and the lower mold (D) is placed on the carriage (T) on the rail (2). ), And the upper flask (C) and the lower flask (D) are alternately sent out on each of the rails.
A plurality of upper casting frames (C) and lower casting frames (D) are alternately arranged on the upper side and arranged in a line, and upper and lower casting frames (C) and lower casting frames (D) are brought into contact with each other. Form a frame group.

On the right side (front) from the casting flask aligning device (10), the upper and lower flasks (C) and (D) are placed on the bogie (T) in a state where they are aligned as shown in the figure. The procedure for aligning the upper and lower flasks (C) and (D) under such a state will be described. The extension mechanism of the cylinder (7) causes the clamp mechanism (8) to move through the traveling platform (6). Is retracted to a position immediately below the earliest upper casting frame (C), the upper casting frame (C) is clamped by the clamping mechanism (8) by the extension operation of the cylinder (9), and the cylinder (7) is moved. Make it free. After holding the upper and lower flask groups by two cylinders (not shown) from both right and left sides, the left cylinder (rear cylinder) is extended and the right cylinder (front cylinder) is contracted, and the upper and lower flasks are contracted. The group is moved (advanced) to the right by one flask while holding the group between both cylinders. In this case, since the upper casting frame (C) is fixed to the traveling platform (6) via the clamp mechanism (8), the traveling platform (6) is moved rightward together with the upper casting frame (C). You. Further, since the fluid in the cylinder (7) is in a free state, the piston rod of the cylinder (7) is contracted with the movement of the traveling platform (6). Thus, the upper and lower cast frames (C) before the alignment
When the upper flask (C) of the group (D) reaches a position slightly before the position immediately below the flask adjusting device (10), the operations of both cylinders are stopped and the upper and lower flask groups are moved to the right. Stop. Next, the cylinder (7) and the right-hand cylinder (not shown) are further contracted to move the upper flask (C) and the upper and lower flasks (C) and (D) after the previous frame alignment to the upper flask (C). Moves (forwards) the position immediately below the formwork aligning device (10) to a position slightly excessive, and moves these upper and lower formworks (C).
The group (D) is separated from the upper and lower flasks (C) and (D) before the framing, and then the cylinder (7) is extended to move the upper flask (C) to the traveling platform (6). The upper casting flask (C) is retracted to a position immediately below the casting flask aligning device (10) via the vial. In this case, since only the upper flask (C) is moved by a predetermined distance, the positioning of the upper flask (C) can be performed easily and highly accurately. A gap is formed. Next, the cylinder (12) is extended to lower the elevating frame (13), the upper flask holding mechanism (17), etc., and hold the upper flask (C) by the upper flask holding mechanism (17). Then, the clamp mechanism (8) is opened by the contraction operation of the cylinder (9) to release the fixed state of the upper casting frame (C) to the traveling platform (6), and then the cylinder (12) is contracted to operate the upper casting frame. (C) is lifted. In addition, since the clearance is formed before and after the upper flask (C), the upper flask (C) can be lifted without any trouble. Next, the cylinder (7) is extended to move the traveling platform (6) to a position immediately below the foremost lower casting frame (D), and then the clamping mechanism (8) is extended by the cylinder (9) to be extended. Is closed, and the foremost lower flask (D) is clamped and fixed to the traveling platform (6). Next, the cylinder (7) is contracted, and at the same time, the left cylinder (not shown) is extended to extend the lower and upper flasks (D) and (C) before the frame alignment, and the first lower flask (D) is cast. It is moved to the right (forward) until it comes to a position slightly before the position just below the frame aligning device (10). In this case, the shock caused by the movement of the upper and lower flasks (D) and (C) is buffered by the buffering means of the cylinder (7). Next, the cylinder (7) is further contracted to advance the foremost lower flask (D) to a position immediately below the flask adjusting device (10), thereby positioning the lower flask (D). In this case, since the upper and lower molding flasks (C) and (D) after the preceding framing have been moved to the right by the required distance (moving forward), the lower molding flask (D) can be easily advanced to achieve high precision. Can be determined. Next, the cylinder (12) is extended again to lower the upper flask (C), and the guide rod (16).
(16) is inserted into a framing hole (not shown) of the lower flask (C), and thereby the upper and lower flasks (C) and (D) are framed. Next, the upper flask (C) by the upper flask holding mechanism (17)
Then, the lifting frame (13), the upper flask holding mechanism (17) and the like are raised by the contraction operation of the cylinder (12), and one cycle is completed.

(Effects of the Invention) As is clear from the above description, according to the present invention, upper and lower flasks in an upper / lower flask group which are grouped and conveyed intermittently by one flask. Are moved one by one to the framing point, so that the upper and lower casting frames can be easily moved and positioned with high accuracy, and the upper
Since the lower casting frame and the upper and lower casting frames can be moved on the same line, the floor area for installing the equipment is smaller than that of the conventional method. Excellent effects such as unnecessary equipment and low equipment cost can be obtained.

[Brief description of the drawings]

The drawings show an example of an apparatus for carrying out the present invention. FIG. 1 is a partially sectional front view, and FIG. 2 is a side view. (4): Casting frame positioning device, (10): Casting frame alignment device

Claims (1)

(57) [Claims] A plurality of upper and lower flasks are alternately arranged and arranged in a row, and are brought into contact with each other to simultaneously advance one flask at a time intermittently, and the upper flask is lifted at a predetermined position and immediately thereafter. The lower casting flask being advanced is aligned with the frame, and after the alignment, the aligned upper and lower flasks are intermittently advanced by one casting frame together with the upper and lower flask groups before the frame alignment. A method of aligning the upper and lower flasks as described above, wherein the upper and lower flask groups before the frame alignment and the upper and lower flask groups after the previous frame alignment are combined with each other to form the first upper flask before the frame alignment. A first step of advancing to a position slightly before the framing point, and the first upper flask before the framing and the upper and lower flasks after the preceding framing, and the upper A second step of advancing the point to a position slightly overshoot, and a second step of retreating the earliest upper flask before the framing to the framing point. And a fourth step of elevating the upper casting flask at the frame-matching point, and moving the lower / upper flask group before the frame-matching to a position where the earliest lower flask is slightly before the frame-matching point. A fifth step of moving the foremost lower flask to the framing point before the framing, and framing the raised upper flask to the lower framing point of the framing point. 7. A method for aligning upper and lower flasks, comprising: a seventh step.