JP2012161874A - Side trimmer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a side trimmer which is saved in space and energy by reducing the size and weight and which enables the user to easily monitor the cutting state and the maintenance management.SOLUTION: In this side trimmer 10, a band-shaped steel sheet W is threaded, sandwiched between a pair of upper and lower rotary blades 20a, 20b, and cut at both edges. Upper and lower chocks 21a, 21b provided with the upper and lower rotary blades 20a, 20b are provided to a single rectangular frame 17 to be raised and lowered in a cantilevered support form through linear guides 18a, 18b, 19a, 19b disposed on the two planes perpendicular to each other when viewed from above the single rectangular frame 17.

Description

  The present invention relates to a side trimmer that makes various strip steel plates run on a processing line to form a pair, and cuts both side edges by sandwiching the strip steel plates with a lower blade.

  An example of this type of side trimer is disclosed in Patent Document 1. As shown in FIGS. 7 and 8, in the side trimmer 100 that passes the strip steel plate W, forms a pair, and sandwiches the strip steel plate W by the lower rotary blades 101 and 102 and cuts both side edges thereof. In addition, linear guides 105 and 106 are provided on the lower chock 104 of the upper and lower chock 103 and 104, and the lower rotary blade 102 of the lower chock 104 is connected to the upper rotary blade 101. A linear actuator 107 is provided for moving the lower chock 104 in a direction orthogonal to the plate direction so as to be pressed. The linear actuator 107 is preliminarily set with a pressing force determined based on the contact pressure of the lower rotary blades 101 and 102, in addition to being optimal for conditions such as the thickness and material of the strip steel plate W. Yes.

  Thereby, the wear of the upper and lower rotary blades 101 and 102 can be suppressed, and the advantage that the contact pressure of the upper and lower rotary blades 101 and 102 can be easily set can be obtained. The upper chock 103 is linearly guided by the linear guide 108 and can be moved up and down by an elevating mechanism 109 so that it can cope with a change in the thickness of the strip steel plate W to be trimmed.

  By the way, in the side trimmer 100 of Patent Document 1, since the lower chock 104 is configured so that it cannot be raised and lowered, in order to keep the pass line constant when the lower rotary blade 102 is worn or chipped, As shown in FIG. 9, only the side surface (shaded portion in the figure) of the lower rotary blade 102 can be polished. Therefore, there is a problem that the lower rotary blade 102 cannot be efficiently polished.

Further, at the time of cutting, as shown in FIG. 6, the cutting force f ₁ and the side force f ₂ are generated in the upper and lower rotary blades 101, 102. Since the cutting force f ₁ and the side force f ₂ are received only by the linear guide 108 disposed on one side surface of the upper chock 103, the thin steel plate (for example, about 0.1 mm) should maintain the supporting rigidity. However, in the case of a thick steel plate (for example, about 6 mm) in which the cutting force f ₁ and the side force f ₂ are large, the support rigidity cannot be maintained with respect to the cutting force f ₁ and the side force f ₂ . There was also. That is, the side trimmer 100 of Patent Document 1 is not versatile because it is limited to cutting thin steel sheets. In addition, Wa in FIG. 6 shows trim waste.

  Conventionally, a side trimmer 200 as shown in FIGS. 10 and 11 is known. This is because the ball screw 201 with the right and left threads cut is rotated by the chock raising / lowering motor 202, and the upper and lower rotary blades 203, 204 are provided, and the lower chock 205, 206 is simultaneously raised / lowered (up, The lower rotary blades 203 and 204 can be opened and closed). The upper and lower chocks 205 and 206 are moved up and down by being linearly guided by linear guides 208 and 209 arranged on the front surface (surface parallel to the plate passing direction) of the portal housing 207.

  In the figure, 210 is a scrap chute for collecting trim waste Wa (see FIG. 6), and 211 and 212 are for rotating blade driving for rotating the upper and lower rotating blades 203 and 204 via timing belts 213 and 214, respectively. It is a motor.

  According to such a side trimmer, since the upper and lower rotary blades 203 and 204 are provided and the lower chocks 205 and 206 are both movable up and down, as shown in FIG. , 204 can be polished not only on the side surfaces but also on the outer peripheral surface (see the shaded portion in the figure). That is, even if the outer peripheral surfaces of the upper and lower rotary blades 203 and 204 are polished, the pass line can be kept constant.

Further, linear guides 208 and 209 arranged on the front surface of the portal housing 207 guide the raising and lowering of the upper and lower chocks 205 and 206, and a cutting force f ₁ and a side force f ₂ that are generated at the time of cutting (FIG. 6). The linear guides 208 and 209 need only receive a vertical force, and can withstand a relatively large cutting force f ₁ and side force f ₂ . There is an advantage. That is, not only a thin steel plate but also a thick steel plate can be cut and is versatile.

JP 11-245114 A

  However, in the side trimmer 200 as shown in FIGS. 10 and 11, since the portal housing 207 is in the way and it is difficult to approach the scrap chute 210, it is difficult to adjust the position of the chute, and the trouble that the trim debris is clogged. There was also a problem that it took time to deal with troubles including removal of scrap chute. Further, since the upper and lower chocks 205 and 206 are held by the gate-shaped housing 207, the length in the plate passing direction is long and the equipment is enlarged, so that the equipment cost is high.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a side trimmer capable of facilitating monitoring of cutting conditions and maintenance management including remote monitoring by installing a camera, and saving space and energy by reducing the size and weight.

The side trimmer according to the present invention for achieving the above object is
The upper and lower knives provided with the upper and lower blades are provided in a single rectangular frame so as to be movable up and down via linear guides arranged on two surfaces orthogonal to each other in a plan view of the frame.
Therefore, the upper and lower chock are cantilevered by a single rectangular frame as shown in FIG.

  Further, the upper and lower chock may be a single stand side trimmer provided on one side surface orthogonal to the plate passing direction of a single rectangular frame or a double stand provided alternately on both side surfaces orthogonal to the plate passing direction. It is characterized by forming a side trimmer.

Also,
The upper and lower cutters are rotary blades, and are driven as necessary by a single motor through a power transmission means.

  According to the side trimmer according to the present invention having the above-described configuration, the upper and lower chock are effectively supported on the single rectangular frame via the linear guides disposed at the front and rear portions without lowering the support rigidity. By reducing the size and weight (compact) and shortening the line length, cost reduction and energy saving can be achieved.

  In addition, the work area around the scrap chute is expanded by a single rectangular frame, and the upper and lower chocks can move up and down, so that polishing from the side and outer peripheral surfaces is possible, and the polishing range of the lower cutter is expanded. Therefore, maintenance management becomes easy.

  Furthermore, the upper and lower blades made of rotating blades can be selectively driven by pull-cut and drive-cut methods by using a clutch or the like with a single motor. Can be cut, and versatility is improved, and space and energy can be saved.

It is the principal part side view of the work side seen from the plate passing direction of the single stand side trimmer which shows Example 1 of this invention. It is the front view similarly seen from the work side. Similarly, it is a view on arrow A in FIG. It is the whole top view of the working side and drive side of a side trimmer similarly. It is the whole side view of the working side and drive side of a side trimmer. It is a principal part top view by the side of the operation | work of the double stand side trimmer which shows Example 2 of this invention. It is explanatory drawing of the force generate | occur | produced on a rotary blade at the time of the cutting | disconnection in a side trimmer. It is the principal part side view seen from the plate passing direction of the conventional side trimmer. It is the front view similarly seen from the work side. It is a figure which similarly shows the grinding | polishing surface of a rotary blade. It is a principal part side view of the work side seen from the plate | board passing direction of the conventional portal housing side trimmer. It is the front view similarly seen from the work side. It is a figure which shows the grinding | polishing surface of the rotary blade in this invention.

  Hereinafter, side trimmers according to the present invention will be described in detail with reference to the accompanying drawings.

  1 is a side view of a main part of a working side viewed from the direction of a single stand side trimmer according to a first embodiment of the present invention, FIG. 2 is a front view of the working side viewed from the working side, and FIG. 4A is an overall plan view of the working side and the driving side of the side trimmer, FIG. 4B is an overall side view of the working side and the driving side of the side trimmer, and FIG. 6 is generated on the rotary blade when cutting by the side trimmer. FIG. 12 is a diagram showing the polishing surface of the rotary blade in the present invention.

  As shown in FIG. 1 thru | or FIG. 4A and FIG. 4B, it is located in the both sides of the strip | belt-shaped steel plate W in the pass line through which the strip | belt-shaped steel plate W passes, and each edge part of the said strip | belt-shaped steel plate W is cut | disconnected respectively. (See the trim waste Wa in 4A) The two side trimmers 10 are installed symmetrically. In these side trimmers 10, a traverse base 13 is supported on a base 11 via a pair of linear guides 12 so as to traverse. In the illustrated example, a nut member 32 attached to the traversing base 13 of each side trimmer 10 is screwed into a single screw shaft 33 with left and right threads cut, and traversed by one traversing motor 34. That is, it is moved according to the plate width of the strip-shaped steel plate W (see the white arrow in FIG. 4B).

  In addition, a turning base 15 is supported on a traverse base 13 of each side trimmer 10 via a turning bearing 14 so as to be turnable by a turning motor 16 (see an arrow in FIG. 4A). A box-shaped single rectangular frame 17 is erected on the swivel base 15, and the single rectangular frame 17 is flush with the front surface (surface parallel to the plate passing direction) of the single rectangular frame 17. Upper and lower rotary blades (cutlery) 20a via linear guides 18a, 18b, 19a, and 19b arranged on two surfaces of the side surfaces (surfaces orthogonal to the plate passing direction), that is, two surfaces orthogonal to each other in plan view. , 20b, and lower chock (bearing box) 21a, 21b are supported to be movable up and down.

  In the illustrated example, the upper and lower chocks 21a, 21b, and the lower rotating blade spindles 22a, 22b are supported by bearings 23a, 23b on one side of the single rectangular frame 17 in the upper and lower stages. The stepped L-shaped extension provided on one side of the main body is connected and supported via linear guides 19a and 19b, and the upper and lower two-stage linear guides 18a and 18b are provided on the front surface of the single rectangular frame 17. It is connected and supported via. Accordingly, the upper and lower chocks 21a and 21b are cantilevered by the single rectangular frame 17 as shown in FIG.

  Further, the upper and lower chocks 21a and 21b can be moved up and down at the same time (opening and closing the upper and lower rotary blades 20a and 20b) by rotating the ball screw 24 with right and left threads cut by the choc lifting motor 25. It has become. In FIG. 2, 24a and 24b are nut members incorporated in the upper and lower chocks 21a and 21b and into which the male screws (right screw and left screw) of the ball screw 24 are screwed.

  Furthermore, a toothed pulley 26a, 26b fixed to the shaft end of the upper and lower rotary blade spindles 22a, 22b, an idle pulley 27, and an output gear 29 of the rotary blade driving motor 28 are provided with a double-toothed timing belt ( (Power transmission means) 30 is wound around, and the upper and lower rotary blades 20a and 20b are driven as required by a single rotary blade driving motor 28 via a clutch (power transmission means) (not shown). ing. In FIG. 2, reference numeral 31 denotes a scrap chute for collecting trim scraps.

  Since it is configured in this manner, the upper and lower rotary blades 20a and 20b are moved in the width direction of the strip steel plate W by the traversing table 13, and the upper and lower chock 21a and 21b are swung in the horizontal plane on the swivel base 15. By performing the control of the directions of the upper and lower rotary blades 20a and 20b according to the above, it is possible to change the width between the cutting lines without stopping the line.

  At this time, by connecting and disconnecting the clutch, the upper and lower rotary blades 20a and 20b can be rotated by the rotary blade driving motor 28 as necessary. In other words, by pulling the clutch, the upper and lower rotary blades 20a, 20b can freely rotate, and a pull cut method can be implemented in which the strip steel plate W is cut while being pulled by the tension of the line through which the strip steel plate W is passed, With this pull-cut method, for example, a strip-shaped steel plate W having a thickness of about 6 mm can be cut. On the other hand, in the pull-cut method, the strip steel plate W is formed by forcibly rotating the upper and lower rotary blades 20a, 20b by “contacting” the clutch with respect to a thin steel plate of 1 mm or less, for example, which may deteriorate the quality of the cut surface. A drive cut method can be implemented.

  In this way, the pull-cut method and the drive-cut method can be selectively performed, and cutting from a thin steel plate to a thick steel plate is possible, and versatility is enhanced. In this embodiment, the upper and lower rotary blades 20a and 20b are used. Can be rotationally driven by a single rotary blade driving motor 28 using a timing belt 30 with both teeth, so that space and energy can be saved.

  Further, in this embodiment, the upper and lower chocks 21a and 21b provided with the upper and lower rotary blades 20a and 20b are moved up and down at the same time (upper and lower rotary blades) by rotating the ball screw 24 by the chock lift motor 25. 20a and 20b can be opened and closed), so that when the upper and lower rotary blades 20a and 20b are polished, the side surface and the outer peripheral surface can be polished while keeping the pass line constant (see the shaded portion in FIG. 12). As a result, the polishing range of the upper and lower rotary blades 20a and 20b can be expanded, so that the upper and lower rotary blades 20a and 20b can be efficiently polished, and the disposal period of the upper and lower rotary blades 20a and 20b can be extended. This makes maintenance management easier.

The linear guides 18a, 18b, 19a, 19b provided on the front surface and one side surface of the single rectangular frame 17 are provided with upper and lower rotary blades 20a, 20b, and the upper and lower chocks 21a, 21b are vertically moved (lifted). 6 so that the cutting force f ₁ and the lateral force f ₂ that are generated during cutting as shown in FIG. 6 are effectively received. 21a and 21b can be cantilevered.

  This makes it easy to get close to the scrap chute 31, easily adjust the position of the scrap chute 31, easily cope with troubles such as clogging of trim waste Wa, and easily monitor the cutting situation including remote monitoring by installing a camera or the like. Thus, the occurrence of trouble can be reduced by cutting both side edges of the strip steel plate W under optimum cutting conditions, and productivity can be improved by reducing the labor of the line operator and shortening the line stop time.

  Further, since it is not a portal housing, it is possible to make the machine compact (small and light), shorten the overall length of the line, and reduce the capacity of the turning motor 16 and the traverse motor 34, and the equipment cost and energy consumption. The operation cost can be reduced by reducing the cost.

  FIG. 5 is a plan view of the main part of the working side of the double stand side trimmer showing Embodiment 2 of the present invention.

  This is an example in which the so-called double stand side trimmer 10 is formed by alternately providing the upper and lower chock 21a, 21b in the first embodiment on both surfaces of the single rectangular frame 17 perpendicular to the plate passing direction. Since the other configuration is the same as that of the first embodiment, the same members as those in FIGS.

  Also in this embodiment, since the upper and lower rotary blades 20a and 20b are provided and the support rigidity of the lower chocks 21a and 21b is maintained in the same manner as in the first embodiment, the same operations and effects as in the first embodiment are obtained. It is done.

  The present invention is not limited to the above-described embodiments, and the number of linear guides, the presence / absence of driving means for the upper and lower rotary blades, driving means (including power transmission means), and the like without departing from the scope of the present invention It goes without saying that various changes such as changing the lifting mechanism of the upper and lower chock are possible.

  The side trimmer according to the present invention can be applied to trimming of a strip steel plate.

DESCRIPTION OF SYMBOLS 10 Side trimmer 11 Base 12 Linear guide 13 Traverse base 14 Rotating bearing 15 Rotating base 16 Rotating motor 17 Single rectangular frame 18a, 18b Linear guide 19a, 19b Linear guide 20a, 20b Upper, lower rotary blade 21a, 21b Upper, Lower chock 22a, 22b Upper, lower rotary blade spindle 23a, 23b Bearing 24 Ball screw 24a, 24b Nut member 25 Chock elevating motor 26a, 26b Toothed pulley 27 Idle pulley 28 Rotary blade drive motor 29 Output gear 30 Both teeth With timing belt 31 Scrap chute 32 Nut member 33 Screw shaft 34 Traverse motor W Strip steel plate Wa Trim waste

Claims (2)

In the side trimmer that passes the strip steel plate and cuts the edge of both ends with the upper and lower blades sandwiching the strip steel plate,
The upper and lower chocks provided with the upper and lower cutters are provided in a single rectangular frame so as to be movable up and down via linear guides arranged on two surfaces orthogonal to each other in a plan view of the frame. Side trimmer.   2. The side trimmer according to claim 1, wherein the upper and lower chocks are alternately provided on both side surfaces orthogonal to a plate line of a single rectangular frame to form a double stand side trimmer.

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