JPH0761586B2 - Sheet metal processing machine - Google Patents
Sheet metal processing machineInfo
- Publication number
- JPH0761586B2 JPH0761586B2 JP4676893A JP4676893A JPH0761586B2 JP H0761586 B2 JPH0761586 B2 JP H0761586B2 JP 4676893 A JP4676893 A JP 4676893A JP 4676893 A JP4676893 A JP 4676893A JP H0761586 B2 JPH0761586 B2 JP H0761586B2
- Authority
- JP
- Japan
- Prior art keywords
- sheet metal
- holding
- members
- clamping
- blade
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Shearing Machines (AREA)
- Bending Of Plates, Rods, And Pipes (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、板金を折曲したり切断
したりするための板金加工機に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sheet metal working machine for bending and cutting sheet metal.
【0002】[0002]
【従来の技術】板金を折曲するための板金加工機(板金
折曲機)として、従来から図8及び図9(特公平2ー4
9803号公報)に示すようなものが知られている。こ
の公知の板金加工機は、上下一対の挟持ロール111,
112を有する可動ユニット102と、両挟持ロール1
11,112を相互に逆方向に回転せしめる回転駆動装
置104と、可動ユニット102を上下に弧回動せしめ
る弧回動操作機構105とを備えている。回転駆動装置
104は、ハンドル141を操作することにより、両挟
持ロール111,112を相互に逆方向に回転せしめ、
該両挟持ロール間に挟持している被加工板金Zを長さ方
向(図8において左右方向とは水平直交方向)に移動せ
しめ得るようになっている。弧回動操作機構105は、
ハンドル151を操作することにより、上挟持ロール1
11における板金挟持部の先端部を中心Pとして、可動
ユニット102全体を上下に弧回動せしめ得るようにな
っている。2. Description of the Related Art As a sheet metal processing machine (sheet metal bending machine) for bending a sheet metal, there have been conventionally used FIGS. 8 and 9 (Japanese Patent Publication No. 2-4).
(Japanese Patent No. 9803) is known. This known sheet metal working machine has a pair of upper and lower clamping rolls 111,
Movable unit 102 having 112 and both nipping rolls 1
A rotary drive device 104 for rotating the motors 11 and 112 in opposite directions and an arc rotation operation mechanism 105 for vertically rotating the movable unit 102 are provided. The rotation driving device 104 operates the handle 141 to rotate both the nipping rolls 111 and 112 in mutually opposite directions,
The sheet metal Z to be clamped between the two clamping rolls can be moved in the lengthwise direction (horizontal direction orthogonal to the left-right direction in FIG. 8). The arc rotation operation mechanism 105
By operating the handle 151, the upper holding roll 1
The movable unit 102 as a whole can be vertically pivoted about the tip portion of the sheet metal holding portion 11 as a center P.
【0003】そして、この公知の板金加工機(板金折曲
機)では、両挟持ロール111,112間に平板状の被
加工板金Zの幅方向(左右方向)中間部を挟持した状態
で(被加工板金Zの反挟持側Zbは支持台106上に支
持されている)、弧回動操作機構105のハンドル15
1を操作して可動ユニット102を所定角度(例えば図
9に示す如く角度約20°)だけ傾斜させて被加工板金
における両挟持ロール111,112による挟持部Zc
の長さ方向一端側Zaを所定の角度範囲だけ折曲させ、
続いて回転駆動装置104のハンドル141を操作して
両挟持ロール111,112を傾斜させたままで相互に
逆方向に回転させることにより、該両挟持ロール間に挟
持されている被加工板金Zを順次所定の角度範囲だけ折
曲させながら前後方向に移動させ、それによって被加工
板金Zを全長に亘って所定角度(例えば20°)だけ折
曲し得るようになっている。尚、上記のような折曲操作
を数回繰り返すことによって、被加工板金Zを例えば図
9において鎖線図示するように角度90°まで折曲させ
ることができるようになっている。In this known sheet metal working machine (sheet metal bending machine), the intermediate portion in the width direction (horizontal direction) of the flat sheet metal sheet Z to be processed is sandwiched between the sandwiching rolls 111 and 112 (to be processed). The non-clamping side Zb of the processed sheet metal Z is supported on the support base 106), and the handle 15 of the arc rotation operation mechanism 105.
1 is operated to incline the movable unit 102 by a predetermined angle (for example, an angle of about 20 ° as shown in FIG. 9), and the sandwiching portion Zc between the sandwiching rolls 111 and 112 in the sheet metal to be processed.
Bend one side Za of the length direction within a predetermined angle range,
Subsequently, the handle 141 of the rotation driving device 104 is operated to rotate the both sandwiching rolls 111 and 112 in opposite directions while inclining the sandwiching rolls 111 and 112, thereby sequentially processing the sheet metal Z sandwiched between the sandwiching rolls. The work sheet metal Z is bent in a predetermined angle range and moved in the front-rear direction, whereby the work sheet metal Z can be bent at a predetermined angle (for example, 20 °) over the entire length. By repeating the bending operation as described above several times, the sheet metal Z to be processed can be bent up to an angle of 90 ° as shown by a chain line in FIG. 9, for example.
【0004】ところで、板金加工作業としては、上記の
ような板金折曲作業とともに板金を所定形状に切断する
切断作業も頻繁に行われる。Incidentally, as the sheet metal working operation, a cutting operation for cutting the sheet metal into a predetermined shape is frequently performed in addition to the sheet metal bending operation as described above.
【0005】[0005]
【発明が解決しようとする課題】ところが、上記図8及
び図9に示す公知の板金加工機では、板金を折曲させる
ための折曲専用機であるため、板金の切断作業を行うに
は切断専用の機械が別途必要となって、設備コストが高
くつくとともに広い設置スペースが必要(切断機と折曲
機の2台分必要)となるという問題があるほか、板金の
切断加工と折曲加工を行う必要がある場合には、被加工
板金を切断機と折曲機との間で持ち運びしなければなら
ず、その持ち運び作業が面倒となっていた。However, the known sheet metal working machine shown in FIGS. 8 and 9 is a bending machine for bending the sheet metal, and therefore, the cutting operation is required for cutting the sheet metal. In addition to the problem that a dedicated machine is required separately, the equipment cost is high and a large installation space is required (two cutting machines and a folding machine are required), and also sheet metal cutting and bending. When it is necessary to carry out the above, it is necessary to carry the sheet metal to be processed between the cutting machine and the folding machine, and the carrying work is troublesome.
【0006】本発明は、上記したような従来の板金加工
機の問題点に鑑み、1台で板金の折曲作業と切断作業と
を行え、且つ板金折曲機能をもつ部材の一部を板金切断
部材として有効利用し得るようにした板金加工機を提供
することに目的とするものである。In view of the problems of the conventional sheet metal working machine as described above, the present invention is capable of performing bending work and cutting work of a sheet metal by one unit, and partially forming a member having a sheet metal bending function. It is an object of the present invention to provide a sheet metal working machine that can be effectively used as a cutting member.
【0007】[0007]
【課題を解決するための手段】本発明は、折曲加工又は
切断加工されるべき被加工板金をその表裏両側から挟持
でき且つ外周面をそれぞれ円形とした一対の挟持部材を
有する挟持ユニットと、前記一対の挟持部材を相互に逆
方向に回転せしめる回転駆動装置を備え且つ該回転駆動
装置によって両挟持部材を相互に逆方向に回転せしめる
ことによって該両挟持部材間に挟圧保持されている被加
工板金を順次横方向に移動せしめる如く構成されている
板金送り機構と、前記一対の挟持部材による板金挟持部
を中心として挟持ユニットを板金送り方向に対してその
周方向に弧回動せしめる弧回動操作機構と、被加工板金
の折曲操作時に該被加工板金における挟持ユニットによ
る挟持部の幅方向外側部分を支持する支持台とを備えた
板金加工機において、両挟持部材のうちの少なくとも一
方の挟持部材におけるエッジ部に環状の刃先を形成する
一方、該刃先を形成した挟持部材の近接位置に、該刃先
を形成した挟持部材と協同して被加工板金を剪断せしめ
得る円盤刃物を設けるとともに、該円盤刃物を、刃先形
成挟持部材と協同して挟持ユニットで挟持している被加
工板金を剪断し得る剪断位置と該挟持ユニットで挟持し
ている被加工板金を切断しない退避位置との間で進退せ
しめる刃物進退操作機構を備えたことを特徴としてい
る。DISCLOSURE OF THE INVENTION The present invention provides a sandwiching unit having a pair of sandwiching members which can sandwich a sheet metal to be bent or cut from both front and back sides thereof and which have circular outer peripheral surfaces. A rotary drive device for rotating the pair of sandwiching members in opposite directions is provided, and the sandwiching member is sandwiched and held between the sandwiching members by rotating the sandwiching members in opposite directions by the rotary drive device. A sheet metal feed mechanism configured to sequentially move the machined sheet metal in the lateral direction, and an arc turn for arc-rotating the holding unit around the sheet metal holding portion by the pair of holding members in the circumferential direction with respect to the sheet metal feeding direction. A sheet metal working machine provided with a dynamic operation mechanism and a support base that supports a widthwise outer side portion of a sandwiching portion of a sheet metal to be processed by a sandwiching unit when bending the sheet metal to be processed. , An annular blade edge is formed on an edge portion of at least one of the sandwiching members, and the sheet metal to be processed is provided at a position close to the sandwiching member having the blade edge in cooperation with the sandwiching member having the blade edge. A disk blade capable of shearing is provided, and a shearing position capable of shearing the sheet metal that is sandwiched by the sandwiching unit in cooperation with the blade edge forming sandwiching member and the workpiece that is sandwiched by the sandwiching unit. It is characterized by being provided with a blade advance / retreat operation mechanism for advancing / retreating between a retracted position where the sheet metal is not cut.
【0008】[0008]
【作用】本発明の板金加工機によれば、刃物進退操作機
構によって、円盤刃物を挟持ユニットで挟持している被
加工板金を切断しない退避位置と該被加工板金を剪断し
得る剪断位置との間で進退操作せしめ得るようになって
いる。そして、円盤刃物を上記退避位置に位置せしめた
状態では、両挟持部材間に被加工板金を挟持させた状態
で弧回動操作機構により挟持ユニットを傾動させるとと
もに板金送り機構で被加工板金を横移動させ、それによ
って通常の板金折曲作業が行えるようになっている。
又、円盤刃物を上記剪断位置に位置せしめた状態で、両
挟持部材間に被加工板金を挟持させ且つ板金送り機構に
より被加工板金を横移動させれば、該円盤刃物と挟持ユ
ニットの刃先形成挟持部材との間で剪断作用が行われ、
該被加工板金を直線状に切断することができる。According to the sheet metal working machine of the present invention, the blade advancing / retreating mechanism is used to set the retracted position at which the work sheet metal holding the disc blade by the holding unit is not cut and the shear position at which the work sheet metal can be sheared. It is designed so that it can be moved forward and backward. When the disc blade is in the retracted position, the arc-rotating operation mechanism tilts the clamping unit while the clamping plate is clamped between the clamping members, and the clamping plate feed mechanism moves the clamping plate laterally. It is moved so that the normal sheet metal bending work can be performed.
Further, with the disc blade positioned at the shearing position, the sheet metal to be processed is clamped between both clamping members, and the sheet metal is moved laterally by the sheet metal feeding mechanism to form the blade edge of the disc cutter and the clamping unit. Shearing is performed between the clamping member,
The sheet metal to be processed can be cut linearly.
【0009】[0009]
【発明の効果】本発明の板金加工機は、刃物進退操作機
構によって円盤刃物を剪断位置と退避位置との間で進退
させることができるようにしているので、1台の板金加
工機で板金の折曲加工と切断加工とを選択して行うこと
ができ、従来、板金加工に際して折曲機と切断機の2台
で行って作業を1台で行うことができる。又、板金折曲
加工用として使用される挟持ユニットの一方の挟持部材
の剪断用の刃先を形成して、該刃先形成挟持部材を板金
切断用の切断刃物として利用しているので、該挟持部材
を折曲用と切断用とに有効利用(兼用)することができ
るという効果がある。In the sheet metal working machine of the present invention, since the disc blade can be moved back and forth between the shearing position and the retreat position by means of the blade forward / backward moving mechanism, the sheet metal working machine can move the sheet metal by one sheet metal working machine. Bending processing and cutting processing can be selectively performed, and conventionally, in sheet metal processing, two machines, a folding machine and a cutting machine, can perform the work with one machine. Further, since the blade edge for shearing one of the sandwiching members of the sandwiching unit used for bending the sheet metal is formed and the sandwiching member for forming the blade edge is used as a cutting blade for sheet metal cutting, the sandwiching member is used. There is an effect that can be effectively used (combined) for bending and cutting.
【0010】[0010]
【実施例】図1〜図7を参照して本発明の実施例を説明
すると、この実施例の板金加工機は、基台1上に、折曲
加工又は切断加工されるべき被加工板金Zをその表裏両
側から挟持する上下一対の挟持部材11,12を有する
挟持ユニット10と、上下一対の挟持部材11,12を
相互に逆方向に回転せしめる回転駆動装置4を備え且つ
該回転駆動装置4によって両挟持部材11,12を相互
に逆方向に回転せしめることによって該両挟持部材1
1,12間に挟圧保持されている被加工板金Zを順次横
方向に移動せしめる如く構成されている板金送り機構3
と、上下一対の挟持部材11,12による板金挟持部Z
cを中心Pとして挟持ユニット10を板金送り方向(図
2における矢印C−D方向)に対してその周方向(上下
方向)に弧回動せしめる弧回動操作機構5と、被加工板
金Zの折曲操作時に該被加工板金Zにおける挟持ユニッ
ト10による挟持部Zcとは幅方向外側部分Zbを支持
する支持台6と、被加工板金Zを切断加工するための切
断装置8とを備えて構成されている。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIGS. 1 to 7. A sheet metal working machine of this embodiment is such that a work sheet metal Z to be bent or cut on a base 1. The rotary drive device 4 includes a sandwiching unit 10 having a pair of upper and lower sandwiching members 11 and 12 for sandwiching the front and back sides thereof, and a rotation drive device 4 for rotating the pair of upper and lower sandwiching members 11 and 12 in opposite directions. By rotating both clamping members 11 and 12 in opposite directions,
A sheet metal feed mechanism 3 configured to sequentially move the sheet metal Z, which is held between 1 and 12 with a clamping force, in the lateral direction.
And a pair of upper and lower holding members 11 and 12 for holding a sheet metal holding portion Z.
An arc rotation operation mechanism 5 for rotating the clamping unit 10 in an arc direction in the circumferential direction (vertical direction) with respect to the sheet metal feed direction (arrow C-D direction in FIG. 2) about c as a center P, and the sheet metal Z to be processed. The holding unit Zc of the work sheet metal Z by the holding unit 10 during the bending operation includes a support base 6 that supports the width direction outer side portion Zb, and a cutting device 8 for cutting the work sheet metal Z. Has been done.
【0011】この板金加工機は、横幅方向(矢印C−D
方向)の全長が400〜500mm、前後方向(矢印A−
B方向)の全長が800〜1000mm、高さが700〜
900mm程度の比較的小型に構成されていてトラックな
どに積んで工事現場などに持ち込み可能となっている。This sheet metal working machine has a lateral width direction (arrow C-D).
Direction) total length 400-500mm, front-back direction (arrow A-
B-direction) total length is 800-1000mm, height is 700-
It has a relatively small size of about 900 mm and can be loaded on a truck or the like and brought to a construction site.
【0012】基台1は、平板又はフレーム材等で四角形
の箱形に組付けて構成している。尚、基台1の下面4隅
にキャスターを取付けると、この板金加工機を手押し移
動させることができる。The base 1 is constructed by assembling in a rectangular box shape with a flat plate or a frame material. By attaching casters to the four corners of the lower surface of the base 1, the sheet metal working machine can be manually pushed and moved.
【0013】挟持ユニット10及び板金送り機構3はそ
れぞれ取付台21に取付けられ、さらに該取付台21は
弧回動操作機構5を介して基台1の上方で弧回動可能に
支持されている。尚、挟持ユニット10、板金送り機構
3及び取付台21は、基台1に対して弧回動可能なる可
動ユニット2を構成する。The holding unit 10 and the sheet metal feed mechanism 3 are mounted on a mounting base 21, and the mounting base 21 is supported above the base 1 via an arc rotation operation mechanism 5 so as to be capable of arc rotation. . The sandwiching unit 10, the sheet metal feed mechanism 3 and the mounting base 21 constitute a movable unit 2 which is rotatable in an arc with respect to the base 1.
【0014】取付台21は、それぞれ中空の上部横枠2
2と下部横枠23と縦枠24とで側面視コ形に形成され
ている。又、該上部横枠22と下部横枠23と縦枠24
とで囲われた内部に比較的大容積の空間部25が形成さ
れている。The mounting bases 21 are hollow upper horizontal frames 2 respectively.
2, the lower horizontal frame 23, and the vertical frame 24 are formed in a U shape in a side view. Also, the upper horizontal frame 22, the lower horizontal frame 23, and the vertical frame 24
A space 25 having a relatively large volume is formed in the interior surrounded by and.
【0015】取付台21における上部横枠22の先端部
には、上挟持部材11,11を取付けるための上部台板
31が設けられている。他方、取付台21における下部
横枠23の先端部には、下挟持部材12,12を取付け
るための下部台板32が設けられている。上部台板31
と下部台板32とは、図4に示すように略長方形状で相
互に上下対称に設置されている。又、上部台板31の下
面と下部台板32の上面はそれぞれ直線状となってお
り、且つ該上部台板31の下面と下部台板32の上面と
は加工すべき板金Zの厚さよりわずかに大きい程度の小
間隔をもたせている。尚、この実施例で使用されている
上下各台板31,32は、高さが210mm、横幅が37
0mm、厚さが40mm程度となっている。An upper base plate 31 for mounting the upper holding members 11, 11 is provided at the tip of the upper horizontal frame 22 of the mounting base 21. On the other hand, a lower base plate 32 for mounting the lower holding members 12, 12 is provided at the tip of the lower horizontal frame 23 of the mounting base 21. Upper base plate 31
As shown in FIG. 4, the lower base plate 32 and the lower base plate 32 have a substantially rectangular shape and are vertically symmetrical to each other. Further, the lower surface of the upper base plate 31 and the upper surface of the lower base plate 32 are linear, and the lower surface of the upper base plate 31 and the upper surface of the lower base plate 32 are slightly smaller than the thickness of the sheet metal Z to be processed. It has a large small interval. The upper and lower base plates 31 and 32 used in this embodiment have a height of 210 mm and a lateral width of 37 mm.
The thickness is 0 mm and the thickness is about 40 mm.
【0016】又、上部台板31は、上部横枠22に対し
て上下スライド可能に取付けられており、しかも該上部
台板31は上下動調整装置7によって適宜高さ位置(即
ち上部台板下面と下部台板上面との間に加工される板金
を挿通させ得る間隔を設けた位置)で固定し得るように
なっている。尚、この上下動調整装置7は、図3及び図
4に示すように調整ネジ71を有しており、該調整ネジ
71によって上部台板31の高さを調整し得るととも
に、該上部台板31に対して所定高さで固定し得るよう
になっている。The upper base plate 31 is attached to the upper horizontal frame 22 so as to be slidable up and down, and the upper base plate 31 is adjusted to an appropriate height position by the vertical movement adjusting device 7 (that is, the lower surface of the upper base plate 31). And a lower base plate upper surface, a sheet metal to be processed can be fixed at a position where a space can be inserted. The vertical movement adjusting device 7 has an adjusting screw 71 as shown in FIGS. 3 and 4, and the adjusting screw 71 can adjust the height of the upper base plate 31. It can be fixed at a predetermined height with respect to 31.
【0017】挟持ユニット10は、図4に示すように左
右(矢印C−D方向)2枚の上挟持部材11,11と同
じく左右2枚の下挟持部材12,12を有している。こ
の上下各挟持部材11,12は、この実施例では相互に
同形で、直径が125mm、厚さが9mm程度の真円状の円
盤が使用されている。又、上挟持部材11,11の前面
側(矢印A側)のエッジ部は、鋭利に角出しして剪断用
の刃先11aとしている。尚、この刃先11aは、後述
するように切断装置8の一部を構成するものである。As shown in FIG. 4, the holding unit 10 has two left and right (arrow C-D direction) upper holding members 11, 11 and two left and right lower holding members 12, 12. In this embodiment, the upper and lower sandwiching members 11 and 12 have the same shape, and are circular disks each having a diameter of 125 mm and a thickness of about 9 mm. Further, the edge portion on the front surface side (arrow A side) of the upper holding members 11, 11 is sharply angled to form a cutting edge 11a for shearing. The cutting edge 11a constitutes a part of the cutting device 8 as described later.
【0018】そして、該各上挟持部材11,11と各下
挟持部材12,12をそれぞれ上下に対応させた状態で
それぞれ前記上部台板31と下部台板32に軸着してい
る。各上挟持部材11,11は、その下面が上部台板3
1の下面からわずかに(1mm程度)突出した状態で取付
けられている。又、各下挟持部材12,12も、その上
面が下部台板32の上面からわずかに(1mm程度)突出
した状態で取付けられている。尚、被加工板金Zは上挟
持部材11,11の下面と下挟持部材12,12の上面
とで挟持されるが、該上挟持部材11,11の下面と下
挟持部材12,12の上面との間隔は、被加工板金Zの
厚さに応じて上記上下動調整装置7で調整される。Then, the upper holding members 11 and 11 and the lower holding members 12 and 12 are axially attached to the upper base plate 31 and the lower base plate 32, respectively, in a state in which they are vertically aligned. The lower surface of each upper holding member 11, 11 is the upper base plate 3
It is attached so that it slightly protrudes from the lower surface of 1 (about 1 mm). Further, each of the lower holding members 12 and 12 is also attached with its upper surface slightly protruding (about 1 mm) from the upper surface of the lower base plate 32. The sheet metal Z to be processed is sandwiched between the lower surfaces of the upper sandwiching members 11 and 11 and the upper surfaces of the lower sandwiching members 12 and 12, and the lower surface of the upper sandwiching members 11 and 11 and the upper surfaces of the lower sandwiching members 12 and 12, respectively. The interval of is adjusted by the vertical movement adjusting device 7 according to the thickness of the sheet metal Z to be processed.
【0019】板金送り機構3を構成する回転駆動装置4
は、この実施例では電動式のものが採用されていて、正
逆回転可能なモータ41を正又は逆回転方向に作動させ
ることによって上挟持部材11,11と下挟持部材1
2,12とを相互に逆方向に回転せしめ得るようになっ
ている。即ち、単一のモータ41からの動力で、ギヤ4
2,43を介して下部横枠23内に横向き設置された下
部軸45Aと、チエン44を介して上部横枠22内に横
向き設置された上部軸45Bとを同時に且つ相互逆回転
するように駆動し、さらに下部軸45A及び上部軸45
Bの各挟持部材設置側端部にそれぞれギヤ46A(46
B)を取付けており、該各ギヤ46A(46B)からそ
れぞれ別のギヤ47A,47A(47B,47B)及び
ギヤ48A,48A(48B,48B)を介して各上挟
持部材11,11と各下挟持部材12,12とを等速度
で相互に逆回転するように駆動するようになっている。Rotational drive unit 4 which constitutes the sheet metal feed mechanism 3.
In this embodiment, an electric type is adopted, and the upper and lower holding members 11, 11 and the lower holding member 1 are operated by operating the motor 41 capable of rotating in the forward and reverse directions in the forward and reverse rotation directions.
2, 2 and 12 can be rotated in mutually opposite directions. That is, the power from the single motor 41 causes the gear 4
Driving a lower shaft 45A horizontally installed in the lower horizontal frame 23 via 2, 43 and an upper shaft 45B horizontally installed in the upper horizontal frame 22 via the chain 44 so as to simultaneously and mutually reversely rotate. In addition, the lower shaft 45A and the upper shaft 45
The gear 46A (46
B) is attached, and from the respective gears 46A (46B) through the different gears 47A, 47A (47B, 47B) and gears 48A, 48A (48B, 48B), the upper clamping members 11, 11 and the lower clamping members. The holding members 12 and 12 are driven so as to rotate in opposite directions at a constant speed.
【0020】従って、板金送り機構3は、上下両挟持部
材11,11,12,12間で被加工板金Zを挟圧した
状態で上記回転駆動装置4を作動させることにより、該
被加工板金Zを矢印C方向又は矢印D方向に移動せしめ
得るようになっている。Therefore, the sheet metal feeding mechanism 3 operates the rotary drive device 4 while the sheet metal Z to be processed is clamped between the upper and lower clamping members 11, 11, 12 and 12, thereby operating the sheet metal Z to be processed. Can be moved in the arrow C direction or the arrow D direction.
【0021】弧回動操作機構5は、伸縮シリンダ(エア
シリンダ)51と、該伸縮シリンダ51からの動力を可
動ユニット2に伝達するリンク装置52とを有してい
る。リンク装置52は、第1〜第4の各リンク片53,
54,55,56(それぞれ左右一対ある)を有してお
り、該各リンク片53〜56を図1、図3、図4、及び
図6に示すように組付けて構成している。そして、この
弧回動操作機構5は、伸縮シリンダ51が最大伸長状態
では、図1に示すように上下両挟持部材11,12間に
挟持される被加工板金Zが水平姿勢を維持するようにな
り、又伸縮シリンダ51が縮小するにつれて、上挟持部
材11における下面前縁部を中心Pとして可動ユニット
2全体を板金送り方向に対してその周方向上側に弧回動
せしめるようになっている。The arc rotation operation mechanism 5 has a telescopic cylinder (air cylinder) 51 and a link device 52 for transmitting power from the telescopic cylinder 51 to the movable unit 2. The link device 52 includes the first to fourth link pieces 53,
54, 55, 56 (there are a pair on the left and right respectively), and each of the link pieces 53 to 56 is assembled as shown in FIGS. 1, 3, 4, and 6. The arc rotation operation mechanism 5 is configured so that the work sheet metal Z clamped between the upper and lower clamping members 11 and 12 maintains a horizontal posture when the telescopic cylinder 51 is in the maximum extension state, as shown in FIG. Further, as the telescopic cylinder 51 shrinks, the movable unit 2 as a whole is arc-rotated upward in the circumferential direction with respect to the sheet metal feeding direction about the lower surface front edge of the upper holding member 11 as the center P.
【0022】支持台6は、図3に示すように下部台板3
2とほぼ同形・同大きさを有し、且つその上面に図2に
示すように小幅T(T=30〜40mm)の平面部が形成
されている。この支持台6の上面は、板金折曲作業時に
は図5に示すように下部台板32の上面とほぼ同高さに
位置決めして使用される。尚、この支持台6は、後述す
るように切断装置8の円盤刃物81を微小高さだけ上下
動せしめるための刃物進退操作機構9により上下微調整
させることができるようになっている。As shown in FIG. 3, the support base 6 includes a lower base plate 3
2 has a substantially same shape and size, and a flat portion having a small width T (T = 30 to 40 mm) is formed on the upper surface thereof as shown in FIG. The upper surface of the support base 6 is positioned and used at substantially the same height as the upper surface of the lower base plate 32 during the sheet metal bending work as shown in FIG. The support base 6 can be finely adjusted in the vertical direction by a blade advancing / retreating operation mechanism 9 for moving the disc blade 81 of the cutting device 8 up and down by a small height, as will be described later.
【0023】切断装置8は、上記各上挟持部材11,1
1と、該各上挟持部材11,11と同径の円盤刃物8
1,81(左右2枚ある)と、該各円盤刃物81,81
を回転させる回転駆動装置82とを有している。各円盤
刃物81,81は、各上挟持部材11,11間の左右方
向(矢印C−D方向)の間隔と等間隔をもってそれぞれ
支持台6の側面に軸支されている。又、回転駆動装置8
2は、支持台6の側面に取付けたモータ83からの動力
で、順次第1ギヤ84、第2ギヤ85,85(左右一対
ある)、第3ギヤ86,86(左右一対ある)を介して
それぞれ円盤刃物81,81を相互に同方向に回転せし
めるようになっている。第3ギヤ86,86は、円盤刃
物81と同径かそれよりごくわずかに(例えば0.5〜1m
m程度)大径に形成されており、且つ該各円盤刃物8
1,81の矢印A側に接合させた状態でしかも円盤刃物
81と同軸上に取付けられている。又、第3ギヤ86,
86と円盤刃物81,81は、それらの上面が、支持台
6の上面とほぼ同高さかあるいはそれよりごくわずかに
(例えば0.5mm程度)上方に突出するようにして取付け
られている。The cutting device 8 includes the above-mentioned upper holding members 11, 1
1 and a disc blade 8 having the same diameter as the upper clamping members 11, 11.
1, 81 (there are two left and right) and the respective disc blades 81, 81
And a rotation drive device 82 for rotating. The disc blades 81, 81 are axially supported on the side surfaces of the support base 6 at equal intervals to the left-right direction (arrow C-D direction) between the upper holding members 11, 11. Also, the rotary drive device 8
2 is power from a motor 83 mounted on the side surface of the support base 6, and is sequentially passed through a first gear 84, second gears 85 and 85 (left and right pair), and third gears 86 and 86 (right and left pair). The disc blades 81 and 81 can be rotated in the same direction. The third gears 86, 86 have the same diameter as the disc blade 81 or slightly smaller than that (for example, 0.5 to 1 m).
(about m) formed with a large diameter, and each of the disc blades 8
It is attached in the state of being joined to the arrow A side of 1, 81 and coaxially with the disc blade 81. Also, the third gear 86,
86 and the disc blades 81, 81 are mounted so that their upper surfaces are substantially flush with the upper surface of the support base 6 or slightly above (eg, about 0.5 mm) above.
【0024】そして、この円盤刃物81つきの支持台6
は、該各円盤刃物81,81が前記下挟持部材12,1
2に近接・対向する状態で、次に説明する刃物進退操作
機構9の縦ガイド94,94に上下スライド自在に装着
されている。尚、各円盤刃物81,81は、回転駆動装
置82により前記各上挟持部材11,11とは等速度で
且つ逆方向に回転せしめられる。Then, the supporting table 6 with the disc blade 81
Means that each of the disc blades 81, 81 has the lower holding member 12, 1.
The vertical guides 94, 94 of the blade advancing / retreating operation mechanism 9, which will be described next, are mounted so as to be vertically slidable in a state of being close to and facing the position 2. The disc blades 81, 81 are rotated at the same speed and in the opposite direction to the upper clamping members 11, 11 by the rotation drive device 82.
【0025】刃物進退操作機構9は、ハンドル91を回
動させることにより、円盤刃物つきの支持台6全体を左
右一対の縦ガイド94,94に沿って微小高さだけ上下
動せしめ得るようになっている。各縦ガイド94,94
は、図2及び図3に示すように、基台1の左右(矢印C
−D方向)各側板16,16に固定されている。支持台
6には、左右一対のスクリューボルト93,93が螺合
されている。この各スクリューボルト93,93は、ハ
ンドル91によって駆動される各ギヤ装置92,92を
介して回転せしめられる。そして、この刃物進退操作機
構9は、ハンドル91を右又は左回転させることによ
り、各ギヤ装置92,92を介して各スクリューボルト
93,93を回転させ、それによって支持台6を各縦ガ
イド94,94に沿って上動あるいは下動せしめ得るよ
うになっている。尚、この刃物進退操作機構9には、ハ
ンドル91の回転を禁止するロック機構を設けるとよ
い。By rotating the handle 91, the blade advancing / retreating mechanism 9 can move the entire support base 6 with the disc blade up and down by a small height along the pair of left and right vertical guides 94, 94. There is. Vertical guides 94, 94
2 and 3, as shown in FIG. 2 and FIG.
It is fixed to each side plate 16, 16. A pair of left and right screw bolts 93, 93 are screwed onto the support base 6. The screw bolts 93, 93 are rotated via the gear devices 92, 92 driven by the handle 91. The blade advancing / retreating operation mechanism 9 rotates the handle 91 clockwise or counterclockwise to rotate the screw bolts 93, 93 via the gear devices 92, 92, thereby causing the support base 6 to move the vertical guides 94. , 94, and can be moved up or down. It should be noted that the blade advancing / retreating operation mechanism 9 may be provided with a lock mechanism that prohibits rotation of the handle 91.
【0026】図示実施例の板金加工機は次のようにして
使用される。まず、被加工板金Zを折曲加工する際に
は、その加工すべき板金Zの板厚さに応じて、上下動調
整装置7により上部台板31の高さを調整して、上挟持
部材11,11の下面と下挟持部材12,12の上面と
の間隔を調整する。又、刃物進退操作機構9により支持
台6の上面高さを、図5に示すように下部台板32の上
面高さとほぼ同高さに位置決めする。The sheet metal working machine of the illustrated embodiment is used as follows. First, when bending the sheet metal Z to be processed, the height of the upper base plate 31 is adjusted by the vertical movement adjusting device 7 according to the plate thickness of the sheet metal Z to be processed, and the upper holding member is held. The distance between the lower surface of 11, 11 and the upper surface of the lower holding members 12, 12 is adjusted. Further, the upper and lower surfaces of the support base 6 are positioned at substantially the same height as the upper surface of the lower base plate 32 as shown in FIG.
【0027】そして、この状態で被加工板金Zの先端側
を、その折曲線を形成すべき長さ方向を矢印C−D方向
に向けた状態でしかも折曲すべき位置を上挟持部材11
の板金挟持面の先端部(刃先形成部分)11aに合致さ
せた状態で手前側の上下両挟持部材11,12間に押し
込んで挟持させる(被加工板金における反挟持側部分は
支持台6上に載せられている)。このとき、折曲加工す
べき最終形状として例えば断面コ形の樋状に形成する場
合のように、折曲加工される被加工板金Zとして、予め
一端側を符号Zd(図1及び図6)で示すように上方
(又は下方)に折曲させたものを使用した場合であって
も、該折曲部Zdが取付台21の上部横枠22と下部横
枠23と縦枠24との間に形成されている空間部25内
に収容されるため、該折曲部Zdが板金加工機の構成部
材に衝突することがない。Then, in this state, the tip end side of the sheet metal Z to be processed is held in a state in which the length direction for forming the folding curve is directed in the direction of the arrow CD and the position where the bending should be performed is the upper holding member 11.
The sheet metal holding surface is pressed and clamped between the upper and lower holding members 11 and 12 on the front side in a state of being matched with the front end portion (blade edge forming portion) 11a (the non-holding side portion of the work sheet metal is placed on the support base 6). It is posted). At this time, as the final shape to be bent, for example, in the case of forming a trough shape having a U-shaped cross section, the one end side is previously designated as Zd (FIGS. 1 and 6) as the work sheet metal Z to be bent. Even when using the one bent upward (or downward) as shown by, the bent portion Zd is located between the upper horizontal frame 22, the lower horizontal frame 23, and the vertical frame 24 of the mounting base 21. The bent portion Zd does not collide with the constituent members of the sheet metal working machine because it is accommodated in the space portion 25 formed in the.
【0028】続いて、その挟持されている被加工板金Z
の板厚さに応じて弧回動操作機構5の伸縮シリンダ51
を適宜長さだけ縮小せしめて、可動ユニット2全体を適
宜の角度範囲(例えば図5において符号2′で示す鎖線
図示あるいは図6において符号2で示す実線図示のよう
に角度45°)だけ傾斜させる。すると、被加工板金Z
における上下両挟持部材11,12による挟持部Zc
は、反挟持側部分Zbが支持台6の上面で支持されてお
り且つ下部台板32の上面が矢印A−B方向に適宜幅
(30〜40mm)を有していることにより、容易に折曲
させることができる。又、このとき可動ユニット2の弧
回動中心Pは、板金挟持部Zcにおける上挟持部材11
の下面先端部11aにあるので、比較的小さい曲げ力で
もスムーズに折曲させることができ、しかもシャープな
角出しができる。Subsequently, the sandwiched work sheet metal Z
Telescopic cylinder 51 of arc rotation operation mechanism 5 according to the plate thickness of
Is reduced by an appropriate length, and the entire movable unit 2 is inclined by an appropriate angle range (for example, an angle of 45 ° as shown by the chain line shown by reference numeral 2'in FIG. 5 or by the solid line shown by reference numeral 2 in FIG. 6). . Then, the processed sheet metal Z
Zc between the upper and lower clamping members 11, 12 in
The non-clamping side portion Zb is supported by the upper surface of the support base 6 and the upper surface of the lower base plate 32 has an appropriate width (30 to 40 mm) in the direction of arrow AB, so that it can be easily folded. Can be tuned. At this time, the arc rotation center P of the movable unit 2 is set to the upper holding member 11 in the sheet metal holding portion Zc.
Since it is located at the lower end portion 11a of the lower surface, it can be bent smoothly with a comparatively small bending force, and sharp corners can be obtained.
【0029】次に、該可動ユニット2をそのまま傾斜さ
せた状態で回転駆動装置4のモータ41を正(又は逆)
回転方向に駆動させて上下両挟持部材11,11,1
2,12を相互に逆方向に回転せしめるとともに、切断
装置8のモータ83も各円盤刃物81,81(及び第3
ギヤ86,86)が下挟持部材12と同方向に回転する
ように駆動させる。すると、上下両挟持部材間に挟持し
ている被加工板金Zは、挟持ユニット10の送り作用と
支持台6側の第3ギヤ86,86の送り作用とによって
順次矢印C方向に送られるが、そのとき板金挟持部Zc
を順次所定角度(例えば45°)だけ折曲するようにな
る。そして、該被加工板金Zの後行側端部まで折曲せし
め終わった時点(被加工板金Zの後行側端部がまだ上下
両挟持部材間に挟持されている)で回転駆動装置4のモ
ータ41を停止させる。この状態では被加工板金Zはそ
の全長に亘って所定の角度(例えば45°)だけ折曲さ
れている。Next, the motor 41 of the rotary drive device 4 is moved forward (or reverse) with the movable unit 2 tilted as it is.
Driven in the rotating direction, both upper and lower clamping members 11, 11, 1
2 and 12 are rotated in mutually opposite directions, and the motor 83 of the cutting device 8 also drives the disc blades 81, 81 (and the third blade).
The gears 86, 86) are driven so as to rotate in the same direction as the lower holding member 12. Then, the work sheet metal Z clamped between the upper and lower clamping members is sequentially fed in the direction of arrow C by the feeding action of the holding unit 10 and the feeding action of the third gears 86, 86 on the support base 6 side. At that time, the sheet metal holding part Zc
Are sequentially bent at a predetermined angle (for example, 45 °). Then, at the time when the bending of the sheet metal Z to be processed to the trailing side end portion is completed (the trailing side edge portion of the sheet metal Z to be processed is still sandwiched between the upper and lower sandwiching members), the rotation driving device 4 is rotated. The motor 41 is stopped. In this state, the sheet metal Z to be processed is bent over its entire length by a predetermined angle (for example, 45 °).
【0030】そして、該被加工板金Zをさらに大きく折
曲させる場合には、上下両挟持部材11,11,12,
12間に第1次的に予備折曲された被加工板金Zの端部
を挟持したままで、弧回動操作機構5の伸縮シリンダ5
1をもう一段縮小させて可動ユニット2をさらに大きく
傾斜させた後、回転駆動装置4のモータ41及び切断装
置8のモータ83をそれぞれ逆(又は正)回転させて、
上記同様にしてその第1次的に折曲された被加工板金Z
をそれより深い角度まで折曲させる(図示例のものでは
図6に鎖線図示するように可動ユニット2を符号2′の
位置まで弧回動させて被加工板金を角度90°まで折曲
させることができる)。尚、被加工板金Zの板厚さが大
きい場合には、1回の折曲角度を小さく(例えば角度2
0°程度)して数回に分けて所定角度まで折曲させるよ
うにすればよい。When the sheet metal Z to be processed is to be bent further, the upper and lower clamping members 11, 11, 12,
The telescopic cylinder 5 of the arc rotation operation mechanism 5 while holding the end portion of the sheet metal Z that has been primarily preliminarily bent between the 12 pieces.
1 is further reduced by one step to further incline the movable unit 2, and then the motor 41 of the rotary drive device 4 and the motor 83 of the cutting device 8 are respectively rotated reversely (or positively),
The sheet metal Z that is primarily bent in the same manner as above
Is bent to an angle deeper than that (in the illustrated example, the movable unit 2 is arc-rotated to the position of reference numeral 2'as shown by the chain line in FIG. 6 to bend the sheet metal to an angle of 90 °. Can be done). In addition, when the plate thickness of the sheet metal Z to be processed is large, the bending angle for one time is made small (for example, an angle of 2).
It may be bent at a predetermined angle in several steps.
【0031】又、被加工板金Zを切断加工する場合に
は、刃物進退操作機構9のハンドル91を操作して、図
7に示すように円盤刃物81の上面を上挟持部材11の
下面の高さまで上動せしめ、その状態で上記折曲加工作
業と同様に上下両挟持部材11,12間に被加工板金Z
における切断すべき位置の先端部を差し込んだ後、回転
駆動装置4及び切断装置8の各モータ41,83を駆動
させればよい。すると、該被加工板金Zは、上下両挟持
部材11,12及び第3ギヤ86等の送り作用により矢
印C側に移動せしめられるにつれて、該被加工板金の挟
持部Zc近傍を上挟持部材11と円盤刃物81との剪断
作用により順次直線状に切断するようになる。尚、被加
工板金Zを全長さに亘って切断し終えると、該モータ4
1,83を停止させる。When the sheet metal Z to be processed is cut, the handle 91 of the blade advancing / retreating operation mechanism 9 is operated to move the upper surface of the disk blade 81 to the height of the lower surface of the upper holding member 11 as shown in FIG. Up to this point, in that state, the sheet metal Z to be machined between the upper and lower clamping members 11 and 12 in the same manner as in the bending work above.
After inserting the front end portion of the position to be cut, the motors 41 and 83 of the rotation driving device 4 and the cutting device 8 may be driven. Then, as the sheet metal Z is moved to the arrow C side by the feeding action of the upper and lower clamping members 11, 12 and the third gear 86, the sheet metal Z near the clamping portion Zc of the sheet metal Z becomes the upper clamping member 11. Due to the shearing action with the disc blade 81, the blades are sequentially cut in a straight line. When the sheet metal Z to be processed has been cut over the entire length, the motor 4
Stop 1,83.
【0032】このように、この板金加工機では、1台の
機械で板金の折曲機能と切断機能を兼備しており、しか
も折曲作業時と切断作業時の切換えを刃物進退操作機構
9による円盤刃物81の進退操作のみで行えるので使い
勝手が良好であるとともに、挟持ユニット10の上挟持
部材11を板金の折曲用と切断用とに兼用することがで
きる、という利点がある。As described above, in this sheet metal working machine, one machine has both a sheet metal bending function and a sheet metal cutting function, and the blade advancing / retreating operation mechanism 9 switches between bending work and cutting work. Since it can be performed only by the advancing / retreating operation of the disc blade 81, it is easy to use and has an advantage that the upper holding member 11 of the holding unit 10 can be used both for bending and cutting the sheet metal.
【0033】又、この実施例では、取付台21に、前後
(矢印A−B方向)及び上下に大容積の空間部25を形
成しているので、被加工板金Zとして平面状のものばか
りでなく、予め折曲させた折曲部を有するものであって
も自由に折曲加工することができ、1枚の板金に複数箇
所の折曲加工を施すことができる。Further, in this embodiment, since the mounting base 21 is formed with the large-capacity space portions 25 in the front-rear direction (in the direction of arrow AB) and in the upper-lower direction, only the flat sheet metal Z to be processed is used. However, even if it has a bent portion that is bent in advance, it can be freely bent, and one sheet metal can be bent at a plurality of locations.
【図1】本発明の実施例にかかる板金加工機の側面図で
ある。FIG. 1 is a side view of a sheet metal working machine according to an embodiment of the present invention.
【図2】図1の板金加工機の平面図である。2 is a plan view of the sheet metal working machine of FIG. 1. FIG.
【図3】図1のIII−III矢視図である。FIG. 3 is a view on arrow III-III in FIG. 1.
【図4】図1のIV−IV矢視図である。FIG. 4 is a view taken along the line IV-IV in FIG.
【図5】図1の板金加工機の一部拡大断面図である。5 is a partially enlarged sectional view of the sheet metal working machine of FIG. 1. FIG.
【図6】図1の板金加工機における板金折曲時の状態変
化図である。6 is a state change diagram at the time of bending the sheet metal in the sheet metal processing machine of FIG.
【図7】図1の板金加工機における板金切断時の使用状
態を示す一部断面図である。FIG. 7 is a partial cross-sectional view showing a usage state when cutting the sheet metal in the sheet metal processing machine of FIG.
【図8】公知の板金加工機(板金折曲機)の側面図であ
る。FIG. 8 is a side view of a known sheet metal working machine (sheet metal bending machine).
【図9】図8の板金加工機の作用説明図である。9 is an explanatory view of the operation of the sheet metal working machine of FIG.
1は基台、2は可動ユニット、3は板金送り機構、4は
回転駆動装置、5は弧回動操作機構、6は支持台、7は
上下動調整装置、8は切断装置、9は刃物進退操作機
構、10は挟持ユニット、11は上挟持部材、11aは
上挟持部材の刃先、12は下挟持部材、21は取付台、
81は円盤刃物、Pは弧回動中心、Zは被加工板金、Z
bは板金外側部分、Zcは板金挟持部である。1 is a base, 2 is a movable unit, 3 is a sheet metal feed mechanism, 4 is a rotary drive device, 5 is an arc rotation operation mechanism, 6 is a support base, 7 is a vertical movement adjusting device, 8 is a cutting device, and 9 is a blade. Forward / backward operation mechanism, 10 is a clamping unit, 11 is an upper clamping member, 11a is a cutting edge of the upper clamping member, 12 is a lower clamping member, 21 is a mount,
81 is a disc blade, P is the center of arc rotation, Z is the sheet metal to be processed, Z
Reference numeral b is an outer portion of the sheet metal, and Zc is a sheet metal holding portion.
Claims (1)
板金(Z)をその表裏両側から挟持でき且つ外周面をそ
れぞれ円形とした一対の挟持部材(11,12)を有す
る挟持ユニット(10)と、前記一対の挟持部材(1
1,12)を相互に逆方向に回転せしめる回転駆動装置
(4)を備え且つ該回転駆動装置(4)によって両挟持
部材(11,12)を相互に逆方向に回転せしめること
によって該両挟持部材(11,12)間に挟圧保持され
ている被加工板金(Z)を順次横方向に移動せしめる如
く構成されている板金送り機構(3)と、前記一対の挟
持部材(11,12)による板金挟持部(Zc)を中心
(P)として前記挟持ユニット(10)を前記板金送り
方向に対してその周方向に弧回動せしめる弧回動操作機
構(5)と、前記被加工板金(Z)の折曲操作時に該被
加工板金(Z)における前記挟持ユニット(10)によ
る挟持部(Zc)とは幅方向外側部分(Zb)を支持す
る支持台(6)とを備えた板金加工機であって、 前記両挟持部材(11,12)のうちの少なくとも一方
の挟持部材(11)におけるエッジ部に環状の刃先(1
1a)を形成する一方、 前記刃先(11a)を形成した挟持部材(11)の近接
位置に、該刃先を形成した挟持部材(11)と協同して
前記被加工板金(Z)を剪断せしめ得る円盤刃物(8
1)を設けるとともに、 該円盤刃物(81)を、前記刃先形成挟持部材(11)
と協同して前記挟持ユニット(10)で挟持している被
加工板金(Z)を剪断し得る剪断位置と該挟持ユニット
(10)で挟持している被加工板金(Z)を切断しない
退避位置との間で進退せしめる刃物進退操作機構(9)
を備えた、 ことを特徴とする板金加工機。1. A holding unit (10) having a pair of holding members (11, 12) capable of holding a sheet metal (Z) to be bent or cut from both front and back sides and having circular outer peripheral surfaces. ) And the pair of clamping members (1
1, 12) are provided with a rotation driving device (4) for rotating them in opposite directions, and both holding members are rotated by rotating the holding members (11, 12) in opposite directions by the rotation driving device (4). A sheet metal feeding mechanism (3) configured to sequentially move the sheet metal (Z) held between the members (11, 12) by clamping, and the pair of clamping members (11, 12). An arc rotation operation mechanism (5) for rotating the clamping unit (10) in the circumferential direction in the circumferential direction with respect to the sheet metal feeding direction around the sheet metal clamping section (Zc) as a center (P), and the sheet metal ( Sheet metal working including a holding portion (Zc) of the holding unit (10) in the sheet metal (Z) to be processed and a support base (6) for supporting an outer side portion (Zb) in the bending operation of Z). A machine, wherein the two clamping members (11, At least one of the holding members (11) of (12) has an annular cutting edge (1
1a), the work sheet metal (Z) can be sheared at a position close to the sandwiching member (11) having the cutting edge (11a) in cooperation with the sandwiching member (11) having the cutting edge. Disc knife (8
1) is provided, and the disc blade (81) is provided with the blade-edge forming sandwiching member (11).
In cooperation with the holding unit (10), the shearing position where the work sheet metal (Z) held by the holding unit (10) can be sheared and the retracting position where the work sheet metal (Z) held by the holding unit (10) is not cut. Blade reciprocating operation mechanism (9) that moves back and forth between
A sheet metal working machine characterized in that.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4676893A JPH0761586B2 (en) | 1993-03-08 | 1993-03-08 | Sheet metal processing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4676893A JPH0761586B2 (en) | 1993-03-08 | 1993-03-08 | Sheet metal processing machine |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH06262457A JPH06262457A (en) | 1994-09-20 |
JPH0761586B2 true JPH0761586B2 (en) | 1995-07-05 |
Family
ID=12756514
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP4676893A Expired - Fee Related JPH0761586B2 (en) | 1993-03-08 | 1993-03-08 | Sheet metal processing machine |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0761586B2 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102814657B (en) * | 2012-07-11 | 2015-04-08 | 安徽精诚铜业股份有限公司 | Shearing apparatus of metal sheet |
KR102062758B1 (en) * | 2018-07-09 | 2020-01-07 | 김정민 | a rolling machine having multi-function |
CN116423244B (en) * | 2023-05-29 | 2023-08-15 | 保定天威恒通电气有限公司 | Shell cutting device for processing sheet metal cabinet body and use method |
-
1993
- 1993-03-08 JP JP4676893A patent/JPH0761586B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH06262457A (en) | 1994-09-20 |
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