The present invention relates to a reinforcing bar binder and a grasp mechanism of a binding line in a reinforcing bar binder. Particularly, the invention relates to a binding line clamp apparatus of a reinforcing bar binder constituted to grasp an end portion of a binding line to twist, a reinforcing bar binder constituted to pertinently control a length of a binding line in accordance with a reinforcing bar diameter and a reinforcing bar binder reducing an amount of consuming a binding line.
A reinforcing bar binder is comprising a binding line feed mechanism for feeding out a binding line of a wire or the like wound around a reel to be wound around a reinforcing bar, and a binding line twist mechanism for twisting the binding line wound around the reinforcing bar to bind, and the binding line feed mechanism and the binding line twist mechanism are successively operated by trigger operation to carry out binding operation of 1 cycle.
When a circular arc shape nose of the reinforcing bar binder is hung around the reinforcing bar and a trigger lever is pulled, the binding line is fed out around an inner peripheral face of a nose by the binding line feed mechanism to form a biding line loop at a surrounding of the reinforcing bar, a rear end of the binding line loop is cut by a cutter mechanism, a pair of hook type hooks of the binding line twist mechanism are closed to grasp the binding line loop to thereafter rotate and the binding line loop is twisted to bind the reinforcing bar.
The reinforcing bar binder of a prior art is constituted to turn the binding line around the reinforcing bar by two rotations or more and catch a middle portion of the binding line loop remote from a front end and a rear end thereof by the pair of hooks and this is because when portions of the binding line at a vicinity of the front end or the rear end is caught, in rotating the hooks, the front end or the rear end is drawn out from the hooks to disengage the loop and binding cannot be carried out. Therefore, lengths of both end portions of the binding line extended from the portion grasped and twisted by the hooks are prolonged, the portions are projected at the surrounding of the reinforcing bar to bring about a drawback that the binding line is projected from a surface of concrete when concrete is cast and also an amount of consuming the binding line is large.
Further, the reinforcing bar binder of the prior art poses a problem that the amount of consuming the binding line is large since the binding line is turned around the reinforcing bar by two rotation or more and the length of the binding line to be fed out is constant regardless of the diameter of the reinforcing bar. Further, when the diameter of the reinforcing bar is small, an amount of twisting the binding line is increased, a long time period required for twisting is taken, the binding line cannot sufficiently be tightened and a restraining force may become insufficient. Further, since the length of the twisted portion is long, when concrete is cast, the binding line may be projected from the surface of the concrete to thereby cause a problem in finishing.
Further, according to the reinforcing bar binder of the prior art, when the nose in the circular arc shape of the reinforcing bar binder is hung to the reinforcing bar and the trigger lever is pulled, the binding line is fed out along a guide groove of an inner peripheral face of the nose by the binding line feed mechanism. The nose is provided with a forming portion opposed to the guide groove, the binding line is brought into contact with the forming portion when moving forward along the guide groove to curl to thereby form a loop around the surrounding of the reinforcing bar. Further, the binding line is cut by a binding line cut apparatus at a front end portion of the nose, the pair of hook type hooks of the binding line twist mechanism are closed to grub the binding line loop to thereafter rotate and twist the binding line loop to bind the reinforcing bar.
According to the reinforcing bar binder of the prior art, since the binding line is fed out bypassing an interval between the guide groove of the nose and the forming portion opposed to the guide groove, when the binding line cut apparatus is not arranged at the vicinities of the binding line twist mechanism and the forming portion, the binding line loop cannot be twisted by constituting a hindrance by the forming portion disposed on an inner side of the binding line loop. Further, when the binding line cut apparatus is arranged at the vicinity of the forming portion, since the binding line cut apparatus is disposed at a position remote from the binding line twist mechanism, an extra portion from a point of grasping the binding line to a terminal end portion of the loop is long, further, since the binding line needs to be wound around the reinforcing bar by two turns or more, there poses a problem that the amount of consuming the binding line is large and an outlook thereof in finishing to bind is poor. Further, even when the binding line cut apparatus is arranged at the vicinity of the forming portion, there is a case in which the binding line is caught by the fixed forming portion in twisting the binding line to give an unpleasant feeling to an operator.
Hence, there poses a technical problem to be resolved in order to improve binding finish by reducing extra portions projected from a twist portion of a binding line as less as possible and it is a first object of the invention to resolve the above-described problem.
Further, there poses a technical problem to be resolved in order to promote binding finish by pertinently controlling a length of a binding line in accordance with a diameter of a reinforcing bar and reduce a wasteful portion of a binding line and it is a second object of the invention to resolve the above-described problem.
Further, there poses a technical problem to be resolved in order to reduce an amount of consuming a binding line and carry out excellent binding operation in a reinforcing bar binder and it is a third object of the invention to resolve the above-described problem.
The invention is proposed to achieve the above-described objects and with regard to the first object, there is proposed a binding line clamp apparatus of a reinforcing bar binder which is a binding line grasp mechanism for grasping and twisting a loop of a binding line fed out to a surrounding of a reinforcing bar by a binding line feed mechanism in a reinforcing bar binder, constituted such that a sleeve is outwardly mounted to a center clamp plate and clamp plates arranged on both left and right sides thereof, the left and right clamp plates are brought into elastic contact with the center clamp plate by respectively interposing springs therebetween, a pair of cam mechanisms by cams and guide pins are provided to the sleeve and the left and right clamp plates and the left and right clamp plates are expanded in accordance with forward movement or rearward movement of the sleeve, and constituted such that the feeding line is fed out by passing through an interval between the center clamp plate and one of the clamp plates by a binding line feed mechanism, a front end of the binding line formed in the loop shape is introduced between the center clamp plate and other of the clamp plates and thereafter, the left and right clamp plates are closed to grasp the binding line.
Further, with regard to the second object, the invention proposes a reinforcing bar binder which is an electric type reinforcing bar binder including a binding line feed mechanism for feeding out a binding line in a loop shape to be wound around a reinforcing bar and a binding line twist mechanism for grasping the binding line wound around the reinforcing bar by grasping means of a hook or the like and twisting the binding line by driving to rotate the grasping means to bind the reinforcing bar, constituted such that the grasping means is constituted by a center clamp plate and an opening and closing type clamp plates arranged on both left and right sides thereof, the binding line fed out by the binding line feed mechanism is made to pass through an interval between the center clamp plate and either one of the left and right clamp plates, a front end of the loop of the binding line fed out thereby is introduced into an interval between the center clamp plate and other of the clamp plates and thereafter, the left and right clamp plates are closed to grasp the loop of the binding line.
Further, there is provided the reinforcing bar binder constituted such that after grasping the front end of the loop of the binding line by closing the clamp plate on a side of grasping the front end of the loop of the binding line, the binding line is pulled back by reversely driving to rotate the binding line feed mechanism and a length of the loop of the binding line is adjusted in accordance with a diameter of the reinforcing bar.
Further, there is provided the reinforcing bar binder, wherein the left and right clamp plates are formed with inclined face portions or projected portion brought into contact with an upper end face or a lower end face of the center clamp plate in clamping the binding line to thereby bend to deform the binding line in clamping the binding line.
Further, with regard to the first object, the invention provides a binding line clamp apparatus of a reinforcing bar binder which is a binding line grasp mechanism for grasping and twisting a loop of a binding line fed out to a surrounding of a reinforcing bar by a binding line feed mechanism in a reinforcing bar binder, constituted such that a sleeve is outwardly mounted to a center clamp plate and clamp plates arranged on both left and right sides thereof, the left and right clamp plates and the sleeve are connected by a pair of left and right cam mechanisms by groove cams and guide pins, the left and right clamp plates are formed to open and close in cooperation with frontward movement and rearward movement of the sleeve, the binding line is fed out to a guide groove formed at a nose by passing through an interval between the center clamp plate and one of the clamp plates by the binding line feed mechanism, a front end of the loop of the binding line is introduced between the center clamp plate and other of the clamp plates and thereafter, the left and right clamp plates are closed to grasp the binding line.
Further, there is provided the binding line clamp apparatus of a reinforcing bar binder constituted such that phases of the pair of left and right groove cams formed at the left and right clamp plates or the sleeve are shifted from each other and after one of the clamp plates grasps a front end of the loop of the binding line, other of the clamp plates grasps a rear end of the loop of the binding line.
Further, with regard to the first object, the invention provides a binding line clamp apparatus of a reinforcing bar binder which is a binding line grasp mechanism for grasping and twisting a loop of a binding line fed out to a surrounding of a reinforcing bar by a binding line feed mechanism in a reinforcing bar binder, constituted such that a sleeve is outwardly mounted to a center clamp plate and clamp plates arranged on both left and right sides thereof, the left and right clamp plates and the sleeve are connected by a pair of left and right cam mechanisms by groove cams and guide pins, the left and right clamp plates are formed to open and close in cooperation with frontward movement and rearward movement of the sleeve, the binding line is fed out to a guide groove of a circular arc shape nose by passing through an interval between the center clamp plate and either one of the left and right clamp plates by the binding line feed mechanism, a front end of a loop of the binding line is introduced between the center clamp plate and other of the clamp plates and thereafter, the left and right clamp plates are closed to grasp the binding line, and constituted such that an upper portion of a face of grasping the binding line of the right clamp plate or the left clamp plate grasping the front end of the binding line is formed with a stopper portion projected in a center direction and the front end of the binding line impinges on the stopper portion to stop.
Further, there is provided the binding line clamp apparatus of a reinforcing bar binder, wherein the face of grasping the binding line of the clamp plate on a side of feeding out the binding line is provided with a guide groove for feeding out the binding line.
Further, with regard to the third object, the invention provides a reinforcing bar binder which is a reinforcing bar binder including a binding line feed mechanism for feeding out a binding line along a guide groove at an inner periphery of a nose to wind around the reinforcing bar, a binding line grasp mechanism for grasping the binding line wound around the reinforcing bar, and a binding line twist mechanism for twisting the binding line to bind the reinforcing bar by driving to rotate the binding line grasp mechanism, wherein a guide plate for being brought into contact with the binding lie fed along the guide grove by the binding line feed mechanism to curl is provided and the guide plate is formed movably to a position opposed to the guide groove and a position separated from the guide groove.
Further, there is provided the reinforcing bar binder characterized in being constituted such that the guide plate is made to be opposed to the guide groove and the binding line brought into contact with the guide plate is curled in a step of feeding out the binding line, the guide plate is escaped to the position separated from the guide groove after the step of feeding out the binding line and the binding line is pulled back by reversely driving to rotate the binding line feed mechanism and a length of the binding line is controlled in accordance with a diameter of the reinforcing bar.
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Note that in the drawings, numeral 1 designates a binding line clamp apparatus, numeral 2 designates a center clamp plate, numeral 3 designates a right clamp plate, numeral 4 designates a left clamp plate, numeral 5 designates a sleeve, numerals 9, 10 designate groove cams, numerals 11, 12 designate guide pins, numeral 13 designates a ball screw shaft, numeral 14 designates a stopper portion, numeral 18 designates a shifter plate, numeral 19 designates a binding line cut apparatus, numeral 20 designates a binding line guide apparatus, numeral 501 designates a binding line twist mechanism, numeral 502 designates a binding line feed mechanism, numeral 506 designates a circular arc shape nose, numeral 507 designates a twist motor, numeral 508 designates a slide motor, numeral 511 designates a ball screw shaft, numeral 513 designates a binding line clamp apparatus, numeral 514 designates a center clamp plate, numeral 5115 designates a right clamp plate, numeral 516 designates a left clamp plate, numeral 517 designates a sleeve, numeral 523 designates a binding line guide groove, numeral 524 designates a recess, numerals 525, 526 designate guide pins, numerals 527, 528 designate cams, numerals 531, 532 designate pushers, numeral 533 designates a compression coil spring, numeral 701 designates a binding line guide apparatus, numeral 702 designates a binding line cut apparatus, numeral 703 designates a binding line clamp apparatus, numeral 707 designates a sleeve, numeral 709 designates a shifter plate, numeral 710 designates guide plate cam, numeral 711 designates a slide cam plate, numeral 712 designates a shaft (guide plate), numeral 713 designates a support frame, numeral 714 designates a nose, numeral 715 designates a guide groove (nose), numeral 716 designates a forming portion (guide plate), numeral 717 designates a long hole (slide cam plate) and numeral 718 designates a compression coil spring.
A detailed description will be given of an embodiment of the invention in reference to the drawings as follows.
A middle of the center clamp plate 2 is provided with a guide pin 6 in a longitudinal direction and the left and right clamp plates 3, 4 are openably and closably integrated to the center clamp plate 2 by engaging slide guide grooves 7, 8 formed at inner side faces of the left and right clamp plates 3, 4 to the guide pin 6. The left and right clamp plates 3, 4 are formed with grooves cams 9, 10 and the groove cams 9, 10 are engaged with the guide pins 11, 12 of the sleeve 5. The grooves cams 9, 10 are formed in a step-like shape moving front portions thereof to outer sides relative to rear portions thereof in parallel therewith and there is constituted a structure in which when the sleeve 5 is moved forward relative to three pieces of the clamp plates 2, 3, 4, the left and right clamp plates 3, 4 are moved in directions approaching each other to thereby pinch the center clamp plate 2. Phases of the groove cams 9, 10 of the left and right cam plates are shifted from each other, when the sleeve is moved forward, first, the right clamp plate 3 (upper side in the drawing) is brought into contact with the center clamp plate 2 and thereafter, the left clamp plate 4 is brought into contact with the center clamp plate 2.
In staring the reinforcing bar binder, a wire is fed out from a lower side through an interval between the left clamp plate 4 and the center clamp plate 2 by a binding line feed apparatus (not illustrated) and a front end of the wire W fed along a circular arc shape nose (not illustrated) and formed in a loop-like shape moves forward from a lower side into an interval between the right clamp plate 3 and the center clamp plate 2 and impinges on the stopper portion 14 of the right clamp plate 3 to stop as shown by
The binding line cut apparatus 19 is a rotary wire cutter forming a hole traversing an axis center of a pin 21 fixed to a front portion of a frame and forming holes having wide widths at two front and rear faces of a cylindrical sleeve 22 mounted to the pin 21 and a front lever 23 attached with the cylindrical sleeve 22 and a rear lever 24 are connected by a link 25. The binding line cut apparatus 19 is set to an initial state of
A binding line guide apparatus 20 is constructed by a constitution of driving a forming plate 26 pivotable in a lateral direction by a slide cam plate 27 and a shaft 28 of the forming plate 26 of a lever type is attached to a support frame 29. An inner peripheral face of the circular arc shape nose 30 is provided with a guide groove 31 in a peripheral direction, a side face of a base portion thereof is partially notched and a front end portion of the forming plate 26 is brought into the notched portion. Further, the guide groove 31 may be constituted by a shape of capable of curling a binding line to guide and the shape can be constituted also by a shape of connecting straight lines in steps or the like and is not limited to the circular arc shape.
As shown by
A slide cam plate 27 is formed with a long hole 33 in a front and rear direction at a side face thereof and in the initial state, a rear end portion of the forming plate 26 is brought into contact with a plane portion on a front side of the long hole 33. A rear end portion of the slide cam plate 27 is engaged with the shifter plate 18 and the sleeve 5 and the slide cam plate 27 are integrally slid in the front and rear direction. When the slide cam plate 27 is moved forward from an initial position, as shown by
Next, an explanation will be given of operation of the reinforcing bar binder.
Successively, the ball screw shaft 13 is driven to rotate regularly, as shown by
Further, as shown by
Further, after finishing to twist, the twist motor is driven to rotate reversely, as shown by
An inner side face of the right clamp plate 44 is formed with a binding line guide groove 48 constituting a path of feeding out the binding line and an inner side face of the left cam plate 45 is formed with a recess 49 (recess portion) reaching a vicinity of an upper end thereof from a lower end thereof. The binding line is fed in a state of slightly opening and left and right clamp plates 44, 45, the binding line is fed out to the circular arc shape nose 6 of the reinforcing bar binder by passing the binding line guide groove 48 of the right clamp plate 44 and the front end of the binding line moves forward from the lower side into the recess 49 of the left cam plate 45 and impinges on a ceiling face 50 (stopper portion) at the upper end of the recess 49 to stop.
Further,
Further, the invention is not limited to the above-described embodiments and although an explanation has been given by taking an example of the wire as the binding line, a wire other than the metal wire may be used. Further, the invention can variously be modified within the technical range of the invention and the invention naturally covers modified embodiments thereof.
Next, a detailed description will be given of other embodiment according to the binding line clamp apparatus of the reinforcing bar binder of the invention in reference to the drawings as follows.
As shown by
An upper face of a rear portion of the right clamp plate 515 and a lower face of a rear portion of the left clamp plate 516 are respectively provided with the guide pins 525, 526. As shown by
Numerals 531, 532 designate pushers attached to inside of the sleeve 517, compression coil springs 533 are inserted into spring receive holes on two left and right sides of the back faces thereof, pin holes at centers of the back faces of the pushers 531, 532 are engaged with the pusher guide pins 529, 530 and three clamp plates 514, 515, 516 are integrated into the sleeve 517 from the front side of the sleeve 517. The left and right cam plates 515, 516 are respectively brought into elastic contact with the cams 527, 528 by being pushed by the pushers 531, 532.
a) through
As shown by
The middle portion of the ball screw shaft 511 is attached with the shifter disk 535 rotatable relative to the ball screw shaft 511. The shifter disk 535 is connected to the ball holding ring 537 fitted to the ball screw shaft 536 of the slide motor 508 and the ball screw 511 and the binding line clamp apparatus 513 of the binding line twist mechanism 501 are moved in the front and rear direction in accordance with the direction of rotating the slide motor 501.
As shown by
Next, an explanation will be given of operation of the binding line clamp apparatus 513.
Successively, the feed motor 542 of the binding line feed mechanism 502 is started and the wire W reeled out to the circular arc shape nose 506 by passing the binding line guide groove 523 of the right clamp plate 515 by rotating two front and rear pairs of the drive gears with V-grooves 538, 539 and driven gears with V-grooves 540, 541 is bent in the loop shape along the shape of the guide groove at the inner periphery of the circular arc shape nose 506, passes around the surrounding of the reinforcing bar S and the front end of the wire W moves forward from the opening of the lower face of the clamp plate 516 into the recess 524 and impinges on the ceiling portion of the recess 524 to stop. The amount of feeding the wire W is controlled by a control apparatus (not illustrated).
After stopping the feed motor 542, the twist motor 507 of the binding line twist mechanism 501 is started, as shown by
Successively, as shown by
Successively, the twist motor 507 is regularly driven to rotate, since the rotation stopping fin 534a of the ball holding ring 534 moved rearward from the initial position is detached from the rotation stopping claw of the casing, as shown by
Successively, by moving forward the sleeve 517 by reversely rotating the twist motor 507, as shown by
Further, although according to the above-described embodiment, the sleeve 517 is formed with the cams 527, 528 and the left and right clamp plates 515, 516 are provided with the guide pins 525, 526, contrary thereto, there may be constructed a constitution of forming the cams at the sleeve 517 and providing the guide pins at the left and right clamp plates 515, 516. Further, although an explanation has been given by taking an example of the wire as the binding line, a wire other than the metal wire may be used.
Further, the invention is not limited to the above-described embodiment but can variously be modified within the technical range of the invention and the invention naturally covers modified embodiments thereof.
Next, a detailed explanation will be given of other embodiment according to the reinforcing bar binder of the invention in reference to the drawings.
The binding line guide apparatus 701 is constituted to drive the guide plate 710 pivotable in the lateral direction by the slide cam plate 711 and the shaft 712 of the guide plate 710 in a lever shape is attached to the support frame 713. An inner peripheral face of the nose 714 is provided with the guide groove 715 in the peripheral direction, a side face of a base portion of the nose 714 is partially notched and a front end portion of the guide plate 710 is fitted to the notched portion.
As shown by
A side face of the slide cam plate 711 is formed with the long hole 717 in the front and rear direction and at the initial state, a rear end portion of the guide plate 710 is brought into contact with a plane portion frontward from the long hole 717. A rear end portion of the slide cam plate 711 is engaged with the shifter plate 709 and the sleeve 707 and the slide cam plate 711 are slid integrally in the front and rear direction. When the slide cam plate is moved forward from the initial position, as shown by
The binding line cut apparatus 2 of
a) through
In starting the reinforcing bar binder, the wire is fed out from the lower side through an interval between the left clamp plate 727 and the center clamp plate 725 by a binding line feed apparatus (not illustrated) and the front end of the wire W fed along a nose (not illustrated) and formed in a loop shape moves forward from the lower side through an interval between the right clamp plate 726 and the center clamp plate 725 and impinges on the stopper portion 735 of the right clamp plate 726 as shown by
Next, an explanation will be given of operation of the reinforcing bar binder.
Successively, the ball screw shaft 704 is regularly driven to rotate, as shown by
Further, as shown by
a) and 43(b) show a state of finishing to twist and the twist motor is stopped to drive by detecting an increase in the load of rotating the twist motor by a current detecting circuit. Although a length of a twist margin of the wire W is varied by large or small of the diameter of the reinforcing bar S, elongation of the binding line or the like, when the twist margin is short, as shown by
Further, after finishing to twist, the twist motor is reversely driven to rotate and the as shown by
Further, the invention is not limited to the above-described embodiment, although in the above-described embodiment, the guide plate 710 of the binding line guide apparatus 701 is constituted to pivot by constituting the fulcrum by the shaft 712, there may be constructed a constitution in which the guide plate 710 is mounted to a slide guide in the lateral direction and is moved by the slide cam plate 711 in parallel therewith. Further, there may be constructed a constitution of moving the guide plate 710 by using an actuator or the like in place of the cam mechanism, there may be constituted a type of moving the guide plate by detecting an amount of feeding the wire by various sensors or the like, the invention can be modified variously within the technical range of the invention and the invention naturally covers modified embodiments thereof.
The application is based on Japanese Patent Application (Japanese Patent Application No. 2001-225202) filed on Jul. 25, 2001, Japanese Patent Application (Japanese Patent Application No. 2001-230654) filed on Jul. 30, 2001, Japanese Patent Application (Japanese Patent Application No. 2001-230666) filed on Jul. 30, 2001, Japanese Patent Application (Japanese Patent Application No. 2001-230672) filed on Jul. 30, 2001 and Japanese Patent Application (Japanese Patent Application No. 2001-250911) filed on Aug. 21, 2001 and contents thereof are incorporated here by reference.
As has been explained above, the reinforcing bar binder of the invention is constituted to pinch the front and the rear end of the binding line loop by the clamp plates to twist in place of the constitution of the prior art hanging the hooks to the binding line loop to twist and therefore, extra projected portions of the binding line after twisting are hardly present and finish is promoted.
Further, by constituting to twist the binding line by corresponding the loop length of the binding line to the diameter of the reinforcing bar by pulling back the binding line after forming the binding loop, a time period required for twisting is shortened, performance of bringing the reinforcing bar and the binding line into close contact with each other is improved to stabilize the binding strength and also an amount of consuming the binding line is reduced.
Further, by forming the inclined face portions or the projected portions which are brought into contact with the upper end face or the lower end face of the center clamp plate in clamping at the left and right clamp plates, in clamping the binding line, the both end portions of the binding line can be bent to deform to clamp solidly.
Further, the binding line clamp line apparatus of the reinforcing bar binder of the invention is constituted to pinch the front end and the rear end of the binding line loop by the clamp plate to twist in place of the constitution of the prior art hanging the hooks to the binding line loop to twist and therefore, extra projected portions of the binding line after twisting are hardly present, finish is promoted and also the amount of consuming the binding line is reduced.
Further, the binding line clamp apparatus of the reinforcing bar binder of the invention is constituted to pinch the binding line by the clamp plate to twist in place of the constitution of the prior art hanging the hooks to the binding line loop to twist, the front end of the binding line moved between the clamp plates impinges on the stopper portion formed at the clamp plate to stop and therefore, the front end and the rear end of the binding line loop can be pinched to twist, extra projected portions of the binding line after twisting are hardly present, finish is promoted and also the amount of consuming the binding line is reduced.
Further, the binding line clamp apparatus of the reinforcing bar binder of the invention is constituted to pinch the front end and the rear end of the binding line loop by the clamp plate to twist in place of the constitution of the prior art hanging the hooks to the binding line loop to twist and therefore, extra projected portions of the binding line after twisting are hardly present, finish is promoted and also the amount of consuming the binding line is reduced.
Further, the binding line is clamped by spring pressure and therefore, the clamp pressure stays to be substantially constant regardless of the wire diameter of the binding line, the grasping force is stabilized, the binding line is slid among the clamp plates in accordance with a tensile stress and a torsional stress of the binding line and therefore, the binding line is not excessively applied with the load and a concern of accidentally cutting the binding line is also resolved.
Further, according to the reinforcing bar binder of the invention, the guide plate firmly forms the binding line in the loop shape by supporting the inner peripheral side of the binding line in the step of feeding out the binding line, the guide plate is constituted to escape from the path of the binding line after feeding out the binding line, thereby, the twisting operation can be carried out pertinently and excellently without being hindered by the forming portion. Further, the binding line cut apparatus can be arranged at a pertinent position regardless of the position of the forming portion and can be arranged immediately before the binding line grasp mechanism. Thereby, both ends of the free end of the cut binding line and the free end of the binding line loop previously fed can be grasped to twist, further, the binding line can be wound around the reinforcing bar by 1 turn to bind and therefore, in comparison with the constitution of the prior art binding the binding line by 2 turns or more, the amount of consuming the binding line is considerably reduced and an outlook thereof is also excellent.
Further, after feeding the binding line, the binding line is pulled back by escaping the binding line feed plate from the path of the binding line, the binding line can be brought into close contact with the reinforcing bar without being hindered by the forming portion, the length of the binding line is adjusted in accordance with the boldness of the reinforcing bar and when the twisting operation is carried out thereafter, the extra portion of the binding line can be eliminated, the amount of consuming the binding line can further be reduced and excellent binding finish can be achieved.
Number | Date | Country | Kind |
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2001-225202 | Jul 2001 | JP | national |
2001-230654 | Jul 2001 | JP | national |
2001-230666 | Jul 2001 | JP | national |
2001-230672 | Jul 2001 | JP | national |
2001-250911 | Aug 2001 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP02/07492 | 7/24/2002 | WO | 00 | 8/30/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/010047 | 2/6/2003 | WO | A |
Number | Name | Date | Kind |
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3391715 | Thompson | Jul 1968 | A |
4508030 | Grenon | Apr 1985 | A |
4655264 | Dilley | Apr 1987 | A |
4865087 | Geiger | Sep 1989 | A |
5279336 | Kusakari et al. | Jan 1994 | A |
5558012 | Yamashima et al. | Sep 1996 | A |
5947166 | Doyle et al. | Sep 1999 | A |
Number | Date | Country |
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167795 | Jan 1986 | EP |
57-125111 | Aug 1982 | JP |
Number | Date | Country | |
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20050005991 A1 | Jan 2005 | US |