CN111734201B - Binding wire binding device and using method - Google Patents

Abstract

The application provides a ligature ware and application method, including nested device, pivot and shearing assembly, the one end and the nested device of pivot rotate to be connected, are equipped with the setting element between nested device and the pivot, and shearing assembly fixes the one end of keeping away from the pivot on nested device, shearing assembly is including rotating the movable shear arm and the fixed shear arm of connecting, the one end and the nested device fixed connection of fixed shear arm, be equipped with the collection line hole on the fixed shear arm, be equipped with the shaping part on the movable shear arm, it is equipped with the steel wire and cuts to move between shear arm and the fixed shear arm. The binding wire can be coiled and formed, and can be wound and bound, and the tail end of the binding wire is terminated and cut. Reasonable structure, proper size and mechanical strength, hardness, and improved operation efficiency of wire drawing, wire binding and wire winding.

Description

Binding wire binding device and using method

Technical Field

The application relates to the technical field of electric power engineering construction and maintenance, in particular to a binding wire binding device and a using method.

Background

In electric power engineering construction, maintenance process, need to act as go-between to the steel strand wires type, the wire ligature winding is continued, the fixed ligature of insulator wire, service conductor terminal ligature etc. will use a lot of ligatures, and the ligature material is harder for a few, and the ligature is longer to need the coil to use for a few, and artifical coil is slower, because of the stereoplasm ligature is harder during manual ligature, the winding is inseparable.

At present, when the binding is required, the binding is mainly carried out manually, the binding speed is slow, the process is not attractive, the firmness and the reliability are poor, particularly, a hard binding wire is harder, the fastening degree after binding cannot meet the requirement, and the phenomena of wire breakage, wire drawing, loosening, falling and the like are caused.

Disclosure of Invention

To the problem that exists among the prior art, this application provides a wiring ligature ware and application method to reach and to assemble fast and dismantle, use stable, reliable, improve the beneficial effect of the operating efficiency who acts as go-between, wiring, wire winding.

The application provides a ligature ware, including nested device, pivot and shearing assembly, the one end and the nested device rotation of pivot are connected, are equipped with the setting element between nested device and the pivot, and shearing assembly fixes the one end of keeping away from the pivot on the nested device, shearing assembly cuts arm and fixed shearing arm including rotating the moving of connecting, and the one end and the nested device fixed connection of fixed shearing arm, be equipped with the collection line hole on the fixed shearing arm, it is equipped with forming part on the shearing arm to move, it cuts to be equipped with the steel wire between shearing arm and the fixed shearing arm to move.

Furthermore, the nesting device comprises a sleeve and a nesting device cover, the nesting device cover is fixed at one end of the sleeve, a ball rotating disc is arranged at one end of the nesting device cover, which is connected with the sleeve, the rotating shaft is rotatably connected with the ball rotating disc, and the fixed shearing arm is fixedly connected with the nesting device cover.

Further, move and cut the arm and include handle, first connecting portion and first shearing portion, the handle links to each other through first connecting portion with first shearing portion, be equipped with first through-hole on the first connecting portion, be equipped with first spring unit in the first shearing portion, the shaping part sets up on first connecting portion, the shaping part is including rectangular pipe and the semicircle arc type support bar that sets gradually.

Further, fixed scissors include second connecting portion and second shearing portion, and second shearing portion sets up with first shearing portion relatively, be equipped with the second through-hole that suits with first through-hole on the second connecting portion, be equipped with the pin screw in first through-hole and the second through-hole, first connecting portion pass through the pin screw rotation with the second connecting portion and are connected, second connecting portion and nested device lid fixed connection, be equipped with second spring assembly on the second shearing portion, second spring assembly sets up with first spring assembly relatively, the length of second shearing portion is greater than the length of first shearing portion, the one end of second connecting portion is kept away from in the setting of collection line hole on the second shearing portion, the collection line hole is including taking open-ended semicircle winding hole and taking open-ended rectangle binding hole.

Further, first spring unit includes diamond spring and arc spring, diamond spring's quantity is a plurality of, and a plurality of diamond springs set up along the length direction interval of first shearing portion, and the one end of each diamond spring is through secretly adorning screw and second shearing portion fixed connection, and the other end of each diamond spring passes through the arc spring and links to each other.

Furthermore, a thread end fixing piece is arranged on the rotating shaft, and a round pin hole is formed in the thread end fixing piece.

Furthermore, the sleeve is provided with a positioning hole, and the positioning part comprises a fixing screw arranged in the positioning hole.

Furthermore, a transmission shaft is arranged at one end, far away from the nesting device, of the rotating shaft, one end of the transmission shaft is fixedly connected with the rotating shaft, and the other end of the transmission shaft is a connecting end.

Further, the nesting device cover is provided with a screw hole, a threaded screw is connected to the screw hole in an internal thread, and one end of the fixed shear arm is fixedly connected with the threaded screw.

A use method of a binding wire binding device comprises the following steps:

the method comprises the following steps: the rotating shaft is sleeved into the sleeve of the embedding device, the top end of the rotating shaft is contacted with the rotating ball disc in the sleeve, the locking fixing screw is inserted into the positioning hole, and the fixing screw is locked;

step two: screwing the fixed shear arm into a screw hole above the nesting device cover through a threaded screw;

step three: inserting pin screws into the first through hole and the second through hole in sequence, and rotatably connecting the movable shear arm and the fixed shear arm;

step four: adjusting concealed screws on the movable shearing arm and the fixed shearing arm to enable the tightness of the diamond spring and the arc spring to reach a preset value;

step five: using a steel wire scissors to cut a section of binding wire, inserting one end of the binding wire into the round pin hole, then coiling the binding wire along the rotating shaft, and taking out the coiled binding wire from the rotating shaft and the round pin hole after the coiling is finished;

step six: fixing one end of a binding wire on a device to be bound, sleeving the other end of the binding wire into a semicircular winding hole with an opening, and rotating the nesting device to drive the binding wire to rotate so as to wind and bind the device;

step seven: after winding and binding are finished, two tail ends of a binding wire are placed into a rectangular binding hole with an opening to be twisted into a small braid shape, and redundant small braid tail ends are cut off by using a steel wire cutter;

step eight: the binding wire wound is placed between the arc-shaped spring of the movable shearing arm and the arc-shaped spring on the fixed shearing arm by clamping the handle, and the diamond-shaped spring and the arc-shaped spring on the movable shearing arm and the fixed shearing arm are used for shaping and flattening the wound binding part.

The beneficial effect of this application lies in:

the application provides a ligature binding device has ligature coil function, can coil, take shape to the ligature, can twine ligature, the tail end of ligature tail end, cut etc. again to the ligature. When in operation, the binding wire is coiled on the rotating shaft, the rotating shaft rotates in the nesting device, and in order to prevent the binding wire from sliding on the rotating shaft, a round pin hole is arranged, and one end of the binding wire can be inserted into the round pin hole and fixed; a rectangular strip-shaped transmission shaft can be inserted into the center position below the rotating shaft, and the transmission shaft can be connected with an electric drillWhen the rotating device is used, the rotating shaft is driven to rotate, and the speed of coiling the binding wire on the rotating shaft is improved; the steel wire scissors are arranged on the movable shearing arm and the fixed shearing arm, and the binding wires can be sheared by forcibly kneading the handles; the movable shearing arm and the fixed shearing arm are provided with the diamond springs and the arc springs, so that the wound binding wires can be corrected, and the process attractiveness is improved; the movable shear arm is provided with a long-strip circular tube and a semicircular arc-shaped supporting strip which can be used for processing binding wires into

Shaping; the fixed scissor arm is provided with a semicircular winding hole with an opening, and a binding wire can be sleeved in the semicircular winding hole to bind and wind the equipment; the fixed scissor arm is provided with a rectangular forming hole with an opening, and the tail end of the binding wire after binding can be bound and fastened by a small braid. The utility model provides a ligature ware is rational in infrastructure, can the fast assembly dismantle, uses stably, reliably, and volume, size are suitable, and mechanical strength, hardness accord with work and use needs, have improved the operating efficiency who acts as go-between, ligature, wire winding. Nowadays, the device is widely applied in the field of electric power engineering construction and maintenance.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the structure of a binding-wire ligature in one embodiment of the present application.

Fig. 2 is an exploded view of a nesting device and threaded screw according to one embodiment of the present application.

Fig. 3 is an exploded view of the shaft, shaft and ball-rotating disk according to an embodiment of the present application.

In the figure, 1, a nesting device, 2, a nesting device cover, 3, a screw hole, 4, a rotating shaft, 5, a fixed screw, 6, a round pin hole, 7, a ball rotating disc, 8, a transmission shaft, 9, a movable shear arm, 10, a handle, 11, a concealed screw, 12, a diamond spring, 13, an arc spring, 14, a steel wire shear, 15, a pin screw, 16, a long round pipe, 17, a semicircular arc support strip, 18, a fixed shear arm, 19, a semicircular winding hole, 20, a rectangular binding hole, 21 and a threaded screw.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The following explains key terms appearing in the present application.

The application provides a wiring ligature ware, including nested device 1, pivot 4 and shearing assembly, nested device 1 includes sleeve and nested device lid 2, and the sleeve is hollow tubular structure, and the sleeve belongs to holds the support component in the course of the work.

The nesting device cover 2 is fixed at one end of the sleeve, the nesting device cover 2 is cylindrical, a screw hole 3 is formed in the upper end of the nesting device cover 2, a threaded screw 21 can be screwed in, one end of the fixed shear arm 18 is fixedly connected with the threaded screw 21, the lower end of the nesting device cover 2 is welded with the ball rotating disc 7, the ball rotating disc 7 is disc-shaped, a plurality of rotating balls are arranged in the middle of the ball rotating disc 7, and when the rotating shaft 4 is in contact with the rotating balls in the middle of the ball rotating disc 7 and the rotating shaft rotates, friction force of the rotating shaft is reduced. The screw holes 3 are circular holes and are arranged above the nesting device cover 2. The main function of the nesting device cover 2 is to connect the threaded screw 21 and the ball-rotating disk 7. The threaded screw 21 is primarily used to connect the nesting device cover 2 to the stationary scissor arm 18.

The rotating shaft 4 is of a cylindrical solid structure, and one end of the rotating shaft 4 is inserted into the sleeve and can rotate forwards and backwards in the nesting device 1. The main function of the rotating shaft 4 is to coil the binding-wire into a circular disc by using a cylindrical structure.

A positioning part is arranged between the nesting device 1 and the rotating shaft 4, a positioning hole is arranged on the sleeve, and the positioning part comprises a fixing screw 5 arranged in the positioning hole. The fixing screw 5 is arranged below the nesting device 1 and can be screwed into the nesting device 1. The rotation of the rotating shaft 4 can be limited and fixed by screwing the fixing screw 5.

The rotating shaft 4 is provided with a thread end fixing piece, and the thread end fixing piece is provided with a round pin hole 6. The round pin hole 6 is a round hole and is arranged below the rotating shaft 4. The main function is to fix the end of the binding wire when the coil is bound.

And a transmission shaft 8 is arranged at one end of the rotating shaft 4 far away from the nesting device 1, one end of the transmission shaft 8 is fixedly connected with the rotating shaft 4, and the other end of the transmission shaft is a connecting end. The transmission shaft 8 is rectangular strip-shaped, one end of the transmission shaft 8 can be inserted into the rotating shaft 4, and the other end of the transmission shaft can be connected with a rotating appliance to drive the rotating shaft to rotate, so that the rotating speed of the rotating shaft is improved.

The shearing assembly is fixed at one end, far away from the rotating shaft, of the nesting device and comprises a movable shearing arm 9 and a fixed shearing arm 18 which are connected in a rotating mode, one end of the fixed shearing arm 18 is fixedly connected with the nesting device cover 2, a collecting wire hole is formed in the fixed shearing arm 18, and a forming part is arranged on the movable shearing arm 9.

The movable shear arm 9 is mainly used for completing shearing, shaping, fastening and the like. The movable shearing arm 9 comprises a handle 10, a first connecting portion and a first shearing portion, the first connecting portion and the first shearing portion are of rod-shaped structures, the handle 10 is connected with the first shearing portion through the first connecting portion, a first through hole is formed in the first connecting portion, a first spring assembly is arranged on the first shearing portion, and during actual work, shearing, shaping, fastening and other work are completed by forcibly kneading the handle 10.

The forming part is arranged on the first connecting part and comprises a long strip round tube 16 and a semicircular arc support bar 17 which are sequentially arranged. Specifically, the long circular tube 16 is a long hollow circular tube, and one end of the binding wire can be inserted into the hollow of the long circular tube 16. The main function is to fix the binding thread head when the binding thread is shaped. The semicircular arc support bars 17 are long strips with semicircular arcs on one surface and are welded on the movable shear arms 9. The semicircular arc support strip 17 mainly functions to process a section of binding wire into a semicircular arc shape. When used in cooperation with the long round tube 16, a section of binding wire can be processed into

And (4) shaping.

First spring unit includes diamond spring 12 and arc spring 13, diamond spring 12's quantity is a plurality of, and a plurality of diamond spring 12 set up along the length direction interval of first shearing portion, and the one end of each diamond spring 12 is through secretly adorning screw 11 and second shearing portion fixed connection, and the other end of each diamond spring 12 passes through arc spring 13 and links to each other. The first spring assembly realizes the functions of shaping and fastening. The spring plays the effect of buffering stress, prevents to exert oneself and excessively harms and ties up the line.

The fixed shearing arm 18 comprises a second connecting portion and a second shearing portion, the second shearing portion and the first shearing portion are arranged oppositely, a second through hole matched with the first through hole is formed in the second connecting portion, pin screws 15 are arranged in the first through hole and the second through hole, the first connecting portion and the second connecting portion are rotatably connected through the pin screws 15, and the pin screws 15 mainly serve to fix the movable shearing arm 9 and the fixed shearing arm 18. Second connecting portion and nested device lid 2 fixed connection, be equipped with second spring assembly in the second shearing portion, second spring assembly sets up with first spring assembly relatively, the length of second shearing portion is greater than the length of first shearing portion, the first shearing portion of second shearing portion eminence, the one end that the line hole setting is higher than first shearing portion in the second shearing portion is collected, it includes takes open-ended semicircle winding hole 19 and takes open-ended rectangle binding hole 20 to collect the line hole.

Specifically, the semicircular winding hole 19 with the opening is arranged above the fixed shear arm 18, the fixed shear arm 18 is provided with a transverse rectangular groove opening at one side, and the inner end of the rectangular groove is provided with a semicircular hole. The binding wire can be sleeved into the semicircular hole, and the binding wire can rotate on the wound equipment by rotating the device, so that the function of binding the equipment by the binding wire is realized. The rectangular binding hole 20 with the opening is arranged in the middle of the fixed shear arm 18, the fixed shear arm 18 is provided with a transverse rectangular groove opening on one side, the inner end of the opening is provided with a vertical rectangular groove, and the main function of the vertical rectangular groove is to strand another tail end of the binding wire which is wound and bound to be made into a small braid shape.

A wire cutter 14 is arranged between the movable cutting arm 9 and the fixed cutting arm 18. Two cutting openings of the wire scissors 14 are respectively arranged on the movable scissor arm 9 and the fixed scissor arm 18. The main function of the wire cutters 14 is to cut.

The application also provides a using method of the binding wire binding device, which comprises the following steps:

the method comprises the following steps: the rotating shaft is sleeved into the sleeve of the embedding device, the top end of the rotating shaft is contacted with the rotating ball disc in the sleeve, the locking fixing screw is inserted into the positioning hole, and the fixing screw is locked;

step two: screwing the fixed shear arm into a screw hole above the nesting device cover through a threaded screw;

step three: inserting pin screws into the first through hole and the second through hole in sequence, and rotatably connecting the movable shear arm and the fixed shear arm;

step four: adjusting concealed screws on the movable shearing arm and the fixed shearing arm to enable the tightness of the diamond spring and the arc spring to reach a preset value;

step five: using a steel wire scissors to cut a section of binding wire, inserting one end of the binding wire into the round pin hole, then coiling the binding wire along the rotating shaft, and taking out the coiled binding wire from the rotating shaft and the round pin hole after the coiling is finished;

step six: fixing one end of a binding wire on a device to be bound, sleeving the other end of the binding wire into a semicircular winding hole with an opening, and rotating the nesting device to drive the binding wire to rotate so as to wind and bind the device;

step seven: after winding and binding are finished, two tail ends of a binding wire are placed into a rectangular binding hole with an opening to be twisted into a small braid shape, and redundant small braid tail ends are cut off by using a steel wire cutter;

step eight: the binding wire wound is placed between the arc-shaped spring of the movable shearing arm and the arc-shaped spring on the fixed shearing arm by clamping the handle, and the diamond-shaped spring and the arc-shaped spring on the movable shearing arm and the fixed shearing arm are used for shaping and flattening the wound binding part.

If binding special equipment, e.g. of twisted wire typeThe pull wire is required to be made in advance when the tail end of the pull wire is bound

And (6) performing shape processing. One end of the binding wire is processed into a shape of a long round tube 16 matched with a semicircular arc-shaped supporting strip 17

And (4) shaping. The method comprises the following specific steps: the other end of the binding wire is straight to a certain length and inserted into a small section in the long round tube 16, the exposed proper position of the binding wire outside the long round tube 16 is made into a semicircular arc shape on the semicircular arc support bars 17, and after the binding wire is taken out, one end of the binding wire is formed

And (4) shaping. Will be provided with

The semicircular arc of the shape is buckled on the position of the steel strand stay wire to be bound, and the steel strand stay wire is wound and bound.

The binding wire binding device has the binding wire and coil function, when in operation, the binding wire is coiled on the rotating shaft, the rotating shaft rotates in the nesting device, and in order to prevent the binding wire from sliding on the rotating shaft, the round pin hole is arranged, and one end of the binding wire can be inserted into the round pin hole and fixed; a rectangular transmission shaft can be inserted into the center position below the rotating shaft, and the transmission shaft can be connected with rotating devices such as an electric drill and the like to drive the rotating shaft to rotate, so that the speed of coiling the binding wire on the rotating shaft is increased; the steel wire scissors are arranged on the movable shearing arm and the fixed shearing arm, and the binding wires can be sheared by forcibly kneading the handles; the movable shearing arm and the fixed shearing arm are provided with the diamond springs and the arc springs, so that the wound binding wires can be corrected, and the process attractiveness is improved; the movable shear arm is provided with a long-strip circular tube and a semicircular arc-shaped supporting strip which can be used for processing binding wires into

Shaping; the fixed scissor arm is provided with a semicircular winding hole with an opening, and a binding wire can be sleeved in the semicircular winding hole to bind and wind the equipment; the fixed shear arm is provided with a long part with an openingThe square forming hole can be used for binding and fastening the tail end of the binding wire after the binding wire is bound. The utility model provides a ligature ware is rational in infrastructure, can the fast assembly dismantle, uses stably, reliably, and volume, size are suitable, and mechanical strength, hardness accord with work and use needs, have improved the operating efficiency who acts as go-between, ligature, wire winding. Nowadays, the device is widely applied in the field of electric power engineering construction and maintenance.

Although the present application has been described in detail with reference to the accompanying drawings in conjunction with the preferred embodiments, the present application is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present application by those skilled in the art without departing from the spirit and scope of the present application, and these modifications or substitutions are intended to be covered by the present application/any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (9)

1. A binding wire binding device is characterized in that: the wire shearing device comprises a nesting device (1), a rotating shaft (4) and a shearing assembly, wherein one end of the rotating shaft (4) is rotatably connected with the nesting device (1), a positioning part is arranged between the nesting device (1) and the rotating shaft (4), the shearing assembly is fixed at one end, far away from the rotating shaft, of the nesting device, the shearing assembly comprises a movable shearing arm (9) and a fixed shearing arm (18) which are rotatably connected, one end of the fixed shearing arm (18) is fixedly connected with the nesting device (1), a collecting wire hole is formed in the fixed shearing arm (18), a forming part is arranged on the movable shearing arm (9), and a steel wire shear (14) is arranged between the movable shearing arm (9) and the fixed shearing arm (18);

the nesting device (1) comprises a sleeve and a nesting device cover (2), the nesting device cover (2) is fixed at one end of the sleeve, a ball rotating disc (7) is arranged at one end, connected with the sleeve, of the nesting device cover (2), the rotating shaft (4) is rotatably connected with the ball rotating disc (7), and the fixed shear arm (18) is fixedly connected with the nesting device cover (2).

2. The binding-wire ligature according to claim 1, characterized in that: move and cut arm (9) and include handle (10), first connecting portion and first shearing portion, handle (10) link to each other through first connecting portion with first shearing portion, be equipped with first through-hole on the first connecting portion, be equipped with first spring unit in the first shearing portion, the shaping part sets up on first connecting portion, the shaping part is including rectangular pipe (16) and semicircle arc type support bar (17) that set gradually.

3. The binding-wire ligature according to claim 1, characterized in that: fixed arm (18) of cutting includes second connecting portion and second shearing portion, and the second shearing portion sets up with first shearing portion relatively, be equipped with the second through-hole that suits with first through-hole on the second connecting portion, be equipped with pin screw (15) in first through-hole and the second through-hole, first connecting portion rotate with the second connecting portion through pin screw (15) and be connected, second connecting portion and nested device lid (2) fixed connection, be equipped with second spring assembly in the second shearing portion, second spring assembly sets up with first spring assembly relatively, the length of second shearing portion is greater than the length of first shearing portion, collect the one end that the line hole set up and keep away from the second connecting portion on the second shearing portion, collect the line hole and include area open-ended semicircle winding hole (19) and area open-ended ligature rectangle hole (20).

4. The binding-wire ligature according to claim 2, characterized in that: first spring unit includes diamond spring (12) and arc spring (13), the quantity of diamond spring (12) is a plurality of, and a plurality of diamond spring (12) set up along the length direction interval of first shearing portion, and the one end of each diamond spring (12) is through secretly adorning screw and second shearing portion fixed connection, and the other end of each diamond spring (12) passes through arc spring (13) and links to each other.

5. The binding-wire ligature according to claim 1, characterized in that: the rotating shaft (4) is provided with a thread end fixing piece, and the thread end fixing piece is provided with a round pin hole (6).

6. The binding-wire ligature according to claim 1, characterized in that: the sleeve is provided with a positioning hole, and the positioning piece comprises a fixing screw (5) arranged in the positioning hole.

7. The binding-wire ligature according to claim 1, characterized in that: one end of the rotating shaft (4) far away from the nesting device (1) is provided with a transmission shaft (8), one end of the transmission shaft (8) is fixedly connected with the rotating shaft (4), and the other end of the transmission shaft is a connecting end.

8. The binding-wire ligature according to claim 1, characterized in that: the nesting device is characterized in that a screw hole (3) is formed in the nesting device cover (2), a threaded screw (21) is connected to the inner thread of the screw hole (3), and one end of the fixed shear arm (18) is fixedly connected with the threaded screw (21).

9. A method of using a binding-wire ligature according to any of claims 1-8, comprising the steps of:

the method comprises the following steps: the rotating shaft is sleeved into the sleeve of the embedding device, the top end of the rotating shaft is contacted with the rotating ball disc in the sleeve, the locking fixing screw is inserted into the positioning hole, and the fixing screw is locked;

step two: screwing the fixed shear arm into a screw hole above the nesting device cover through a threaded screw;

step three: inserting pin screws into the first through hole and the second through hole in sequence, and rotatably connecting the movable shear arm and the fixed shear arm;

step four: adjusting concealed screws on the movable shearing arm and the fixed shearing arm to enable the tightness of the diamond spring and the arc spring to reach a preset value;

step five: using a steel wire scissors to cut a section of binding wire, inserting one end of the binding wire into the round pin hole, then coiling the binding wire along the rotating shaft, and taking out the coiled binding wire from the rotating shaft and the round pin hole after the coiling is finished;

step six: fixing one end of a binding wire on a device to be bound, sleeving the other end of the binding wire into a semicircular winding hole with an opening, and rotating the nesting device to drive the binding wire to rotate so as to wind and bind the device;

step seven: after winding and binding are finished, two tail ends of a binding wire are placed into a rectangular binding hole with an opening to be twisted into a small braid shape, and redundant small braid tail ends are cut off by using a steel wire cutter;

step eight: the binding wire wound is placed between the arc-shaped spring of the movable shearing arm and the arc-shaped spring on the fixed shearing arm by clamping the handle, and the diamond-shaped spring and the arc-shaped spring on the movable shearing arm and the fixed shearing arm are used for shaping and flattening the wound binding part.

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