CN112193478A - Device for forming and distributing iron wires - Google Patents

Abstract

The invention relates to a device for forming and distributing iron wires, which comprises a wire distributing mechanism for distributing the iron wires, wherein the wire distributing mechanism comprises a guide groove for guiding the iron wires, a vacant wire outlet part is arranged in the middle of the guide groove, one side of the wire outlet part is provided with a wire ejecting mechanism for ejecting or extruding the iron wires in the guide groove from the wire outlet part for forming, and the other side of the wire outlet part is provided with a wire fixing frame for fixing a formed U-shaped iron wire piece. The equipment is good to the shaping of iron wire line, pegs graft to the efficient on the piston ring, and automatic level is high, convenient to use.

Description

Device for forming and distributing iron wires

Technical Field

The invention relates to the field of piston ring production and processing, in particular to a device for forming and distributing iron wires.

Background

The piston ring is a core component in a fuel engine, the piston ring and a cylinder wall and the like complete the sealing of fuel gas, during the heat treatment processing of the piston ring, a single piston ring needs to be stacked into a column shape, then the piston ring is bundled twice by using iron wires, the existing mode adopts manual stacking and bundling of the piston ring, the output efficiency is low, meanwhile, most of efforts of workers are consumed for twice bundling, the processing requirements of the piston ring cannot be met, and therefore new equipment needs to be adopted to solve the problems.

Disclosure of Invention

The invention aims to provide a device for forming and distributing iron wires, which has high forming efficiency and high automation level.

The technical scheme adopted by the invention is as follows.

The utility model provides a device for being directed at iron wire shaping and cloth silk, is including the cloth silk mechanism who lays the iron wire, and cloth silk mechanism includes the guide groove that leads the iron wire and send, and the middle part in guide groove is provided with the play silk portion of vacancy form, goes out silk portion one side and is provided with the jackscrew mechanism that is used for leading the iron wire in the groove ejecting or extrusion moulding from a silk portion, and the opposite side of going out silk portion is provided with the fixed silk frame that is used for fixing the U type iron wire spare after the shaping.

Preferably, be provided with the fixed silk unit on the fixed silk frame, the fixed silk unit including the fixed silk mouth, including two first, the second fixed silk portion of arranging relatively, the one end of first, the second fixed silk portion is connected as an organic wholely, the other end of first, the second fixed silk portion is the separation form and arranges and the mouth that presss from both sides that forms between the two corresponds a silk portion and arranges, be provided with the first iron silk groove that is used for holding the iron wire on the corresponding inside wall face of first, the second fixed silk portion, first iron silk groove is arranged along the length direction of first, the second fixed silk portion.

Preferably, the inner side wall surface of the first and/or second wire fixing part is provided with a recess part for being recessed towards the side wall body, the wire groove is recessed at the recess part, and the wire jacking mechanism enables the wire to bulge outwards at the recess part to form a bulge part.

Preferably, the first and second wire fixing parts are provided with a concave part on the inner side wall surface.

Preferably, the jackscrew mechanism includes jackscrew portion, and jackscrew portion is along f direction slidable mounting, and the crossing form in the groove length direction of f direction and guide groove arranges, and jackscrew portion is rectangular shape, and the shape of jackscrew portion and the first, the second decide the mouth shape phase-match that presss from both sides between the silk portion, is provided with the second iron wire groove on the jackscrew portion, and first, the second iron wire groove corresponds the setting.

Preferably, the end of the jackscrew part close to the fixed-wire part is arranged in a semicircle.

Preferably, the jackscrew is provided with a movable protruding part, the movable protruding part is arranged corresponding to the recessed part, the movable protruding part is movably mounted, the protruding part is in two states, and the first state is: the movable protruding part lifts the recessed part, so that the iron wire is attached to the first iron wire groove at the recessed part and is bent; the second state is: the movable protrusion completely exits the avoidance position of the recess.

Preferably, the movable protruding portion is formed by a movable block arranged on the jackscrew portion, an arc-shaped portion matched with the recessed portion is arranged on the movable block, the movable block is movably installed along the groove length direction of the guide and feed groove, and the movable block is connected with a movable block adjusting assembly for adjusting the movable block to move.

Preferably, the movable block adjusting assembly comprises an adjusting rod which is arranged on the jackscrew part in a sliding mode along the direction f, the adjusting rod and the movable block form wedge surface driving fit, and when the adjusting rod moves towards one side close to the fixed wire frame, the adjusting rod abuts against the movable protruding portion on the movable block and is changed into a first state from a second state.

Preferably, the fixed wire frame is rotatably installed on the fixed wire installation frame, the fixed wire installation frame is provided with a fixed wire frame adjusting mechanism for adjusting the fixed wire frame to rotate, each fixed wire unit is arranged on the fixed wire frame and arranged at intervals around the circumferential direction of the rotation center of the fixed wire frame, and the fixed wire frame adjusting mechanism adjusts each fixed wire unit to be arranged corresponding to the wire outlet part.

Preferably, the fixed wire mounting rack is movably mounted on the rack and is connected with the mounting rack adjusting mechanism.

Preferably, the fixed wire mounting rack is rotatably mounted on the rack, and the fixed wire racks are arranged at intervals along the circumferential direction of the rotation center of the fixed wire mounting rack.

Preferably, the fixed wire mounting frame is rotatably mounted on the fixed wire mounting seat, and the fixed wire mounting seat is movably mounted on the machine frame along the direction f.

Preferably, the guide grooves on two outer sides of the wire outlet part are respectively provided with a first wire supply component and a second wire supply component, when the wire ejecting mechanism ejects wires, the wire feeding directions of the first wire supply component and the second wire supply component are opposite and all point to the wire outlet part, and when the iron wires are arranged in the guide grooves, the wire feeding directions of the first wire supply component and the second wire supply component are the same.

Preferably, the first and second yarn supply assemblies are formed by guide roller sets.

Preferably, the wire outlet part is provided with a fixed wire fixing part arranged along the wire outlet part, the fixed wire fixing part is provided with a third wire groove arranged along the first wire groove on the fixed wire unit, the fixed wire mounting frame is rotatably mounted on the fixed wire mounting seat, and the fixed wire mounting seat is movably mounted on the rack along the direction f.

The invention has the technical effects that: through the cooperation of the fixed thread frame and the jackscrew part, the iron wire line that can carry the guide groove is formed into the U line, conveniently plugs in the piston ring, and simultaneously will decide the thread frame movable mounting in the frame for when one of them department decides the thread unit corresponding with piston ring post and plug in and establish piston ring post, jackscrew part can continue shaping U type iron wire line in other fixed thread frames, and machining efficiency is high. The equipment is good to the shaping of iron wire line, pegs graft to the efficient on the piston ring, and automatic level is high, convenient to use.

Drawings

Fig. 1 is an isometric view of a piston ring strapping apparatus provided in accordance with an embodiment of the present application;

figure 2 is another perspective view of a piston ring binding apparatus according to an embodiment of the present application;

FIG. 3 is a top view of the structure of FIG. 1;

FIG. 4 is a front view of the structure of FIG. 2;

FIG. 5 is a structural view from the left of FIG. 1;

FIG. 6 is a structural view of the assembly of the wire fixing frame and the guide groove in the embodiment of the present application;

FIG. 7 is a structural view of the assembly of the jackscrew in an embodiment of the present application;

FIG. 8 is a structural view of a jackscrew according to an embodiment of the present application;

FIG. 9 is a structural view of a wire fixing frame in the embodiment of the present application;

FIG. 10 is a structural view of the assembly of the wire fixing frame and the wire fixing mounting frame in the embodiment of the present application;

FIG. 11 is a structural view of the movable clamp assembly of the embodiment of the present application;

FIG. 12 is a structural view of the assembly of the second clamping member and the arc-shaped gathering plate in the embodiment of the present application;

FIG. 13 is a structural view from above of FIG. 12;

FIG. 14 is a structural view of the assembly of the first clamping member in an embodiment of the present application;

fig. 15 is a top view of fig. 14.

The corresponding relation of all the reference numbers is as follows: 100-frame, 110-conveying line, 120-tooling plate, 121-through hole, 122-vacancy part, 130-discharging frame, 131-constraint plate, 132-round top plate, 133-protrusion part, 140-first feeding mechanism, 150-second feeding mechanism, 141-vibration trough, 142-guide trough, 200-fixed wire mounting frame, 210-mounting frame adjusting mechanism, 300-fixed wire frame, 310-fixed wire frame adjusting mechanism, 320-first iron wire groove, 321-depression part, 400-guide trough, 410-wire outlet part, 420-guide roller group, 430-cutting knife, 500-top wire part, 510-second iron wire groove, 520-movable block, 530-adjusting rod, 600-first clamping piece, 700-second clamping piece, 800-arc gathering plate, 900-movable clamping plate and 1000-collecting frame.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention will now be described in detail with reference to the following examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

Referring to fig. 1 to 15, an embodiment of the present application provides a piston ring bundling apparatus, which is intended to solve the problem of low efficiency caused by manual stacking and bundling when stacking and bundling piston rings before heat treatment of the piston rings in the prior art.

As shown in fig. 1 to 15, the technical solution of the embodiment of the present application includes a conveying line 110 and a material loading device sequentially arranged on the conveying line 110 at an interval and used for supporting and loading piston rings, the conveying line 110 is sequentially provided with a feeding station, a first bundling station, a second bundling station and an unloading station, the feeding station is provided with a feeding device for laying piston rings on a material loading unit to enable the piston rings to be arranged in a stacked manner, the first bundling station is provided with a wire laying device for laying iron wires and binding the iron wires and a first bundling device for binding the piston rings on the material loading unit, and the second bundling station is provided with a second bundling device for secondarily bundling iron wire heads bundled by the first bundling device.

The working principle of the implementation is as follows: the material loading device comprises a tooling plate 120 and a material discharging frame 130 arranged on the tooling plate 120, the material discharging frame 130 comprises a restraining plate 131 which is vertically arranged and has an L-shaped cross section, the tooling plate 120 is sequentially arranged on a conveying line 110 at intervals, when an end material ring and a piston ring fall from a material guide groove 142, a material ejecting part is driven by a drive component A to eject from a through hole 121 on the tooling plate 120, the falling piston ring and the end material ring are supported and gradually move downwards, so that the piston ring and the end material ring form a stacked piston ring column on the restraining plate 131, a first feeding mechanism and a second feeding mechanism arranged on a rack 100 firstly lay the end material ring on the restraining plate 131, then the piston ring is conveyed to the end material ring by the material guide groove 142 to form the stacked piston ring, then the end material ring is continuously laid on the restraining plate 131, and the formed piston ring column is driven by the tooling plate 120 on the conveying line 110 to move to a first bundling station, the fixed wire frames 300 are driven by the fixed wire mounting frame 200 to rotate, wherein the fixed wire frame 300 forming a U-shaped iron wire is driven by the fixed wire mounting frame 200 to rotate to correspond to a piston ring column on the tooling plate 120, while the fixed wire unit on the other fixed wire frame 300 is arranged corresponding to the wire outlet part 410, the guide roller set 420 in the guide and feed groove 400 guides and feeds the iron wire with fixed length, the iron wire is cut by the cutting knife 430 arranged on the guide and feed groove 400, the top wire part 500 arranged on the machine frame 100 is jacked upwards, the top wire part 500 moves upwards into the fixed wire frame 300, the iron wire with fixed length in the wire outlet part 410 in the middle of the guide and feed groove 400 is pressed into the first iron wire groove 320 in the fixed wire part, the iron wire with fixed length is formed into a U shape, and simultaneously, the movable block 520 movably arranged on the top wire part 500 and corresponding to the concave part 321 in the first iron wire groove 320 is connected with the adjusting rod 520 for adjusting the movement thereof, the adjusting rod 530 and the movable block 520 form a wedge surface driving fit, when the adjusting rod 530 moves towards one side close to the fixed wire frame 300, the movable block 520 lifts the recess 321, so that the first iron wire groove 320 at the iron wire joint recess 321 is bulged outwards to form a bulged part, when the adjusting rod 530 moves towards one side far away from the fixed wire frame 300, the movable block 520 completely exits the recess 321 and is at the abdicating position, the jackscrew part 500 exits from the fixed wire frame 300 to form a U-shaped iron wire, the fixed wire frame 300 forming the U-shaped iron wire is driven by the fixed wire mounting seat to be inserted downwards onto the piston ring column, the cylinder arranged on the frame 100 drives the first clamping piece 600 to move upwards, so that the first clamping piece 600 clamps the end part of the iron wire, meanwhile, the B driving component drives the first clamping piece 600 to rotate, the U-shaped iron wire is bound for the first time, after binding, the fixed wire mounting seat drives the fixed wire frame 300 to move away from the piston ring column, the first clamping piece 600 loosens the iron wire and moves downwards, after the completion, the tooling plate 120 continues to drive the piston ring column after the first bundling to move to the second bundling station, the C driving component arranged on the rack 100 drives the arc gathering plate 800 and the second clamping component to move upwards, so that the arc gathering plate 800 corresponds to the iron wire after the first bundling, the F driving component drives the arc gathering plate 800 to gather the iron wire after the first bundling, the second clamping component clamps the iron wire above the gathering cross point and is driven by the D driving component to rotate, the iron wire after the first bundling is bundled for the second time, after the completion, the second clamping component loosens the iron wire, meanwhile, the arc gathering plate 800 retreats and is driven by the C driving component to move downwards, the piston ring column after the two bundling is driven by the tooling plate 120 to continue to move and moves to the unloading station, the tied piston ring body is clamped and taken out from the constraint plate 131 by the movable clamping plate 900, and is conveyed into the material receiving frame 1000 on the machine frame 100, so that the unloading work is completed.

Further, as shown in fig. 1 to 5, the material loading device in this embodiment includes a tooling plate 120 and a material discharge frame 130 disposed on the tooling plate 120, the material discharge frame 130 includes a constraint plate 131 which is vertically disposed and has an L-shaped cross section, a through hole 121 which is disposed on the tooling plate 120 and facilitates binding of a piston ring is provided, a hole diameter of the through hole 121 is smaller than an inner diameter of the piston ring, a gap 122 for extending outward is disposed on a periphery of the through hole 121, the gap 122 and the constraint plate 131 are disposed at intervals in a staggered manner along a circumferential direction of a center of the through hole 121, and the piston ring is disposed in the constraint plate 131 in a stacked manner. Through the restraint plate 131 that sets up the cross section for the L type, the piston ring that falls from baffle box 142 and tip material ring fall to the minor face along the long limit that the cross section is the restraint plate 131 of L type on, the restriction portion is provided with three along the circumference interval of through-hole 121, supports piston ring and tip material ring, makes it form the sign indicating number and fold the form.

Further, as shown in fig. 1 to 5, the feeding device in this embodiment includes a first feeding mechanism 140 for feeding the piston ring into the discharge frame 130 and a second feeding mechanism 150 for feeding the end portion ring into the discharge frame 130, the first and second feeding mechanisms are oppositely disposed on the frame 100, the first and second feeding mechanisms respectively include a vibrating trough 141 for sorting the piston ring and the end portion ring and a material guiding trough 142 for feeding the sorted piston ring and the end portion ring, an outlet of the vibrating trough 141 corresponds to an inlet of the material guiding trough 142, an outlet of the material guiding trough 142 corresponds to an inlet of the discharge frame 130, and the piston ring and the end portion ring are horizontally conveyed in the material guiding trough 142. The first feeding mechanism and the second feeding mechanism which are arranged oppositely enable the constraint plate 131 to be firstly provided with end material rings, then the piston rings are stacked, and then the end material rings are continuously arranged on the piston rings to form piston ring columns.

Preferably, as shown in fig. 1 to 3, in the above-mentioned solution, an ejector for supporting a falling piston ring and an end material ring is provided on the frame 100 corresponding to the outlet of the material guiding chute 142, the ejector is movably mounted along the hole depth direction of the through hole 121, an a driving assembly for driving the ejector to move up and down is provided on the frame 100, the ejector includes a circular top plate 132, a protrusion 133 for supporting the piston ring and the end material ring is provided on an edge of the circular top plate 132, an outer diameter of the circular top plate 132 is smaller than an inner diameter of the through hole 121, an outer edge of the protrusion 133 extends to an outer side of the through hole 121, and the protrusion 133 is disposed corresponding to the hollow portion 122. When the end material ring and the piston ring fall from the material guiding groove 142, the material ejecting member is driven by the a driving assembly to eject from the through hole 121 on the tooling plate 120, and supports the falling piston ring and the end material ring and gradually moves downwards, so that the piston ring and the end material ring form a stacked piston ring column on the constraint plate 131.

Further, as shown in fig. 1 to 10, the wire distributing device in this embodiment includes a guide groove 400 for guiding a wire, a vacant wire outlet 410 is provided in the middle of the guide groove 400, a top wire 500 for ejecting or extruding the wire from the wire outlet 410 is provided on one side of the wire outlet 410, the top wire 500 is slidably mounted along the direction f, the direction f intersects with the groove length direction of the guide groove 400, the top wire 500 is in a long strip shape, a fixed wire frame 300 for fixing the formed U-shaped wire is provided on the other side of the wire outlet 410, and the top wire 500 and the fixed wire frame 300 are engaged with each other to form the U-shaped wire in the fixed wire frame 300.

The working principle of the embodiment is as follows: the fixed wire frame 300 is rotatably installed on the fixed wire installation frame 200, the fixed wire frame adjustment mechanism 310 for adjusting the fixed wire frame 300 to rotate is arranged on the fixed wire installation frame 200, the fixed wire installation frame 200 is movably installed on the rack 100, the fixed wire installation frame 200 is connected with the installation frame adjustment mechanism 210, each fixed wire unit is arranged on the fixed wire frame 300 and is arranged at intervals around the circumferential direction of the rotation center of the fixed wire frame 300, the fixed wire frame adjustment mechanism 310 adjusts each fixed wire unit to be arranged corresponding to the wire outlet part 410, the guide roller group 420 in the guide conveying groove 400 guides and conveys the fixed-length iron wire, the fixed-length iron wire is cut by the cutting knife 430 arranged on the guide conveying groove 400, the wire top part 500 is lifted upwards, the wire top part 500 is moved upwards into the fixed wire frame 300, so that the fixed-length iron wire in the wire outlet part 410 in the middle of the guide conveying groove 400 is pressed into the first iron wire groove 320 in the fixed wire part, and the fixed-length iron wire is molded into a U shape, meanwhile, through the movable block 520 movably mounted on the jackscrew 500 and corresponding to the recessed portion 321 in the first iron wire groove 320, the movable block 520 is connected with the adjusting rod 530 for adjusting the movable block to move, a wedge surface is formed between the adjusting rod 530 and the movable block 520 for driving and matching, when the adjusting rod 530 moves towards one side close to the fixed wire frame 300, the movable block 520 lifts the recessed portion 321, so that the first iron wire groove 320 at the iron wire attaching recessed portion 321 bulges outwards to form a bulging portion, when the adjusting rod 530 moves towards one side far away from the fixed wire frame 300, the movable block 520 completely exits from the recessed portion 321 at an avoiding position, the jackscrew 500 exits from the fixed wire frame 300, and a U-shaped iron wire is formed.

Preferably, as shown in fig. 1 to 10, the wire fixing frame 300 in the above solution is rotatably mounted on the wire fixing mounting frame 200, a wire fixing frame adjusting mechanism 310 for adjusting the wire fixing mounting frame 200 to rotate is disposed on the frame 100, each wire fixing unit is disposed on the wire fixing frame 300, the wire fixing units are circumferentially spaced around a rotation center of the wire fixing frame 300, the wire fixing frame adjusting mechanism 310 adjusts each wire fixing unit to be arranged corresponding to the wire outlet portion 410, the wire fixing mounting frame 200 is movably mounted on the frame 100, a mounting frame adjusting mechanism 210 for adjusting the wire fixing mounting frame 200 to move is disposed on the frame 100, and the wire fixing mounting frame 300 for forming the U-shaped iron wire is inserted into the stacked piston rings and the end material rings. The wire fixing frame 300 for forming the U-shaped iron wire is driven by the wire fixing mounting frame 200 to rotate, and when the wire fixing mounting frame rotates to correspond to the piston ring column on the tooling plate 120, the wire fixing mounting seat drives the wire fixing frame 300 for forming the U-shaped iron wire to be inserted on the piston ring column.

Further, as shown in fig. 14 and 15, the first binding device in this embodiment includes a binding unit disposed below the tooling plate 120, the binding unit is vertically transferred to the frame 100 and is disposed corresponding to the wire fixing frame 300, the binding unit includes a first clamping member 600 for clamping two ends of the U-shaped wire and a B driving assembly for driving the first clamping member 600 for clamping the U-shaped wire to rotate, and the B driving assembly cooperates with the first clamping member 600 to bind the U-shaped wire for the first time. When the wire fixing frame 300 for forming the U-shaped iron wire is driven by the mounting frame adjusting mechanism 210 to be inserted downwards to the piston ring column, the cylinder arranged on the frame 100 drives the first clamping piece 600 to move upwards, so that the first clamping piece 600 clamps the end part of the iron wire, and meanwhile, the B driving assembly drives the first clamping piece 600 to rotate, so that the U-shaped iron wire is bound for the first time.

Further, as shown in fig. 12 and 13, the second binding device in this embodiment includes a gathering component disposed below the tooling plate 120 and used for gathering the iron wires bound by the first binding device, the gathering component is disposed on the support plate, a C driving component for driving the support plate to ascend and descend is disposed on the machine frame 100, a second clamping member 700 for clamping the iron wires above the gathered intersection point is disposed on the support plate, a D driving component for driving the second clamping member 700 to rotate is disposed on the support plate, and the D driving component and the second clamping member 700 cooperate to bind the iron wires bound for the second time after the first binding. When the piston ring post after binding for the first time is carried the second and is tied up the station, the C drive assembly that sets up in frame 100 drives arc and gathers together board 800 and second centre gripping subassembly rebound for the arc gathers together board 800 and the iron wire after binding up for the first time is corresponding, F drive assembly drives arc and gathers together board 800 and gathers together the iron wire after binding up for the first time, the iron wire that the second centre gripping subassembly will gather together the crosspoint top carries out the centre gripping, and drive by D drive assembly and rotate, carry out the second time to tying up the iron wire after binding up for the first time.

Further, as shown in fig. 1 to 4 and fig. 11, in order to unload the piston ring column bundled twice, in this embodiment, a discharging device for discharging the piston ring body bundled twice after stacking and a material collecting frame 1000 for collecting the piston ring body are disposed at the discharging station, the discharging device includes a movable clamping plate 900 for clamping the piston ring body, a discharging frame for driving the movable clamping plate 900 to move is disposed on the frame 100, an E driving assembly for driving the movable clamping plate 900 to move is disposed on the discharging frame, and the E driving assembly drives the movable clamping plate 900 to take out the piston ring body from the material discharging frame 130 and place the piston ring body into the material collecting frame 1000.

Preferably, as shown in fig. 1 to 3, the bending openings of the restriction plates 131 point to the center of the through hole 121, three restriction plates 131 are provided at intervals along the circumferential direction of the through hole 121, and piston rings are arranged between the restriction plates 131 in a stacked manner. Through three circumference intervals setting along through-hole 121 restraint plate 131, support piston ring and end material ring, form the pile.

Preferably, as shown in fig. 4 and 6, in order to convey the wire, the guide rollers 420 for conveying the wire are respectively provided on the guide grooves 400 on both outer sides of the wire discharge portion 410.

Further, as shown in fig. 1 to 6, 9 and 10, the wire fixing frame 300 in the present embodiment includes a wire fixing portion, a first iron wire groove 320 for accommodating an iron wire is provided on an inner side wall surface of the wire fixing portion, the first iron wire groove 320 is arranged along a body length direction of the wire fixing frame 300, a second iron wire groove 510 is provided on the top wire portion 500, and the first and second iron wire grooves 510 are arranged correspondingly. When the jack portion 500 is pushed into the stationary frame 300, the iron wire is pressed into the first iron wire groove 320 in the second iron wire groove 510, thereby forming a U-shaped iron wire.

Preferably, as shown in fig. 9, in the above solution, a recess 321 for recessing toward the sidewall body is provided on the inner sidewall surface of the wire fixing portion, and the wall surface of the iron wire groove is recessed at the recess 321. Through the arrangement of the concave part 321, the U-shaped iron wire is enabled to bulge outwards at the concave part 321 to form a bulge part, and after the top wire part 500 is withdrawn from the fixed wire frame 300, the U-shaped iron wire can stay in the fixed wire frame 300 and cannot fall off.

Preferably, as shown in fig. 8, in order to bulge the recess 321 in the first iron wire groove 320 to form a bulge, in the above embodiment, a movable block 520 is movably mounted on the top wire portion 500, the movable block 520 is disposed corresponding to the recess 321, the movable block 520 is connected to a movable block 520 adjusting component for adjusting the movable block 520 to move, the movable block 520 adjusting component includes an adjusting rod 530 slidably mounted on the top wire portion 500 along the f direction, a wedge surface drive fit is formed between the adjusting rod 530 and the movable block 520, when the adjusting rod 530 moves towards a side close to the fixed wire frame 300, the movable block 520 lifts the recess 321, so that the iron wire is attached to the first iron wire groove 320 at the recess 321 to be bent, and when the adjusting rod 530 moves towards a side far from the fixed wire frame 300, the movable block 520 completely exits the recess 321 to be in the avoiding position.

Preferably, as shown in fig. 4 and 6, in the above-mentioned solution, a cutting knife 430 is provided on the guide groove 400, and the cutting knife 430 conveys the iron wire with a fixed length to the guide roller set 420 for cutting, so that the top thread part 500 is pushed into the fixed thread part. The fixed-length iron wire can be cut off when the guide roller group guides and feeds the iron wire through the cutting knife 430.

Further, as shown in fig. 12 and 13, the gathering assembly in this embodiment includes a gathering bracket disposed on the support plate, an arc-shaped gathering plate 800 corresponding to the iron wire bound by the first binding device is disposed on the gathering bracket, the arc-shaped gathering plate 800 is movably mounted on the gathering bracket, and an F driving assembly for driving the arc-shaped gathering plate 800 to move is disposed on the gathering bracket. F drive assembly drives the arc and gathers together board 800 and gathers together the iron wire after tying up for the first time, the iron wire that second centre gripping subassembly will gather together the crosspoint top carries out the centre gripping, and drive by D drive assembly and rotate, tie up the iron wire after tying up for the first time for the second time, second centre gripping subassembly loosens the iron wire after accomplishing, the arc gathers together board 800 simultaneously and rolls back and drive the downstream by C drive assembly, make the piston ring post after tying up for twice to continue to move by frock board 120 drive.

Further, as shown in fig. 1 to 10, in order to form a U-shaped iron wire for bundling the piston ring column, the present embodiment further includes a device for forming and distributing the iron wire, including a wire distributing mechanism for distributing the iron wire, the wire distributing mechanism includes a guiding groove 400 for guiding the iron wire, a vacant wire outlet portion 410 is disposed in the middle of the guiding groove 400, a wire pushing mechanism for pushing out or extruding the iron wire in the guiding groove 400 from the wire outlet portion 410 is disposed on one side of the wire outlet portion 410, and a wire fixing frame 300 for fixing the formed U-shaped iron wire is disposed on the other side of the wire outlet portion 410.

The working principle of the embodiment is as follows: the fixed wire frame 300 is rotatably installed on the fixed wire installation frame 200, the fixed wire frame adjustment mechanism 310 for adjusting the fixed wire frame 300 to rotate is arranged on the fixed wire installation frame 200, the fixed wire installation frame 200 is movably installed on the rack 100, the fixed wire installation frame 200 is connected with the installation frame adjustment mechanism 210, each fixed wire unit is arranged on the fixed wire frame 300 and is arranged at intervals around the circumferential direction of the rotation center of the fixed wire frame 300, the fixed wire frame adjustment mechanism 310 adjusts each fixed wire unit to be arranged corresponding to the wire outlet part 410, the guide roller group 420 in the guide conveying groove 400 guides and conveys the fixed-length iron wire, the fixed-length iron wire is cut by the cutting knife 430 arranged on the guide conveying groove 400, the wire top part 500 is lifted upwards, the wire top part 500 is moved upwards into the fixed wire frame 300, so that the fixed-length iron wire in the wire outlet part 410 in the middle of the guide conveying groove 400 is pressed into the first iron wire groove 320 in the fixed wire part, and the fixed-length iron wire is molded into a U shape, meanwhile, through the movable block 520 movably installed on the jackscrew 500 and corresponding to the recess 321 in the first iron wire groove 320, the movable block 520 is connected with the adjusting rod 530 for adjusting the movement of the movable block, the wedge surface between the adjusting rod 530 and the movable block 520 is in driving fit, when the adjusting rod 530 moves towards one side close to the fixed wire frame 300, the movable block 520 lifts the recess 321, so that the first iron wire groove 320 where the iron wire is attached to the recess 321 bulges outwards to form a bulge, when the adjusting rod 530 moves towards one side far away from the fixed wire frame 300, the movable block 520 completely exits from the recess 321 at an avoidance position, the jackscrew 500 exits from the fixed wire frame 300 to form a U-shaped iron wire, after forming, the fixed wire frame 300 for forming the U-shaped iron wire is driven by the fixed wire 200 to rotate, when the mounting frame rotates to correspond to the piston ring column on the tooling plate 120, the fixed wire mounting base drives the fixed wire frame 300 for forming the U-shaped iron wire to be inserted on the piston ring column, the wire is clamped by the first clamping piece 600 arranged on the frame 100, and the wire is bound on the piston ring column after the first clamping piece 600 rotates.

Further, as shown in fig. 1 to 10, a wire fixing unit is disposed on the wire fixing frame 300 in the above-mentioned solution, the wire fixing unit includes a wire fixing opening, and includes a first wire fixing portion and a second wire fixing portion which are disposed oppositely, one end of the first wire fixing portion and one end of the second wire fixing portion are connected into a whole, the other end of the first wire fixing portion and the other end of the second wire fixing portion are disposed separately, a clamping opening formed between the first wire fixing portion and the second wire fixing portion is disposed corresponding to the wire outlet portion 410, a first iron wire groove 320 for accommodating an iron wire is disposed on an inner side wall surface corresponding to the first wire fixing portion and the second wire fixing portion, and the first iron wire groove 320 is disposed along a length direction of the first wire fixing portion and the second wire fixing portion. One end of the first fixed wire part and one end of the second fixed wire part are connected into a whole, the other end of the first fixed wire part and the second fixed wire part are arranged in a separated mode, a clamping opening formed between the first fixed wire part and the second fixed wire part is arranged corresponding to the wire outlet part 410 to form a U shape, a first iron wire groove 320 used for containing iron wires is arranged on the inner side wall face corresponding to the first fixed wire part and the second fixed wire part, and when the jackscrew part 500 is jacked between the first fixed wire part and the second fixed wire part, the iron wires are pressed into the first iron wire groove 320 to form the U shape.

Further, as shown in fig. 9, a recess 321 for recessing toward the sidewall body is disposed on an inner sidewall surface of the first and/or second wire fixing portion in the present embodiment, the wire groove is recessed at the recess 321, and the wire is bulged outward at the recess 321 by the wire jacking mechanism to form a bulge. Through the depressed part 321 that sets up and the movable block 520 that suits with depressed part 321 that sets up on jackscrew portion 500, when jackscrew portion 500 pushes into in the fixed thread frame 300, movable block 520 promotes depressed part 321, make the first iron wire groove 320 of iron wire laminating depressed part 321 department buckle, make the iron wire outwards bulge in depressed part 321 department and form the portion of bulging, when jackscrew portion 500 withdraws from fixed thread frame 300 outside, make the U type iron wire line that the shaping was out can stop in the first iron wire groove 320 of fixed thread portion, when fixed thread frame 300 rotates and fixed thread mounting frame 200 removes, U type iron wire line can not drop out from the first iron wire groove 320 of fixed thread portion.

Preferably, as shown in fig. 9, in order to prevent the formed U-shaped iron wire from falling from the first iron wire groove 320, the inner side wall surfaces of the first and second wire fixing portions in the above solution are provided with a recess 321.

Further, as shown in fig. 8, the jackscrew mechanism in this embodiment includes a jackscrew 500, the jackscrew 500 is slidably installed along the direction f, the direction f is intersected with the groove length direction of the guide groove 400, the jackscrew 500 is in a long strip shape, the shape of the jackscrew 500 matches with the shape of the clamping opening between the first and second fixed screw parts, a second iron wire groove 510 is provided on the jackscrew 500, and the first and second iron wire grooves 510 are correspondingly provided. The working principle of the embodiment is as follows: the rack 100 is provided with a driving motor, the jackscrew 500 is provided with a rack, the output end of the driving motor and the rack form a gear-rack transmission mechanism, and when the adjusting mechanism of the fixed-wire rack 300 adjusts the arrangement of each fixed-wire unit corresponding to the wire outlet 410, the driving motor drives the rack to move upwards, so that the jackscrew 500 is jacked into the fixed-wire rack 300 to form the U-shaped iron wire.

Preferably, as shown in fig. 8, in order to form the wire conveyed in the guide groove 400 into a U-shaped wire rod, the end of the top thread part 500 near the wire fixing part in the above solution is formed into a semicircular shape.

Further, as shown in fig. 8 and 9, the jackscrew 500 of the present embodiment is provided with a movable protrusion 133, the movable protrusion 133 is disposed corresponding to the recess 321, the movable protrusion 133 is movably mounted, and the protrusion 133 is in two states, the first state is: the movable protrusion 133 lifts the recess 321, so that the iron wire is attached to the first iron wire groove 320 at the recess 321 to be bent; the second state is: the movable protrusion 133 is completely withdrawn from the escape position of the recess 321.

The working principle of the embodiment is as follows: the movable protrusion 133 is formed by a movable block 520 disposed on the top wire 500, the movable block 520 is adapted to the recess 321 of the first iron wire groove 320, an adjusting rod 530 that drives the movable block 520 to move through wedge surface driving and matching is disposed on the top wire 500, a driving cylinder that drives the adjusting rod 530 to move is disposed at the bottom of the top wire 500, when the driving motor drives the top wire 500 to move into the fixed wire frame 300, the driving cylinder drives the adjusting rod 530 to move upwards, so that the movable block 520 that drives and matches with the wedge surface of the adjusting rod 530 protrudes out of the top wire 500 and is pushed into the recess 321 in the first iron wire groove 320 to form an outward-bulging portion, after the driving cylinder drives the adjusting rod 530 to retreat, the movable block 520 retreats into the top wire 500 through a connecting spring disposed on the top wire 500, the driving motor drives the top wire 500 to retreat from the fixed wire frame 300, so that the iron wire is formed into a U-shaped iron wire in the stationary frame 300.

Preferably, as shown in fig. 8, the movable protrusion 133 in the above solution is formed by a movable block 520 disposed on the top thread portion 500, an arc-shaped portion is disposed on the movable block 520 and matches with the recess 321, the movable block 520 is movably installed along the length direction of the guiding groove 400, and the movable block 520 is connected to an adjusting component of the movable block 520 for adjusting the movable block 520 to move. When the U-shaped iron wire is molded in the wire fixing frame 300 through the movable block 520 corresponding to the concave part 321, a bulge part bulging outwards is formed at the concave part 321, and the molded iron wire is prevented from falling off from the wire fixing frame 300.

Preferably, as shown in fig. 8, the adjusting assembly of the movable block 520 in the above-mentioned embodiment includes an adjusting rod 530 slidably mounted on the top thread portion 500 along the direction f, the adjusting rod 530 and the movable block 520 form a wedge surface driving fit, and when the adjusting rod 530 moves toward the side close to the wire fixing frame 300, the movable protrusion 133 abutting against the movable block 520 changes from the second state to the first state. After the driving motor drives the jackscrew 500 to move to the fixed screw frame 300, the driving cylinder drives the adjusting rod 530 upwards to move, so that the movable block 520 matched with the wedge surface of the adjusting rod 530 protrudes out of the jackscrew 500 and jacks into the concave part 321 in the first iron wire groove 320 to form an outwards-bulged bulge part, after the completion, the driving cylinder drives the adjusting rod 530 to retreat, the movable block 520 retreats to the jackscrew 500 through the connecting spring arranged on the jackscrew 500, and the driving motor drives the jackscrew 500 to retreat from the fixed screw frame 300.

Further, as shown in fig. 10, in order to make each fixed wire unit correspond to the wire outlet 410 in the middle of the guiding groove 400, the fixed wire frame 300 in this embodiment is rotatably mounted on the fixed wire mounting frame 200, the fixed wire frame adjusting mechanism 310 for adjusting the fixed wire frame 300 to rotate is disposed on the fixed wire mounting frame 200, each fixed wire unit is disposed on the fixed wire frame 300, the fixed wire units are disposed at intervals around the circumference of the rotation center of the fixed wire frame 300, and the fixed wire frame 300 adjusting mechanism adjusts each fixed wire unit to be disposed corresponding to the wire outlet 410.

Further, as shown in fig. 1 to 10, the wire fixing mounting bracket 200 of the present embodiment is movably mounted on the frame 100, and the wire fixing mounting bracket 200 is connected to the mounting bracket adjusting mechanism 210. When the fixed wire frame 300 with the formed U-shaped iron wire line is adjusted to correspond to the piston ring column through the fixed wire frame adjusting mechanism 310, the fixed wire mounting base drives the fixed wire frame 300 to be inserted downwards onto the piston ring column, so that the first clamping piece 600 can perform first binding on the piston ring column.

Preferably, as shown in fig. 1 to 10, in order to adjust the wire fixing frame 300 to correspond to the piston ring column, the wire fixing frame 200 in the present embodiment is rotatably mounted on the frame 100, and the wire fixing frames 300 are arranged at intervals along the circumferential direction of the rotation center of the wire fixing frame 200.

Preferably, as shown in fig. 1 to 10, in order to enable the wire fixing frame 300 to be conveniently inserted into the piston ring column, the wire fixing mounting frame 200 in this embodiment is rotatably mounted on a wire fixing mounting base, and the wire fixing mounting base is movably mounted on the machine frame 100 along the direction f.

Further, as shown in fig. 6, the guide slots 400 on both outer sides of the wire outlet portion 410 in this embodiment are respectively provided with a first wire supply assembly and a second wire supply assembly, when the wire ejecting mechanism ejects the wire, the wire feeding directions of the first wire supply assembly and the second wire supply assembly are opposite and both directed to the wire outlet portion 410, and when the iron wire is arranged in the guide slot 400, the wire feeding directions of the first wire supply assembly and the second wire supply assembly are the same. The working principle of the embodiment is as follows: the first and second wire supply assemblies are formed by a guide roller set 420, the guide roller set 420 rotates in the same direction to convey iron wires into the guide and feed groove 400, the iron wires are cut off by a cutting knife 430 on the guide and feed groove 400 when conveyed to a fixed length, and when the wire ejecting part 500 ejects upwards, the guide roller set 420 rotates relatively to enable the iron wires to be ejected into the fixed wire frame 300 to be molded.

Preferably, as shown in fig. 6, the first and second yarn feeding assemblies in the above scheme are formed by a guide roller set 420. The guide groove 400 is provided with a motor for driving the guide roller group 420 to rotate, and when the guide roller group 420 rotates, the wire is conveyed.

Further, as shown in fig. 1 to 10, in order to enable the wire fixing frame 300 to be conveniently inserted into the piston ring column, a fixed wire fixing portion arranged along the wire fixing portion is disposed at the wire outlet portion 410 in this embodiment, a third wire groove arranged along the first wire groove 320 on the wire fixing unit is disposed on the fixed wire fixing portion, the wire fixing mounting frame 200 is rotatably mounted on the wire fixing mounting seat, and the wire fixing mounting seat is movably mounted on the frame 100 along the direction f.

Further, as shown in fig. 1 to 5, in order to form a stacked piston ring column by the piston ring and the end material ring, the present embodiment further includes a piston ring arrangement feeding device, which includes a material discharge frame 130 and a feeding mechanism for feeding the piston ring into the material discharge frame 130, where the material discharge frame 130 includes a constraint portion for constraining the ring plug to be in stacked arrangement, the constraint portion is circumferentially spaced, an inlet for the piston ring to enter the constraint portion is formed at an upper end of the constraint portion, and a blocking portion is provided at a lower end of the constraint portion, and the blocking portion is used for preventing the piston ring from moving out from a lower end of the constraint portion.

The working principle of the embodiment is as follows: the stop part constitutes for frock board 120, frock board 120 interval is installed on piston ring transfer chain 110, when piston ring and tip material ring fall to frock board 120 from the export of baffle box 142 on, the liftout spare that suits with through-hole 121 on the frock board 120 upwards jack-up, piston ring and the tip material ring that fall support, make piston ring and the tip material ring that fall down can the horizontally fall into between the restraint plate 131, transfer chain 110 drives frock board 120 and removes, make the piston ring post that the sign indicating number folded form was arranged can carry on the station of difference, conveniently handle piston ring post.

Further, as shown in fig. 1 to 5, the blocking portion in this embodiment is formed by a tooling plate 120, and the tooling plate 120 is mounted on the piston ring conveying line 110 at intervals. The piston ring conveying line 110 drives the tooling plate 120 to move, so that the piston ring column on the tooling plate 120 can move conveniently.

Further, as shown in fig. 1 to 5, the tooling plate 120 in the present embodiment is provided with a through hole 121, a hole diameter of the through hole 121 is smaller than an inner diameter of the piston ring, a periphery of the through hole 121 is provided with a gap portion 122 for extending outward, and the gap portion 122 and the constraining portion are arranged in a staggered manner along a circumferential direction of a center of the through hole 121. The constraint part comprises a constraint plate 131 which is vertically arranged and has an L-shaped cross section, a bending opening on the constraint plate 131 points to the circle center of the through hole 121, when the piston ring and the end material ring fall down from the material guide groove 142, the piston ring and the end material ring can form a stacking shape through the constraint plate 131, and the stacked piston ring columns are conveniently bundled twice through the through hole 121 on the tooling plate 120.

Preferably, as shown in fig. 1 to 5, the constraining part in the above solution includes a vertically arranged constraining plate 131 with an L-shaped cross section, and the bending opening on the constraining plate 131 points to the center of the through hole 121. The piston rings and the end material rings falling from the material guide groove 142 fall to the short sides along the long sides of the restriction plate 131 with the cross section being L-shaped, three restriction parts are arranged at intervals along the circumferential direction of the through hole 121, and the piston rings and the end material rings are supported to form a stacking shape.

Further, as shown in fig. 1 to 5, in order to feed the piston rings and the end rings to the restraining plate 131, the feeding mechanism in this embodiment includes a first feeding mechanism 140 and a second feeding mechanism 150, the first feeding mechanism 140 feeds the piston rings into the discharge frame 130, and the second feeding mechanism 150 feeds the end rings into the discharge frame 130.

Further, as shown in fig. 1 to 5, in order to support the dropped piston ring and end material ring to form a stacked shape, the present embodiment further includes a material ejecting member movably mounted along the hole depth direction of the through hole 121, the material ejecting member includes a circular top plate 132, an edge portion of the circular top plate 132 is provided with a protruding portion 133, an outer diameter of the circular top plate 132 is smaller than an inner diameter of the through hole 121, an outer edge portion of the protruding portion 133 extends to an outer side of the through hole 121, and the protruding portion 133 is disposed corresponding to the hollow portion 122.

Preferably, as shown in fig. 1 to 5, in the above solution, the first and second feeding mechanisms are arranged oppositely, each of the first and second feeding mechanisms includes a vibrating trough 141 and a material guiding trough 142, an outlet of the material guiding trough 142 is arranged corresponding to an inlet of the discharging rack 130, and the piston ring and the end material ring are horizontally conveyed in the material guiding trough 142. The vibrating trough 141 screens the piston rings and the end material rings, and the piston rings and the end material rings sequentially fall onto the material guide trough 142, so that the end material rings are firstly arranged on the constraint plate 131, then the piston rings are stacked, and then the end material rings are continuously arranged on the end part to form a piston ring column.

Further, as shown in fig. 1 to 5, in order to facilitate the transportation of the stacked piston ring columns, the piston ring transportation line 110 in this embodiment is a horizontal ring transportation line 110.

Preferably, as shown in fig. 1 to 5, three constraining portions are provided at intervals in the above-described aspect. The restraint portion is the restraint plate 131 of L type including the cross section that the form was arranged immediately, through the three restraint plate 131 that the interval set up, conveniently forms the pile form to piston ring and tip material ring, forms the piston ring post.

Further, as shown in fig. 1 to 15, the present embodiment further includes a piston ring binding method, including the steps of:

step S1: laying an end material ring, stacking a piston ring on the end material ring to form a piston ring column, and laying an end material ring at the end of the piston ring column;

step S2: inserting the formed U-shaped iron wire onto the ring body of the piston ring column;

step S3: then bundling the end parts of the U-shaped iron wire threads inserted on the piston ring column;

step S4: gathering the bundled iron wires, and then continuously bundling the gathered iron wires;

step S5: and collecting the piston ring cylinders subjected to twice bundling.

On the frock board 120 on the transfer chain 110 was carried to tip material ring, piston ring through vibration silo 141 and baffle box 142 earlier, through the row of work or material rest 130 that sets up on frock board 120, tip material ring and piston ring form the pile of sign indicating number and fold the form and set up in arranging material rest 130, and transfer chain 110 sets up on frame 100, and frock board 120 interval is installed on transfer chain 110, arranges material rest 130 and is provided with three and be circumference interval arrangement on frock board 120.

When the end material ring and the piston ring fall down from the outlet of the material guide groove 142 to the material discharging frame 130, the material ejecting piece arranged on the rack 100 moves upwards between the material discharging frames 130 to support the end material ring and the piston ring, the through hole 121 is formed in the tooling plate 120, the material ejecting piece is movably arranged along the hole depth direction of the through hole 121, and the material discharging frame 130 is arranged along the circumferential direction of the through hole 121 at intervals.

When the stacked piston ring columns on the tooling plate 120 are driven by the conveying line 110 to be conveyed to a first bundling station, the adjusting mechanism of the wire fixing frame 300 adjusts each wire fixing unit to correspond to the wire outlet part 410, the cutting knife 430 cuts the fixed-length wire conveyed by the guide roller group 420 on the guide groove 400, the wire ejecting part 500 moves upwards into the wire fixing part, the fixed-length wire in the wire outlet part 410 in the middle of the guide groove 400 is pressed into the first wire groove 320 in the wire fixing part, meanwhile, the movable block 520 on the wire ejecting part 500 protrudes outwards, the wire in the first wire groove 320 is pressed into the recessed part 321, the wire ejecting part 500 moves downwards out of the wire fixing part, and a U-shaped wire is formed in each wire fixing unit.

The fixed wire part of the U-shaped iron wire is driven by the fixed wire mounting frame 200 to rotate, when the fixed wire part is rotated to correspond to a piston ring column on the tooling plate 120, the fixed wire mounting frame drives the fixed wire part of the U-shaped iron wire to be inserted and arranged on the piston ring column, the first clamping piece 600 moves upwards, the end part of the iron wire is clamped by the first clamping piece 600 on the rack 100, meanwhile, the B driving assembly drives the first clamping piece 600 to rotate, the U-shaped iron wire is bound for the first time, after the binding, the fixed wire part is driven by the mounting frame adjusting mechanism 210 to move away from the piston ring column, the iron wire is loosened by the first clamping piece 600 and moves downwards, and the first binding of the piston column is formed.

When the piston ring column after the first binding is driven by the tooling plate 120 on the conveying line 110 to move to the second binding station, the iron wire after the first binding corresponds to the arc gathering plate 800, the iron wire is gathered by the arc gathering plate 800, the second clamping piece 700 clamps the gathered iron wire, and the iron wire is bound for the second time through rotation.

When the piston ring columns after the second bundling are conveyed to the discharging station, the piston ring columns are clamped from the tooling plate 120 and conveyed into the material collecting frame 1000 through the discharging frame and the movable clamping plate 900 arranged on the machine frame 100, and the piston ring columns after the second bundling are collected.

Through setting up the discharge frame 130 to the restraint plate 131 that the cross section that the form was arranged is the L type that stands, the centre of a circle of the directional through-hole 121 of the bending mouth on the restraint plate 131, restraint plate 131 is provided with three along the circumference interval of through-hole 121, and the piston ring is piled up the form and is arranged between restraint plate 131, supports end material ring and piston ring.

When the jack portion 500 moves upward, the wire is conveyed by the guide roller sets 420 provided in the guide grooves 400 on both sides of the wire discharge portion 410.

When the top thread part 500 moves upwards into the fixed thread part, the movable block 520 protrudes into the recess 321 in the first iron thread groove 320 through the wedge surface driving fit between the adjusting rod 530 and the movable block 520, and when the top thread part 500 moves downwards out of the fixed thread part, the movable block 520 escapes from the recess 321.

By arranging the wire fixing frames 300 at intervals along the rotation center of the wire fixing mounting frame 200, when one of the wire fixing units corresponds to and is inserted on the piston ring column, the wire ejecting portion 500 can continue to form U-shaped iron wires in the other wire fixing frames 300.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (10)

1. The utility model provides a device for being directed at iron wire shaping and cloth silk which characterized in that: the wire distributing mechanism comprises a guide groove for guiding and conveying the iron wires, a vacant wire outlet part is arranged in the middle of the guide groove, a wire pushing mechanism for pushing out or extruding the iron wires in the guide groove from the wire outlet part is arranged on one side of the wire outlet part, and a wire fixing frame for fixing the formed U-shaped iron wires is arranged on the other side of the wire outlet part.

2. The apparatus of claim 1 for forming and laying iron wire, wherein: the wire fixing frame is provided with a wire fixing unit, the wire fixing unit comprises a wire fixing opening, the wire fixing opening comprises two first and second wire fixing parts which are arranged oppositely, one ends of the first and second wire fixing parts are connected into a whole, the other ends of the first and second wire fixing parts are arranged in a separated mode, a clamping opening formed between the first and second wire fixing parts corresponds to the wire outlet part, a first iron wire groove used for containing iron wires is arranged on the inner side wall surface corresponding to the first and second wire fixing parts, and the first iron wire groove is arranged along the length direction of the first and second wire fixing parts.

3. The apparatus of claim 1 for forming and laying iron wire, wherein: the inner side wall surface of the first and/or second wire fixing part is provided with a sunken part sunken to the side wall body, the wall surface of the wire groove at the sunken part is sunken, and the wire jacking mechanism enables the wire to bulge outwards at the sunken part to form a bulge part.

4. The apparatus of claim 1 for forming and laying iron wire, wherein: the inner side wall surfaces of the first and second fixed wire parts are provided with concave parts.

5. The apparatus of claim 1 for forming and laying iron wire, wherein: the jackscrew mechanism comprises a jackscrew part which is installed in a sliding mode along the direction f, the direction f is intersected with the groove length direction of the guide and delivery groove, the jackscrew part is in a long strip shape, the shape of the jackscrew part is matched with the shape of a clamping opening between the first and second fixed-wire parts, a second iron wire groove is formed in the jackscrew part, and the first and second iron wire grooves are correspondingly arranged.

6. The apparatus of claim 1 for forming and laying iron wire, wherein: the end part of the jackscrew part close to the fixed screw part is arranged into a semicircle.

7. The apparatus of claim 1 for forming and laying iron wire, wherein: set up movable protruding portion in the jackscrew portion, movable protruding portion corresponds the depressed part setting, and movable protruding portion movable mounting, protruding portion are in two kinds of states, and first state is: the movable protruding part lifts the recessed part, so that the iron wire is attached to the first iron wire groove at the recessed part and is bent; the second state is: the movable protrusion completely exits the avoidance position of the recess.

8. The apparatus of claim 1 for forming and laying iron wire, wherein: the movable protruding part is formed by a movable block arranged on the jackscrew part, an arc-shaped part matched with the concave part is arranged on the movable block, the movable block is movably arranged along the groove length direction of the guide and feed groove, and the movable block is connected with a movable block adjusting component for adjusting the movable block to move.

9. The apparatus of claim 1 for forming and laying iron wire, wherein: comprises any one or more of A to H:

the characteristic A is as follows: the movable block adjusting assembly comprises an adjusting rod which is arranged on the jackscrew part in a sliding mode along the direction f, a wedge surface is formed between the adjusting rod and the movable block to drive and match, and when the adjusting rod moves towards one side close to the fixed wire frame, the adjusting rod abuts against a movable protruding part on the movable block and is changed into a first state from a second state;

the characteristic B is as follows: the fixed wire frame is rotatably arranged on the fixed wire mounting frame, a fixed wire frame adjusting mechanism for adjusting the fixed wire frame to rotate is arranged on the fixed wire mounting frame, each fixed wire unit is arranged on the fixed wire frame and arranged at intervals around the circumferential direction of the rotating center of the fixed wire frame, and each fixed wire unit is adjusted by the fixed wire frame adjusting mechanism to be arranged corresponding to the wire outlet part;

the characteristic C is as follows: the fixed wire mounting rack is movably mounted on the rack and is connected with the mounting rack adjusting mechanism;

the characteristic D is as follows: the fixed wire mounting rack is rotatably mounted on the rack, and the fixed wire racks are arranged at intervals along the circumferential direction of the rotating center of the fixed wire mounting rack;

the characteristic E is as follows: the fixed wire mounting frame is rotatably mounted on the fixed wire mounting seat, and the fixed wire mounting seat is movably mounted on the rack along the direction f;

the characteristic F is as follows: the wire pushing mechanism is used for pushing wires, the wire feeding directions of the first and second wire feeding assemblies are opposite and point to the wire discharging part, and when iron wires are arranged in the wire guiding grooves, the wire feeding directions of the first and second wire feeding assemblies are the same;

the characteristic G is as follows: the first and second yarn supply assemblies are formed by guide roller sets;

the characteristic H is as follows: the wire outlet part is provided with a fixed wire fixing part arranged along the wire outlet part, the fixed wire fixing part is provided with a third wire groove arranged along the first wire groove on the fixed wire unit, the fixed wire mounting frame is rotatably mounted on the fixed wire mounting seat, and the fixed wire mounting seat is movably mounted on the rack along the direction f.

10. A piston ring strapping apparatus, characterized in that it comprises a device for forming and laying wire as claimed in any of claims 1 to 9.

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