CN216575297U

CN216575297U - Metal wire bar straightener

Info

Publication number: CN216575297U
Application number: CN202123060075.3U
Authority: CN
Inventors: 赵以粮
Original assignee: Foshan Zhaoshi Precision Electromechanical Co ltd
Current assignee: Foshan Zhaoshi Precision Electromechanical Co ltd
Priority date: 2021-12-06
Filing date: 2021-12-06
Publication date: 2022-05-24
Anticipated expiration: 2031-12-06

Abstract

The utility model provides a metal wire bar straightener, alignment cutting device includes in proper order: the wire cutting device comprises a straightening mechanism for adjusting a wire, an encoding mechanism for detecting the length of the wire, a cutting mechanism for cutting the wire, and a wire box for supporting the wire; the wire straightening and shearing mechanism is used for straightening and shearing conveyed wires through the straightening mechanism and adopts the cutting mechanism to shear, so that the wires are automatically straightened and sheared, the production efficiency and the cutting precision are high, the error is small, the labor cost can be reduced, the machine does not need to be stopped for automatic straightening, the length of the coding mechanism is accurately calculated, the wire straightening and shearing mechanism is automatically tracked and sheared, the wire straightening and shearing mechanism can be sheared at any length, the wire straightening and shearing mechanism is suitable for wires of different specifications, the wires led out from the cutting mechanism are supported through the wire box, the phenomenon that one end of the wires sinks under the action of gravity when led out to cause the straightened wires to be bent can be prevented, and the opening and closing of the wire box can be linked with the cutting mechanism, so that the full-automatic blanking is realized.

Description

Metal wire bar straightener

Technical Field

The utility model relates to the field of straightening machines, in particular to a metal wire straightening machine.

Background

Traditional alignment technique all adopts mechanical type principle to straighten basically, for example bar straightener in the market, at the in-process of straightening extremely unstable, present straightener can't adjust the wire rod of straightening when drawing the material in addition, need shut down when changing different diameter wire rods and draw the material again, and production efficiency is low.

The existing straightener has an automatic cutting function, but the interruption time of the automatic cutting is fixed, the conveying speed is not necessarily stable, so the lengths of cut materials are easy to be different, the length of a wire rod needs to be measured during conveying, and the wire rod also needs to be stably conveyed.

Further, the wire rod is drawn out of the cutting mechanism by a predetermined length before being cut, and when the length of the cut wire rod is long, the drawn end of the wire rod is lowered by gravity, which easily causes problems such as the wire rod to be cut being bent again.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the existing problems and provides a metal wire straightening machine which is simple and reasonable in structure, mainly has the main effects of realizing automatic straightening and wire cutting work by adopting computer automatic control, is high in accuracy, is suitable for cutting wires of different specifications and prevents the risk of bending the wires before cutting.

The utility model provides a metal wire bar straightener, includes workstation, power unit, control system and alignment cutting device, alignment cutting device includes in proper order:

the straightening mechanism is arranged on the workbench and comprises a front wire feeding wheel group, a rear wire feeding wheel group and a rotary straightening mechanism arranged between the front wire feeding wheel group and the rear wire feeding wheel group, the rotary straightening mechanism comprises a straightening barrel, a plurality of limiting pressing blocks are arranged on the opposite side of the straightening barrel in a staggered mode along the axis direction, and the limiting pressing blocks are matched with the straightening barrel to axially rotate and convey wires to achieve straightening;

the straightening mechanism is arranged on the workbench, and an encoder roller and an encoder for detecting the transmission speed of the straightening wire are arranged in the encoding mechanism;

the cutting mechanism is arranged on the workbench and comprises a cutting mounting seat, a wire cutter arranged on the cutting mounting seat and a cutter power assembly, and the cutter power assembly drives the wire cutter to move downwards to cut off the wire;

the wire box is arranged outside the workbench, the cut wires are sent into the wire box, the wire box comprises a box cover arranged along the wire outlet direction and a box bottom connected to the box cover in an overturning manner, the box bottom is linked with the wire cutter through a linkage mechanism, the wire cutter downwards acts to cut the wires and simultaneously drives the box bottom to be overturned and opened, and the upper section of the cut wires fall to the lower part to be collected;

the wire feeding motor is in synchronous driving connection with the front wire feeding wheel set and the rear wire feeding wheel set through a second transmission system.

The aim of the utility model can also be solved by the following technical measures:

the wire rod cutter is installed on the cutter holder, the cutter holder is connected with the cutting installation seat in a sliding mode through the guide rail sliding pair, the tangent motor is arranged on the cutting installation seat and connected with the upper reduction gearbox, and the output end of the reduction gearbox is connected with the cutter holder in a driving mode through the eccentric swing arm.

The link gear is including connecting in the contact arm on the box bottom, connecting in pressure arm wheel and the extension spring that resets on the blade holder, the extension spring that resets is connected and is touched the arm and cut off between the mount pad, the blade holder moves down and drives pressure arm wheel and push down and touch the arm, makes the box bottom upset open the lid, and the blade holder upwards moves the extension spring shrink pulling that resets and touches the arm, makes the box bottom reset the lid and closes the lid.

The front wire feeding wheel group and the rear wire feeding wheel group respectively comprise a pinch roller box, an upper pinch roller seat and a lower pinch roller seat which are longitudinally arranged in the pinch roller box, and a spring pressing device arranged between the upper pinch roller seat and the pinch roller box; the upper pinch roller seat and the lower pinch roller seat are respectively provided with at least two rotating wheel shafts, the rotating wheel shafts are connected with pinch rollers and first gears, the corresponding first gears are meshed up and down, two adjacent first gears are meshed through a second gear, and one of the rotating wheel shafts is also connected with a wire feeding helical gear.

The first transmission system comprises a driving belt pulley and a transmission belt, the driving belt pulley is connected to the output end of the straightening motor, one end of the straightening barrel is provided with a belt groove matched with the transmission belt, and the straightening barrel is connected with the driving belt pulley through the transmission belt;

the second transmission system comprises a gearbox, a driving bevel gear, a transmission shaft and two driven bevel gears connected to two ends of the transmission shaft, the two driven bevel gears are respectively meshed with the wire feeding bevel gears on the front wire feeding wheel set and the rear wire feeding wheel set, the gearbox is installed on an output shaft of the wire feeding motor, the driving bevel gear is connected with the output end of the gearbox, and one of the driven bevel gears is meshed with the wire feeding bevel gear.

Rotatory alignment mechanism still includes two pivot seats, the both ends of alignment section of thick bamboo be provided with two pivot seat complex pivot portions, the through wires hole has been seted up in the pivot portion, the alignment chamber of intercommunication through wires hole has been seted up in the alignment section of thick bamboo, spacing briquetting is installed in the offside of alignment chamber, and the line ball arc wall has been seted up to the threading route that every spacing briquetting corresponds two through wires holes, the income line end of line ball arc wall is the loudspeaker form.

A first inclined wall is arranged on one side of the box cover, a second inclined wall is arranged on the box bottom, and the first inclined wall and the second inclined wall are matched to form a conical box groove.

The collecting device is characterized in that a collecting bracket is arranged below the wire box and comprises a vertical frame and a transverse rod, the two ends of the transverse rod and the two ends of the wire box are respectively arranged on the vertical frame and the workbench, a plurality of collecting supporting arms are arranged on the transverse rod along the length direction, and a collecting tray is arranged on the collecting supporting arms close to the workbench.

The front end of preceding wire feeding wheelset is provided with into line box, go into line box including the box body, the box body is separated by and is provided with wire casing induction pipe and wire casing contact tube, and the wire casing contact tube corresponds the setting with preceding wire feeding wheelset.

The cutting mechanism further comprises a cutting seat arranged right below the wire rod cutter, and the wire rod cutter and the wire rod penetrate through the cutting seat in the vertical direction.

The utility model has the following beneficial effects:

according to the metal wire straightening machine, the straightening mechanism straightens the conveyed wire and the cutting mechanism is adopted for cutting, so that the automatic straightening and cutting of the wire are realized, the production efficiency and the cutting precision are high, the error is small, the labor cost can be reduced, the machine does not need to be stopped, the automatic straightening is realized, the length calculation is accurate by adopting the coding mechanism, the automatic tracking and cutting are realized, the wire can be cut at any length, the machine is suitable for wires of different specifications, the wire led out from the cutting mechanism is supported by the wire box, the bending condition of the straightened wire caused by the fact that one end of the wire sinks under the gravity when the wire is led out can be prevented, and the opening and closing of the wire box can be linked with the cutting mechanism, so that the full-automatic blanking is realized.

Drawings

Fig. 1 is a schematic structural diagram of a straightener of the present invention.

FIG. 2 is a schematic structural diagram of a cutting mechanism according to the present invention.

FIG. 3 is a schematic view of the structure of the encoding mechanism of the present invention.

Fig. 4 is a schematic view of a connection structure of two wire feeding wheel sets and a power mechanism according to the present invention.

Fig. 5 is a schematic view of a connection structure of the rotation straightening mechanism and the power mechanism according to the present invention.

FIG. 6 is a schematic cross-sectional view of the straightening barrel of the present invention.

Fig. 7 is a cross-sectional view of the wire box according to the present invention.

Fig. 8 is a schematic cross-sectional view of the blanking state of the wire box according to the present invention.

FIG. 9 is a schematic view of the receiving bracket of the present invention.

Fig. 10 is a schematic structural diagram of the wire inlet box of the present invention.

Detailed Description

The utility model is further illustrated with reference to the following figures and examples.

As shown in fig. 1 to 10, a metal wire straightener includes a worktable 1, a power mechanism 2, a control system 3, and a straightening and cutting device, and the straightening and cutting device includes:

the straightening mechanism 4 is arranged on the workbench 1 and comprises a front wire feeding wheel set 5, a rear wire feeding wheel set 6 and a rotary straightening mechanism 7 arranged between the front wire feeding wheel set 5 and the rear wire feeding wheel set 6, the rotary straightening mechanism 7 comprises a straightening barrel 71, a plurality of limiting pressing blocks 72 are arranged on the opposite side of the straightening barrel 71 in a staggered mode along the axis direction, and the limiting pressing blocks 72 are matched with the straightening barrel 71 to axially rotate and convey wires to achieve straightening;

the front wire feeding wheel group 5 is used for feeding wires into the rotary straightening mechanism 7, the rear wire feeding wheel group 6 is used for pulling out the straightened wires from the rotary straightening mechanism 7, the front wire feeding wheel group 5 and the rear wire feeding wheel group 6 have certain straightening effects on the wires, the rotary straightening mechanism 7 straightens the wires, and the limiting pressing block 72 performs circumferential rubbing on the surfaces of the wires through axial rotation, so that the wire straightening effect is achieved;

the straightening mechanism 4 is arranged on the workbench 1, and an encoder roller 81 and an encoder 82 for detecting the transmission speed of the straightened wire are arranged in the encoding mechanism 8; the encoding mechanism 8 comprises an encoding box 801, the encoder roller 81 is installed in the encoding box 801 and is coaxially connected with the encoder 82, the length of the wire is judged according to the wire conveying speed, information is fed back to the control system 3 to drive the cutting mechanism 9 to work, an encoding pinch roller 802 arranged above the encoder roller 81 is further installed in the encoding box 801, the wire can be tightly pressed between the encoding pinch roller 802 and the encoder roller 81, slipping can be prevented, and detection is more accurate;

the cutting mechanism 9 is arranged on the workbench 1 and comprises a cutting mounting seat 91, a wire cutter 92 arranged on the cutting mounting seat 91 and a cutter power assembly 93, and the cutter power assembly 93 drives the wire cutter 92 to move downwards to cut off the wire; the cutting mechanism 9 further comprises a cutting seat 94 arranged right below the wire cutter 92, and the wire cutter 92 and the wire penetrate through the cutting seat 94 in the vertical direction, so that the cutting of the wire cutter 92 is more convenient and rapid;

the wire box 10 is arranged on the outer side of the workbench 1, cut wires are sent into the wire box 10, the wire box 10 comprises a box cover 101 arranged along the wire outlet direction and a box bottom 102 connected to the box cover 101 in an overturning manner, the box bottom 102 is linked with a wire cutter 92 through a linkage mechanism 11, the wire cutter 92 acts downwards to cut the wires and simultaneously drives the box bottom 102 to overturn and open, and the last cut wire falls to the lower part to be collected;

the power mechanism 2 is arranged below the workbench 1 and comprises a straightening motor 21 and a wire feeding motor 22, the straightening motor 21 is in driving connection with the rotary straightening mechanism 7 through a first transmission system A, and the wire feeding motor 22 is in synchronous driving connection with the front wire feeding wheel set 5 and the rear wire feeding wheel set 6 through a second transmission system B.

Straightening the wire rod of carrying and adopting shutdown mechanism 9 to cut through alignment mechanism 4, realized the shearing of automatic alignment of wire rod, production efficiency and cutting accuracy are high, the error is little, can reduce the personnel selection cost, do not need to shut down automatic alignment, it is accurate to adopt 8 length calculations of coding mechanism, the auto-tracing is sheared, can cut by arbitrary length, be applicable to different specification wire rods, the wire rod of drawing forth from shutdown mechanism 9 carries out the bearing through wire box 10, the crooked condition appears again in the wire rod after can preventing that the one end of wire rod from weighing to sink and causing the alignment when drawing forth, and opening and closing of wire box 10 can link with shutdown mechanism 9, realize full automatization blanking.

Further, the cutter power assembly 93 comprises a tangent motor 931, a speed reduction box 932, a guide rail sliding pair 933, an eccentric swing arm 934 and a cutter holder 935, the wire cutter 92 is mounted on the cutter holder 935, the cutter holder 935 is slidably connected with the cutting mounting seat 91 through the guide rail sliding pair 933, the tangent motor 931 is arranged on the cutting mounting seat 91 and is connected with the speed reduction box 932, and the output end of the speed reduction box 932 is in driving connection with the cutter holder 935 through the eccentric swing arm 934; the eccentric end of the eccentric swing arm 934 is connected to the output end of the reduction gearbox 932, and the wire cutter 92 on the cutter holder 935 can slide up and down by the swinging characteristic of the eccentric swing arm 934, so that the wire cutter 92 has enough power to cut off wires.

Further, the linkage mechanism 11 includes a contact arm 111 connected to the box bottom 102, a pressing arm wheel 112 connected to the tool post 935, and a return tension spring 113, where the return tension spring 113 is connected between the contact arm 111 and the cut-off mounting seat 91, the tool post 935 moves downward to drive the pressing arm wheel 112 to press the contact arm 111 downward, so that the box bottom 102 is turned over to open the box cover 101, and the tool post 935 moves upward to retract the return tension spring 113 to pull the contact arm 111, so that the box bottom 102 is returned to cover the box cover 101; the structure enables the cutting and blanking actions to be carried out synchronously, and the automatic operation enables only one cut wire to be arranged in the wire box 10 under any condition, so that the winding condition can not occur.

Further, the front wire feeding wheel group 5 and the rear wire feeding wheel group 6 have the same structure, and the front wire feeding wheel group 5 includes, for example, a pinch roller box 501, an upper pinch roller seat 502 and a lower pinch roller seat 503 longitudinally arranged in the pinch roller box 501, and a spring hold-down device 504 arranged between the upper pinch roller seat 502 and the pinch roller box 501; the upper pinch roller seat 502 and the lower pinch roller seat 503 are respectively provided with at least two rotating wheel shafts 505, the rotating wheel shafts 505 are connected with pinch rollers 506 and first gears 507, the vertically corresponding first gears 507 are meshed, two adjacent first gears 507 are meshed with one another through second gears 508, and one rotating wheel shaft 505 is also connected with a wire feeding helical gear 509; the front wire feeding wheel set 5 and the rear wire feeding wheel set 6 of the structure can perform self-adjustment according to the thickness of wires, the steps of manual operation are reduced, and the working efficiency is improved.

Further, the first transmission system a includes a driving pulley a1 and a transmission belt a2, the driving pulley a1 is connected to the output end of the straightening motor 21, one end of the straightening drum 71 is provided with a belt groove 711 matched with the transmission belt a2, and the straightening drum 71 is connected with the driving pulley a1 through the transmission belt a 2;

the second transmission system B comprises a gearbox B1, a driving bevel gear B2, a transmission shaft B3 and two driven bevel gears B4 connected to two ends of the transmission shaft B3, the two driven bevel gears B4 are respectively meshed with the wire feeding bevel gears 509 on the front wire feeding wheel set 5 and the rear wire feeding wheel set 6, the gearbox B1 is mounted on the output shaft of the wire feeding motor 22, the driving bevel gear B2 is connected to the output end of the gearbox B1, and one of the driven bevel gears B4 is meshed with the wire feeding bevel gear 509.

The first transmission system A and the second transmission system B work independently, so that the rotating speed of the rotary straightening mechanism 7 is different from that of the front wire feeding wheel set 5 and the rear wire feeding wheel set 6, the transmission is direct, and the power damage is small.

Further, the rotary straightening mechanism 7 further comprises two rotating shaft seats 701, two ends of the straightening barrel 71 are provided with rotating shaft parts 73 matched with the two rotating shaft seats 701, a threading hole 731 is formed in each rotating shaft part 73, a straightening cavity 732 communicated with the threading hole 731 is formed in the straightening barrel 71, the limiting pressing blocks 72 are installed on the opposite sides of the straightening cavity 732, each limiting pressing block 72 is provided with a wire pressing arc-shaped groove 721 corresponding to the threading path of the two threading holes, and the wire inlet ends of the wire pressing arc-shaped grooves 721 are horn-shaped; the flared wire entry end allows the bent wire to be more easily guided into the crimping wire arc 721.

To explain further, a first inclined wall 1011 is arranged on one side of the box cover 101, a second inclined wall 1021 is arranged on the box bottom 102, and the first inclined wall 1011 and the second inclined wall 1021 cooperate to form a box groove 103 in a conical shape; the cut wire is set in a tapered box groove 103, and after the box bottom 102 is turned upside down and opened, the wire is surely separated from the wire box 10.

Further, a material receiving bracket 12 is arranged below the wire box 10, the material receiving bracket 12 includes a vertical frame 121 and a cross bar 122, two ends of the cross bar 122 and the wire box 10 are respectively arranged on the vertical frame 121 and the workbench 1, the cross bar 122 is provided with a plurality of material receiving support arms 123 along the length direction, and a material receiving tray 124 is arranged on the material receiving support arm 123 close to the workbench 1; because the wire rod length of different specifications, when the wire rod after cutting off is longer, can only collect through receiving material trailing arm 123, but when the wire rod after cutting off is shorter, the interval sets up receives material trailing arm 123 and causes the wire rod roll-off easily and receives material trailing arm 123, consequently can collect shorter wire rod through receiving material tray 124.

Further, the front end of the front wire feeding wheel set 5 is provided with the wire inlet box 13, the wire inlet box 13 comprises a box body 131, the box body 131 is provided with a wire groove leading-in pipe 132 and a wire groove leading-out pipe 133 at intervals, the wire groove leading-out pipe 133 is arranged corresponding to the front wire feeding wheel set 5, when an initial lead enters the straightening mechanism 4, the hand of a tool or a worker can be prevented from being involved into the front wire feeding wheel set 5 through the wire inlet box 13 with the structure, safety can be improved, wire feeding into the front wire feeding wheel set 5 is more accurate, and wires in a bending state cannot swing.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the utility model are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims

1. The utility model provides a metal wire bar straightener, includes workstation, power unit, control system and alignment cutting device, its characterized in that, alignment cutting device includes in proper order:

2. The metal wire straightener of claim 1, wherein the cutter power assembly comprises a tangent motor, a reduction gearbox, a guide rail sliding pair, an eccentric swing arm and a cutter holder, the wire cutter is mounted on the cutter holder, the cutter holder is slidably connected with the cutting mounting seat through the guide rail sliding pair, the tangent motor is arranged on the cutting mounting seat and connected with the reduction gearbox, and the output end of the reduction gearbox is in driving connection with the cutter holder through the eccentric swing arm.

3. The metal wire straightening machine according to claim 1, wherein the linkage mechanism comprises a contact arm connected to the box bottom, a pressing arm wheel connected to the tool apron and a reset tension spring, the reset tension spring is connected between the contact arm and the cutting installation seat, the tool apron moves downwards to drive the pressing arm wheel to press the contact arm downwards, the box bottom is turned over to open the box cover, the tool apron moves upwards to move the reset tension spring to contract and pull the contact arm, and the box bottom is reset to cover the box cover.

4. The metal wire straightening machine according to claim 1, wherein the front wire feeding wheel group and the rear wire feeding wheel group respectively comprise a pinch roller box, an upper pinch roller seat and a lower pinch roller seat which are longitudinally arranged in the pinch roller box, and a spring pressing device arranged between the upper pinch roller seat and the pinch roller box; the upper pinch roller seat and the lower pinch roller seat are respectively provided with at least two rotating wheel shafts, the rotating wheel shafts are connected with pinch rollers and first gears, the corresponding first gears are meshed up and down, two adjacent first gears are meshed through a second gear, and one of the rotating wheel shafts is also connected with a wire feeding helical gear.

5. The metal wire straightening machine according to claim 4, wherein the first transmission system comprises a driving belt pulley and a transmission belt, the driving belt pulley is connected to the output end of the straightening motor, one end of the straightening barrel is provided with a belt groove matched with the transmission belt, and the straightening barrel is connected with the driving belt pulley through the transmission belt;

6. The metal wire straightening machine according to claim 1, wherein the rotary straightening mechanism further comprises two rotating shaft seats, rotating shaft parts matched with the two rotating shaft seats are arranged at two ends of the straightening barrel, threading holes are formed in the rotating shaft parts, straightening cavities communicated with the threading holes are formed in the straightening barrel, limiting pressing blocks are arranged on opposite sides of the straightening cavities, each limiting pressing block is provided with a wire pressing arc-shaped groove corresponding to the threading paths of the two threading holes, and the inlet ends of the wire pressing arc-shaped grooves are horn-shaped.

7. The metal wire straightening machine according to claim 1, wherein a first inclined wall is arranged on one side of the box cover, a second inclined wall is arranged on the box bottom, and the first inclined wall and the second inclined wall are matched to form a conical box groove.

8. The metal wire straightening machine according to claim 1, wherein a material receiving bracket is arranged below the wire box and comprises a vertical frame and a cross rod, two ends of the cross rod and the wire box are respectively arranged on the vertical frame and a workbench, the cross rod is provided with a plurality of material receiving support arms along the length direction, and a material receiving tray is arranged on the material receiving support arm close to the workbench.

9. The metal wire straightening machine according to claim 1, wherein a wire inlet box is arranged at the front end of the front wire feeding wheel set, the wire inlet box comprises a box body, a wire groove leading-in pipe and a wire groove leading-out pipe are arranged on the box body at intervals, and the wire groove leading-out pipe is arranged corresponding to the front wire feeding wheel set.

10. The metal wire straightener of claim 1, characterized in that: the cutting mechanism further comprises a cutting seat arranged right below the wire rod cutter, and the wire rod cutter and the wire rod penetrate through the cutting seat in the vertical direction.