CN115415439B - Industrial aluminum welding wire cutting processing device - Google Patents

Abstract

The invention discloses an industrial aluminum welding wire cutting-off processing device, which relates to the technical field of aluminum welding wire processing, and comprises an operating platform, a straightening mechanism, a counting mechanism, a cutting-off mechanism and a split charging mechanism; the straightening mechanism is installed on an operation table, a supporting rotary table is rotatably installed on the operation table, an aluminum welding wire rod is sleeved on the supporting rotary table and matched with the straightening mechanism, the supporting rotary table and a driving belt wheel form belt transmission through a straightening long belt, the driving belt wheel is fixedly connected with a first end of a straightening crank, a second end of the straightening crank is slidably installed in a lower straight sliding groove, the lower straight sliding groove is fixedly connected with an upper straight sliding groove, the upper straight sliding groove is matched with two groups of trigger assemblies, and the two groups of trigger assemblies are symmetrically arranged; the invention overcomes the problems that the wire rod can not be cut at a fixed length efficiently, the number of cut aluminum welding wire straight strips can not be counted and the aluminum welding wire straight strips can not be subpackaged quantitatively in the prior art by matching the straightening mechanism, the counting mechanism, the cutting mechanism and the subpackaging mechanism.

Description

Industrial aluminum welding wire cutting processing device

Technical Field

The invention relates to the technical field of aluminum welding wire processing, in particular to an industrial aluminum welding wire cutting processing device.

Background

The aluminum welding wire can be melted with other elements such as iron, aluminum, vanadium or molybdenum to form an alloy so as to produce a high-strength light alloy, and is widely applied to various fields. The specific production flow of the aluminum welding wire is as follows: wire drawing, heat treatment, scraping, sizing wire drawing and coiling. In aluminum alloy welding wire processing field, often need straighten the wire rod and cut into required length as required, present usually need artifical cut the wire rod of lapping according to required length or use cut-to-length machine to cut off the wire rod, but the wire rod after the cut-to-length machine is in disorder crisscross places in the collecting box, and follow-up needs manual work carries out partial shipment ration arrangement packing, and work efficiency is low, and long-time placing easily leads to the wire rod to wet, influences the wire rod quality.

Notice No. is CN 215467748U's utility model discloses an aluminum alloy welding wire fixed length cutter relates to cutter technical field, including workstation, fixed bolster, fixed block, cut off backup pad, spacing slide bar, cutting off the sword. The utility model discloses a, through setting up and cutting off backup pad, cutting off stopper, spacing slide bar, cutting off motor, cutting off cutter, cutting off the runner and rotate the connecting plate, can carry out fixed length to the aluminum alloy welding wire in succession, but can't solve above-mentioned technical problem, so the invention provides an industry aluminum welding wire cutting off processing apparatus.

Disclosure of Invention

The invention provides an industrial aluminum welding wire cutting processing device aiming at the defects in the prior art, and solves the problems that the prior art cannot cut wires at a fixed length efficiently, count the number of cut aluminum welding wire straight strips and split the cut aluminum welding wire straight strips.

The technical scheme adopted by the invention is as follows: an industrial aluminum welding wire cutting-off processing device comprises an operation table, a straightening mechanism, a counting mechanism, a cutting-off mechanism and a split charging mechanism; the straightening mechanism is installed on an operation table, a supporting rotary table is rotatably installed on the operation table, an aluminum welding wire rod is sleeved on the supporting rotary table and matched with the straightening mechanism, the supporting rotary table and a transmission belt wheel form belt transmission through a straightening long belt, the transmission belt wheel is fixedly connected with a first end of a straightening crank, a second end of the straightening crank is slidably installed in a lower straight chute, the lower straight chute is fixedly connected with an upper straight chute, the upper straight chute is matched with two groups of trigger assemblies, the two groups of trigger assemblies are symmetrically arranged, the trigger assemblies comprise a movable rod slidably connected with the upper straight chute, the movable rod is slidably installed in a parallelogram groove, the parallelogram groove is arranged on a trigger flat plate, the upper straight chute is slidably installed between two trigger flat plates, a secondary straightening seat and a straightening long plate are fixedly installed on the movable rod, a trigger rod is fixedly installed on the straightening long plate, and the trigger rod is matched with the cutting mechanism; the shutdown mechanism includes the trigger sloping block of fixed mounting on the shutdown plate, and the trigger sloping block has two, and every triggers the sloping block and cooperates with a trigger bar respectively, and the shutdown plate slidable mounting is provided with cutting blade on cutting off the slide bar on the shutdown plate, and the shutdown plate is connected with counting mechanism.

Furthermore, an inclined plane is arranged on the trigger inclined block, the parallelogram groove is composed of two inclined sections and two straight sections, one straight section is close to the direction of the cutting slide rod, each trigger inclined block corresponds to the position of the straight section close to the direction of the cutting slide rod respectively, the cutting plate is elastically connected with a connecting frame through a cutting spring, the cutting spring is sleeved on the cutting slide rod, the connecting frame is fixedly arranged on the operating platform, and the connecting frame is in contact with the aluminum welding wire rod.

Further, the straightening mechanism further comprises a primary straightening component, a straightening motor, a straightening short belt and a straightening small belt wheel, wherein the primary straightening component comprises a straightening wheel, a primary straightening belt and a straightening plate, and the position of the aluminum welding wire is limited through the primary straightening component.

Further, the counting mechanism comprises a stirring connecting seat fixedly installed on the cutting plate, the stirring connecting seat is connected with a stirring sheet through a counting spring, the stirring sheet is rotatably installed on the stirring connecting seat, and the stirring sheet is matched with a counting wheel.

Furthermore, two counting wheel connecting plates are arranged on the first counting wheel, a plurality of counting wheel inner rods are evenly arranged between the two counting wheel connecting plates, a counting wheel outer rod is further arranged on the counting wheel connecting plate close to the second counting wheel direction, the counting wheel connecting plate close to the direction of the poking connecting seat is fixedly connected with the ratchet wheel in a coaxial mode, the ratchet wheel is matched with the pawl, and the pawl and the ratchet wheel are installed on the operating table in a rotating mode.

Furthermore, a plurality of mounting columns are uniformly arranged on the second counting wheel, the second counting wheel is rotatably mounted on the first sub-packaging support, the second counting wheel is matched with the second counting toggle wheel, the second counting toggle wheel is matched with the outer rod of the second counting wheel, and the second counting toggle wheel is rotatably mounted on the connecting frame.

Furthermore, an incomplete gear ring is fixedly installed on the counting wheel II, the incomplete gear ring is matched with the first subpackaging straight gear and the second subpackaging straight gear, the first subpackaging straight gear is connected with the subpackaging rollers through a linkage assembly, the number of the subpackaging rollers is two, and the two subpackaging rollers form belt transmission through the subpackaging conveyor belts.

Furthermore, a second subpackaging straight gear is fixedly connected with a second subpackaging bevel gear in a coaxial mode, the first subpackaging bevel gear is meshed with the second subpackaging bevel gear, the second subpackaging bevel gear is fixedly connected with an eccentric wheel in a coaxial mode, the eccentric wheel is rotatably installed in a subpackaging sliding frame, and the subpackaging sliding frame is fixedly connected with a subpackaging baffle.

Furthermore, the split charging baffle is slidably mounted on the blanking baffle II, and the blanking baffle II and the blanking baffle I are symmetrically arranged relative to the cutting blade.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the automatic blanking device, the number of cut aluminum welding wire straight strips is counted through the counting mechanism matched with the cutting mechanism, and when the number of the aluminum welding wire straight strips reaches a preset number, the counting mechanism is matched with the split charging mechanism to achieve automatic blanking of the aluminum welding wire straight strips; (2) The coiled aluminum welding wire is straightened for two times through the straightening mechanism, the straightening effect of the aluminum welding wire is ensured, and the automatic fixed-length cutting of the aluminum welding wire is realized through the linkage of the straightening mechanism and the cutting mechanism; (3) According to the invention, by designing the split charging mechanism, the cut aluminum welding wire straight strips with fixed quantity and fixed length intermittently fall into the split charging box, and then subsequent packaging is carried out, so that the problems that the quality of the aluminum welding wire is reduced and the subsequent packaging difficulty is increased due to disordered accumulation of the cut aluminum welding wire straight strips on a collecting box or the ground are avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a partial structural schematic diagram of the primary straightening assembly of the present invention.

FIG. 3 is a schematic view of the structure of a straightening motor, a straightening short belt and a straightening small pulley of the present invention.

Fig. 4 is a partial structural schematic diagram of the straightening mechanism of the present invention.

FIG. 5 is a partial structural diagram of a trigger assembly according to the present invention.

FIG. 6 is a partial structural diagram of the straightening mechanism and the cutting mechanism according to the present invention.

FIG. 7 is a schematic view of the structure of the slide bar and the toggle connecting seat of the present invention.

FIG. 8 is a partial structural view of the cutting mechanism of the present invention.

Fig. 9 is a schematic view of a partial explosion structure of the counting mechanism of the present invention.

FIG. 10 is a partial structural diagram of the counting mechanism and the dispensing mechanism of the present invention.

FIG. 11 is a schematic view of the structure of the toggle connecting seat, the pawl and the ratchet wheel according to the present invention.

FIG. 12 is a partial structural view of the cutting mechanism, the counting mechanism and the dispensing mechanism of the present invention.

Reference numerals: 1-an operation table; 2-aluminum welding wire rod; 3-supporting the turntable; 4-a limiting seat; 5-primary straightening component; 501-straightening wheels; 502-primary straightening of the belt; 503-straightening plate; 6-straightening the long belt; 7-a straightening motor; 8-straightening the short belt; 9-straightening the small belt wheel; 10-total motor; 11-a driving pulley; 12-straightening a crank; 13-lower straight chute; 14-upper straight chute; 15-moving the rod; 16-a secondary straightening seat; 17-straightening the long plate; 18-a trigger lever; 19-trigger plate; 20-parallelogram slots; 21-triggering the inclined block; 22-cutting off the plate; 23-a cut-off spring; 24-cutting the barrier sheet; 25-a blanking baffle group; 2501-blanking baffle I; 2502-blanking baffle II; 26-a connecting frame; 27-cutting off the slide bar; 28-toggle connecting seat; 29-a cutting blade; 30-a toggle sheet; 31-a pawl; 32-ratchet wheel; 33-counting for a first round; 3301-counting wheel connection board; 3302-counting the inner rod of the wheel; 3303-counting wheel outer rod; 34-counting and dialing wheel; 35-incomplete gear ring; 36-counting wheel two; 37-split straight gear one; 38-linked belt; 39-subpackage bracket one; 40-subpackaging a straight gear II; 41-split bevel gear I; 42-subpackaging a bevel gear II; 43-subpackage bracket two; 44-linkage bevel gear I; 45-linkage bevel gear II; 46-a split charging roller; 47-racking conveyor; 48-subpackaging; 49-split charging baffle; 50-racking carriages; 51-eccentric wheel.

Detailed Description

In the following description of the present invention, it is to be noted that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the following description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention will be further described with reference to the drawings and illustrative embodiments, which are provided herein to illustrate and not to limit the invention. In addition, if a detailed description of the known art is not necessary to show the features of the present invention, it is omitted.

Example (b): referring to fig. 1-12, an industrial aluminum welding wire cutting processing device comprises an operation table 1, a straightening mechanism, a counting mechanism, a cutting mechanism and a split charging mechanism; the straightening mechanism comprises an aluminum welding wire 2, a supporting turntable 3, a limiting seat 4, a primary straightening component 5, a straightening long belt 6, a straightening motor 7, a straightening short belt 8, a straightening small belt wheel 9, a total motor 10, a transmission belt wheel 11, a straightening crank 12, a lower straightening chute 13, an upper straightening chute 14 and a trigger component; the trigger component comprises a movable rod 15, a secondary straightening seat 16, a straightening long plate 17, a trigger rod 18, a trigger flat plate 19 and a parallelogram groove 20; the cutting mechanism comprises a trigger oblique block 21, a cutting plate 22, a cutting spring 23, a cutting blocking sheet 24, a blanking baffle group 25, a connecting frame 26, a cutting slide rod 27 and a cutting blade 29; the counting mechanism comprises a toggle connecting seat 28, a toggle piece 30, a pawl 31, a ratchet 32, a first counting wheel 33, a first counting toggle wheel 34, an incomplete gear ring 35 and a second counting wheel 36; the split charging mechanism comprises a first split charging straight gear 37, a linkage belt 38, a first split charging support 39, a second split charging straight gear 40, a first split charging bevel gear 41, a second split charging bevel gear 42, a second split charging support 43, a first linkage bevel gear 44, a second linkage bevel gear 45, a split charging roller 46, a split charging conveyor belt 47, a split charging box 48, a split charging baffle 49, a split charging carriage 50 and an eccentric wheel 51; the straightening mechanism is installed on an operating platform 1, a supporting rotary table 3 is rotatably installed on the operating platform 1, an aluminum welding wire 2 is sleeved on the supporting rotary table 3, the aluminum welding wire 2 is matched with the straightening mechanism, the supporting rotary table 3 and a transmission belt wheel 11 form belt transmission through a straightening long belt 6, the transmission belt wheel 11 is fixedly connected with an output shaft of a main motor 10, the main motor 10 is fixedly installed on the operating platform 1, the transmission belt wheel 11 is fixedly connected with a first end of a straightening crank 12, a second end of the straightening crank 12 is slidably installed in a lower straight chute 13, the lower straight chute 13 is fixedly connected with an upper straight chute 14, the upper straight chute 14 is matched with two groups of trigger assemblies, the two groups of trigger assemblies are symmetrically arranged, a movable rod 15 is slidably connected with the upper straight chute 14, the movable rod 15 is slidably installed in a parallelogram groove 20, the parallelogram groove 20 is arranged on a trigger flat plate 19, and the trigger flat plate 19 is fixedly installed on the operating platform 1; the upper straight chute 14 is slidably mounted between two trigger flat plates 19, a secondary straightening seat 16 and a straightening long plate 17 are fixedly mounted on the moving rod 15, the secondary straightening seat 16 is matched with the aluminum welding wire 2, a trigger rod 18 is fixedly mounted on the straightening long plate 17, and the trigger rod 18 is matched with the cutting mechanism; the two trigger inclined blocks 21 are fixedly arranged on the cutting plate 22, each trigger inclined block 21 is matched with one trigger rod 18, the cutting plate 22 is slidably arranged on a cutting slide rod 27, the cutting slide rods 27 are fixedly arranged on a connecting frame 26, a cutting blade 29 and a cutting stop sheet 24 are fixedly arranged on the cutting plate 22, the cutting blade 29 is matched with the aluminum welding wire 2, and the cutting plate 22 is connected with a counting mechanism.

The inclined triggering block 21 is provided with an inclined surface, the parallelogram groove 20 is composed of two inclined sections and two straight sections, one straight section is close to the direction of the cutting slide rod 27, each inclined triggering block 21 corresponds to the position of the straight section close to the direction of the cutting slide rod 27, the cutting plate 22 is elastically connected with the connecting frame 26 through the cutting spring 23, the cutting spring 23 is sleeved on the cutting slide rod 27, the connecting frame 26 is fixedly installed on the operating platform 1, and the connecting frame 26 is in contact with the aluminum welding wire 2.

The primary straightening component 5 comprises straightening wheels 501, primary straightening belts 502 and straightening plates 503, the position of an aluminum welding wire 2 is limited by the primary straightening component 5, and the aluminum welding wire 2 is straightened primarily, the primary straightening component 5 comprises three groups, six straightening wheels 501 in each group of primary straightening component 5 are distributed in two rows and three columns, the straightening wheels 501 are rotatably installed on the straightening plates 503, one straightening wheel 501 in each group of primary straightening components 5 is coaxially and fixedly connected with a small straightening wheel 9, the two small straightening wheels 9 form belt transmission through a short straightening belt 8, one small straightening wheel 9 is fixedly connected with an output shaft of a straightening motor 7, the straightening motors 7 are fixedly installed on the straightening plates 503, the three groups of primary straightening components 5 are fixedly connected through the straightening plates 503, the straightening plates 503 are fixedly connected with an operating console 1, the aluminum welding wire 2 passes between the two rows of straightening wheels 501, the six primary straightening wheels 501 in the first and last two groups of straightening components 5 form synchronous rotation with the six straightening wheels 501 through the primary straightening belts.

Fixed mounting has spacing seat 4 on the operation panel 1, and spacing seat 4 is located between first alignment subassembly 5 and the support carousel 3, and spacing seat 4 is used for spacing to aluminium welding wire rod 2.

A toggle connecting seat 28 in the counting mechanism is fixedly arranged on the cutting plate 22, the toggle connecting seat 28 is connected with a toggle piece 30 through a counting spring, the toggle piece 30 is rotatably arranged on the toggle connecting seat 28, and the toggle piece 30 is matched with a first counting wheel 33.

Be provided with two count wheel connecting plates 3301 on the count wheel 33, evenly be provided with a plurality of count wheel interior pole 3302 between two count wheel connecting plates 3301, still be provided with a count wheel outer pole 3303 on the count wheel connecting plate 3301 that is close to two 36 directions of count wheel, be close to the count wheel connecting plate 3301 and the coaxial fixed connection of ratchet 32 of stirring connecting seat 28 directions, ratchet 32 and pawl 31 cooperation, pawl 31, ratchet 32 rotate and install on operation panel 1.

A plurality of mounting columns are uniformly arranged on the second counting wheel 36, one of the mounting columns corresponds to the position of the outer rod 3303 of the counting wheel, the second counting wheel 36 is rotatably mounted on the first sub-assembly support 39, the first sub-assembly support 39 is fixedly mounted on the operating platform 1, the second counting wheel 36 is matched with the second counting toggle wheel 34, the second counting toggle wheel 34 is matched with the outer rod 3303 of the counting wheel, and the second counting toggle wheel 34 is rotatably mounted on the connecting frame 26.

An incomplete gear ring 35 is fixedly installed on the second counting wheel 36, the incomplete gear ring 35 is matched with the first subpackaging spur gear 37 and the second subpackaging spur gear 40, the first subpackaging spur gear 37 is connected with the first subpackaging roller 46 through a linkage assembly, the number of the subpackaging rollers 46 is two, the two subpackaging rollers 46 form belt transmission through a subpackaging conveying belt 47, one subpackaging roller 46 is rotatably installed on the second subpackaging support 43, and the other subpackaging roller 46 is rotatably installed on the operating platform 1.

The linkage assembly comprises two linkage belt wheels which are rotatably installed on a first subpackaging support 39, the two linkage belt wheels form belt transmission through a linkage belt 38, one linkage belt wheel is coaxially and fixedly connected with a first linkage bevel gear 44, the other linkage belt wheel is coaxially and fixedly connected with a first subpackaging straight gear 37, the first linkage bevel gear 44 is meshed with a second linkage bevel gear 45, and the second linkage bevel gear 45 is coaxially and fixedly connected with a subpackaging roller 46.

The second subpackaging spur gear 40 is coaxially and fixedly connected with the first subpackaging bevel gear 41, the second subpackaging spur gear 40 is rotatably installed on the second subpackaging support 43, the second subpackaging support 43 is fixedly installed on the operating platform 1, the first subpackaging bevel gear 41 is meshed with the second subpackaging bevel gear 42, the second subpackaging bevel gear 42 is rotatably installed on the second subpackaging support 43, the second subpackaging bevel gear 42 is coaxially and fixedly connected with an eccentric wheel 51, the eccentric wheel 51 is rotatably installed in a subpackaging sliding frame 50, and the subpackaging sliding frame 50 is fixedly connected with a subpackaging baffle plate 49.

The sub-packaging baffle 49 is slidably mounted on the second blanking baffle 2502, the second blanking baffle 2502 and the first blanking baffle 2501 are symmetrically arranged about the cutting blade 29, the second blanking baffle 2502 is fixedly connected with the first blanking baffle 2501, and the blanking baffle group 25 is fixedly mounted on the trigger flat plate 19.

The working principle of the invention is as follows: in the initial position, the trigger lever 18 is in contact with the trigger ramp 21 and the travel bar 15 is located in the straight section on the side adjacent to the cut-off slide 27. One end of an aluminum welding wire 2 penetrates through the limiting seat 4, one end of the aluminum welding wire 2 is placed between two rows of straightening wheels 501 on a primary straightening assembly 5 close to one side of the supporting turntable 3, the straightening motor 7 is started to drive one straightening small belt wheel 9 to rotate, the straightening small belt wheel 9 drives the other straightening small belt wheel 9 to rotate through the straightening short belt 8, the two straightening small belt wheels 9 respectively drive one straightening wheel 501 of the two groups of primary straightening assemblies 5 at the head and the tail to rotate, the straightening wheels 501 drive the rest straightening wheels 501 to synchronously rotate through the primary straightening belts 502, the rotating straightening wheels 501 straighten the aluminum welding wire 2, the aluminum welding wire 2 is driven by the rotating straightening wheels 501 to move towards the connecting frame 26, the moving aluminum welding wire 2 drives the straightening wheels 501 in the primary straightening assembly 5 at the middle position to rotate, the aluminum welding wire 2 is straightened, the aluminum welding wire 2 keeps moving until the aluminum welding wire 2 is in contact with the connecting frame 26, and the cross section of the aluminum welding wire 2 corresponds to the position of a cutting blade 29.

The starting main motor 10 drives the transmission belt wheel 11 to rotate, the transmission belt wheel 11 drives the support turntable 3 to rotate through the straightening long belt 6, the support turntable 3 rotates to pay off, and the aluminum welding wire 2 continues to move. The transmission belt wheel 11 rotates for one circle to drive the straightening crank 12 to rotate for one circle, the straightening crank 12 drives the lower straight chute 13 and the upper straight chute 14 to do reciprocating motion once between the two trigger flat plates 19, and the upper straight chute 14 drives the movable rod 15, the secondary straightening seat 16, the straightening long plate 17 and the trigger rod 18 to move to drive the movable rod 15 to slide towards the direction of the support turntable 3 in the straight section close to one side of the cutting slide rod 27; the movement of the moving rod 15 is off-course sliding from the straight section near the side of the cutting slide 27 into the diagonal section near the side of the supporting turntable 3, then into the straight section far from the side of the cutting slide 27, then into the diagonal section far from the side of the supporting turntable 3, and then into the straight section near the side of the cutting slide 27 again.

When the moving rod 15 slides in the parallelogram groove 20, the secondary straightening seats 16 are close to or far away from the aluminum welding wire 2 along with the movement of the moving rod 15, when the moving rod 15 slides into the straight section far away from the side of the cutting slide bar 27 from the oblique section near the side of the supporting turntable 3, the distance between the two secondary straightening seats 16 is gradually shortened, when the moving rod 15 completely slides into the straight section far away from the side of the cutting slide bar 27, the two secondary straightening seats 16 are positioned at the two sides of the aluminum welding wire 2 and are contacted with the aluminum welding wire 2, and then in the process that the moving rod 15 moves towards the connecting frame 26, the aluminum welding wire 2 is secondarily straightened through the secondary straightening seats 16; in the process that the moving rod 15 slides into the oblique section far away from the supporting turntable 3 from the straight section far away from the cutting slide rod 27 side, the distance between the two secondary straightening seats 16 is increased, the secondary straightening seats 16 are separated from the aluminum welding wire 2, the moving rod 15 drives the trigger rod 18 to approach towards the direction of the trigger oblique block 21, when the moving rod 15 slides into the straight section near to the cutting slide rod 27 side, the trigger rod 18 corresponds to the position of the trigger oblique block 21, in the process that the moving rod 15 moves towards the supporting turntable 3, the trigger rod 18 contacts with the oblique surface on the trigger oblique block 21 to push the trigger oblique block 21 to descend, drive the cutting plate 22 to slide on the cutting slide rod 27, compress the cutting spring 23, and cut the aluminum welding wire 2 through the cutting blade 29.

The descending cutting plate 22 drives the toggle connecting seat 28 to move downwards, the toggle connecting seat 28 drives the toggle piece 30 to move downwards, the toggle piece 30 toggles an inner rod 3302 of the counting wheel, so that the counting wheel I33 and the ratchet wheel 32 rotate by a preset angle, when the trigger rod 18 is separated from contact with the trigger inclined block 21, the cutting plate 22 resets under the elastic force action of the switch-off spring 23 to drive the toggle connecting seat 28 to reset, in the process that the toggle connecting seat 28 drives the toggle piece 30 to reset, the toggle piece 30 is in contact with the inner rod 3302 of the counting wheel, so that the toggle piece 30 rotates on the toggle connecting seat 28, the counting spring is stretched, when the toggle piece 30 is separated from contact with the inner rod 3302 of the counting wheel, the toggle piece 30 resets under the elastic force action of the counting spring, and the counting wheel I33 can only rotate in a single direction under the limitation of the ratchet wheel 32.

In principle, every time the aluminum welding wire 2 is cut, the first counting wheel 33 rotates for a preset angle, when the first counting wheel 33 rotates for one circle, the outer rod 3303 of the counting wheel dials the second counting wheel 34 to rotate for one time, and the second counting wheel 36 rotates for the preset angle as the second counting wheel 34 dials the mounting column on the second counting wheel 36. The rotating counting wheel II 36 drives the incomplete gear ring 35 to rotate in a single direction, in the rotating process of the counting wheel II 36, the incomplete gear ring 35 is firstly meshed with the first subpackaging spur gear 37 to drive the first subpackaging spur gear 37 to rotate, the first subpackaging spur gear 37 rotates to drive the linkage belt wheel to rotate, the linkage belt wheel drives the other linkage belt wheel and the first linkage bevel gear 44 to rotate through the linkage belt 38, the first linkage bevel gear 44 rotates to drive the second linkage bevel gear 45 to rotate to drive the first subpackaging roller 46 to rotate, the first subpackaging roller 46 rotates to drive the first subpackaging conveyor belt 47 to move, one unpacked subpackaging box 48 moves towards the direction of the subpackaging baffle plate 49, and when the incomplete gear ring 35 is disengaged from the first subpackaging spur gear 37, the subpackaging box 48 is positioned below the blanking baffle plate group 25. When the incomplete gear ring 35 is in contact with the second split straight gear 40, and the second split straight gear 40 rotates for one circle, the incomplete gear ring 35 is separated from the second split straight gear 40, and the second counter gear 36 completes the action of rotating for one circle.

The second split-charging straight gear 40 rotates for one circle to drive the first split-charging bevel gear 41 to rotate for one circle, the second split-charging bevel gear 42 is driven to rotate for one circle, the eccentric wheel 51 is driven to rotate for one circle, the split-charging sliding frame 50 is driven to reciprocate once, and the split-charging baffle 49 is driven to open and close the channel once.

Every time the aluminum welding wire 2 is cut off, the cut aluminum welding wire straight strip falls into a channel between the second blanking baffle 2502 and the first blanking baffle 2501 and falls onto the split charging baffle 49, and the blocking piece 24 is cut off through setting, so that the aluminum welding wire straight strip which is cut off is prevented from popping up upwards.

After the counting mechanism finishes counting (namely the second counting wheel 36 rotates for one circle), the subpackaging baffle plate 49 is opened and closed once, so that the quantitative aluminum welding wire straight strips accumulated on the subpackaging baffle plate 49 fall into a subpackaging box 48 below the blanking baffle plate group 25 for subpackaging and quantifying; the principle is the same as the above, and continuous work is realized.

It should be understood that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same, and those skilled in the art can modify the technical solutions described in the above embodiments, or make equivalent substitutions for some technical features; and all such modifications and substitutions are intended to be included within the scope of the present invention as defined in the appended claims.

Claims (2)

1. The utility model provides an industry aluminum welding wire cutting processing apparatus, includes operation panel (1), alignment mechanism, its characterized in that: the device also comprises a counting mechanism, a cutting mechanism and a split charging mechanism; the straightening mechanism comprises an aluminum welding wire (2), a supporting turntable (3), a limiting seat (4), a primary straightening component (5), a straightening long belt (6), a straightening motor (7), a straightening short belt (8), a straightening small belt wheel (9), a main motor (10), a transmission belt wheel (11), a straightening crank (12), a lower straightening chute (13), an upper straightening chute (14) and a trigger component; the trigger assembly comprises a moving rod (15), a secondary straightening seat (16), a straightening long plate (17), a trigger rod (18), a trigger flat plate (19) and a parallelogram groove (20); the cutting mechanism comprises a trigger inclined block (21), a cutting plate (22), a cutting spring (23), a cutting blocking sheet (24), a blanking baffle group (25), a connecting frame (26), a cutting slide rod (27) and a cutting blade (29); the counting mechanism comprises a toggle connecting seat (28), a toggle piece (30), a pawl (31), a ratchet wheel (32), a first counting wheel (33), a counting toggle wheel (34), an incomplete gear ring (35) and a second counting wheel (36); the subpackaging mechanism comprises a subpackaging straight gear I (37), a linkage belt (38), a subpackaging support I (39), a subpackaging straight gear II (40), a subpackaging bevel gear I (41), a subpackaging bevel gear II (42), a subpackaging support II (43), a linkage bevel gear I (44), a linkage bevel gear II (45), a subpackaging roller (46), a subpackaging conveying belt (47), a subpackaging box (48), a subpackaging baffle plate (49), a subpackaging sliding frame (50) and an eccentric wheel (51); the blanking baffle group (25) comprises a first blanking baffle (2501) and a second blanking baffle (2502); the straightening mechanism is installed on an operating platform (1), a supporting rotary table (3) is installed on the operating platform (1) in a rotating mode, an aluminum welding wire (2) is sleeved on the supporting rotary table (3), the aluminum welding wire (2) is matched with the straightening mechanism, the supporting rotary table (3) and a transmission belt wheel (11) form belt transmission through a straightening long belt (6), the transmission belt wheel (11) is fixedly connected with a first end of a straightening crank (12), a second end of the straightening crank (12) is installed in a lower straight sliding groove (13) in a sliding mode, the lower straight sliding groove (13) is fixedly connected with an upper straight sliding groove (14), the upper straight sliding groove (14) is matched with two groups of trigger assemblies, the two groups of trigger assemblies are symmetrically arranged, a moving rod (15) in each trigger assembly is connected with the upper straight sliding groove (14) in a sliding mode, the moving rod (15) is installed in a parallel-shaped groove (20) in a sliding mode, the parallel-shaped four-sided groove (20) is arranged on a trigger flat plate (19), the upper straight sliding groove (14) is installed between two trigger flat plates (19) in a sliding mode, a straightening seat (16) is fixedly installed on the moving rod (15), and a secondary straightening seat (17) is fixedly installed in a straightening seat, and a trigger mechanism (17) and a trigger plate (17) and a trigger mechanism is installed on a straightening trigger plate (17); the cutting mechanism is characterized in that two trigger inclined blocks (21) in the cutting mechanism are fixedly arranged on a cutting plate (22), each trigger inclined block (21) is matched with one trigger rod (18), the cutting plate (22) is slidably arranged on a cutting slide rod (27), a cutting blade (29) is arranged on the cutting plate (22), and the cutting plate (22) is connected with a counting mechanism;

the cutting device is characterized in that an inclined plane is arranged on the trigger inclined block (21), the parallelogram groove (20) consists of two inclined sections and two straight sections, one straight section is close to the direction of the cutting slide rod (27), each trigger inclined block (21) corresponds to the position of the straight section close to the direction of the cutting slide rod (27), the cutting plate (22) is elastically connected with the connecting frame (26) through the cutting spring (23), the cutting spring (23) is sleeved on the cutting slide rod (27), the connecting frame (26) is fixedly installed on the operating platform (1), and the connecting frame (26) is in contact with the aluminum welding wire (2);

a toggle connecting seat (28) in the counting mechanism is fixedly arranged on the cutting plate (22), the toggle connecting seat (28) is connected with a toggle piece (30) through a counting spring, the toggle piece (30) is rotatably arranged on the toggle connecting seat (28), and the toggle piece (30) is matched with a first counting wheel (33);

two counting wheel connecting plates (3301) are arranged on the first counting wheel (33), a plurality of counting wheel inner rods (3302) are uniformly arranged between the two counting wheel connecting plates (3301), a counting wheel outer rod (3303) is further arranged on the counting wheel connecting plate (3301) close to the second counting wheel (36) direction, the counting wheel connecting plate (3301) close to the toggle connecting seat (28) direction is coaxially and fixedly connected with a ratchet wheel (32), the ratchet wheel (32) is matched with a pawl (31), and the pawl (31) and the ratchet wheel (32) are rotatably installed on the operating table (1);

a plurality of mounting columns are uniformly arranged on the second counting wheel (36), the second counting wheel (36) is rotatably mounted on the first split charging support (39), the second counting wheel (36) is matched with the second counting toggle wheel (34), the second counting toggle wheel (34) is matched with an outer rod (3303) of the second counting wheel, and the second counting toggle wheel (34) is rotatably mounted on the connecting frame (26);

an incomplete gear ring (35) is fixedly mounted on the second counting wheel (36), the incomplete gear ring (35) is matched with the first subpackaging straight gear (37) and the second subpackaging straight gear (40), the first subpackaging straight gear (37) is connected with two subpackaging rollers (46) through a linkage assembly, the two subpackaging rollers (46) form belt transmission through a subpackaging conveyor belt (47);

the second subpackaging straight gear (40) is coaxially and fixedly connected with the first subpackaging bevel gear (41), the first subpackaging bevel gear (41) is meshed with the second subpackaging bevel gear (42), the second subpackaging bevel gear (42) is coaxially and fixedly connected with an eccentric wheel (51), the eccentric wheel (51) is rotatably installed in a subpackaging sliding frame (50), and the subpackaging sliding frame (50) is fixedly connected with a subpackaging baffle plate (49);

the split charging baffle (49) is slidably mounted on the second blanking baffle (2502), and the second blanking baffle (2502) and the first blanking baffle (2501) are symmetrically arranged around the cutting blade (29).

2. The industrial aluminum welding wire cutting processing device as claimed in claim 1, wherein: the primary straightening component (5) comprises a straightening wheel (501), a primary straightening belt (502) and a straightening plate (503), and the position of the aluminum welding wire rod (2) is limited through the primary straightening component (5).

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