CN114393456A

CN114393456A - Alloy welding wire preparation facilities

Info

Publication number: CN114393456A
Application number: CN202210047831.9A
Authority: CN
Inventors: 唐彪
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-17
Filing date: 2022-01-17
Publication date: 2022-04-26

Abstract

The invention provides an alloy welding wire preparation device which comprises a workbench, a polishing mechanism, a guide mechanism and a winding mechanism, wherein the polishing mechanism is arranged at the upper end of the workbench, the guide mechanism is positioned at two sides of the polishing mechanism, and the winding mechanism is arranged at the right side of the polishing mechanism; the present invention can solve the following problems: 1. most of the traditional alloy welding wire polishing machines wind the alloy welding wire on a processing roller in a spiral shape, then the processing roller is rotated to polish the alloy welding wire, and the machines can not make the alloy welding wire lean against the processing roller, so the alloy welding wire is easy to slide, and the processing effect is influenced; 2. because the alloy welding wire is wound on the processing roller, the alloy welding wire and the polishing end of the machine are in sliding friction, the alloy welding wire can only be polished in a sliding mode, the alloy welding wire cannot be polished in a circumferential rotating mode, and therefore the polishing effect is not ideal.

Description

Alloy welding wire preparation facilities

Technical Field

The invention relates to the technical field of alloy welding wires, in particular to an alloy welding wire preparation device.

Background

The alloy welding wire is used as a filler metal or a metal wire welding material for conducting, and generally, when the alloy welding wire is manufactured, impurities such as oil stains, rust and the like are adhered to the surface of the alloy welding wire, so that when the alloy welding wire is used for welding, the impurities on the surface of the alloy welding wire can cause welding defects such as air holes and the like on a welding bead, and therefore, the alloy welding wire needs to be polished to remove the impurities remained on the surface of the alloy welding wire, and the welding effect is improved.

However, the following problems exist when the alloy welding wire is ground and polished at present: 1. most of the traditional alloy welding wire polishing machines wind the alloy welding wire on a processing roller in a spiral shape, then the processing roller drives the alloy welding wire to polish and polish the inside of the machine, and the machines can not attach the alloy welding wire to the processing roller, so that the alloy welding wire is easy to slide when the processing roller rotates, and the processing effect is influenced;

2. because the alloy welding wire is wound on the processing roller, the alloy welding wire and the polishing end of the machine are in sliding friction, so that the machine can only perform sliding polishing on the outer wall of the alloy welding wire, and cannot perform circumferential rotation polishing on the alloy welding wire, thereby influencing the polishing effect on the alloy welding wire.

Disclosure of Invention

In order to solve the problems, the invention provides an alloy welding wire preparation device which comprises a workbench, a grinding mechanism, a guide mechanism and a winding mechanism, wherein the grinding mechanism is arranged at the upper end of the workbench, the guide mechanism is positioned at two sides of the grinding mechanism, and the winding mechanism is arranged at the right side of the grinding mechanism, wherein:

grinding machanism includes supporting seat, connecting axle, two-way motor, drive belt, annular frame, dead lever, top contact spring lever, gangbar and sanding plate, wherein: the supporting seat is fixedly arranged at the upper end of the workbench, a fixing groove is formed in the upper side of the inner part of the supporting seat, transmission grooves are symmetrically formed in the left side and the right side of the fixing groove, annular grooves are formed in the lower end of the transmission grooves at equal intervals from front to back, a circular sliding groove is formed in the inner annular wall of the annular groove, a linkage groove communicated with the circular sliding groove is formed in the inner edge wall of the circular sliding groove, material passing holes penetrating through the supporting seat are symmetrically formed in the left side and the right side of the linkage groove, a connecting shaft is uniformly and rotatably arranged in the transmission grooves, a bidirectional motor is arranged in the fixing groove, output ends of the left side and the right side of the bidirectional motor are connected with the connecting shaft, the outer wall of the connecting shaft is connected with a driving belt, gear seats are uniformly and fixedly arranged on the outer wall of the driving belt in the circumferential direction, the annular frame is rotatably arranged in the annular groove, fixing rods which are slidably arranged in the circular sliding groove are uniformly and circumferentially arranged on the outer annular wall of the annular frame in the circumferential direction, one end of the fixed rod, far away from the annular frame, is provided with a linkage rod through a top-contact spring rod, and one end of the linkage rod, far away from the annular frame, is provided with a polishing plate which is rotatably arranged in the linkage groove; the workman passes the supporting seat with the alloy welding wire through the punishment in advance hole, then start two-way motor, two-way motor drives the connecting axle and rotates, it rotates to drive the drive belt through the connecting axle, make the pinion stand carry out circumferential motion under the effect of drive belt, and then carry out circumferential direction through pinion stand cooperation fixed tooth belt drive annular frame, the annular frame drives the top through the dead lever and touches the spring beam and carry out circumferential direction, and then make the top touch the spring beam and drive the board of polishing through the gangbar and carry out circumferential direction, so that carry out circumferential direction to the alloy welding wire and polish the processing, during through the top touch the spring beam can make the board of polishing paste and lean on the alloy welding wire surface, in order to strengthen the effect of polishing.

As a preferred technical scheme of the invention, the grinding plate is of a fan-shaped structure which is used for being attached to the outer wall of the alloy welding wire, and a conical barrel is fixedly arranged at the left end of the grinding plate; when the alloy welding wire passes the supporting seat through the material passing hole, one end of the alloy welding wire can be guided through the conical barrel, when the alloy welding wire is inserted into the inner wall of the polishing plate, the polishing plate correspondingly yields according to the diameter of the alloy welding wire under the action of the linkage rod and the top contact spring rod, so that the alloy welding wire is guided to the inner wall of the polishing plate, and the alloy welding wire is prevented from being deviated to influence the polishing efficiency in the later stage.

As a preferred technical scheme of the invention, one side of the polishing plate, which is far away from the linkage rod, is clamped with a fan-shaped abrasive disc for enhancing the polishing effect; the polishing effect of the polishing plate on the alloy welding wire can be improved through the fan-shaped grinding disc, and the fan-shaped grinding disc is convenient to replace.

As a preferred technical solution of the present invention, the guide mechanism includes a fixing base, a connecting groove, a guide hole, a support spring rod, a fixing shaft, and a guide roller, wherein: the fixing base bilateral symmetry sets up in the supporting seat both sides, and the fixing base is located the supporting seat both sides, and the spread groove has been seted up to the fixing base inside, and the spread groove inner wall is from the front to the back evenly seted up with the corresponding guiding hole in punishment in advance hole, and symmetrical fixed mounting has the supporting spring pole around both sides are all about the spread groove, and the supporting spring pole other end is connected with the fixed axle jointly, and the fixed axle outside is rotated the cover and is equipped with the guide roll.

As a preferred technical scheme of the invention, the outer side of the guide roller is provided with clamping grooves corresponding to the guide holes at equal intervals from front to back; when the workman passes guiding mechanism with the alloy welding wire, at first insert the one end of alloy welding wire to the guiding hole in, then promote it to the right side, when the alloy welding wire removes to guide roll department, the guide roll carries out the joint with the alloy welding wire through the draw-in groove and fixes, the guide roll will be synchronous extrudeed to alloy welding wire one side under the effect of fixed axle cooperation supporting spring pole during, with the frictional force between reinforcing draw-in groove and the alloy welding wire, thereby can prevent that the alloy welding wire from taking place to slide in the draw-in groove, and can avoid the guide roll to extrude the deformation with the alloy welding wire, and then ensure the result of use in alloy welding wire later stage.

As a preferred technical scheme of the invention, the winding mechanism comprises a supporting plate, a rotating motor, a linkage shaft, a winding roller, a telescopic spring rod and a pressing roller, wherein: the utility model discloses a rolling machine, including workstation, flexible spring rod, the backup pad front and back symmetry is installed on workstation upper end right side, the motor passes through the motor cover to be installed terminal surface before the backup pad of front side, it is connected with the universal driving shaft that rotates the setting in the backup pad of rear end to rotate the motor output, the equidistant cover in the universal driving shaft outside is equipped with the wind-up roll from the front to the back, even fixed mounting is in the workstation top from the front to the back to flexible spring rod, and flexible spring rod is located the wind-up roll below, flexible spring rod is close to wind-up roll one side and rotates jointly and be provided with the press roller corresponding with the wind-up roll, and press the roller and lean on in the wind-up roll outside.

As a preferred technical scheme of the invention, splines are circumferentially and equidistantly arranged on the outer side of the linkage shaft, and key grooves in sliding fit with the splines are circumferentially and equidistantly arranged on the inner annular wall of the winding roller.

As a preferred technical scheme of the invention, annular limiting discs are fixedly arranged at both ends of the wind-up roll; a worker sleeves a winding roller on a linkage shaft, so that one end of an alloy welding wire to be processed passes through a polishing mechanism and a guiding mechanism and then is wound on the winding roller, a rotating motor is started at the moment, the rotating motor drives the linkage shaft to rotate clockwise, the linkage shaft drives the winding roller to rotate clockwise through a spline fit key groove, the polished alloy welding wire is wound through the winding roller, the alloy welding wires at two ends of the winding roller can be limited through an annular limiting disc in the process, the alloy welding wire is prevented from scattering in the winding process, a pressing roller can abut against the outer wall of the winding roller through a telescopic spring rod, the alloy welding wire on the outer wall of the winding roller can be extruded, gaps among the alloy welding wires can be reduced, and the winding density is improved; after the rolling is finished, the rotating motor is closed, the rolling roller is taken down from the universal driving shaft at the moment, and then is collected, so that the rolling roller can be packaged and taken out of the warehouse.

The invention has the beneficial effects that:

the polishing machine is greatly improved aiming at the polishing of the alloy welding wire, and can solve the problem of' 1. most of the traditional alloy welding wire polishing machines wind the alloy welding wire on a processing roller in a spiral shape, then the processing roller drives the alloy welding wire to polish and polish in the machine, and the machine can not attach the alloy welding wire to the processing roller, so that the alloy welding wire is easy to slide when the processing roller rotates, and the processing effect is influenced; 2. because the alloy welding wire is wound on the processing roller, the alloy welding wire and the polishing end of the machine are in sliding friction, so that the machine can only perform sliding polishing on the outer wall of the alloy welding wire, and cannot perform circumferential rotation polishing on the alloy welding wire, and the polishing effect is not ideal.

The polishing mechanism is arranged, one end of the alloy welding wire can be guided through the conical barrel at the left end of the polishing plate, so that the alloy welding wire is guided to the inner wall of the polishing plate, and the influence on the polishing efficiency in the later period due to the deviation of the alloy welding wire is prevented; and can carry out the circumferential direction through polishing board moving fan-shaped abrasive disc to the alloy welding wire and polish the processing, can make the board of polishing paste and lean on the alloy welding wire surface through the spring lever that touches on during, can improve the effect of polishing of board to the alloy welding wire through fan-shaped abrasive disc during.

The guide mechanism is arranged, the alloy welding wire is clamped and fixed through the clamping groove in the outer side of the guide roller, the guide roller synchronously extrudes towards one side of the alloy welding wire under the action of the fixed shaft matched with the supporting spring rod, the alloy welding wire is attached to the clamping groove, and the friction force between the clamping groove and the alloy welding wire is enhanced, so that the alloy welding wire can be prevented from sliding in the clamping groove, the processing effect is enhanced, the alloy welding wire can be prevented from being extruded and deformed by the guide roller, and the later use effect of the alloy welding wire is ensured.

The invention is provided with the winding mechanism, the ground alloy welding wires are wound by the winding roller, the alloy welding wires at two ends of the winding roller can be limited by the annular limiting discs during the winding process, the alloy welding wires are prevented from scattering in the winding process, and the winding roller is convenient to detach from the universal driving shaft so as to collect the alloy welding wires.

According to the telescopic spring rod and the pressing roller, the pressing roller can abut against the outer wall of the winding roller through the telescopic spring rod, and the alloy welding wires on the outer wall of the winding roller can be extruded, so that gaps among the alloy welding wires can be reduced, and the winding density is improved.

Drawings

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

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a front sectional view of the present invention.

Fig. 3 is a left side cross-sectional view of the present invention. The three-dimensional structure is schematically shown.

Fig. 4 is a partial enlarged view of fig. 1 a of the present invention.

Fig. 5 is a partial enlarged view of the present invention at B of fig. 2.

Fig. 6 is a partial enlarged view of the present invention at C of fig. 2.

Fig. 7 is a partial enlarged view of the invention at D of fig. 3.

Fig. 8 is a partial enlarged view of the present invention at E of fig. 1.

Fig. 9 is a partial perspective view of the winding mechanism of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 9, the invention provides an alloy welding wire preparation device, which adopts the following alloy welding wire preparation device, the alloy welding wire preparation device comprises a workbench 1, a polishing mechanism 2, a guide mechanism 3 and a winding mechanism 4, the upper end of the workbench 1 is provided with the polishing mechanism 2, the guide mechanism 3 is positioned at two sides of the polishing mechanism 2, the right side of the polishing mechanism 2 is provided with the winding mechanism 4, wherein:

grinding machanism 2 includes supporting seat 21, connecting axle 22, two-way motor 23, drive belt 24, annular frame 25, dead lever 26, top contact spring pole 27, gangbar 28 and grinding plate 29, wherein: the supporting seat 21 is fixedly arranged at the upper end of the workbench 1, the supporting seat 21 is of a detachable splicing structure, the upper side inside the supporting seat 21 is provided with a fixing groove 211, the fixing groove 211 is bilaterally symmetrically provided with a transmission groove 212, the lower end of the transmission groove 212 is provided with an annular groove 213 at equal intervals from front to back, the inner annular wall of the annular groove 213 is provided with a circular sliding groove 214, the inner edge wall of the circular sliding groove 214 is provided with a linkage groove 215 communicated with the circular sliding groove, the linkage groove 215 is bilaterally symmetrically provided with a material passing hole 216 penetrating through the supporting seat 21, wherein a connecting shaft 22 is uniformly and rotatably arranged in the transmission groove 212, a bidirectional motor 23 is arranged in the fixing groove 211, output ends of the left side and the right side of the bidirectional motor 23 are both connected with the connecting shaft 22, the outer wall of the connecting shaft 22 is connected through a transmission belt 24, the outer wall of the transmission belt 24 is circumferentially and uniformly and fixedly provided with a gear seat 241, the annular frame 25 is rotatably arranged in the annular groove 213, and fixed with fixing teeth 251 meshed with the gear seat 241 are circumferentially and uniformly arranged on the outer annular wall of the annular frame 25, the fixing rod 26 that the slip set up in circular spout 214 is evenly installed to annular frame 25 inner ring wall circumference, and annular frame 25 one end is kept away from to fixing rod 26 is provided with gangbar 28 through top contact spring lever 27, and gangbar 28 is kept away from annular frame 25 one end and is installed and rotate the polishing plate 29 that sets up in linkage groove 215, and under the initial condition, gangbar 28 drives polishing plate 29 and removes to keeping away from top contact spring lever 27 one side under the effect that top contact spring lever 27 was touched in the top, makes and support each other between the polishing plate 29 and lean on, polishing plate 29 is for being used for pasting the fan-shaped structure at the alloy outer wall, and polishing plate 29 left end fixed mounting has a toper section of thick bamboo 29, polishing plate 29 keeps away from gangbar 28 one side joint and has the fan-shaped abrasive disc 292 that is used for reinforcing the effect of polishing.

When the alloy welding wire winding device works specifically, firstly, a worker penetrates an alloy welding wire through the material passing hole 216 through the supporting seat 21, one end of the alloy welding wire is wound on the winding mechanism 4, when the alloy welding wire penetrates through the supporting seat 21 through the material passing hole 216, one end of the alloy welding wire can be guided through the conical barrel 291, when the alloy welding wire is inserted into the inner wall of the grinding plate 29, the grinding plate 29 correspondingly yields according to the diameter of the alloy welding wire under the action of the linkage rod 28 and the top contact spring rod 27, so that the alloy welding wire is guided to the inner wall of the grinding plate 29, and the influence on the later grinding efficiency caused by the deviation of the alloy welding wire is prevented; then start two-way motor 23, two-way motor 23 drives connecting axle 22 and rotates, drive belt 24 through connecting axle 22 and rotate, make gear holder 241 carry out circumferential motion under the effect of drive belt 24, and then drive annular frame 25 through gear holder 241 cooperation fixed tooth 251 and carry out circumferential direction, annular frame 25 drives through dead lever 26 and pushes up and touch spring lever 27 and carry out circumferential direction, and then make and push up and touch spring lever 27 and drive polishing plate 29 through gangbar 28 and carry out circumferential direction, so that carry out circumferential direction and polish the processing to the alloy welding wire, during can make polishing plate 29 paste and lean on the alloy welding wire surface through pushing up and touching spring lever 27, during can improve the polishing effect of polishing plate 29 to the alloy welding wire through fan-shaped abrasive disc 292, and fan-shaped abrasive disc 292 is convenient for change.

The guiding mechanism 3 includes a fixing seat 31, a connecting groove 32, a guiding hole 33, a supporting spring rod 34, a fixing shaft 35 and a guiding roller 36, wherein: fixing base 31 bilateral symmetry sets up in supporting seat 21 both sides, and fixing base 31 is located supporting seat 21 both sides, and the inside spread groove 32 of having seted up of fixing base 31, spread groove 32 inner wall from the front to the back evenly set up with the corresponding guiding hole 33 in punishment in advance hole 216, and symmetrical fixed mounting has supporting spring pole 34 around the equal both sides about spread groove 32, and the supporting spring pole 34 other end is connected with fixed axle 35 jointly, and the cover is rotated in the fixed axle 35 outside and is equipped with guide roll 36, the equidistant draw-in groove 361 corresponding with guiding hole 33 of seting up from the front to the back in the guide roll 36 outside.

During specific work, when the workman passes guiding mechanism 3 with the alloy welding wire, at first insert the one end of alloy welding wire to guiding hole 33 in, then promote it to the right side, when the alloy welding wire removed to guide roll 36 department, guide roll 36 carries out the joint with the alloy welding wire through draw-in groove 361 and fixes, guide roll 36 will be synchronous to alloy welding wire one side extrusion under the effect of fixed axle 35 cooperation supporting spring pole 34 during, with the frictional force between reinforcing draw-in groove 361 and the alloy welding wire, thereby can prevent that the alloy welding wire from taking place to slide in draw-in groove 361, and can avoid guide roll 36 to extrude the deformation with the alloy welding wire, and then ensure the result of use in alloy welding wire later stage.

The winding mechanism 4 comprises a supporting plate 41, a rotating motor 42, a linkage shaft 43, a winding roller 44, a telescopic spring rod 45 and a pressing roller 46, wherein: the supporting plate 41 is symmetrically arranged on the right side of the upper end of the workbench 1 in a front-back mode, the rotating motor 42 is arranged on the front end face of the supporting plate 41 on the front side through a motor cover, the output end of the rotating motor 42 is connected with a linkage shaft 43 which is rotatably arranged on the supporting plate 41 on the rear end, winding rollers 44 are sleeved on the outer side of the linkage shaft 43 at equal intervals from front to back, the telescopic spring rods 45 are uniformly and fixedly arranged above the workbench 1 from front to back, the telescopic spring rods 45 are located below the winding rollers 44, one sides of the telescopic spring rods 45, which are close to the winding rollers 44, are jointly rotatably provided with pressing rollers 46 corresponding to the winding rollers 44, and the pressing rollers 46 abut against the outer side of the winding rollers 44; splines are installed on the outer side of the linkage shaft 43 in the circumferential direction at equal intervals, key grooves in sliding fit with the splines are formed in the inner ring wall of the winding roller 44 in the circumferential direction at equal intervals, annular limiting discs 441 are fixedly arranged at two ends of the winding roller 44, and the winding roller 44 and the linkage shaft 43 are in a separated state in an initial state.

During specific work, a worker sleeves the winding roller 44 on the linkage shaft 43, one end of an alloy welding wire to be processed penetrates through the polishing mechanism 2 and the guide mechanism 3 and then is wound on the winding roller 44, the rotating motor 42 is started at the moment, the rotating motor 42 drives the linkage shaft 43 to rotate clockwise, the linkage shaft 43 drives the winding roller 44 to rotate clockwise through the spline matched key groove, the polished alloy welding wire is wound through the winding roller 44, the alloy welding wires at two ends of the winding roller 44 can be limited through the annular limiting disc 441 in the winding process, the alloy welding wire is prevented from scattering in the winding process, the pressing roller 46 can abut against the outer wall of the winding roller 44 through the telescopic spring rod 45, the alloy welding wire on the outer wall of the winding roller 44 can be extruded, gaps among the alloy welding wires can be reduced, and winding density is improved; after the winding is completed, the rotating motor 42 is turned off, and the winding roller 44 is taken off from the linkage shaft 43 and collected, so that the winding roller can be packaged and delivered out of the warehouse.

The alloy welding wire grinding and polishing device for the alloy welding wire preparation device comprises the following steps:

s1, alloy welding wire installation: firstly, raw materials of the alloy welding wire are manufactured into the alloy welding wire, then the alloy welding wire is subjected to primary electrolytic chemical cleaning treatment, then a worker penetrates the alloy welding wire through the material passing hole 216 through the supporting seat 21, then the alloy welding wire penetrates through the guide mechanism 3, firstly, one end of the alloy welding wire is inserted into the guide hole 33 and then pushed to the right side, when the alloy welding wire moves to the guide roller 36, the guide roller 36 clamps and fixes the alloy welding wire through the clamping groove 361, and the guide roller 36 synchronously extrudes towards one side of the alloy welding wire under the action of the fixing shaft 35 matched with the supporting spring rod 34 so as to enhance the friction force between the clamping groove 361 and the alloy welding wire, so that the alloy welding wire can be prevented from sliding in the clamping groove 361, the guide roller 36 can be prevented from extruding and deforming the alloy welding wire, and the later use effect of the alloy welding wire is ensured; meanwhile, a worker sleeves the winding roller 44 on the linkage shaft 43, so that one end of the alloy welding wire to be processed passes through the polishing mechanism 2 and the guide mechanism 3 and then is wound on the winding roller 44; then the grinding mechanism 2 is started;

s2, grinding the alloy welding wire: the alloy welding wire is drawn into the material passing hole 216 through the guide mechanism 3 on the left side, and is inserted into the linkage groove 215, then the two-way motor 23 is started, the two-way motor 23 drives the connecting shaft 22 to rotate, the driving belt 24 is driven to rotate through the connecting shaft 22, so that the gear seat 241 performs circumferential motion under the action of the driving belt 24, and further the gear seat 241 cooperates with the fixed teeth 251 to drive the annular frame 25 to rotate circumferentially, the annular frame 25 drives the top-touch spring rod 27 to rotate circumferentially through the fixed rod 26, thereby leading the top-touch spring rod 27 to drive the grinding plate 29 to rotate in the circumferential direction through the linkage rod 28, so as to facilitate circumferential rotation grinding treatment on the alloy welding wire, the grinding plate 29 can be attached to the surface of the alloy welding wire by the top contact spring rod 27, the grinding effect of the grinding plate 29 on the alloy welding wire can be improved by the fan-shaped grinding sheet 292, and the fan-shaped grinding sheet 292 is convenient to replace;

s3, rolling the alloy welding wire: the alloy welding wires which are polished are guided to the winding roller 44 to the right side through the guide mechanism 3 on the right side, so that the tensile force of the winding roller 44 to the alloy welding wires is reduced, the rotating motor 42 is started, the rotating motor 42 drives the linkage shaft 43 to rotate clockwise, the linkage shaft 43 drives the winding roller 44 to rotate clockwise through the spline fit key groove, the polished alloy welding wires are wound through the winding roller 44, the alloy welding wires at two ends of the winding roller 44 can be limited through the annular limiting disc 441 in the process, the alloy welding wires are prevented from scattering in the winding process, the pressing roller 46 can abut against the outer wall of the winding roller 44 through the telescopic spring rod 45, the alloy welding wires on the outer wall of the winding roller 44 can be extruded, the gap between the alloy welding wires can be reduced, and the winding density is improved; after the winding is completed, the rotating motor 42 is turned off, and the winding roller 44 is taken off from the linkage shaft 43 and collected, so that the winding roller can be packaged and delivered out of the warehouse.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an alloy welding wire preparation facilities, includes workstation (1), grinding machanism (2), guiding mechanism (3) and winding mechanism (4), its characterized in that: workstation (1) upper end is provided with grinding machanism (2), and guiding mechanism (3) are located grinding machanism (2) both sides, and winding mechanism (4), wherein are installed on grinding machanism (2) right side:

grinding machanism (2) include supporting seat (21), connecting axle (22), two-way motor (23), drive belt (24), annular frame (25), dead lever (26), top contact spring lever (27), gangbar (28) and board (29) of polishing, wherein: the supporting seat (21) is fixedly arranged at the upper end of the workbench (1), a fixing groove (211) is formed in the upper side inside the supporting seat (21), transmission grooves (212) are formed in the left and right sides of the fixing groove (211) in a symmetrical mode, annular grooves (213) are formed in the lower end of the transmission grooves (212) at equal intervals from front to back, circular sliding grooves (214) are formed in the inner annular wall of each annular groove (213), linkage grooves (215) communicated with the circular sliding grooves are formed in the inner edge wall of each circular sliding groove (214), material passing holes (216) penetrating through the supporting seat (21) are formed in the left and right sides of each linkage groove (215) in a symmetrical mode, wherein the connecting shaft (22) is uniformly arranged in the transmission grooves (212) in a rotating mode, the bidirectional motor (23) is arranged in the fixing groove (211), the output ends of the left and right sides of the bidirectional motor (23) are connected with the connecting shaft (22), the outer wall of the connecting shaft (22) is connected with the driving belt (24), gear seats (241) are uniformly and fixedly arranged in the circumferential direction on the outer wall of the driving belt (24), the annular frame (25) is rotatably arranged in the annular groove (213), fixed teeth (251) meshed with the gear seat (241) are uniformly and fixedly arranged on the circumferential direction of the outer annular wall of the annular frame (25), fixing rods (26) slidably arranged in the circular sliding groove (214) are uniformly and circumferentially arranged on the circumferential direction of the inner annular wall of the annular frame (25), one end, far away from the annular frame (25), of each fixing rod (26) is provided with a linkage rod (28) through a top-contact spring rod (27), and one end, far away from the annular frame (25), of each linkage rod (28) is provided with a polishing plate (29) rotatably arranged in the linkage groove (215).

2. The alloy wire manufacturing apparatus according to claim 1, wherein: the polishing plate (29) is of a fan-shaped structure used for being attached to the outer wall of the alloy welding wire, and a conical barrel (291) is fixedly mounted at the left end of the polishing plate (29).

3. The alloy wire manufacturing apparatus according to claim 2, wherein: and one side of the polishing plate (29) far away from the linkage rod (28) is clamped with a fan-shaped grinding disc (292) for enhancing the polishing effect.

4. The alloy wire manufacturing apparatus according to claim 1, wherein: guiding mechanism (3) are including fixing base (31), spread groove (32), guiding hole (33), support spring lever (34), fixed axle (35) and guide roll (36), wherein: fixing base (31) bilateral symmetry sets up in supporting seat (21) both sides, and fixing base (31) are located supporting seat (21) both sides, connecting groove (32) have been seted up to fixing base (31) inside, connecting groove (32) inner wall is evenly seted up from the front to the back with punishment in advance hole (216) corresponding guiding hole (33), and symmetrical fixed mounting has supporting spring pole (34) around the equal both sides of connecting groove (32), supporting spring pole (34) other end is connected with fixed axle (35) jointly, fixed axle (35) outside is rotated the cover and is equipped with guide roll (36).

5. The alloy wire manufacturing apparatus according to claim 4, wherein: the outer side of the guide roller (36) is provided with clamping grooves (361) corresponding to the guide holes (33) at equal intervals from front to back.

6. The alloy wire manufacturing apparatus according to claim 1, wherein: winding mechanism (4) are including backup pad (41), rotating electrical machines (42), universal driving shaft (43), wind-up roll (44), telescopic spring pole (45) and press roller (46), wherein: the utility model discloses a winding machine, including workstation (1), workstation (44), flexible spring rod (45) are close to wind-up roll (44) one side and rotate jointly and be provided with and press compression roller (46) corresponding with wind-up roll (44), and press compression roller (46) and lean on in the wind-up roll (44) outside, the symmetry is installed on workstation (1) upper end right side around backup pad (41), rotate motor (42) and install terminal surface before backup pad (41) of front side through the motor cover, it is connected with linkage shaft (43) that rotate to set up on backup pad (41) of rear end to rotate motor (42) output, the equidistant cover in linkage shaft (43) outside from the front to the back is equipped with wind-up roll (44), even fixed mounting is in workstation (1) top from the front to the back in flexible spring rod (45), and flexible spring rod (45) are located wind-up roll (44) below, flexible spring rod (45) are close to wind-up roll (44) one side and rotate jointly and are provided with wind-up roll (44) corresponding press compression roller (46) and lean on the wind-up roll (44) outside.

7. The alloy wire manufacturing apparatus according to claim 6, wherein: splines are arranged on the outer side of the linkage shaft (43) at equal intervals in the circumferential direction, and key grooves in sliding fit with the splines are formed in the inner annular wall of the winding roller (44) at equal intervals in the circumferential direction.

8. The alloy wire manufacturing apparatus according to claim 6, wherein: and annular limiting discs (441) are fixedly arranged at two ends of the winding roller (44).