CN211003544U - Iron wire divides material equipment - Google Patents

Abstract

The utility model relates to the field of iron wire distributing equipment, in particular to iron wire distributing equipment, which comprises two supporting plates symmetrically fixed on a frame, two material supporting plates fixed between the two supporting plates, limiting plates are fixed between the material supporting plates and the corresponding supporting plates, the upper end surfaces of the material supporting plates are obliquely arranged, the tail ends of the upper end surfaces of the material supporting plates are respectively fixed with a material blocking bulge, a bottom plate is also fixed on the machine frame between the two material supporting plates, two sliding material blocks are symmetrically fixed on the upper end surface of the bottom plate, a feeding device is fixed on the bottom plate between the two sliding material blocks, the feeding device comprises an air cylinder II fixed on the bottom plate, the air cylinder II is connected with a magnetic absorption base through a piston rod, the magnetic absorption base is characterized in that limiting blocks are fixed at the bottoms of two sides of the upper end face of the magnetic absorption base, and a plurality of limiting magnets are further uniformly fixed on the upper end face of the magnetic absorption base. Through this device can be effectual with the iron wire transport to next worker station after dividing into single.

Description

Iron wire divides material equipment

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of iron wire distribution equipment, in particular to iron wire distribution equipment.

[ background of the invention ]

Often can use emulation christmas tree to dress up when crossing christmas etc. the emulation christmas tree is assembled by many emulation christmas branches usually and is formed, current emulation christmas branch passes through the plastic line winding to the iron wire by emulation branch and leaf, for convenient use, bundle into a bundle after being cut into required length after the iron wire is produced and transport, when the iron wire used, need the workman to use after dividing into a root with the iron wire, intensity of labour is big, and work efficiency is very low.

The invention is provided for overcoming the defects of the prior art.

[ summary of the invention ]

The invention aims to overcome the defects of the prior art and provides iron wire distributing equipment which can automatically divide an iron wire into single pieces and supply the single pieces to the next work station for use.

The invention can be realized by the following technical scheme:

the invention discloses iron wire distributing equipment, which comprises two supporting plates symmetrically fixed on a frame, two material supporting plates are fixed between the two supporting plates, limiting plates are fixed between the material supporting plates and the corresponding supporting plates, the upper end surfaces of the material supporting plates are obliquely arranged, the tail ends of the upper end surfaces of the material supporting plates are respectively fixed with a material blocking bulge, a bottom plate is also fixed on the frame between the two material supporting plates, two sliding material blocks are symmetrically fixed on the upper end surface of the bottom plate, a feeding device is fixed on the bottom plate between the two sliding material blocks, the feeding device comprises an air cylinder II fixed on the bottom plate, the air cylinder II is connected with a magnetism absorbing base through a piston rod, the bottom parts of the two sides of the upper end surface of the magnetism absorbing base are respectively fixed with a limiting block, a plurality of limiting magnets are uniformly fixed on the upper end surface of the magnetism absorbing base, and the limiting magnets are fixed on the upper end, one of them the sliding material piece is kept away from and is still fixed with feed mechanism on aforementioned material feeding unit's the terminal surface, feed mechanism contains fixes cylinder I on the sliding material piece, cylinder I is connected with the rack through the piston rod, still is fixed with on two sliding material pieces and passes the sliding material piece and rotate the pivot of being connected with the sliding material piece, pivot one end is fixed with the gear with aforementioned rack intermeshing, still be fixed with the delivery wheel in the pivot, it has the delivery block to inlay through the bolt on the delivery wheel, be fixed with the chute feeder in the delivery block, the bottom of the chute feeder is inlayed and is had the pay-off magnet, it has a plurality of stirring magnets still to inlay on the delivery wheel. Placing an iron wire of an incoming material on a material supporting plate in two supporting plates, fixing the iron wire between two limiting plates, sliding the iron wire to a position of a material blocking bulge along the material supporting plate, starting a cylinder I, extending a piston rod on the cylinder I, wherein a rack fixed on the piston rod is meshed with a gear on a rotating shaft, the rack pushes the rotating shaft to rotate, when the rotating shaft rotates to a specified position, the cylinder I stops, a feeding groove on a feeding wheel reaches the position of the material blocking bulge at the lowest position of the upper end surface of the material supporting plate, only one iron wire can enter the feeding groove due to the space in the feeding groove, the single iron wire is fixed into the feeding groove due to the attraction of a feeding magnet, the cylinder I starts again, the piston rod on the cylinder I shortens, the rotating shaft rotates reversely, the iron wire in the feeding groove rotates along with the feeding wheel, when the feeding groove on the feeding wheel rotates to the position of the upper end surface of a magnetic absorption base, the cylinder I, after the iron wire is fixed by the magnetic absorption base through the limiting block and the limiting magnet, the iron wire is transported to the next work station along with the magnetic absorption base and is clamped by a manipulator of the next work station for use, after the manipulator clamps the iron wire, the air cylinder II is started again, the magnetic absorption base is moved to the initial position, the air cylinder I is started again, the feeding wheel rotates to the position of the iron wire at the bottommost layer on the material supporting plate again, the operation is circulated, and the iron wire can be effectively divided into single iron wires and then transported to the next work station; and through fixed stirring magnet on the delivery wheel to magnet attraction back separation when rotating along with the delivery wheel, drive the iron wire vibrations, avoid the iron wire alternately to pile up, make the iron wire can effectually reach and keep off protruding position department, make device steady operation to the pay-off piece is through the bolt fastening on the delivery wheel, can change the pay-off piece of different size chute feeders, makes this device satisfy the iron wire separation transport demand of different diameters.

Preferably, a sliding rod is fixed between the two support plates, a plurality of sliding blocks connected with the sliding rod in a sliding mode are fixed on the sliding rod, the material supporting plates are fixed on the sliding blocks, and the limiting plates are also fixed on the sliding blocks. Through slider and slide bar sliding connection, can adjust the slide bar and go up the different positions of spacing board and support flitch, make this device satisfy the iron wire separation transport demand of different length.

Preferably, the sliding block is correspondingly fixed with bearings, and the rotating shaft penetrates through the two bearings and is rotatably connected with the sliding block.

Preferably, a baffle is further fixed on the cylinder I and is fixed above the rack. The iron wires after the iron wires are cut can be effectively prevented from being adhered to the iron wires, the iron wires fall on the rack to abrade the rack and the gear, and the service life of the rack and the gear can be effectively prolonged.

Preferably, the upper end faces of the two supporting plates are fixed on the positioning plate, and the lower end face of the positioning plate is vertically fixed with the material baffle plate. The material blocking plate is used for blocking, so that the situation that only a small amount of iron wires can reach the material blocking protruding position on the material supporting plate through the gap between the material blocking plate and the material supporting plate can be guaranteed, and the situation that the stable operation of the device is influenced by the fact that a large amount of iron wires are stacked at the material blocking protruding position can be effectively avoided.

Preferably, a material supporting wheel rotating on the sliding block is further fixed on the sliding block below the rack. The rack is supported by the material supporting wheel, so that the rack is moved stably, and the meshing of the rack and the gear is ensured.

The working principle is as follows: placing iron wires of supplied materials on material supporting plates in two supporting plates, enabling the iron wires to slide down to the positions of material blocking bulges along the material supporting plates, starting an air cylinder I, enabling a piston rod on the air cylinder I to extend, enabling a rack fixed on the piston rod to be meshed with a gear on a rotating shaft, enabling the rack to push the rotating shaft to rotate, enabling the rotating shaft to rotate to a specified position, stopping the air cylinder I, enabling a feeding groove on a feeding wheel to reach the positions of the material blocking bulges at the lowest position of the upper end face of the material supporting blocks, enabling the iron wires to only contain one iron wire to enter due to the space in the feeding groove, enabling a single iron wire to be fixed into the feeding groove due to the attraction of a feeding magnet, starting the air cylinder I again, shortening the piston rod on the air cylinder I, rotating the rotating shaft reversely, enabling the iron wires in the feeding groove to rotate along with the feeding wheel, enabling the feeding groove on the feeding wheel to rotate to the position of the upper end face of a magnetic absorption base, the iron wire is along with inhaling the magnetism base and transporting next work station, is got the back and is used by the manipulator clamp at next work station, and the manipulator clamp gets the iron wire after, and II restarts of cylinder will inhale the magnetism base and remove initial position, and I restarts of cylinder, and the delivery wheel rotates the iron wire position department of bottommost on the support flitch once more, and the circulation operation can be effectual falls into single back with the iron wire and transports next work station.

Compared with the prior art, the invention has the following advantages:

1. through this device can be effectual with the iron wire divide into single back transport to next station, need not artifical branch material, very big reduction the cost of labor and improved production efficiency.

2. After the iron wire is fixed in the chute feeder, send to and inhale magnetism base position department after upwards overturning along with the delivery wheel, can effectively carry single iron wire and inhale magnetism base position department, can effectively guarantee the steady operation of device.

3. The pay-off piece is fixed on the feeding wheel through the bolt, can change the pay-off piece of unidimensional chute feeder, makes this device satisfy the iron wire separation of different diameters and carries the demand.

4. Through fixed stirring magnet on the feeding wheel to magnet attraction back separation when rotating along with the feeding wheel, drive the iron wire vibrations, avoid the iron wire alternately to pile up, make the iron wire can effectually reach the protruding position department of keeping off the material, guarantee device steady operation.

[ description of the drawings ]

The following detailed description of embodiments of the invention is provided in conjunction with the appended drawings, in which:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is an exploded view of the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4;

FIG. 6 is a schematic structural view of a material distributing mechanism of the present invention;

FIG. 7 is an enlarged view of FIG. 3 at B;

in the figure: 1. a support plate; 2. a slide bar; 3. a material supporting plate; 4. a limiting plate; 5. positioning a plate; 6. a base plate; 7. a material distributing mechanism; 701. a rotating shaft; 702. a feed wheel; 703. a feed chute; 704. feeding a magnet; 705. a gear; 706. a rack; 707. a cylinder I; 708. a baffle plate; 710. shifting the magnet; 8. a sliding material block; 9. a bearing; 10. a cylinder II; 11. a magnetic attraction base; 12. a limiting block; 13. a limiting magnet; 14. a striker plate; 15. a slider; 16. the material blocking bulge is arranged; 17. a material supporting wheel;

[ detailed description ] embodiments

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

as shown in figures 1 to 7, the invention discloses an iron wire distribution device, which comprises two supporting plates 1 symmetrically fixed on a frame (not shown), two material supporting plates 3 are fixed between the two supporting plates 1, a limiting plate 4 is fixed between each material supporting plate 3 and the corresponding supporting plate 1, the upper end surfaces of the material supporting plates 3 are obliquely arranged, the tail ends of the upper end surfaces of the material supporting plates 3 are respectively fixed with a material stopping bulge 16, a bottom plate 6 is also fixed on the frame between the two material supporting plates 3, two sliding material blocks 8 are symmetrically fixed on the upper end surface of the bottom plate 6, a feeding device is fixed on the bottom plate 6 between the two sliding material blocks 8, the feeding device comprises an air cylinder II 10 fixed on the bottom plate 6, the air cylinder II 10 is connected with a magnetism absorbing base 11 through a piston rod, limiting blocks 12 are respectively fixed on the bottoms of two sides of the upper end surface of the magnetism absorbing base 11, a plurality of limiting magnets 13 are uniformly fixed on the upper end, the limiting magnet 13 is fixed on the upper end face of the magnetic absorption base 11 close to the limiting block 12, a material distribution mechanism 7 is further fixed on the end face, far away from the feeding device, of one of the sliding material blocks 8, the material distribution mechanism 7 comprises a cylinder I707 fixed on the sliding material block 8, the cylinder I707 is connected with a rack 706 through a piston rod, a rotating shaft 701 which penetrates through the sliding material block 8 and is rotatably connected with the sliding material block 8 is further fixed on the two sliding material blocks 8, a gear 705 which is meshed with the rack 706 is fixed at one end of the rotating shaft 701, a feeding wheel 702 is further fixed on the rotating shaft 701, a feeding block is fixed on the feeding wheel 702 through bolts in an embedded mode, a feeding groove 703 is fixed in the feeding block, a feeding magnet 704 is embedded at the bottom of the feeding groove 703. Placing the iron wires of the supplied materials on the material supporting plates 3 in the two supporting plates 1, fixing the iron wires between the two limiting plates 4, sliding the iron wires to the positions of the material stopping bulges 16 along the material supporting plates 3, starting the air cylinder I707, extending the piston rod on the air cylinder I707, because the rack 706 fixed on the piston rod is meshed with the gear 705 on the rotating shaft 701, the rack 706 pushes the rotating shaft 701 to rotate, when the rotating shaft 701 rotates to the designated position, the air cylinder I707 stops, the feeding groove 703 on the feeding wheel 702 reaches the position of the material stopping bulges 16 at the lowest position of the upper end surface of the material supporting blocks, because the space in the feeding groove 703 can only transversely contain one iron wire to enter, because the iron wire is attracted by the feeding magnet 704, a single iron wire is fixed in the feeding groove, the air cylinder I707 is started again, the piston rod on the air cylinder I707 shortens, the rotating shaft 701 reversely rotates, the iron wires in the feeding groove 703 rotates along with the feeding wheel 702, when the feeding groove 703 on the feeding, the air cylinder I707 is stopped, the air cylinder II 10 is started, a piston rod on the air cylinder II 10 extends, after the magnet absorbing base 11 fixes the iron wire through the limiting block 12 and the limiting magnet 13, the iron wire is transported to a next work station along with the magnet absorbing base 11 and is clamped by a manipulator (not shown) of the next work station for use, after the manipulator clamps the iron wire, the air cylinder II 10 is started again, the magnet absorbing base 11 is moved to the initial position, the air cylinder I707 is started again, the feeding wheel 702 rotates to the position of the iron wire at the bottommost layer on the material supporting plate 3 again, the operation is circulated, the iron wire can be effectively separated into single iron wires and then transported to the next work station, the iron wire does not need to be separated and transported manually, the production efficiency is greatly improved, and the labor cost is reduced; and through fixed stirring magnet 710 on the feeding wheel 702 to the separation of magnet attraction back when rotating along with feeding wheel 702, drive the iron wire vibrations, avoid feeding wheel 702 department iron wire alternately to pile up, make the iron wire can effectually reach the protruding 16 positions departments of fender material, make device steady operation to the feedblock is through the bolt fastening on feeding wheel 702, can change the feedblock of not unidimensional chute feeder 703, makes this device satisfy the iron wire separation transport demand of different diameters.

Wherein, be fixed with slide bar 2 between two backup pads 1, be fixed with a plurality of and slide bar 2 sliding connection's slider 15 on the slide bar 2, hold in the palm flitch 3 and all fix on the slider 15 that corresponds, limiting plate 4 also fixes on the slider 15 that corresponds. Through slider 15 and 2 sliding connection of slide bar, can adjust the distance between 2 upper limit plate 4 of slide bar and hold in the palm the distance between the flitch 3, make this device satisfy the iron wire separation transport demand of different length.

Wherein, the sliding block 8 is correspondingly fixed with bearings 9, and the rotating shaft 701 passes through the two bearings 9 and is rotatably connected with the sliding block 8.

Wherein, a material supporting wheel 17 which rotates on the material sliding block 8 is also fixed on the material sliding block 8 below the rack 706. The material supporting wheel 17 supports the rack 706, so that the rack 706 moves stably and the meshing of the rack 706 and the gear 705 is ensured.

Wherein, still be fixed with baffle 708 on cylinder I707, baffle 708 is fixed in the top of rack 706. The iron chips adhered to the iron wires after the iron wires are cut can be effectively prevented from falling onto the rack 706 to wear the rack 706 and the gear 705, and the service lives of the rack 706 and the gear 705 can be effectively prolonged.

Wherein, the up end of two backup pads 1 is all fixed on locating plate 5, and the lower terminal surface of locating plate 5 is vertical to be fixed with striker plate 14. Block through striker plate 14, can guarantee that only a small amount of iron wires can reach the protruding 16 positions of fender material on the die pad board 3 after the clearance between striker plate 14 and die pad board 3, can effectively avoid a large amount of iron wires to pile up and influence device steady operation in the protruding 16 positions of fender material.

The above description is only a preferred embodiment of the present invention, and it should be noted that a person skilled in the art can make various changes, modifications, substitutions and alterations to the embodiments without departing from the technical principles of the present invention, and such changes, modifications, substitutions and alterations should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides an iron wire divides material equipment which characterized in that: the magnetic material distribution device comprises two supporting plates which are symmetrically fixed on a rack, two material supporting plates are fixed between the two supporting plates, limiting plates are fixed between the material supporting plates and the corresponding supporting plates, a bottom plate is further fixed on the rack between the two material supporting plates, two sliding blocks are symmetrically fixed on the upper end face of the bottom plate, a feeding device is fixed on the bottom plate between the two sliding blocks, the feeding device comprises a cylinder II fixed on the bottom plate, the cylinder II is connected with a magnetic absorption base through a piston rod, limiting blocks are fixed on the two sides of the upper end face of the magnetic absorption base, a plurality of limiting magnets are further uniformly fixed on the upper end face of the magnetic absorption base, the limiting magnets are fixed on the upper end face of the magnetic absorption base close to the limiting blocks, a material distribution mechanism is further fixed on the end face, far away from the feeding device, of one of the sliding blocks, and comprises a cylinder I fixed on, the cylinder I is connected with a rack through a piston rod, a rotating shaft which penetrates through the sliding blocks and is connected with the sliding blocks in a rotating mode is further fixed on the two sliding blocks, a gear meshed with the rack is fixed at one end of the rotating shaft, a feeding wheel is further fixed on the rotating shaft, a feeding block is inlaid on the feeding wheel through a bolt, a feeding groove is fixed in the feeding block, a feeding magnet is inlaid at the bottom of the feeding groove, and a plurality of stirring magnets are inlaid on the feeding wheel.

2. The iron wire distribution equipment of claim 1, wherein: the supporting plate is characterized in that a sliding rod is fixed between the two supporting plates, a plurality of sliding blocks connected with the sliding rod in a sliding mode are fixed on the sliding rod, the material supporting plates are fixed on the sliding blocks, and the limiting plates are also fixed on the sliding blocks.

3. The iron wire distribution equipment of claim 1, wherein: the sliding block is correspondingly fixed with bearings, and the rotating shaft penetrates through the two bearings and is rotatably connected with the sliding block.

4. The iron wire distribution equipment of claim 1, wherein: a baffle is further fixed on the cylinder I and is fixed above the rack.

5. The iron wire distribution equipment of claim 1, wherein: the upper end faces of the two supporting plates are fixed on the positioning plate, and the lower end face of the positioning plate is vertically fixed with a material baffle plate.

6. The iron wire distribution equipment of claim 1, wherein: the material supporting plate is characterized in that the upper end face of the material supporting plate is obliquely arranged, and material blocking bulges are fixed at the tail ends of the upper end face of the material supporting plate.

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