CN102616556B - Automatic filament charging machine - Google Patents

Abstract

The invention belongs to the field of machine manufacturing, particularly relates to an automatic filament charging machine for lamp filament transfer and conveyance. Aiming at the defect that the traditional discharging machine cannot provide only one lamp filament to the filament clamping conveyance component each time in a material supply link, the invention discloses an automatic filament charging machine which can provide only one lamp filament to the filament clamping conveyance component each time in the material supply link; two gate plates are arranged at a discharging end of a vibrating material hopper to form a split type gate, and only one lamp filament is supplied to the subsequent filament clamping conveyance component each time by virtue of the through hole on the gate, so that the lamp filaments can be clamped and conveyed one by one; and the misoperation of the traditional filament discharging machine that a plurality of lamp filaments are conveyed at the same time when the discharging end of the vibrating material hopper has a fault can be avoided, the operating and working reliability of the whole machine is improved.

Description

Automatic wiring machine

Technical field

The invention belongs to mechanical manufacturing field, especially a kind of automatic wiring machine that relates to filament running conveying use.

Background technology

Formerly patent " is automatically descended filament machine " (patent No. 201120069419.4) is disclosed and a kind of filament be transported on feeding track after by root gripping, under controller is controlled, with automatic transport machinery, substituting the manual gripping filament of manual operation tweezers is put on feeding track, described automatically lower filament machine is provided with the filament conveying mechanism of two groups of same structures and corresponding feeding track and filament detecting unit, realized filament under mechanical automation, save artificial complement wire process, improved production efficiency.Wherein the discharging opening of electromagnetic shaker is established clamping plate, the filament quantity of at every turn sending by the switching clearance control electromagnetic shaker discharging opening of clamping plate, once the switching gap of clamping plate is wrong, will there is the maloperation that several filaments are sent simultaneously, impact is the normal work of wired conveying assembly and storing gate member below, cause being placed with a more than filament in the V-arrangement trough on last feeding track, lower machine operation makes mistakes automatically.

Summary of the invention

The technical assignment of the technical problem to be solved in the present invention and proposition is to overcome an existing lower machine to be in operation and may to occur together with Multi-filament by clamping plate, by the hidden danger of makeing mistakes of a gripping of wired conveying assembly, to provide a kind of and to guarantee each only automatic wiring machine to wired conveying assembly for a filament in feed link.

For achieving the above object, the technical solution used in the present invention: automatic wiring machine, comprise frame and be located at the feeding track with V-arrangement trough in frame, controller, the filament feedway of two groups of same structures, every group of filament feedway includes and sequentially transmits the vibrations hopper of carrying filament, wired conveying assembly and storing gate member, the mouth of storing gate member be positioned at feeding track directly over and along feeding track working direction, be arranged in order, feeding track one side is provided with filament detecting unit, the feeding section of described filament detecting unit between two groups of storing gate member mouths, it is characterized in that between described vibrations hopper discharge end and wired conveying assembly input end, being provided with one is docked the side-by-side gate forming by two flashboards, in the closed sides of two flashboards, be equipped with arc notch, when side-by-side gate is closed, the arc notch of coupling forms a through hole matching with filament end diameter, through hole is corresponding to vibrations hopper discharge end.By closing device, driving two flashboard open and close controlling vibrations hopper discharge ends to realize filament sends by root, when two flashboards close up under closing device drives, the through hole that the arc notch mating on two flashboards forms only allows a filament end to insert, because having a spiral, filament stage casing is greater than filament end size, filament cannot all pass through through hole under closing gate state, when gate is in open mode, filament can clamp movement, therefore can coordinate by the switching of gate wired conveying assembly to work, guarantee that filament is transferred by root gripping, effectively avoided an existing lower machine in the maloperation of a gripping Multi-filament of discharge end possibility of vibrations hopper, improved the functional reliability of complete machine operation.Controller is used for controlling each working cell according to setting program and step work, and makes relevant units synchronization or sequentially-operating, and this is prior art, repeats no more.

Described vibrations hopper discharge end is provided with the first gas blow pipe and the perpendicular retaining wall of putting, and retaining wall is positioned at vibrations hopper inner side, and the first gas blow pipe is positioned at vibrations hopper lateral retaining wall one side-blown gas, and described the first gas blow pipe is electrically connected to described controller.The filament that vibrations hopper discharge end is sent only has one to insert in through hole, if other filament gathers easy knotting at discharge end and is wound around, the normal discharging of impact vibrations hopper, can blow clean by the first gas blow pipe the unnecessary filament that vibrations hopper discharge end is sent, and avoids filament to gather knotting; Retaining wall is positioned at vibrations hopper inner side, along blowing direction setting, blocks the filament that the first gas blow pipe is blown and kicked up, and guarantees that filament all falls back in vibrations hopper.

Described storing gate member comprises receiving hopper, be positioned at the tilting deflector chute of receiving hopper lower end and upper and lower both ends open, be located at a plurality of gates in deflector chute, be positioned at the gate detecting unit at receiving hopper outlet at bottom place, the deflector chute of one group of storing gate member along feeding track working direction in the feeding of feeding track end, the deflector chute of another group storing gate member perpendicular to feeding track working direction at feeding track feeding at side surface, two deflector chute lower ending openings are all positioned at the top of feeding track, between the deflector chute lower ending opening of feeding track feeding at side surface and feeding track, be provided with a movable drop guide funnel opening and closing, when drop guide funnel is opened, outlet is parallel to trough.Wired conveying assembly is transferred into receiving hopper after filament clamping is moved, and whether gate detecting unit for detection of having filament to fall into deflector chute through receiving hopper, and filament is sent through a plurality of gates down along deflector chute is oblique; A deflector chute is in the feeding of feeding track end, and another deflector chute is at feeding track feeding at side surface, and the discharging direction of two deflector chutes is mutually vertical, and complete machine is arranged more compact, contributes to save installing space; When filament falls along the deflector chute of feeding track feeding at side surface, the vertical trough of filament, while opening due to drop guide funnel, outlet is parallel to trough, can play guiding commutation to filament, change the last whereabouts attitude of filament, filament is fallen into drop guide funnel perpendicular to trough, is then parallel to trough and drops out from drop guide funnel, and correspondence is fallen into the V-arrangement trough mating on feeding track.

Between the described deflector chute lower ending opening in the feeding of feeding track end and feeding track, be provided with a movable drop guide funnel opening and closing, when drop guide funnel is opened, outlet is parallel to trough.Due to storing gate member and wired conveying assembly and the associated cooperation of vibrations hopper, during installation, position adjustment extremely bothers, once feeding track is not aimed in the outlet of the deflector chute of storing gate member, will cause filament course of conveying to be made mistakes, by an independent drop guide funnel being set as the conveying transition between deflector chute outlet and feeding track, guarantee that filament finally can accurately fall into the trough on feeding track, the adjustment location of drop guide funnel is comparatively easy, as long as the filament that deflector chute is sent can be fallen in drop guide funnel top uncovered.

Described drop guide funnel is to opening structure, the material mouth docking of two symmetries, consists of, and two material mouths are provided with symmetrical webge slot, and when drop guide funnel is closed, the webge slot of coupling forms a uncovered material storing cavity that cross section is triangular in shape.When drop guide funnel is closed, inclined-plane in webge slot can play directional tagging, when filament is slipped to material storing cavity bottom downwards along the inclined-plane of webge slot, filament is parallel to the V-arrangement trough on feeding track, along with closing device drives two pairs of weighing mouths separated, drop guide funnel opens, and the drop guide funnel that the docking of two material mouths forms is opened, filament falls along parallel V-arrangement trough direction, drops in the trough of feeding track.

Described wired conveying assembly comprise one by two symmetrical ambulatory splints, formed split jig arm, clamping plate front end is bare terminal, bare terminal when jig arm is closed on two clamping plate closes up formation holding part, and the described jig arm of splitting is located on a swing seat, and swing seat is installed in frame.By clamping plate activity folding, complete the clamping to filament, by swing seat, swing back and forth and drive jig arm translation, make filament be transplanted on storing gate member input end from vibrations hopper discharge end.

Two described flashboard symmetries are connected in a closing device, closing device comprises a pedestal and towed electromagnet provided thereon, the promotion output shaft of towed electromagnet connects two symmetrical L shaped swing arms through pedestal straight down, the L shaped flex point place pin joint of swing arm is on pedestal, promote when output shaft moves down to drive the horizontal ends of swing arm that the vertical end of swing arm is expanded outward, the vertical end of swing arm connects flashboard.Because the flex point place pin joint of L shaped swing arm is on pedestal, when towed electromagnet energising drives promotion output shaft, move down, the horizontal ends of swing arm moves down thereupon, and swing arm is rotated around the pin joint place of flex point, the vertical end of two symmetrical swing arms expands outward and drives flashboard to open, and gate is opened; After towed electromagnet power-off, the built-in retracing spring of electromagnet can retract original position by promoting output shaft, along with promoting to move in output shaft drive swing arm horizontal ends, swing arm is done and aforementioned reverse rotation, the vertical end of two symmetrical swing arms inside contracts to close up and drives flashboard to close up, closing gate, closing device is active in one's movements not easy to wear, and towed electromagnet is wherein prior art.In addition, drop guide funnel and split jig arm and can carry out driving work with this closing device, as long as install closing device accumbency.

Described promotion output shaft connects two swing arms by a connector, the bottom jag of connector forms mounting groove, along what promote output shaft, be radially provided with locating dowel pin in mounting groove, in the horizontal ends of swing arm, have the horizontal concrete chute matching with locating dowel pin, the horizontal ends of two swing arms is positioned at mounting groove and parallel card is connected on locating dowel pin.When connector moves down, by the cooperation of locating dowel pin and horizontal concrete chute, the relative chute translation of locating dowel pin, the horizontal ends of swing arm presses down and drives swing arm to rotate around pin joint place, the vertical end of realizing swing arm expands outward, while moving on connector, swing arm is done and aforementioned reverse motion, and the vertical end of swing arm inside contracts and closes up.Chute can be open slot, and opening part is positioned at the horizontal end of swing arm, and chute opening facilitates swing arm and locating dowel pin connection, and two swing arms can be inserted in the mounting groove of connector bottom successively, allow locating dowel pin snap in from the opening part of chute, quick and easy for installation; If chute does not have opening, the chute of two swing arms will be inserted after alignment to locating dowel pin again and install, need several workpiece step that simultaneously puts in place to install, install complicated, require high.

Described connector top is provided with a positive stop end radially protruding along promotion output shaft, and on connector, cover has a spring, and both ends of the spring withstands respectively positive stop end and pedestal.Spring can help to promote output shaft Rapid reset, when towed electromagnet energising drives promotion output shaft to move down, stretches out, and spring is compressed; After towed electromagnet power-off, spring reset extends, and pushing tow promotes to be moved back into original position on output shaft rapidly.According to actual operating conditions, positive stop end can be the round platform of integrative-structure on connector or independently be arranged on the jump ring on connector.Round platform one processing on connector makes, and mounting spring is efficient and convenient; The installation site of jump ring on connector is adjustable, assembles more flexible.

Described pedestal is provided with one second gas blow pipe, and the air extractor duct of the second gas blow pipe is positioned at through hole top and blows downwards.At gate, open while allowing filament freely pass through, the second gas blow pipe is blown at gate lead to the hole site, removes other filament that is wrapped in described filament afterbody, guarantees that the filament that wired conveying assembly clamps handover at every turn only has one.

The present invention arranges the side-by-side gate of two flashboard compositions activity at the discharge end of vibrations hopper, utilize the through hole arranging on gate at every turn for follow-up wired conveying assembly all only provides a filament, guarantee that filament is transferred by root gripping, avoid an existing lower machine to make mistakes and send the maloperation of several filaments simultaneously at vibrations hopper discharge end, greatly improve the functional reliability of complete machine operation; The closing device workpiece that drives gate, jig arm, feed funnel to open and close is few, be active in one's movements reliably, not easy to wear; Two groups of storing gate members deflector chute mutually vertical, complete machine structure can be compacter, save installing space; The drop guide funnel of corresponding feeding track end feeding setting is convenient to the adjustment in complete engine set installation, and the drop guide funnel of corresponding feeding track feeding at side surface setting can guarantee that filament accurately falls into trough to filament guiding commutation; The first gas blow pipe and the second gas blow pipe can play the effect that blows off filament wound at diverse location, guarantee that complete machine normally works.

Accompanying drawing explanation

Fig. 1: schematic diagram of the present invention.

Fig. 2: the enlarged drawing of A portion in Fig. 1.

Fig. 3: the enlarged drawing of B portion in Fig. 1.

Fig. 4: two feeding position, place schematic diagrams on feeding track.

Fig. 5: the schematic diagram of vibrations hopper.

Fig. 6: the schematic diagram of drop guide funnel.

Fig. 7: filament schematic diagram.

Fig. 8: closing device schematic diagram one.

Fig. 9: closing device schematic diagram two.

Figure 10: closing device schematic diagram three (removing pedestal).

Figure 11: side-by-side gate schematic diagram.

Figure 12: jig arm schematic diagram.

In figure: 1. frame, 2. vibrations hopper, 3. wired conveying assembly, 4. storing gate member, 5. feeding track, 6. filament detecting unit, 7. flashboard, 8. closing device, 9. arc notch, 10. through hole, 11. first gas blow pipes, 12. retaining walls, 13. receiving hoppers, 14. deflector chutes, 15. gates, 16. drop guide funnels, 17. material mouths, 18. webge slots, 19. material storing cavitys, 20. hold-down arms, 21. clamping plate, 22. bare terminals, 23. swing seats, 24. pedestals, 25. towed electromagnet, 26. promote output shaft, 27. swing arms, 28. horizontal ends, 29. vertically hold, 30. connectors, 31. mounting grooves, 32. locating dowel pins, 33. chutes, 34. positive stop ends, 35. springs, 36. oscillating motors, 37. troughs, 38. second gas blow pipes, 39. columns, 40. pin-and-holes, 41. mounting holes, 42. erecting beds, 43. filaments.

The specific embodiment

Below in conjunction with accompanying drawing explanation and the specific embodiment, the present invention is further illustrated.

As shown in Fig. 1～12, automatic wiring machine, comprise frame 1, which is provided with erecting bed 42, erecting bed is provided with the filament feedway of feeding track 5 with V-arrangement trough 37, controller (not shown), two groups of same structures, every group of filament feedway includes and sequentially transmits vibrations hopper 2, wired conveying assembly 3 and the storing gate member 4 of carrying filament, the mouth of storing gate member 4 be positioned at feeding track 5 directly over along feeding track working direction, be arranged in order.

Described storing gate member 4 comprises receiving hopper 13, be positioned at the tilting deflector chute 14 of receiving hopper lower end and upper and lower both ends open, be located at a plurality of gates 15 in deflector chute, be positioned at the gate detecting unit (not shown) at receiving hopper outlet at bottom place, the deflector chute 14 of one group of storing gate member along feeding track 5 working direction in feeding track 5 end feedings, the deflector chute 14 of another group storing gate member perpendicular to feeding track 5 working direction at feeding track 5 feeding at side surfaces (referring to Fig. 4), feeding track 5 one sides are provided with filament detecting unit 6 and are electrically connected to controller, the feeding section of described filament detecting unit 6 between two groups of storing gate member 4 mouths.

Two deflector chute 14 lower ending opening places be all positioned at feeding track 5 directly over, along feeding track 5 working direction, be provided with two movable drop guide funnel 16(that open and close referring to Fig. 1), a drop guide funnel is between deflector chute 14 lower ending openings and feeding track 5 of feeding track 5 feeding at side surfaces, and when described drop guide funnel is opened, outlet is parallel to trough 37; Another drop guide funnel is between deflector chute 14 lower ending openings and feeding track 5 of feeding track 5 end feedings, and when described drop guide funnel is opened, outlet is parallel to trough 37.

As shown in Figure 6, drop guide funnel 16 is to opening structure, material mouth 17 docking by two symmetries form, two material mouths 17 are provided with symmetrical webge slot 18, when drop guide funnel 16 is closed, the webge slot of coupling forms a material storing cavity 19 that cross section is triangular in shape, material storing cavity 19 open tops, and on two described material mouths 17, one is extended hold-down arm 20, described hold-down arm symmetry is connected in a closing device 8, and described closing device 8 is positioned at feeding track 5 sides and is loaded on erecting bed 42.

As shown in Fig. 2 and 12, wired conveying assembly 3 comprise one by two symmetrical ambulatory splints 21, formed split jig arm, clamping plate front end is bare terminal 22, bare terminal when jig arm is closed on two clamping plate 21 closes up formation holding part, two clamping plate symmetries are connected in a closing device 8, and described closing device 8 is located on a swing seat 23, and swing seat drives by an oscillating motor 36, swing seat 23 and oscillating motor 36 are all arranged on column 39, and column is fixed on erecting bed 42.

As shown in Figure 2, between vibrations hopper 2 discharge ends and wired conveying assembly 3 input ends, be provided with a side-by-side gate (referring to Figure 11) being formed by 7 docking of two flashboards, on two flashboards 7, be equipped with arc notch 9, when side-by-side gate is closed, the arc notch of coupling forms a through hole 10 matching with filament end diameter, through hole is corresponding to vibrations hopper 2 discharge ends, two flashboard 7 symmetries are connected in a closing device 8, and described closing device is electrically connected to controller.

As shown in Fig. 8～10, closing device 8 comprises a pedestal 24 and towed electromagnet 25 provided thereon, the promotion output shaft 26 of towed electromagnet 25 connects two symmetrical L shaped swing arms 27 through pedestal 24 straight down, the L shaped flex point place pin joint of swing arm is on pedestal 24, the L shaped flex point place of swing arm 27 wear bearing pin (not shown) by swing arm pin joint on pedestal 24, on pedestal, have the pin-and-hole 40 that bearing pin is installed, promotion output shaft 26 drives the horizontal ends 28 of swing arm 27 to make outer the expanding of vertical end 29 of swing arm while moving down, the vertical end 29 of swing arm is the working end of closing device 8, swing arm 27 is vertically established symmetrical mounting hole 41 on end 29 along its length, described promotion output shaft 26 connects two swing arms 27 by a connector 30, the bottom jag of connector 30 forms mounting groove 31, along what promote output shaft 26, be radially provided with locating dowel pin 32 in mounting groove, the horizontal ends 28 that has horizontal concrete chute 33, two swing arms 27 that match with locating dowel pin 32 in the horizontal ends 28 of swing arm 27 is positioned at mounting groove 31 and parallel card is connected on locating dowel pin 32, described connector 30 tops are provided with a positive stop end 34 radially protruding along promotion output shaft 26, and on connector 30, cover has a spring 35, and both ends of the spring withstands respectively positive stop end 34 and pedestal 24.Hold-down arm 20 on drop guide funnel is connected in the vertical end 29 of swing arm 27 in closing device 8; The clamping plate 21 of splitting jig arm are connected in the vertical end 29 of swing arm 27 in closing device.

As shown in Figure 2, the air extractor duct that pedestal 24 is provided with one second gas blow pipe 38, the second gas blow pipes is positioned at through hole 10 tops and can blows downwards.

As shown in Figure 5, vibrations hopper 2 discharge ends are provided with the first gas blow pipe 11 and the perpendicular retaining wall 12 of putting, and retaining wall 12 is positioned at vibrations hopper 2 inner sides, and the first gas blow pipe 11 is positioned at vibrations hopper 2 lateral retaining wall one side-blown gas, and described the first gas blow pipe 11 is electrically connected to controller.

During use, filament feedway in feeding track 5 end feedings is the first feedway, filament feedway at feeding track feeding at side surface is the second feedway, only the trough 37 on 6 pairs of feeding tracks of filament detecting unit detects when empty if, the second feedway just moves work feeding track is carried out to feeding, at the room of feeding track trough, fills a filament.The first feedway is identical with the second feedway structure, also all identical to the course of conveying of filament.

The first transportation work process is as follows: filament 43(is shown in Fig. 6) from the discharge end continuous vibration of vibrations hopper 2, send, the front end of filament 43 spirals inserts in the through hole 10 of gate, controller is controlled closing device work, the jig arm of splitting in wired conveying assembly 3 is clamped filament through gate one end, the first gas blow pipe 11 is blown, all the other filaments with being wound around by folder filament of continuous vibration output in vibrations hopper are blown back in vibrations hopper 2, gate is opened, oscillating motor 36 work in wired conveying assembly, swing seat 23 swings thereupon, drive jig arm clamping filament to move to receiving hopper 13 tops storing gate member 4 from the position of corresponding flashboard, closing gate, vibrations hopper continues to send filament and inserts gate through hole, so repeatedly, in swing seat swing process, the second gas blow pipe 38 is blown and is removed other filament with being pressed from both sides filament spiral winding, when swinging, swing seat puts in place, the filament of jig arm clamping is parked in receiving hopper 13 tops of storing gate member 4, jig arm is opened, and filament 43 falls to sending into deflector chute 14 through receiving hopper 13, and jig arm and swing seat are so repeatedly, clamping filament moves on to the top of receiving hopper, and filament is fallen into receiving hopper, the gate detecting unit that receiving hopper 13 outlet at bottoms are installed has detected filament, in deflector chute, some gates from top to bottom 15 are corresponding opens, guarantee only to block a filament inside each gate, a filament is only sent in deflector chute 14 bottom outlets at every turn, on deflector chute, nethermost gate 15 is opened, filament is fallen into drop guide funnel 16 from the outlet of deflector chute bottom, and closing device task driven drop guide funnel is opened, and filament is fallen into the V-arrangement trough 37 on feeding track 5.

Claims (10)

1. automatic wiring machine, comprise frame (1) and be located at the feeding track (5) of the band V-arrangement trough (37) in frame, controller, the filament feedway of two groups of same structures, every group of filament feedway includes and sequentially transmits the vibrations hopper (2) of carrying filament, wired conveying assembly (3) and storing gate member (4), the mouth of storing gate member (4) be positioned at feeding track (5) directly over and along feeding track working direction, be arranged in order, feeding track (5) one sides are provided with filament detecting unit (6), described filament detecting unit (6) is positioned at the feeding section between two groups of storing gate members (4) mouth, it is characterized in that being provided with one by the side-by-side gate of two flashboards (7) docking formation between described vibrations hopper (2) discharge end and wired conveying assembly (3) input end, in the closed sides of two flashboards (7), be equipped with arc notch (9), when side-by-side gate is closed, the arc notch of coupling forms a through hole matching with filament end diameter (10), through hole is corresponding to vibrations hopper (2) discharge end.

2. automatic wiring machine according to claim 1, it is characterized in that described vibrations hopper (2) discharge end is provided with the first gas blow pipe (11) and the perpendicular retaining wall (12) of putting, retaining wall (12) is positioned at vibrations hoppers (2) inner side, the first gas blow pipe (11) is positioned at vibrations hopper lateral retaining wall one side-blown gas, and described the first gas blow pipe (11) is electrically connected to described controller.

3. automatic wiring machine according to claim 1, it is characterized in that described storing gate member (4) comprises receiving hopper (13), be positioned at the tilting deflector chute (14) of receiving hopper lower end and upper and lower both ends open, be located at a plurality of gates (15) in deflector chute, be positioned at the gate detecting unit at receiving hopper outlet at bottom place, the deflector chute of one group of storing gate member (14) along feeding track (5) working direction in the feeding of feeding track end, the deflector chute (14) of another group storing gate member perpendicular to feeding track (5) working direction at feeding track feeding at side surface, two deflector chutes (14) lower ending opening is all positioned at the top of feeding track (5), between deflector chute (14) lower ending opening of feeding track (5) feeding at side surface and feeding track (5), be provided with movable first drop guide funnel (16) opening and closing, when the first drop guide funnel is opened, outlet is parallel to trough (37).

4. automatic wiring machine according to claim 3, it is characterized in that being provided with movable second drop guide funnel (16) opening and closing between described deflector chute (14) lower ending opening in feeding track (5) end feeding and feeding track (5), when the second drop guide funnel is opened, outlet is parallel to trough (37).

5. automatic wiring machine according to claim 4, it is characterized in that described the first drop guide funnel (16) and the second drop guide funnel (16) are opening structure, material mouth (17) docking by two symmetries forms, two material mouths (17) are provided with symmetrical webge slot (18), and when the first drop guide funnel (16) and the second drop guide funnel (16) closure, the webge slot of coupling forms a uncovered material storing cavity (19) that cross section is triangular in shape.

6. automatic wiring machine according to claim 1, it is characterized in that described wired conveying assembly (3) comprises that one by the jig arm of splitting of two symmetrical ambulatory splints (21) formations, clamping plate front end is bare terminal (22), bare terminal when jig arm is closed on two clamping plate (21) closes up formation holding part, the described jig arm of splitting is located at a swing seat (23) above, and swing seat (23) is installed in frame (1).

7. according to the automatic wiring machine described in any one in claim 1 to 6, it is characterized in that described two flashboards (7) symmetry is connected in a closing device (8), closing device (8) comprises a pedestal (24) and towed electromagnet (25) provided thereon, the promotion output shaft (26) of towed electromagnet (25) connects two symmetrical L shaped swing arms (27) through pedestal (24) straight down, the L shaped flex point place pin joint of swing arm is on pedestal (24), promotion output shaft (26) drives the horizontal ends (28) of swing arm (27) to make outer the expanding of vertical end (29) of swing arm while moving down, the vertical end (29) of swing arm connects flashboard (7).

8. automatic wiring machine according to claim 7, it is characterized in that described promotion output shaft (26) connects two swing arms (27) by a connector (30), the bottom jag of connector (30) forms mounting groove (31), along what promote output shaft (26), be radially provided with locating dowel pin (32) in mounting groove, in the horizontal ends (28) of swing arm (27), have the horizontal concrete chute (33) matching with locating dowel pin (32), the horizontal ends (28) of two swing arms (27) is positioned at mounting groove (31) and parallel card is connected on locating dowel pin (32).

9. automatic wiring machine according to claim 8, it is characterized in that described connector (30) top is provided with a positive stop end (34) radially protruding along promotion output shaft (26), the upper cover of connector (30) has a spring (35), both ends of the spring to withstand respectively positive stop end (34) and pedestal (24).

10. automatic wiring machine according to claim 7, is characterized in that described pedestal (24) is provided with one second gas blow pipe (38), and the air extractor duct of the second gas blow pipe is positioned at through hole (10) top and blows downwards.

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