CN208811326U - A kind of haul structure of the automatic continuous laser marking machine of thermal cut-off - Google Patents

Abstract

The utility model relates to marking machine, the haul structure of the automatic continuous laser marking machine of specifically a kind of thermal cut-off.A kind of haul structure of the automatic continuous laser marking machine of thermal cut-off, including bottom stage, the bottom stage is equipped with baffle, baffle two sides are equipped with fixed rack, it is equipped with interior carry-over bar in the middle part of fixed rack, correcting plate is equipped on the outside of fixed rack, is equipped with outer carry-over bar on the outside of correcting plate, the interior carry-over bar and outer carry-over bar are connect with servo motor, and servo motor is connect with control system.The usefulness of the utility model: the automatic continuous laser marking of thermal cut-off, without human intervention, time saving and energy saving, high production efficiency can be achieved.

Description

A kind of haul structure of the automatic continuous laser marking machine of thermal cut-off

Technical field

The utility model relates to marking machine, the haul knot of the automatic continuous laser marking machine of specifically a kind of thermal cut-off Structure.

Background technique

By in the mark process of the Technology application of laser marking to thermal fuse-link shell, the several of traditional ink mark are improved A disadvantage, the label after mark clearly can be traced, and save the steel plate that ink mark uses, but existing beat laser It marks the equipment for applying to thermal cut-off mark and is also highly dependent on manual operation, must be replaced manually after completing a collection of mark, Mark inefficiency, it is time-consuming and laborious.

Summary of the invention

In order to solve above-mentioned existing thermal cut-off shell laser marking can not automatic continuous mark the technical issues of, this reality A kind of haul structure of automatic continuous laser marking machine of thermal cut-off is provided with novel.

The technical solution of the utility model is as follows:

A kind of haul structure of the automatic continuous laser marking machine of thermal cut-off, including bottom stage, the bottom stage are equipped with gear Plate, equipped with fixed rack, fixed rack middle part is equipped with interior carry-over bar for baffle two sides, and correcting plate, correcting plate outside are equipped on the outside of fixed rack Equipped with outer carry-over bar, the interior carry-over bar and outer carry-over bar are connect with servo motor, and servo motor is connect with control system.

The bottom stage left end is equipped with track, and upper rail is equipped with above track, and track right end is equipped with baffle, and baffle two sides are equipped with Fixed rack, recess forms accommodating space downwards at fixed rack middle part, interior carry-over bar is equipped in accommodating space, fixed rack outside, which is equipped with, leads Positive plate, correcting plate outside are equipped with outer carry-over bar, and outer carry-over bar lower end is equipped with connecting plate, interior carry-over bar and outer carry-over bar and connecting plate Connection, is formed there through multiple mounting holes on bottom stage, and connecting plate passes through mounting hole, connecting plate lower end and axis connection, the axis other end with Synchronous pulley connection, motor side synchronous pulley is connect with motor side synchronous pulley by synchronous belt for synchronous pulley and servo motor connects It connects, servo motor is connect with motor mounting plate, and motor mounting plate is mounted on bottom stage lower surface, and axis is connect with bearing block, bearing block It is mounted on bottom stage lower surface.

The upper rail surface is equipped with twice groove, and lock is equipped in groove, and lock lower end is contacted with thermal cut-off shell.

Press strip is equipped with above the correcting plate and outer carry-over bar, press strip is connect with press strip guide rod, press strip guide rod and press strip branch Frame connection, press strip bracket are mounted on bottom stage.

The motor mounting plate left and right ends are equipped with belt adjustment wheel bracket, and belt adjustment wheel bracket upper end is equipped with belt tune Section wheel, belt regulating wheel are contacted with synchronous belt.

The axis is equipped with origin baffle, and bottom stage lower surface is equipped with origin switch mounting plate, origin switch mounting plate lower end Equipped with origin switch, origin baffle is corresponding with origin switch position.

Feed opening is formed there through on the bottom stage.

The fixed rack, interior carry-over bar, correcting plate and outer carry-over bar surface are in dentation, under fixed rack, correcting plate and baffle End, which is recessed inwardly to be formed, evades slot, and the slot of evading of fixed rack lower end is connected to accommodating space.

Groove between the interior carry-over bar surface adjacent teeth is arc-shaped, the groove between the adjacent teeth of outer carry-over bar surface Bottom is arc-shaped.

Ingenious in design using the technical solution of the utility model, structure novel is, it can be achieved that the automatic continuous of thermal cut-off swashs Light mark, without human intervention, time saving and energy saving, high production efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of the utility model；

Fig. 3 is the structural schematic diagram of the utility model；

Fig. 4 is the part-structure elevational schematic view of the utility model；

Fig. 5 is the partial structure diagram of the utility model；

Fig. 6 is the structural schematic diagram of the utility model bottom stage；

Fig. 7 is the structural schematic diagram of the utility model correcting plate；

Fig. 8 is the structural schematic diagram of the utility model baffle；

Fig. 9 is the structural schematic diagram of the utility model fixed rack；

Figure 10 is the part-structure enlarged diagram of the utility model；

Figure 11 is the part-structure enlarged diagram of the utility model；

Figure 12 is the part-structure enlarged diagram of the utility model；

Figure 13 is the structural schematic diagram of the utility model；

Figure 14 is the using state structure diagram of the utility model.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing.

A kind of haul structure of the automatic continuous laser marking machine of thermal cut-off, the haul structure as shown in Fig. 1 ~ 14 Including bottom stage 1, bottom stage 1 is square plate, multiple installation through-holes being used to install other components is arranged thereon, 1 right part of bottom stage passes through It wears to form feed opening 102, the thermal cut-off after laser marking is from symmetrical two inside and outside 102 blanking of feed opening, haul structure setting Production line, the corresponding independent line of a vibrating disk 29, two production line independent operatings, complementation interference, production efficiency Height, 1 left end of bottom stage are equipped with track 8, and 8 surface of track is equipped with 2 symmetrical feeding grooves 801, and the shell of thermal cut-off is from feeding groove It is in good order in 801 to pass through, upper rail 9 is equipped with above track 8,9 lower ends of upper rail are recessed inwardly to form feeding groove, and feeding is recessed Slot limits transverse shifting of the shell of thermal cut-off in feeding groove 801 in being covered on 2 feeding grooves 801, prevents hot melt disconnected The shell of device drops out feeding groove 801, and 9 surfaces of the upper rail are equipped with twice groove, are equipped with lock 10 in groove, latch 10 lower ends It is contacted with thermal cut-off shell, limits longitudinal movement of the shell of thermal cut-off in feeding groove 801, prevent the shell of thermal cut-off Body drops out feeding groove 801 because mutual extrusion jacks up, and 8 right end of track is equipped with baffle 6,6 inner and outer ends of baffle and thermal cut-off shell The contact of body head limits position of the thermal cut-off on fixed rack 4, and fixed rack 4,4 middle part of fixed rack are equipped with inside and outside baffle 6 Recess forms accommodating space downwards, and interior carry-over bar 3 is equipped in accommodating space, is equipped with correcting plate 5 on the outside of fixed rack 4, outside correcting plate 5 Side is equipped with outer carry-over bar 2, and the fixed rack 4, interior carry-over bar 3, correcting plate 5 and 2 surface of outer carry-over bar are in dentation, and thermal cut-off holds It sets between adjacent teeth, stablizes not easily shifted, fixed rack 4, correcting plate 5 and 6 lower end of baffle are recessed inwardly to be formed and evade slot, are used for Evade the position of link block 12, the slot of evading of 4 lower end of fixed rack is connected to accommodating space, convenient for interior carry-over bar 3 and link block 12 Connection, the groove between interior 3 surface adjacent teeth of carry-over bar be it is arc-shaped, facilitate the shell of accommodating thermal cut-off, with thermal cut-off Shell contact area is bigger, thermal cut-off stablize in circular groove it is not easily shifted, between outer 2 surface adjacent teeth of carry-over bar Bottom portion of groove be it is arc-shaped, facilitate the lead portion of accommodating thermal cut-off, bigger with thermal cut-off wire contacts area, hot melt is disconnected Device stablize in circular arc-shaped bottom portion groove it is not easily shifted, above the correcting plate 5 and outer carry-over bar 2 be equipped with press strip 7, limitation hot melt Disconnected longitudinal movement of the device on correcting plate 5 and outer carry-over bar 2 prevents thermal cut-off thermal cut-off abjection in moving process set Position, press strip 7 are connect with press strip guide rod 30, and press strip guide rod 30 is connect with press strip bracket 31, and press strip bracket 31 is mounted on bottom stage 1 On.

2 lower end of outer carry-over bar is equipped with connecting plate 11, and interior 3 lower end of carry-over bar is equipped with link block 12, outer carry-over bar 2 and company Fishplate bar 11 connects, and interior carry-over bar 3 is connect with link block 12, and link block 12 is connect with connecting plate 11, realizes that outer carry-over bar 2 is moved with interior The effect that rack gear 3 links is formed there through 4 mounting holes 101 on bottom stage 1, and connecting plate 11 is passed down through mounting hole 101, connecting plate 11 lower ends are equipped with bearing 21, and bearing 21 is connect with 20 one end of axis, and 20 other end of axis is connect with synchronous pulley 16, and synchronous pulley 16 is logical Synchronous belt 19 to be crossed to connect with motor side synchronous pulley 16 and keep linking, motor side synchronous pulley 16 is connect with servo motor 13, Servo motor 13 is mounted on 14 lower end of motor mounting plate, and motor mounting plate 14 is mounted on 1 lower surface of bottom stage, and passes through reinforcing rib 15 Reinforcement is carried out, 1 lower surface of bottom stage is equipped with bearing block 22, is equipped with bearing 21 in bearing block 22, axis 20 is connect with bearing 21, described 14 left and right ends of motor mounting plate are equipped with belt adjustment wheel bracket 18, and 18 upper end of belt adjustment wheel bracket is equipped with belt regulating wheel 17, belt regulating wheel 17 is contacted with synchronous belt 19, can be by adjusting the position of belt regulating wheel 17 to the elastic journey of synchronous belt 19 Degree is adjusted, and adjusts belt regulating wheel 17 and is adjusted up, and synchronous belt 19 becomes tight, adjusts belt regulating wheel 17 and adjusts downwards Then synchronous belt 19 becomes slack, and the axis 20 is equipped with origin baffle 23, and 1 lower surface of bottom stage is equipped with origin switch mounting plate 24, former Point 24 lower end of switch installation board is equipped with origin switch, and origin baffle 23 is corresponding with origin switch position, sets on origin baffle 23 There is a perforation, origin baffle 23 rotates when operation, and origin switch issues in place when punch position is directed at origin switch position Signal, thermal cut-off is located at laser marking station at this time, and laser marking structure is started to work.The bearing 21 of 11 lower end of connecting plate is inclined Heart setting, drives motor side synchronous pulley 16 to rotate when servo motor 13 rotates, and then drives the same of top by synchronous belt 19 Belt wheel 16 is walked, band moving axis 20 rotates, and finally connecting plate 11 is driven to be rotated with axis 20 for the center of circle, drives the interior carry-over bar of top 3 and outer carry-over bar 2 carry out reciprocating rotation, interior carry-over bar 3 and 2 height of outer carry-over bar are first consistent with 4 height of fixed rack when rotation, it It is higher than 4 height of fixed rack afterwards, it is last again consistent with 4 height of fixed rack later lower than 4 height of fixed rack, complete one circle of rotation When circulation, the circulation of corresponding one circle of the rotation of origin baffle 23, the punch position on origin baffle 23 are directed at origin switch position pair Interior carry-over bar 3 and outer carry-over bar 2 and the 4 consistent position of height of fixed rack are answered, interior carry-over bar 3 and outer carry-over bar 2 are first disconnected by hot melt Device is held up from fixed rack 4 and correcting plate 5, is then moved right, and position adjacent to the right on fixed rack 4 and correcting plate 5 is placed on It sets, moves in circles and move the thermal cut-off on fixed rack 4 between adjacent teeth, complete thermal cut-off from feeding structure It is transported in feed opening 102, realizes automatic continuous to the movement of laser marking station, then by the thermal cut-off for completing laser marking Mark, without human intervention, time saving and energy saving, high production efficiency.

Feeding structure is equipped on the left of the haul structure, the feeding structure includes 2 vibrating disks 29 arranged side by side, vibration Moving plate 29 is mounted on feeding pedestal, to cooperate the height of the track 8 in haul structure, so that the smooth stabilization of feeding process, vibration 29 edge ring of Moving plate is contacted with 8 left end of track in haul structure, is shaken around round feeding track, round feeding track outlet is arranged Rotating disk is equipped in the middle part of Moving plate 29, thermal cut-off is fallen into out of vibrating disk 29 in round feeding track, with the rotation of rotating disk It is moved in round feeding track, finally enters 8 surface of track from the outlet of round feeding track.Rotating disk and rotating electric machine connect It connects.

The haul superstructure is equipped with laser marking structure, and the laser marking structure includes lifter 25 and marker 32, lifter 25 is mounted on 1 inside of bottom stage, and the setting of marker 32 includes laser, galvanometer in 25 top of lifter, marker 32 And field lens, lifter 25 carry out the adjusting on three axis of inside and outside left and right or more.

Control panel 27 is equipped with below the bottom stage 1, for operating control laser marking machine and display operating condition, control It is equipped with scram button 28 on the right side of panel 27, is used for emergent stopping laser marking machine, is equipped with cabinet 26 on the inside of bottom stage 1, in cabinet 26 Control unit is set, and control unit includes PLC, and bottom stage 1 and lifter 25 are externally provided with protective frame, prevent dangerous situation.

The servo motor 13, origin switch, scram button 28, rotating electric machine, lifter 25 and marker 32 and control System connection, control system includes PLC, and PLC input terminal includes origin switch and scram button 28, and PLC output end includes servo Motor 13, rotating electric machine, lifter 25 and marker 32, each position cooperation is smooth, guarantees the automatic continuous progress of laser marking.

In use, thermal cut-off is fallen into out of vibrating disk 29 in round feeding track, as the rotation of rotating disk is in circle It moves, is finally entered in the feeding groove 801 on 8 surface of track from the outlet of round feeding track, with rear in feeding track Thermal cut-off constantly enters in feeding groove 801, and the thermal cut-off in front is pulled on fixed rack 4, when servo motor 13 rotates It drives motor side synchronous pulley 16 to rotate, the synchronous pulley 16 on top is then driven by synchronous belt 19, band moving axis 20 rotates, most It drives connecting plate 11 to be rotated with axis 20 for the center of circle afterwards, the interior carry-over bar 3 of top and outer carry-over bar 2 is driven to carry out reciprocating rotary It is dynamic, the thermal cut-off on fixed rack 4 is moved between adjacent teeth, completes thermal cut-off from feeding structure to laser marking The movement of station, origin baffle 23 are rotated with axis 20, and when punch position is directed at origin switch position, origin switch is issued just Position signal is into PLC, and interior carry-over bar 3 and outer carry-over bar 2 are consistent with the height of fixed rack 4 at this time, and thermal cut-off is transported to laser Mark station, PLC are issued a signal in marker 32, and marker 32 is started to work, and laser is carried out on thermal cut-off shell and is beaten Mark, servo motor 13 continues to run after the completion of mark, and the thermal cut-off for completing laser marking is transported in feed opening 102, complete At the laser marking process of a whole set of thermal cut-off shell.And so on, the automatic continuous laser marking for realizing thermal cut-off, is not necessarily to Manual operation, time saving and energy saving, high production efficiency.

It should be understood that the above is only the preferred embodiment of the utility model only, it is not sufficient to limit this reality With novel technical solution, for those of ordinary skills, within the spirit and principles of the present invention, Ke Yigen Increased and decreased according to above description, replaced, converted or is improved, and all these increases and decreases, replacement, transformation or improved technical side Case all should belong to the protection scope of the appended claims for the utility model.

Claims (9)

1. a kind of haul structure of the automatic continuous laser marking machine of thermal cut-off, including bottom stage (1), it is characterised in that: described Bottom stage (1) is equipped with baffle (6), and baffle (6) two sides are equipped with fixed rack (4), is equipped with interior carry-over bar (3) in the middle part of fixed rack (4), fixed Correcting plate (5) are equipped on the outside of rack gear (4), outer carry-over bar (2), the interior carry-over bar (3) and outer movable tooth are equipped on the outside of correcting plate (5) Item (2) is connect with servo motor (13), and servo motor (13) is connect with control system.

2. a kind of haul structure of the automatic continuous laser marking machine of thermal cut-off according to claim 1, feature exist In: bottom stage (1) left end is equipped with track (8), and upper rail (9) is equipped with above track (8), and track (8) right end is equipped with baffle (6), baffle (6) two sides are equipped with fixed rack (4), and recess forms accommodating space downwards in the middle part of fixed rack (4), are equipped in accommodating space Interior carry-over bar (3), fixed rack (4) outside are equipped with correcting plate (5), are equipped with outer carry-over bar (2) on the outside of correcting plate (5), outer carry-over bar (2) lower end is equipped with connecting plate (11), and interior carry-over bar (3) and outer carry-over bar (2) are connect with connecting plate (11), and bottom stage runs through on (1) It is formed multiple mounting holes (101), connecting plate (11) passes through mounting hole (101), and connecting plate (11) lower end is connect with axis (20), axis (20) other end is connect with synchronous pulley (16), and synchronous pulley (16) is connected by synchronous belt (19) and motor side synchronous pulley (16) It connects motor side synchronous pulley (16) to connect with servo motor (13), servo motor (13) is connect with motor mounting plate (14), motor Mounting plate (14) is mounted on bottom stage (1) lower surface, and axis (20) is connect with bearing block (22), and bearing block (22) is mounted on bottom stage (1) Lower surface.

3. a kind of haul structure of the automatic continuous laser marking machine of thermal cut-off according to claim 2, feature exist In: upper rail (9) surface is equipped with twice groove, and lock (10), lock (10) lower end and thermal cut-off shell are equipped in groove Body contact.

4. a kind of haul structure of the automatic continuous laser marking machine of thermal cut-off according to claim 2, feature exist In: press strip (7) are equipped with above the correcting plate (5) and outer carry-over bar (2), press strip (7) is connect with press strip guide rod (30), and press strip is led Bar (30) is connect with press strip bracket (31), and press strip bracket (31) is mounted on bottom stage (1).

5. a kind of haul structure of the automatic continuous laser marking machine of thermal cut-off according to claim 2, feature exist In: motor mounting plate (14) left and right ends are equipped with belt adjustment wheel bracket (18), and belt adjustment wheel bracket (18) upper end is set Have belt regulating wheel (17), belt regulating wheel (17) is contacted with synchronous belt (19).

6. a kind of haul structure of the automatic continuous laser marking machine of thermal cut-off according to claim 2, feature exist In: the axis (20) is equipped with origin baffle (23), and bottom stage (1) lower surface is equipped with origin switch mounting plate (24), origin switch Mounting plate (24) lower end is equipped with origin switch, and origin baffle (23) is corresponding with origin switch position.

7. a kind of haul structure of the automatic continuous laser marking machine of thermal cut-off according to claim 1 or 2, feature It is: is formed there through feed opening (102) on the bottom stage (1).

8. a kind of haul structure of the automatic continuous laser marking machine of thermal cut-off according to claim 2, feature exist In: the fixed rack (4), interior carry-over bar (3), correcting plate (5) and outer carry-over bar (2) surface are in dentation, fixed rack (4), correcting Plate (5) and baffle (6) lower end are recessed inwardly to be formed and evade slot, and the slot of evading of fixed rack (4) lower end is connected to accommodating space.

9. a kind of haul structure of the automatic continuous laser marking machine of thermal cut-off according to claim 8, feature exist Be in: groove between interior carry-over bar (3) the surface adjacent teeth it is arc-shaped, it is recessed between the adjacent teeth of outer carry-over bar (2) surface Trench bottom is arc-shaped.