CN115383285A - Laser marking device for nameplate production - Google Patents

Abstract

The invention relates to a marking device, in particular to a laser marking device for nameplate production. The invention provides a laser marking device for nameplate production, which can save labor during operation and can flatten iron sheets. The invention provides a laser marking device for nameplate production, which comprises a support frame, a first mounting frame, a second mounting frame, a third mounting frame, an electric push rod and the like; the support frame is two settings, and two support frames divide the front and back setting, and front side support frame right side upper portion is connected with first mounting bracket, and front side support frame left side upper portion is connected with the second mounting bracket, has certain clearance between second mounting bracket and the first mounting bracket. The feeding mechanism is driven to operate through the electric push rod to convey the iron sheet, the material pushing mechanism can assist in pushing the iron sheet to convey the iron sheet, and in the process of conveying the iron sheet, the marking mechanism can be used for marking the iron sheet, so that the effect of marking the iron sheet is achieved.

Description

Laser marking device for nameplate production

Technical Field

The invention relates to a marking device, in particular to a laser marking device for nameplate production.

Background

In many companies, enterprises, factories and the like in modern society, a nameplate is provided for internal employees to prove that the employees are the employees of the company, and the nameplate is usually made of iron sheets through a series of operation and processing. At present, the mode of preparation data plate is usually placed the iron sheet in the marking machine below by the manual work earlier, and the marking machine of operating again beats the mark, beats the mark back that finishes, will beat the iron sheet that the mark finishes again and place in the stamping equipment below, operates stamping equipment and carry out the punching press, needs the manual work to come frequent operation during above-mentioned mode operation, comparatively expends the manpower to can not flatten the iron sheet at the in-process of operation, there is partial iron sheet probably to deform, can influence and beat the mark.

Therefore, a laser marking device for nameplate production is needed, which can save labor in operation and can flatten the iron sheet.

Disclosure of Invention

(1) Technical problem to be solved

In order to overcome the defects that frequent manual operation is needed during operation in the mode, labor is consumed, the iron sheet cannot be flattened during operation, part of the iron sheet can deform, and marking is affected, the invention provides the laser marking device for nameplate production, which can save labor during operation and flatten the iron sheet.

(2) Technical scheme

In order to solve the technical problems, the invention provides a laser marking device for nameplate production, which comprises two support frames, a first mounting frame, a second mounting frame, a third mounting frame, an electric push rod, a feeding mechanism, a material pushing mechanism and a marking mechanism, wherein the two support frames are arranged in front and back, the upper part of the right side of a front side branch strut is connected with the first mounting frame, the upper part of the left side of the front side branch strut is connected with the second mounting frame, the upper part of the left side of a rear side branch strut is connected with the third mounting frame, the electric push rod is arranged in the middle of the rear side branch strut, the feeding mechanism is arranged between the first mounting frame and the second mounting frame, the material pushing mechanism is arranged between the first mounting frame and the third mounting frame, and the marking mechanism is arranged between the second mounting frame, the third mounting frame and the feeding mechanism.

Preferably, the feeding mechanism comprises a first connecting plate, a first wedge plate, a first placing plate, a second connecting plate, a second placing plate, a second wedge plate, a first movable rod, a first reset spring, a third placing plate, a first magnetic block, a second movable rod and a second reset spring, the first connecting plate is connected to a telescopic rod of the electric push rod, the first wedge plate is connected to the middle of the first connecting plate, the first placing plate is connected to the top of the first connecting plate, the first movable rod is connected to the rear side of the first mounting frame, the second connecting plate is connected to the top of the first movable rod in a sliding mode, the second placing plate is connected to the top of the second connecting plate, the second wedge plate is connected to the bottom of the second connecting plate, the first reset spring is sleeved on the first movable rod, the two ends of the first reset spring are connected to the second connecting plate and the first movable rod respectively, the second movable rod is connected between the rear sides of the bottom of the first mounting frame and the second mounting frame, the third movable rod is connected to the third placing plate in a sliding mode, the first magnetic block is sleeved on the upper portion of the second movable rod, and the second reset spring are connected to the two ends of the second reset spring respectively.

Preferably, the pushing mechanism comprises a first mounting rod, a first torsion spring, a first push plate, a second mounting rod, a second torsion spring, a second push plate, a first lifting block and a second lifting block, the right front side of the top of the third mounting frame is connected with the first mounting rod, the first mounting rod is sleeved with the first torsion spring, one end of the first torsion spring can slide up and down on the third mounting frame, the other end of the first torsion spring is connected with the first push plate, the first push plate is sleeved on the first mounting rod, the left rear side of the top of the first mounting frame is connected with the second mounting rod, the second mounting rod is sleeved with the second torsion spring, one end of the second torsion spring can slide up and down on the first mounting frame, the other end of the second torsion spring is connected with the second push plate, the second push plate is sleeved on the second mounting rod, the right front side of the top of the third mounting frame is connected with the first lifting block, and the left rear side of the first mounting frame is connected with the second lifting block.

Preferably, marking mechanism is including the fourth mounting bracket, the connecting rod, coupling spring, the fixed plate, a supporting plate, laser marking machine, the stay cord, the reel, guide block and vaulting pole, be connected with the fourth mounting bracket between second mounting bracket and the third mounting bracket top left side, fourth mounting bracket middle part slidingtype is connected with the connecting rod, connecting rod lower part bottom is connected with the fixed plate, connecting rod lower part cover has coupling spring, the connecting spring both ends are connected respectively on fourth mounting bracket and fixed plate, the fixed plate bottom is connected with the backup pad, slidable mounting has laser marking machine in the backup pad, fixed plate bottom left side is connected with the stay cord, be connected with the reel between second mounting bracket and the third mounting bracket left side, reel left side sub-unit connection has the guide block, the stay cord walks around the reel earlier and passes the guide block, sliding connection has the vaulting pole on the guide block, the stay cord end is connected with the vaulting pole, the vaulting pole supports second connecting plate rear side.

Preferably, still including leveling mechanism, leveling mechanism is including the motor, the mounting panel, straight-teeth gear and compression roller, the motor is installed to second mounting bracket front side, first mounting bracket front side is connected with two mounting panels, two mounting panels divide and set up from top to bottom, equal rotary type is connected with the compression roller on two mounting panels, the output shaft of downside compression roller and motor has certain clearance between two compression rollers, the compression roller right side is connected with the straight-teeth gear, two straight-teeth gear intermeshing.

Preferably, the collecting mechanism comprises a collecting box, a first hinged block, a baffle and second magnetic blocks, the collecting box is connected to the upper portion of the right side of the rear side support frame, a certain gap is formed between the collecting box and the third mounting frame, the first hinged block is connected to the right side of the collecting box, the baffle is hinged to the first hinged block, and three second magnetic blocks are uniformly connected to the upper portion of the left side wall in the collecting box at intervals.

Preferably, the material unloading device further comprises a material unloading mechanism, the material unloading mechanism comprises a first installation block, a third torsion spring, a first material unloading plate, a second hinging block, a second material unloading plate, a pull rod, a third movable rod and a third reset spring, the left side wall in the collecting box is connected with the first installation block, the first installation block is located on the front side of the second magnetic block, the first installation block is rotatably connected with the first material unloading plate, the third torsion spring is connected between the first material unloading plate and the first installation block, the left side and the right side of the first material unloading plate are both hinged with the second hinging block, the front side in the collecting box is connected with the third movable rod, the third movable rod is slidably connected with the second material unloading plate, the front side at the top of the second material unloading plate is connected with the pull rod, the third movable rod is sleeved with the third reset spring, and two ends of the third reset spring are respectively connected to the collecting box and the second material unloading plate.

Preferably, still including punching press mechanism, punching press mechanism all is connected with the second installation piece with collection box top rear side including second installation piece, cylinder, mounting disc and stamping die, third installation frame top rear side, installs the cylinder between the second installation piece of both sides, is connected with the mounting disc on the telescopic link of cylinder, and the joint has stamping die on the mounting disc, and stamping die is for dismantling the setting.

(3) The beneficial effects are that:

1. the feeding mechanism is driven to operate through the electric push rod to convey the iron sheet, the material pushing mechanism can assist in pushing the iron sheet to convey the iron sheet, and in the process of conveying the iron sheet, the marking mechanism can be used for marking the iron sheet, so that the effect of marking the iron sheet is achieved.

2. When placing, place the iron sheet on leveling mechanism, come to carry out the flattening to the iron sheet through the operation of leveling mechanism to the realization carries out the effect of flattening to the iron sheet.

3. The iron sheet that finishes marking is collected through collecting the mechanism to the effect of collecting is carried out the iron sheet that finishes marking to the realization.

4. The iron sheet with the finished marking can be unloaded through the unloading mechanism, so that the effect of unloading the iron sheet with the finished marking is realized.

5. The marking-finished iron sheet is punched into the nameplate through the punching mechanism, so that the effect of punching the marking-finished iron sheet into the nameplate is realized.

Drawings

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

Fig. 2 is a schematic partial perspective view of the feeding mechanism and the pushing mechanism of the present invention.

Fig. 3 is a partial cross-sectional view of the feed mechanism and pusher mechanism of the present invention.

Fig. 4 is an enlarged view of the invention at a.

Fig. 5 is a schematic view of a first partial body structure of the feeding mechanism of the present invention.

Fig. 6 is a schematic view of a second partial body structure of the feeding mechanism of the present invention.

Fig. 7 is a schematic view of a first partial solid structure of the marking mechanism of the present invention.

Fig. 8 is a schematic diagram of a second partial body structure of the marking mechanism of the present invention.

FIG. 9 is a perspective view of a portion of the flattening mechanism of the present invention.

Fig. 10 is a schematic perspective view of a part of the discharging mechanism and the collecting mechanism of the present invention.

Fig. 11 is a partial cross-sectional view of the present invention discharge mechanism and collection mechanism.

Fig. 12 is an enlarged view of the invention at B.

Fig. 13 is a schematic view of the first partial structure of the stamping mechanism and the collecting mechanism of the present invention.

Fig. 14 is a schematic view of a second partial structure of the stamping mechanism and the collecting mechanism of the present invention.

The symbols in the drawings are: 1-a support frame, 2-a first mounting frame, 21-a second mounting frame, 22-a third mounting frame, 3-an electric push rod, 4-a feeding mechanism, 41-a first connecting plate, 42-a first wedge-shaped plate, 43-a first placing plate, 44-a second connecting plate, 45-a second placing plate, 46-a second wedge-shaped plate, 47-a first movable rod, 48-a first return spring, 49-a third placing plate, 410-a first magnetic block, 411-a second movable rod, 412-a second return spring, 5-a pushing mechanism, 51-a first mounting rod, 52-a first torsion spring, 53-a first push plate, 54-a second mounting rod, 55-a second torsion spring and 56-a second push plate, 57-first lifting block, 58-second lifting block, 6-marking mechanism, 61-fourth mounting frame, 62-connecting rod, 63-connecting spring, 64-fixing plate, 65-supporting plate, 66-laser marking machine, 67-pull rope, 68-reel, 69-guide block, 610-supporting rod, 7-leveling mechanism, 71-motor, 72-mounting plate, 73-spur gear, 74-press roller, 8-collecting mechanism, 81-collecting box, 82-first hinged block, 83-baffle, 84-second magnetic block, 9-discharging mechanism, 91-first mounting block, 92-third torsion spring, 93-first discharging plate, 94-second hinged block, 95-second discharging plate, 96-pull rod, 97-third movable rod, 98-third return spring, 10-stamping mechanism, 101-second mounting block, 102-cylinder, 103-mounting plate and 104-stamping die.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides a laser marking device for data plate production, as shown in fig. 1-8, including support frame 1, first mounting bracket 2, second mounting bracket 21, third mounting bracket 22, electric putter 3, feeding mechanism 4, pushing equipment 5 and marking mechanism 6, support frame 1 is two settings, two support frame 1 divide the front and back to set up, front side support frame 1 right side upper portion is connected with first mounting bracket 2, front side support frame 1 left side upper portion is connected with second mounting bracket 21, certain clearance has between second mounting bracket 21 and the first mounting bracket 2, rear side support frame 1 left side upper portion is connected with third mounting bracket 22, certain clearance has between third mounting bracket 22 and the second support frame 1, rear side support frame 1 mid-mounting has electric putter 3, electric putter 3 is used for providing drive power, electric putter 3, be equipped with feeding mechanism 4 between first mounting bracket 2 and the second mounting bracket 21, feeding mechanism 4 is used for carrying the iron sheet, be equipped with pushing equipment 5 between first mounting bracket 2 and the third mounting bracket 22, feeding mechanism 4 is used for ejecting the iron sheet, second 21, be equipped with marking mechanism 6 between third marking mechanism 22 and marking mechanism, marking mechanism 6 is used for carrying the iron sheet.

The feeding mechanism 4 comprises a first connecting plate 41, a first wedge-shaped plate 42, a first placing plate 43, a second connecting plate 44, a second placing plate 45, a second wedge-shaped plate 46, a first movable rod 47, a first return spring 48, a third placing plate 49, a first magnet 410, a second movable rod 411 and a second return spring 412, the first connecting plate 41 is connected to a telescopic rod of the electric push rod 3, the first connecting plate 41 can slide in a gap between the second mounting frame 21 and the first mounting frame 2, the first wedge-shaped plate 42 is connected to the middle of the first connecting plate 41, the first placing plate 43 is connected to the top of the first connecting plate 41, the first placing plate 43 is used for placing iron sheets, the first movable rod 47 is connected to the rear side of the first mounting frame 2, the second connecting plate 44 is connected to the first movable rod 47 in a sliding manner, the second connecting plate 44 can be extruded by the first wedge-shaped plate 42, the second connecting plate 44 can slide in the gap between the third mounting frame 22 and the second support frame 1, the top of the second connecting plate 44 is connected with a second placing plate 45, the second placing plate 45 is used for placing iron sheets, the second placing plate 45 has certain magnetism, the second placing plate 45 is lower than the first placing plate 43, the bottom of the second connecting plate 44 is connected with a second wedge plate 46, the first movable rod 47 is sleeved with a first return spring 48, two ends of the first return spring 48 are respectively connected to the second connecting plate 44 and the first movable rod 47, a second movable rod 411 is connected between the first mounting frame 2 and the rear side of the bottom of the second mounting frame 21, the second movable rod 411 is slidably connected with a third placing plate 49, the second wedge plate 46 can extrude the third placing plate 49, the third placing plate 49 is used for placing iron sheets, the third placing plate 49 is lower than the second placing plate 45, the middle of the upper portion of the third placing plate 49 is provided with a first magnet 410, the first magnetic block 410 is used for attracting an iron sheet, the second movable rod 411 is sleeved with a second return spring 412, and two ends of the second return spring 412 are respectively connected to the third placing plate 49 and the second movable rod 411.

The material pushing mechanism 5 comprises a first installation rod 51, a first torsion spring 52, a first push plate 53, a second installation rod 54, a second torsion spring 55, a second push plate 56, a first lifting block 57 and a second lifting block 58, the right front side of the top of the third installation rack 22 is connected with the first installation rod 51, the first installation rod 51 is sleeved with the first torsion spring 52, one end of the first torsion spring 52 can slide up and down on the third installation rack 22, the other end of the first torsion spring 52 is connected with the first push plate 53, the first push plate 53 is sleeved on the first installation rod 51, the first push plate 53 can push down the iron sheet on the second placement plate 45, the third installation rack 22 can limit the first push plate 53, the left rear side of the top of the first installation rack 2 is connected with the second installation rod 54, the second installation rod 54 is sleeved with the second spring 55, one end of the second torsion spring 55 can slide up and down on the first installation rack 2, the other end of the second torsion spring 55 is connected with the second push plate 56, the second push plate 56 is sleeved on the second installation rod 54, the second push plate 56 can push the second push plate 56 on the second installation rack 56 and push the second installation rack 2 to the second lifting block 57, the second push plate 53, the second push plate 56 can push the second installation rack 22.

Marking mechanism 6 is including fourth mounting bracket 61, connecting rod 62, coupling spring 63, fixed plate 64, backup pad 65, laser marking machine 66, stay cord 67, reel 68, guide block 69 and vaulting pole 610, be connected with fourth mounting bracket 61 between second mounting bracket 21 and the third mounting bracket 22 top left side, fourth mounting bracket 61 middle part sliding connection has connecting rod 62, connecting rod 62 lower part bottom is connected with fixed plate 64, connecting rod 62 lower part cover has coupling spring 63, the coupling spring 63 both ends are connected respectively on fourth mounting bracket 61 and fixed plate 64, fixed plate 64 bottom is connected with backup pad 65, sliding mounting has laser marking machine 66 on backup pad 65, laser marking machine 66 is used for marking, fixed plate 64 bottom left side is connected with stay cord 67, be connected with reel 68 between second mounting bracket 21 and the third mounting bracket 22 left side, reel 68 left side sub-unit connection has guide block 69, stay cord 67 walks around reel 68 earlier and passes guide block 69 again, sliding connection has vaulting pole 610 on guide block 69, the end of stay 67 is connected with vaulting pole 610, the rear side of vaulting pole 610 second connecting plate 44.

When the device is not started to operate, the telescopic rod of the electric push rod 3 is in an extension state, because the first wedge-shaped plate 42 props against the second connecting plate 44, the first reset spring 48 is in a stretching state, the connecting spring 63 is also in a stretching state, because the second wedge-shaped plate 46 props against the third placing plate 49, and the second reset spring 412 is in a stretching state, firstly, a user can place an unmarked iron sheet on the first placing plate 43, then place an unmarked iron sheet on the second placing plate 45, operate the laser marking machine 66 to mark, during marking, the laser marking machine 66 can be adjusted to slide on the supporting plate 65 according to the position and shape of the iron sheet needing marking, after marking, the user can start the telescopic rod of the electric push rod 3 to retract to drive the first connecting plate 41 to move backwards, the first connecting plate 41 moves backwards to drive the first wedge-shaped plate 42 and the first placing plate 43 to move backwards together, the first placing plate 43 can drive the unmarked iron sheets on the first placing plate to move backwards together when moving backwards, the first wedge-shaped plate 42 does not abut against the second connecting plate 44 any more in the process of moving backwards, at this time, the second connecting plate 44 moves rightwards under the action of the first return spring 48, the second connecting plate 44 moves rightwards right to drive the second placing plate 45 and the second wedge-shaped plate 46 to move rightwards together, the second connecting plate 44 does not abut against the supporting rod 610 any more after moving backwards, at this time, the fixing plate 64 moves upwards under the action of the connecting spring 63, the fixing plate 64 moves upwards to drive the laser marking machine 66 to move upwards together, the fixing plate 64 also pulls the pulling rope 67 to move upwards when moving upwards, the pulling rope 67 moves upwards to pull the supporting rod 610 to move rightwards until the connecting spring 63 is restored to the state of not being stretched any more, the second wedge-shaped plate 46 does not abut against the third placing plate 49 any more in the process of moving rightwards, at this time, the third placing plate 49 moves forward under the action of the second return spring 412, when the unmarked iron sheet on the first placing plate 43 moves backward to contact with the second pushing plate 56, because the unmarked iron sheet is abutted by the first placing plate 43, the unmarked iron sheet continues to move backward to push the second pushing plate 56 to swing, the second torsion spring 55 is compressed, when the unmarked iron sheet pushes the second pushing plate 56 to swing to contact with the second lifting block 58, the second pushing plate 56 continues to swing and is pressed by the second lifting block 58 to move upward, when the second pushing plate 56 moves upward, the second torsion spring 55 is driven to move upward together, when the second pushing plate 56 moves upward to be no longer contacted by the unmarked iron sheet, the second pushing plate 56 swings to the original position in reverse direction under the action of the second torsion spring 55, the second pushing plate 56 is not pressed by the second lifting block 58 after swinging to the original position in reverse direction, at this time, the second push plate 56 and the second torsion spring 55 fall to the original position under the action of gravity, so that the resetting of the second push plate 56 is completed, the second placing plate 45 drives the iron sheet marked on the second placing plate to move rightwards together when moving rightwards, after the iron sheet marked is moved rightwards and is contacted with the first push plate 53, the second placing plate 45 supports the iron sheet marked, the iron sheet marked continues to move rightwards to push the first push plate 53 to swing, the first torsion spring 52 is compressed, when the iron sheet marked pushes the first push plate 53 to swing to be contacted with the first lifting block 57, the first push plate 53 continues to swing and is pressed by the first lifting block 57 to move upwards, when the first push plate 53 moves upwards to drive the first torsion spring 52 to move upwards together, when the first push plate 53 is supported to move upwards and is not to be contacted with the iron sheet any more, the first push plate 53 swings to the original position reversely under the action of the first torsion spring 52, the first push plate 53 swings reversely to the original position and is not pressed by the first lifting block 57, at this time, the first push plate 53 and the first torsion spring 52 fall to the original position under the action of gravity, at this time, the second placing plate 45 is just below the first placing plate 43, the third placing plate 49 moves forward and then moves below the second placing plate 45, after the third placing plate 49 moves below the second placing plate 45, the telescopic rod of the electric push rod 3 can be started to extend again to drive the first connecting plate 41 to move forward, the first connecting plate 41 drives the first wedge plate 42 and the first placing plate 43 to move forward when moving forward, the unmarked iron sheet on the first placing plate 43 contacts with the first push plate 53 when moving forward, at this time, because the unmarked iron sheet on the first placing plate 43 is not butted, and the first mounting bracket 2 props the second push plate 56 again, at this time, the first placing plate 43 continuously moves the second pushing plate 56 forward to push down the unmarked iron sheet on the top of the first placing plate 43, the pushed unmarked iron sheet falls on the top of the marked iron sheet on the second placing plate 45, because the second placing plate 45 has a certain magnetic attraction, the second placing plate 45 can suck the unmarked iron sheet, when the pushed unmarked iron sheet falls on the top of the marked iron sheet on the second placing plate 45, the first wedge-shaped plate 42 just moves forward to make the upper inclined surface thereof contact with the second connecting plate 44, at this time, the first wedge-shaped plate 42 continuously moves forward to extrude the second connecting plate 44 to move leftward through the upper inclined surface thereof, the first return spring 48 is stretched, the second connecting plate 44 drives the second placing plate 45 and the second wedge-shaped plate 46 to move leftward when moving leftward, the second placing plate 45 drives the top of the unmarked iron sheet and the unmarked iron sheet to move leftward together when moving leftward, after the marked iron sheet moves leftwards to contact with the first push plate 53, because the marked iron sheet is not supported by the second placing plate 45 at this time, and the first push plate 53 is supported by the third mounting frame 22, at this time, the second placing plate 45 continues to move leftwards, the marked iron sheet is pushed out by the first push plate 53, the pushed out iron sheet after marking falls on the third placing plate 49 and is absorbed by the first magnetic block 410, when the marked iron sheet is pushed out, because the unmarked iron sheet is absorbed by the second placing plate 45 and cannot be influenced, after the marked iron sheet is pushed out, the unmarked iron sheet falls on the top of the second placing plate 45 under the action of gravity, when the second connecting plate 44 moves leftwards to contact with the support rod 610 again, the second connecting plate 44 continues to move leftwards to push the support rod 610 to move leftwards, the support rod 610 moves leftwards to drive the pull rope 67 to move leftwards, when the pull rope 67 moves leftwards, the fixed plate 64 is pulled to move downwards, the connecting spring 63 is stretched again, the fixed plate 64 moves downwards to drive the laser marking machine 66 to move downwards, when the second connecting plate 44 returns to the original position, the laser marking machine 66 can be operated again to mark, the second wedge-shaped plate 46 can extrude the third placing plate 49 to move backwards through the upper inclined surface when moving leftwards, the second reset spring 412 is stretched again, when the third placing plate 49 moves backwards to the original position, the iron sheet marked on the third placing plate 49 is taken out manually, then the iron sheet which is not marked can be placed on the first placing plate 43 again, after the placing, the telescopic rod of the electric push rod 3 can be started again to retract again to mark, at the moment, because the iron sheet exists on the second placing plate 45, the iron sheet does not need to be placed manually, the marking can be performed on the iron sheet by repeating the steps, after marking all iron sheets, starting the electric push rod 3, extending the telescopic rod to the original position, and then closing the electric push rod 3.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 9 and fig. 10, further include leveling mechanism 7, leveling mechanism 7 is used for leveling the iron sheet, leveling mechanism 7 is including motor 71, mounting panel 72, spur gear 73 and compression roller 74, motor 71 is installed to the second mounting bracket 21 front side, motor 71 is used for providing drive power, first mounting bracket 2 front side is connected with two mounting panels 72, two mounting panels 72 divide and set up from top to bottom, compression roller 74 is connected with on two mounting panels 72 all the rotary type, compression roller 74 is used for leveling the iron sheet, lower side compression roller 74 and motor 71's output shaft connection, certain clearance has between two compression rollers 74, compression roller 74 right side is connected with spur gear 73, two spur gear 73 intermeshing.

At first the user can start motor 71 drive two compression rollers 74 through spur gear 73 and rotate together, when placing the iron sheet, can place the iron sheet between two compression rollers 74, and compression roller 74 can carry the iron sheet to first putting board 43 top, and compression roller 74 can be to the iron sheet flattening when carrying the iron sheet, so, just can carry out the flattening to the iron sheet.

The collecting mechanism 8 is used for collecting iron sheets marked completely, the collecting mechanism 8 comprises a collecting box 81, a first hinged block 82, a baffle 83 and second magnetic blocks 84, the upper portion of the right side of the rear side support frame 1 is connected with the collecting box 81, the collecting box 81 is used for collecting the iron sheets marked completely, a certain gap is formed between the collecting box 81 and the third mounting frame 22, the third placing plate 49 can slide in the gap between the collecting box 81 and the third mounting frame 22, the right side of the collecting box 81 is connected with the first hinged block 82, the baffle 83 is hinged to the first hinged block 82, the right side of the collecting box 81 can be blocked by the baffle 83, and three second magnetic blocks 84 are uniformly connected to the upper portion of the left side wall in the collecting box 81 at intervals.

After the iron sheet that finishes marking is lifted off, can drop into collecting box 81 with the iron sheet that finishes marking and store, when the iron sheet in collecting box 81 is more, can stimulate baffle 83 and open, again with the iron sheet in collecting box 81 fish out can, so, just can collect the iron sheet.

Example 3

On the basis of embodiment 2, as shown in fig. 1, fig. 10, fig. 11, fig. 12, fig. 13 and fig. 14, the present invention further includes a discharging mechanism 9, the discharging mechanism 9 is configured to discharge an iron sheet on the third placing plate 49 and an iron sheet in the collecting box 81, the discharging mechanism 9 includes a first mounting block 91, a third torsion spring 92, a first discharging plate 93, a second hinge block 94, a second discharging plate 95, a pull rod 96, a third movable rod 97 and a third return spring 98, the first mounting block 91 is connected to the inner left side wall of the collecting box 81, the first mounting block 91 is located at the front side of the second magnetic block 84, the first mounting block 91 is pivotally connected to the first discharging plate 93, the first discharging plate 93 can scoop up and discharge the iron sheet, the third torsion spring 92 is connected between the first mounting block 93 and the first mounting block 91, the first discharging plate 93 can pass through the collecting box 81, the left and right sides of the first discharging plate 93 are both pivotally connected to second hinge blocks 94, the third placing plate 49 can push the second hinge block 94, the third placing plate 94 is connected to the inner side of the first mounting block 93 and the first mounting block 91, the third torsion spring 92 is connected to the collecting box 81, the upper side of the third discharging plate 95 is connected to the front side of the third discharging plate 95, the third front side of the third front slide rod 97, the third discharging plate 81, the front slide rod 95 is connected to the third front slide rod 98, the front slide rod 95, the third sliding rod 95 is connected to the collecting box 81, the front slide rod 95 is connected to the third sliding rod 95, the second collecting box 81, the second collecting box 95 is connected to the second collecting box 95, the second discharging plate 95, the front slide rod 95 is connected to the second moving rod 95.

When the third placing plate 49 moves forward, for example, if there is an iron sheet marked completely, the iron sheet marked completely will contact with the first discharging plate 93, then the third placing plate 49 will continue to drive the iron sheet marked completely to move forward, the iron sheet marked completely will be scooped up by the first discharging plate 93 when moving forward, at this time, the iron sheet marked completely will be on top of the first discharging plate 93, then the third placing plate 49 will continue to move forward and will contact with the second hinged block 94, after the third placing plate 49 moves forward and contacts with the second hinged block 94, the third placing plate 49 will continue to move forward and push the second hinged block 94 to swing, when the third placing plate 49 moves to no longer contact with the second hinged block 94, the second hinged block 94 will reset under the action of gravity, when the third placing plate 49 drives the iron sheet marked completely to move backward again, the third placing plate 49 will again contact with the second hinged block 94, at this time, the third placing plate 49 continues to move backwards to push the second hinged block 94 to move backwards, the second hinged block 94 drives the first discharging plate 93 to swing when moving backwards, the third torsion spring 92 is compressed, the first discharging plate 93 can swing into the collecting box 81 when swinging, after the first discharging plate 93 swings into the collecting box 81, the marked iron sheet on the first discharging plate 93 can be attracted by the second magnetic block 84, when the third placing plate 49 moves to be no longer contacted with the second hinged block 94, the first discharging plate 93 resets under the action of the third torsion spring 92, then the third placing plate 49 can continue to be operated to move backwards to transport the marked iron sheet, when the first discharging plate 93 transports the marked iron sheet again, the iron sheet on the second magnetic block 84 can be pushed down, and the iron sheet transported again on the first discharging plate 93 can be attracted by the second magnetic block 84, the iron sheet that pushes away falls in collecting box 81, so relapse, just do not need the manual work to lose the iron sheet in the collecting box 81, the effectual manpower of having saved, when too much iron sheet in the collecting box 81, stimulate baffle 83 earlier and no longer block collecting box 81, pull rod 96 again and remove right, third reset spring 98 is compressed, pull rod 96 removes right and drives second stripper 95 and remove right, second stripper 95 can release the iron sheet in the collecting box 81 when removing right, thereby it is more convenient when making the iron sheet in the collecting box 81 of releasing, after the release, loosen pull rod 96, it can to reset to pull baffle 83 again.

Still including punching press mechanism 10, punching press mechanism 10 is used for iron sheet stamping forming, punching press mechanism 10 is including second installation piece 101, cylinder 102, mounting disc 103 and stamping die 104, third mounting bracket 22 top rear side all is connected with second installation piece 101 with collecting box 81 top rear side, install cylinder 102 between the second installation piece 101 of both sides, cylinder 102 is used for providing drive power, be connected with mounting disc 103 on cylinder 102's the telescopic link, the joint has stamping die 104 on the mounting disc 103, stamping die 104 is used for iron sheet stamping forming, stamping die 104 is for dismantling the setting.

The third is put board 49 and is reset the back in the iron sheet that the mark was accomplished in the area of moving, can be located stamping die 104 below, at this moment can start cylinder 102 telescopic link extension and drive mounting disc 103 downstream, mounting disc 103 drives stamping die 104 downstream when the downstream, after stamping die 104 downstream to with beat the iron sheet contact that the mark was accomplished, stamping die 104 continues downstream and can carry out the punching press to the iron sheet that the mark was accomplished, thereby become the data plate with the iron sheet punching press, when the shape of data plate needs to be changed, can lift stamping die 104 off, change new stamping die 104 again, so, just can become the data plate with the iron sheet punching press.

The above-mentioned embodiments only express the preferred embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as the limitation of the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The utility model provides a laser marking device for data plate production, a serial communication port, including support frame (1), first mounting bracket (2), second mounting bracket (21), third mounting bracket (22), electric putter (3), feeding mechanism (4), pushing equipment (5) and marking mechanism (6), support frame (1) is two settings, two support frame (1) set up around dividing, preceding collateral branch strut (1) right side upper portion is connected with first mounting bracket (2), preceding collateral branch strut (1) left side upper portion is connected with second mounting bracket (21), back collateral branch strut (1) left side upper portion is connected with third mounting bracket (22), back collateral branch strut (1) mid-mounting has electric putter (3), be equipped with feeding mechanism (4) between first mounting bracket (2) and second mounting bracket (21), be equipped with pushing equipment mounting bracket (5) between first collateral branch strut (2) and third mounting bracket (22), second pushing equipment (21), be equipped with marking mechanism (6) between third mounting bracket (22) and feeding mechanism (4).

2. The laser marking device for nameplate production as claimed in claim 1, wherein the feeding mechanism (4) comprises a first connecting plate (41), a first wedge-shaped plate (42), a first placing plate (43), a second connecting plate (44), a second placing plate (45), a second wedge-shaped plate (46), a first movable rod (47), a first reset spring (48), a third placing plate (49), a first magnetic block (410), a second movable rod (411) and a second reset spring (412), a telescopic rod of the electric push rod (3) is connected with the first connecting plate (41), the middle of the first connecting plate (41) is connected with the first wedge-shaped plate (42), the top of the first connecting plate (41) is connected with the first placing plate (43), the rear side of the first mounting frame (2) is connected with the first movable rod (47), the first movable rod (47) is connected with the second connecting plate (44) in a sliding manner, the top of the second connecting plate (44) is connected with the second placing plate (45), the bottom of the second connecting plate (44) is connected with the second movable rod (46), the bottom of the first movable rod (47) is connected with the second mounting frame (47), the first movable rod (47) is connected with the second connecting plate (48), the second connecting plate (411), the second movable rod (47) and the reset spring (21) are sleeved on the bottom of the first connecting plate (48), the second movable rod (411) is connected with a third placing plate (49) in a sliding mode, a first magnetic block (410) is arranged in the middle of the upper portion of the third placing plate (49), a second return spring (412) is sleeved on the second movable rod (411), and two ends of the second return spring (412) are connected to the third placing plate (49) and the second movable rod (411) respectively.

3. The laser marking device for nameplate production according to claim 2, wherein the pushing mechanism (5) comprises a first mounting rod (51), a first torsion spring (52), a first push plate (53), a second mounting rod (54), second torsion spring (55), second push pedal (56), first lifting piece (57) and second lifting piece (58), third mounting bracket (22) top right front side is connected with first installation pole (51), the cover has first torsion spring (52) on first installation pole (51), first torsion spring (52) one end can slide from top to bottom on third mounting bracket (22), first torsion spring (52) other end is connected with first push pedal (53), first push pedal (53) cover is on first installation pole (51), first mounting bracket (2) top left rear side is connected with second installation pole (54), second installation pole (54) cover has second torsion spring (55), second torsion spring (55) one end can slide from top to bottom on first mounting bracket (2), second torsion spring (55) other end is connected with second push pedal mounting bracket (56), second push pedal (56) cover is on second installation pole (54), third torsion spring (22) top right front side is connected with first lifting piece (57), first torsion spring (2) left rear side piece (58) lifting piece (58) are connected with.

4. The laser marking device for nameplate production according to claim 3, wherein the marking mechanism (6) comprises a fourth mounting frame (61), a connecting rod (62), a connecting spring (63), a fixing plate (64), a supporting plate (65), a laser marking machine (66), a pull rope (67), a reel (68), a guide block (69) and a support rod (610), the fourth mounting frame (61) is connected between the second mounting frame (21) and the left side of the top of the third mounting frame (22), the connecting rod (62) is connected to the middle of the fourth mounting frame (61) in a sliding manner, the fixing plate (64) is connected to the bottom of the lower portion of the connecting rod (62), the connecting spring (63) is sleeved on the lower portion of the connecting rod (62), two ends of the connecting spring (63) are respectively connected to the fourth mounting frame (61) and the fixing plate (64), the supporting plate (65) is connected to the bottom of the fixing plate (64), the laser marking machine (66) is installed on the supporting plate (65) in a sliding manner, the left side of the bottom of the fixing plate (64) is connected to the fixing plate (67), the winding reel (68) is connected to the left side of the second mounting frame (21) and the third mounting frame (22), the reel (68), the guide block (69) passes through the pull rope (69), and then passes through the guide block (67), the guide block (69) is connected with a support rod (610) in a sliding mode, the tail end of the pull rope (67) is connected with the support rod (610), and the support rod (610) abuts against the rear side of the second connecting plate (44).

5. The laser marking device for nameplate production according to claim 4, the laser marking device is characterized by further comprising a leveling mechanism (7), the leveling mechanism (7) comprises a motor (71), mounting plates (72), straight gears (73) and press rollers (74), the motor (71) is installed on the front side of the second mounting frame (21), the two mounting plates (72) are connected to the front side of the first mounting frame (2), the two mounting plates (72) are arranged up and down in a split mode, the press rollers (74) are connected to the two mounting plates (72) in an equal rotating mode, output shafts of the lower press rollers (74) and the motor (71) are connected to output shafts of the lower press rollers (74), a certain gap is formed between the two press rollers (74), the straight gears (73) are connected to the right side of the press rollers (74), and the two straight gears (73) are meshed with each other.

6. The laser marking device for nameplate production according to claim 5, further comprising a collecting mechanism (8), wherein the collecting mechanism (8) comprises a collecting box (81), a first hinged block (82), a baffle plate (83) and second magnetic blocks (84), the collecting box (81) is connected to the upper portion of the right side of the rear-side support frame (1), a certain gap is formed between the collecting box (81) and the third mounting frame (22), the first hinged block (82) is connected to the right side of the collecting box (81), the baffle plate (83) is hinged to the first hinged block (82), and three second magnetic blocks (84) are uniformly connected to the upper portion of the inner left side wall of the collecting box (81) at intervals.

7. The laser marking device for nameplate production according to claim 6, further comprising a discharging mechanism (9), wherein the discharging mechanism (9) comprises a first mounting block (91), a third torsion spring (92), a first discharging plate (93), a second hinging block (94), a second discharging plate (95), a pull rod (96), a third movable rod (97) and a third reset spring (98), the left side wall of the collecting box (81) is connected with the first mounting block (91), the first mounting block (91) is located on the front side of the second magnetic block (84), the first mounting block (91) is rotatably connected with the first discharging plate (93), the third torsion spring (92) is connected between the first discharging plate (93) and the first mounting block (91), the left side and the right side of the first discharging plate (93) are both hinged with the second hinging block (94), the front side of the collecting box (81) is connected with the third movable rod (97), the third movable rod (97) is slidably connected with the second discharging plate (95), the second discharging plate (95) is connected to the top of the second discharging plate (95), and the third resetting spring (98) is connected with the third discharging plate (81).

8. The laser marking device for nameplate production according to claim 7, further comprising a stamping mechanism (10), wherein the stamping mechanism (10) comprises a second mounting block (101), a cylinder (102), a mounting disc (103) and a stamping die (104), the second mounting block (101) is connected to the rear side of the top of the third mounting frame (22) and the rear side of the top of the collecting box (81), the cylinder (102) is mounted between the second mounting blocks (101) on the two sides, the mounting disc (103) is connected to a telescopic rod of the cylinder (102), the stamping die (104) is clamped on the mounting disc (103), and the stamping die (104) is detachably arranged.

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