Clean mechanism of battery bat printing
Technical Field
The utility model relates to a battery label lithography apparatus, in particular to clean mechanism of battery bat printing.
Background
The battery label printing is to print corresponding label marks on the surface of the battery according to product requirements, and the printing head is stained with dust on the surface of the battery or residual printing oil after being stained with oil and printed in the current battery label printing process, so that the printing effect of the label is affected due to unclear oil staining and printing again.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a clean mechanism of battery bat printing to the above-mentioned defect of prior art.
For solving the above-mentioned defect of prior art, the utility model provides a technical scheme is: the utility model provides a clean mechanism of battery bat printing, includes two backup pads that correspond the setting, two all be equipped with linear slide rail in the backup pad, two linear slide rail connects jointly on the bat printing mechanism through the slider respectively, two be equipped with the clean mechanism of bat printing between the backup pad, two the front side of backup pad is equipped with the installation breach respectively, two the breach is installed a bat printing steel sheet mechanism jointly.
As the utility model discloses clean mechanism of battery bat printing's improvement, one wherein still be equipped with lead screw drive mechanism in the backup pad, lead screw drive mechanism drives bat printing mechanism along linear slide rail back-and-forth movement, lead screw drive mechanism includes lead screw, driving motor, synchronizing wheel and hold-in range, the lead screw passes through synchronizing wheel and hold-in range are connected driving motor, the lead screw pass through screw-nut with bat printing mechanism connects.
As an improvement of the battery pad printing cleaning mechanism of the utility model, the pad printing cleaning mechanism comprises a cleaning platform, the cleaning platform is provided with a glue discharging mechanism and a glue collecting mechanism, and the cleaning platform is provided with guide rubber wheels corresponding to the positions of the glue discharging mechanism and the glue collecting mechanism; the lower end of the cleaning platform is installed on the supporting platform through the linear sliding block and the linear sliding rail, the supporting platform is further provided with an air cylinder, and a piston rod of the air cylinder is connected to the cleaning platform.
As an improvement of the battery pad printing cleaning mechanism of the utility model, the glue placing mechanism comprises a glue placing support, a glue placing rotating shaft is arranged on the glue placing support in a penetrating way, and a glue placing roller is arranged on the glue placing rotating shaft through an elastic screw;
receive gluey mechanism including receiving gluey support, it wears to be equipped with one on the gluey support and receives gluey pivot to receive, receive the one end of gluing the pivot and install one through the elasticity screw and receive the rubber roll, receive the other end of gluing the pivot and connect and receive gluey motor.
As the utility model discloses clean mechanism's of battery bat printing improvement, bat printing steel sheet mechanism includes the support, be equipped with the bat printing steel sheet on the support, one side of support is equipped with second lead screw drive mechanism, second lead screw drive mechanism control one brush ink mechanism along the last surface contact of bat printing steel sheet removes.
As the utility model discloses an improvement of clean mechanism of battery bat printing, brush china ink mechanism includes an oil cup installing support and riser, be equipped with an oil cup on the oil cup installing support, the one end of oil cup installing support is equipped with the slider, one side of riser is equipped with the dovetail, the slider embedding is in the dovetail and carry out the tight regulation through the leader, the lower extreme and the lead screw drive mechanism of riser are connected, the bottom of oil cup is equipped with a scraper, when the oil cup removes the scraper is right the upper surface of bat printing steel sheet brushes oil. The scraper scrapes the steel plate to enable the ink to fall into the lettering place on the steel plate, and the rubber head absorbs the lettering ink to print on a product, so that the transfer printing effect is achieved.
As the utility model discloses clean mechanism's of battery bat printing improvement, bat printing mechanism includes a crossbeam, install the cylinder mounting panel on the crossbeam, the upper end of cylinder mounting panel is equipped with the bat printing cylinder, the piston rod of bat printing cylinder is connected with the bat printing head mount pad, install two bat printing silica gel heads on the bat printing head mount pad.
Compared with the prior art, the utility model has the advantages that: the utility model discloses a this section has clean mechanism of viscose of cleaning action can paste gluey processing dust or stamp-pad ink to the silica gel head and remain behind the first printed battery of silica gel, keeps the clean of the first reprint of silica gel, guarantees the effect of bat printing.
The utility model discloses a working process is: the pad printing steel plate mechanism firstly brushes oil on a pad printing steel plate, the pad printing mechanism is controlled by a screw rod transmission mechanism to move to a position above the pad printing steel plate, a pad printing cylinder controls two silica gel heads to move downwards to be stained with oil and then reset, the screw rod transmission mechanism controls the pad printing mechanism to move to a position above a battery on an assembly line for pad printing, the screw rod transmission mechanism controls the pad printing mechanism to move to a position of a pad printing cleaning mechanism after pad printing of the silica gel heads, the pad printing cylinder controls the two pad printing silica gel heads to move downwards to be pasted on a rubber belt between the rubber discharging mechanism and the rubber collecting mechanism, redundant printing oil on the pad printing silica gel heads is stained through the viscosity of the rubber belt, and the pad printing process is repeated.
Drawings
The invention and its advantageous technical effects are described in further detail below with reference to the accompanying drawings and embodiments, in which:
fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic view of the three-dimensional structure of the pad printing cleaning mechanism of the present invention.
Fig. 3 is a schematic view of the three-dimensional structure of the pad printing steel plate mechanism of the present invention.
Reference symbol names:
1. a support plate;
2. a linear slide rail;
3. a transfer printing mechanism; 31. the device comprises a cross beam 32, a cylinder mounting plate 33, a pad printing cylinder 34, a pad printing head mounting base 35 and a pad printing silica gel head;
4. a pad printing cleaning mechanism; 41. the cleaning platform 42, the glue releasing mechanism 43, the glue collecting mechanism 44, the guide glue wheel 45, the supporting table 46, the air cylinder 421, the glue bracket 422, the glue releasing rotating shaft 423, the glue releasing roller 431, the glue collecting bracket 432, the glue collecting rotating shaft 433, the glue collecting roller 434 and the glue collecting motor;
5. a notch;
6. a steel plate transfer printing mechanism; 61. the device comprises a support 62, a pad printing steel plate 63, an ink brushing mechanism 631, an oil cup mounting support 632, a vertical plate 633, an oil cup 634, a dovetail groove 635, a handle 636 and a scraper;
7. screw drive mechanism.
Detailed Description
The invention will be further described below with reference to the drawings and specific examples, but the embodiments of the invention are not limited thereto.
As shown in fig. 1, 2 and 3, a clean mechanism of battery bat printing, includes two backup pads 1 that correspond the setting, all is equipped with linear slide rail 2 on two backup pads 1, and two linear slide rail 2 connect jointly on bat printing mechanism 3 through the slider respectively, are equipped with between two backup pads 1 and bat print clean mechanism 4, and the front side of two backup pads 1 is equipped with installation breach 5 respectively, and a bat printing steel sheet mechanism 6 is installed jointly to two breachs 5.
Preferably, a screw rod transmission mechanism 7 is further arranged on one of the supporting plates 1, the screw rod transmission mechanism 7 drives the pad printing mechanism 3 to move back and forth along the linear sliding rail 2, the screw rod transmission mechanism 7 comprises a screw rod, a transmission motor, a synchronous wheel and a synchronous belt, the screw rod is connected with the transmission motor through the synchronous wheel and the synchronous belt, and the screw rod is connected with the pad printing mechanism 3 through a screw rod nut.
Preferably, the pad printing cleaning mechanism 4 comprises a cleaning platform 41, the cleaning platform 41 is provided with a glue placing mechanism 42 and a glue collecting mechanism 43, and the cleaning platform 41 is provided with guide rubber wheels 44 at positions corresponding to the glue placing mechanism 42 and the glue collecting mechanism 43; the lower extreme of cleaning platform 41 is installed on a supporting bench 45 through straight line slider and linear slide rail, still is equipped with cylinder 46 on the supporting bench 45, and the piston rod of cylinder 46 is connected on cleaning platform 41.
Preferably, the glue placing mechanism 42 comprises a glue placing support 421, a glue placing rotating shaft 422 is arranged on the glue placing support 421 in a penetrating manner, and a glue placing roller 423 is arranged on the glue placing rotating shaft 422 through an elastic screw;
receive gluey mechanism 43 and include receiving gluey support 431, receive to wear to be equipped with one on gluey support 431 and receive gluey pivot 432, receive one end of gluing pivot 432 and install one through the elasticity screw and receive gluey roller 433, receive the other end of gluing pivot 432 and connect and receive gluey motor 434. The rubber receiving roller 433 can be easily taken down and replaced by a disassembling function of the elastic screw.
Preferably, the pad printing steel plate mechanism 6 comprises a bracket 61, a pad printing steel plate 62 is arranged on the bracket 61, a second screw rod transmission mechanism 64 is arranged on one side of the bracket 61, and the second screw rod transmission mechanism 64 controls an ink painting mechanism 63 to move along the upper surface of the pad printing steel plate 62 in a contact manner.
Preferably, the ink brushing mechanism 63 includes an oil cup mounting bracket 631 and an upright plate 632, an oil cup 633 is arranged on the oil cup mounting bracket 631, a slider is arranged at one end of the oil cup mounting bracket 631, a dovetail groove 634 is arranged at one side of the upright plate 632, the slider is embedded in the dovetail groove 634 and is subjected to tightness adjustment through a handle 635, the lower end of the upright plate 632 is connected with the screw rod transmission mechanism, a scraper 636 is arranged at the bottom of the oil cup 633, and when the oil cup 633 moves, the scraper 636 brushes the upper surface of the pad printing steel plate 62.
Preferably, the pad printing mechanism 3 comprises a beam 31, a cylinder mounting plate 32 is mounted on the beam 31, a pad printing cylinder 33 is arranged at the upper end of the cylinder mounting plate 32, a piston rod of the pad printing cylinder 33 is connected with a pad printing head mounting seat 34, and two pad printing silica gel heads 35 are mounted on the pad printing head mounting seat 34.
The utility model discloses a working process is: the pad printing steel plate mechanism firstly brushes oil on a pad printing steel plate, the pad printing mechanism is controlled by a screw rod transmission mechanism to move to a position above the pad printing steel plate, a pad printing cylinder controls two silica gel heads to move downwards to be stained with oil and then reset, the screw rod transmission mechanism controls the pad printing mechanism to move to a position above a battery on an assembly line for pad printing, the screw rod transmission mechanism controls the pad printing mechanism to move to a position of a pad printing cleaning mechanism after pad printing of the silica gel heads, the pad printing cylinder controls the two pad printing silica gel heads to move downwards to be pasted on a rubber belt between the rubber discharging mechanism and the rubber collecting mechanism, redundant printing oil on the pad printing silica gel heads is stained through the viscosity of the rubber belt, and the pad printing process is repeated.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and structures of the invention, the scope of which is defined in the appended claims and their equivalents.