CN214774773U - Can realize servo gilding press of quick retooling - Google Patents

Abstract

The utility model discloses a servo gilding press capable of realizing quick die change, which is mainly used for gilding of automobile grilles and relates to the technical field of servo gilding presses, comprising a base and a servo gilding press body, wherein the servo gilding press body is arranged at the top of the base; the step of debugging the hot stamping silica gel plate is reduced, and the problem of inaccurate debugging and alignment of the hot stamping silica gel plate can be avoided; moreover, the hot stamping silica gel plate can be conveniently mounted and dismounted; after the position is aligned for the first time, the position information can be recorded into the PLC and numbered, and production can be quickly realized by only installing the tool and calling the parameter number in next debugging.

Description

Can realize servo gilding press of quick retooling

Technical Field

The utility model relates to a servo gilding press technical field specifically says a can realize servo gilding press of quick retooling.

Background

The gold stamping refers to a process of hot stamping the electrochemical aluminum foil on the surface of a printing stock at a certain temperature and pressure; the servo stamping machine is designed to be controlled by a touch screen, 12 manual programming modes are preset to meet various printing requirements, a stamping silica gel plate needs to be manually installed before the servo stamping machine works, and then the position of the stamping silica gel plate is debugged;

however, analysis shows that the existing servo gold stamping machine has complicated steps when debugging the hot stamping silica gel plate, needs a lot of waste for testing, and often has the problem of inaccurate debugging and alignment; moreover, the hot stamping silica gel plate is inconvenient to install, and meanwhile, the hot stamping silica gel plate is inconvenient to disassemble.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned deficiencies, the utility model provides a servo gilding press capable of realizing rapid die change, which not only reduces the step of debugging the hot stamping silica gel plate, but also can avoid the problem of inaccurate debugging and alignment of the hot stamping silica gel plate; moreover, the hot stamping silica gel plate can be conveniently mounted and dismounted; and simultaneously, the utility model discloses a servo gilding press, through outside industrial computer cooperation PLC control, can type position information PLC after the position for the first time to the serial number, the debugging is as long as adorn the frock next time, calls the parameter serial number and can realize production fast.

The utility model discloses a realize like this, construct a servo gilding press that can realize quick retooling, including base and servo gilding press body, servo gilding press body is installed in the base top, and servo gilding press body one side is leaned on the mid position to install the dismouting mould mount table, and servo gilding press body opposite side is leaned on the servo electric cylinder bottom in top to install slidingtype thermoprinting board subassembly, and receipts foil feeding mechanism is installed in the slidingtype thermoprinting board subassembly outside, receives foil feeding mechanism both ends to install in servo gilding press body and lean on top both ends.

The foil receiving and feeding mechanism comprises a limiting frame, a foil feeding motor, a foil receiving motor, a foil feeding roller, a foil guiding clamping roller set, a foil receiving roller and a foil pressing roller assembly, wherein the foil feeding motor and the foil receiving motor are respectively arranged at two ends of the limiting frame;

the foil guide roller comprises an outer sleeve and an inner rod, and the inner rod is arranged in the outer sleeve through a bearing;

one end of the foil collecting roller is provided with a limiting belt pulley B, one end of the foil guiding clamping roller group is provided with a limiting belt pulley A, and the outer side of the limiting belt pulley A is wound with a belt;

the foil guiding clamping roller group is provided with two rollers, a limiting belt pulley A is arranged at one end of one of the rollers, and one end of one roller provided with the limiting belt pulley A is simultaneously connected with one end of an output shaft of a foil collecting motor.

Further, the foil pressing roller assembly comprises a connecting plate, a threaded through hole B, a fastening rod B, a foil pressing roller, an outer sleeve A, a connecting inner rod and a threaded connecting hole, wherein the connecting plate is provided with a plurality of threaded through holes B;

the threaded connection hole at one end of the inner rod to be connected is aligned with the threaded through hole B, then the fastening rod B penetrates through the threaded connection rod at one end of the fastening rod B to be aligned with the threaded through hole B to enter the threaded connection hole to be screwed and fixed, so that the foil pressing roller is fixed, and meanwhile, the threaded connection hole at one end of the inner rod to be connected is aligned with different threaded through holes B, and the position of the foil pressing roller is convenient to adjust.

Further, the sliding type hot stamping plate assembly comprises a connecting flat plate, a heating plate, hot stamping silica gel plates, fastening rods and threaded through holes, wherein the connecting flat plate is arranged at the top of the heating plate, the hot stamping silica gel plates are connected to the bottom of the heating plate in a sliding manner, the threaded through holes are formed in two sides of the heating plate, and one end of each fastening rod is embedded into the corresponding threaded through hole; the hot stamping jig platform of heating plate and servo gilding press body is on same vertical line to align, anchorage bar and anchorage bar B structure principle are unanimous, are equipped with threaded connection pole equally in anchorage bar one end, slide into the heating plate bottom from supporting the slip table inside with the thermoprint silica gel board through the push-and-pull handle, make inside T shape link plate embedding T shape spout, then reuse the anchorage bar and pass the screw thread through-hole through threaded connection pole and withstand T shape link plate, fix the thermoprint silica gel board.

Furthermore, T-shaped sliding grooves are formed in the inner parts of the two sides of the heating plate;

the hot stamping silica gel plate comprises a bottom plate, T-shaped hanging plates and a push-pull handle, wherein the T-shaped hanging plates are arranged on two sides of the top of the bottom plate, and the push-pull handle is arranged at one end of the T-shaped hanging plates;

the thread through hole is communicated with the T-shaped sliding chute.

Further, the die mounting and dismounting table comprises a supporting sliding table and a fixed rod, and the fixed rod is mounted at one end of the supporting sliding table; the hot stamping silica gel plate is convenient to place through the supporting sliding table.

The utility model discloses a concrete advantage embodies:

the method has the advantages that: the sliding type hot stamping plate assembly is arranged at the other side of the servo stamping machine body and is close to the bottom of the top servo electric cylinder, so that the position of the heating plate is fixed, the heating plate and a hot stamping jig table of the servo stamping machine body are on the same vertical line, the servo stamping machine body is controlled by an external PLC to push the sliding type hot stamping plate assembly to descend by the servo electric cylinder at the top, so that the height of the sliding type hot stamping plate assembly is close to that of the supporting sliding table but slightly higher than that of the supporting sliding table, the fastening rod is screwed out from the threaded through hole, then the hot stamping silica gel plate to be installed is placed on the supporting sliding table, the hot stamping silica gel plate slides into the bottom of the heating plate from the inside of the supporting sliding table through the push-pull handle, the T-shaped hanging plate is embedded into the T-shaped sliding groove, the position of the hot stamping silica gel plate is positioned by the heating plate, debugging through other steps is not needed, and the step of debugging the hot stamping silica gel plate is reduced, the problem of inaccurate debugging and alignment of the hot stamping silica gel plate is avoided.

The method has the advantages that: the assembling and disassembling die mounting table comprises a supporting sliding table and a fixed rod, and the fixed rod is mounted at one end of the supporting sliding table; the hot stamping silica gel plate is convenient to place through the supporting sliding table and align to the heating disc, after the hot stamping silica gel plate slides into the bottom of the heating disc from the inside of the supporting sliding table through the push-pull handle, the fastening rod penetrates through the threaded through hole through the threaded connecting rod to abut against the T-shaped hanging plate, and the hot stamping silica gel plate is fixed, so that the hot stamping silica gel plate is convenient to install;

when needs demolish hot stamping silica gel plate, through the servo electric cylinder promotion slidingtype hot stamping plate subassembly decline suitable height of servo electric cylinder at top of outside PLC control servo gilding press body for the height of slidingtype hot stamping plate subassembly is close with supporting the slip table, but is a little higher than supporting the slip table, screws out the anchorage bar, then pulls out hot stamping silica gel plate from the heating plate bottom through the push-and-pull handle again and slides to supporting the slip table on, through the aforesaid, can be convenient dismantle hot stamping silica gel plate.

The method has the advantages that: the utility model discloses a servo gilding press, through outside industrial computer cooperation PLC control, can type PLC with position information after the position for the first time to the serial number, the debugging is as long as dress frock next time, and the production can be realized fast to the calling parameter serial number, need not debug again, the step of further reduction debugging thermoprint silica gel plate.

Drawings

FIG. 1 is a schematic structural view of a servo stamping machine capable of realizing rapid die change of the utility model;

FIG. 2 is a front view of the present invention;

FIG. 3 is a front view of the servo gilding press body of the utility model;

fig. 4 is a schematic structural view of the sliding type hot stamping plate assembly of the present invention;

FIG. 5 is a schematic view of the T-shaped chute structure of the present invention;

FIG. 6 is a top view of the hot stamping silicone plate of the present invention;

FIG. 7 is a schematic view of the structure of the end face of the hot stamping silicone plate of the present invention;

FIG. 8 is a schematic structural view of the foil feeding and collecting mechanism of the present invention;

FIG. 9 is a schematic view of the foil guiding clamping roller set of the present invention;

FIG. 10 is a schematic view of the structure of the foil guiding roller of the present invention;

fig. 11 is a schematic view of the structure of the inner connecting rod of the present invention;

fig. 12 is a schematic structural view of a fastening rod B of the present invention;

FIG. 13 is a top view of the mounting table of the mold assembly of the present invention;

fig. 14 is an end view of the support slide of the present invention.

Fig. 15 is an overall structure view of the belt work of the present invention.

The figure illustrates the format: the stamping die comprises a base 1, a servo stamping machine body 2, a sliding type stamping plate assembly 3, a foil collecting and feeding mechanism 4, a die mounting table 5, a connecting flat plate 32, a heating plate 31, a stamping silicone plate 33, a fastening rod 34, a threaded through hole 35, a T-shaped sliding groove 311, a bottom plate 331, a T-shaped hanging plate 332, a push-pull handle 333, a limiting frame 41, a foil feeding motor 42, a foil collecting motor 43, a foil feeding roller 44, a foil guiding roller 45, a foil guiding clamping roller group 46, a foil collecting roller 47, a foil pressing roller assembly 48, an outer sleeve 451, an inner rod 452, a belt 461, a limiting pulley A462, a limiting pulley B471, a connecting plate 481, a threaded through hole B482, a fastening rod B483, a foil pressing roller 484, an outer sleeve A485, a connecting inner rod 486, a threaded connecting hole 487, a threaded connecting rod 4831, a supporting sliding table 51 and a fixing rod 52.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model provides a servo gilding press which can realize fast die change through improvement, as shown in the attached drawing of the specification, the servo gilding press can be implemented as follows; including base 1 and servo gilding press body 2, servo gilding press body 2 installs in 1 top of base, its characterized in that: a dismounting die mounting table 5 is mounted on one side of the servo stamping machine body 2 close to the middle of the servo stamping machine body, a sliding type hot stamping plate assembly 3 is mounted on the other side of the servo stamping machine body 2 close to the bottom of the top servo electric cylinder, a foil collecting and feeding mechanism 4 is mounted on the outer side of the sliding type hot stamping plate assembly 3, and two ends of the foil collecting and feeding mechanism 4 are mounted on two ends of the servo stamping machine body 2 close to the top.

More specifically, the foil collecting and feeding mechanism 4 comprises a limit frame 41, a foil feeding motor 42, a foil collecting motor 43, a foil feeding roller 44, a foil guiding roller 45, a foil guiding clamping roller set 46, a foil collecting roller 47 and a foil pressing roller set 48, wherein the foil feeding motor 42 and the foil collecting motor 43 are respectively arranged at two ends of the limit frame 41, one end of the foil feeding roller 44 is connected to one end of an output shaft of the foil feeding motor 42, the other end of the foil feeding roller 44 is arranged at the side part of the limit frame 41 through a bearing, the foil guiding roller 45 is arranged at the bottom part of the foil feeding roller 44 through a bearing, one end of the foil guiding clamping roller set 46 is arranged at one end of the foil collecting motor 43, the other end of the foil guiding clamping roller set 46 is arranged at the side part of the limit frame 41 through a bearing, the foil collecting roller 47 is arranged at the top part of the foil guiding clamping roller set 46 through a bearing, and the foil pressing roller set 48 is arranged at the bottom part of the limit frame 41;

the foil guide roller 45 comprises an outer sleeve 451 and an inner rod 452, wherein the inner rod 452 is arranged inside the outer sleeve 451 through a bearing;

one end of the foil collecting roller 47 is provided with a limit belt pulley B471, one end of the foil guiding clamping roller group 46 is provided with a limit belt pulley A462, and the outer side of the limit belt pulley A462 is wound with a belt 461;

the foil guiding and clamping roller set 46 is provided with two rollers, a limiting belt pulley A462 is arranged at one end of one of the rollers, one end of one roller provided with the limiting belt pulley A462 is simultaneously connected with one end of an output shaft of the foil receiving motor 43, and it is noted that the foil feeding motor 42 and the foil receiving motor 43 are controlled by an external industrial computer in cooperation with a PLC.

More specifically, the foil pressing roller assembly 48 comprises a connecting plate 481, a threaded through hole B482, a fastening rod B483, a foil pressing roller 484, an outer sleeve A485, a connecting inner rod 486 and a threaded connecting hole 487, wherein the connecting plate 481 is provided with a plurality of threaded through holes B482, one end of the foil pressing roller 484 is movably connected to one side of the connecting plate 481, the outer side of the foil pressing roller 484 is provided with the outer sleeve A485, one end of the connecting inner rod 486 is mounted on the inner side of the outer sleeve A485 through a bearing, one end of the connecting inner rod 486 is provided with the threaded connecting hole 487, one end of the fastening rod B483 is provided with a threaded connecting rod 4831, and the fastening rod B483 is connected to the other side of the connecting plate 481 through the threaded connecting rod 4831;

the threaded connection hole 487 connected to one end of the inner rod 486 is aligned with the threaded through hole B482, and then the fastening rod B483 is used to penetrate through the threaded connection hole B482 through the threaded connection hole 4831 at one end of the fastening rod B483 and enter the threaded connection hole 487 to be screwed and fixed, so that the foil pressing roller 484 is fixed, and meanwhile, the threaded connection hole 487 connected to one end of the inner rod 486 is aligned with a different threaded through hole B482, so that the position of the foil pressing roller 484 can be adjusted conveniently.

More specifically, the sliding type hot stamping plate assembly 3 comprises a connecting flat plate 32, a heating plate 31, a hot stamping silicone plate 33, a fastening rod 34 and a threaded through hole 35, wherein the connecting flat plate 32 is arranged at the top of the heating plate 31, the hot stamping silicone plate 33 is connected to the bottom of the heating plate 31 in a sliding manner, the threaded through hole 35 is formed in two sides of the heating plate 31, and one end of the fastening rod 34 is embedded into the threaded through hole 35; heating plate 31 is on same vertical line with the thermoprint tool platform of servo gilding press body 2, and align, fastening rod 34 is unanimous with fastening rod B483 structure principle, be equipped with threaded connection rod 4831 equally in fastening rod 34 one end, slide into heating plate 31 bottom from supporting slip table 51 inside with thermoprint silica gel plate 33 through push-and-pull handle 333, make inside T shape link plate 332 imbeds T shape spout 311, then reuse fastening rod 34 to pass threaded connection rod 4831 through threaded through hole 35 and withstand T shape link plate 332, fix thermoprint silica gel plate 33.

More specifically, T-shaped sliding grooves 311 are formed inside both sides of the heating plate 31;

the hot stamping silicone plate 33 comprises a bottom plate 331, T-shaped hanging plates 332 and a push-pull handle 333, wherein the T-shaped hanging plates 332 are arranged on two sides of the top of the bottom plate 331, and the push-pull handle 333 is arranged at one end of the T-shaped hanging plates 332;

the threaded through hole 35 communicates with the T-shaped chute 311.

More specifically, the die-attaching and die-detaching mounting table 5 includes a support slide table 51 and a fixing rod 52, the fixing rod 52 being mounted at one end of the support slide table 51; the hot stamping silicone plate 33 is convenient to place through the supporting sliding table 51.

The working principle of the servo gilding press capable of realizing quick die change is as follows: the worker aligns the threaded connecting hole 487 connected to one end of the inner rod 486 with the appropriate threaded through hole B482, and then, the worker screws and fixes the foil pressing roller 484 by using the fastening rod B483 to pass through the aligned threaded through hole B482 and enter the threaded connecting hole 487 through the threaded connecting rod 4831 at one end of the fastening rod B483;

then, an external industrial computer is matched with a PLC (programmable logic controller) to control a servo gold stamping machine body 2 to push a sliding type hot stamping plate assembly 3 to descend by a proper height through a servo electric cylinder at the top, so that the height of the sliding type hot stamping plate assembly 3 is close to that of a supporting sliding table 51 but slightly higher than that of the supporting sliding table 51, then a fastening rod 34 is screwed out from a threaded through hole 35, then a hot stamping silica gel plate 33 to be installed is placed on the supporting sliding table 51, the hot stamping silica gel plate 33 slides into the bottom of a heating plate 31 from the inside of the supporting sliding table 51 through a push-pull handle 333, so that a T-shaped hanging plate 332 is embedded into a T-shaped sliding groove 311, then the fastening rod 34 penetrates through the threaded through hole 35 through a threaded connecting rod 4831 to prop against the T-shaped hanging plate 332, the hot stamping silica gel plate 33 is fixed, and then the hot stamping silica gel plate 33 is installed;

then the gold foil wound by the foil feeding roller 44 is drawn out and wound around the bottom of the foil guiding roller 45, and then wound around the bottom of the foil pressing roller 484, then the gold foil passes through the space between the foil clamping roller sets 46 and is wound to the outside of the foil collecting roller 47, a workpiece needing hot stamping is placed on a hot stamping jig of the servo hot stamping machine body 2, the servo hot stamping machine body 2 is controlled by an external PLC to push the sliding type hot stamping plate assembly 3 to descend through a servo electric cylinder at the top, so that the hot stamping silicon plate 33 is contacted with the gold foil and pressed on the workpiece for hot stamping, after the hot stamping is finished, the servo hot stamping machine body 2 is controlled by the external industrial computer and the PLC to push the sliding type hot stamping plate assembly 3 to ascend through the servo electric cylinder at the top, then the external PLC respectively controls the foil feeding motor 42 and the foil collecting motor 43 to operate, after the foil collecting motor 43 operates, one roller connected with the foil collecting motor 43 in the foil guiding roller set 46 rotates to drive the foil collecting roller 47 to collect the foil through the foil collecting belt 461, meanwhile, a foil feeding motor 42 drives a foil feeding roller 44 to feed.

In conclusion; the servo gilding press capable of realizing rapid die change not only reduces the step of debugging the hot stamping silica gel plate, but also can avoid the problem of inaccurate debugging and alignment of the hot stamping silica gel plate; moreover, the hot stamping silica gel plate can be conveniently mounted and dismounted; after the position is aligned for the first time, the position information can be recorded into the PLC and numbered, and production can be quickly realized by only installing the tool and calling the parameter number in next debugging.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The utility model provides a can realize servo gilding press of quick retooling, includes base (1) and servo gilding press body (2), servo gilding press body (2) install in base (1) top, its characterized in that: servo gilding press body (2) one side is by the mid position install dismouting mould mount table (5), and servo gilding press body (2) opposite side is by top servo electric cylinder bottom install slidingtype thermoprinting board subassembly (3), receipts foil feeding mechanism (4) are installed in slidingtype thermoprinting board subassembly (3) outside, receipts foil feeding mechanism (4) both ends are installed in servo gilding press body (2) and are by top both ends.

2. The servo gilding press capable of realizing fast die change according to claim 1, characterized in that: the foil collecting and feeding mechanism (4) comprises a limiting frame (41), a foil feeding motor (42), a foil collecting motor (43), a foil feeding roller (44), a foil guiding roller (45), a foil guiding clamping roller set (46), a foil collecting roller (47) and a foil pressing roller assembly (48), wherein the foil feeding motor (42) and the foil collecting motor (43) are respectively arranged at two ends of the limiting frame (41), one end of the foil feeding roller (44) is connected to one end of an output shaft of the foil feeding motor (42), the other end of the foil feeding roller (44) is arranged at the side part of the limiting frame (41) through a bearing, the foil guiding roller (45) is arranged at the bottom of the foil feeding roller (44) through a bearing, one end of the foil guiding clamping roller set (46) is arranged at one end of the foil collecting motor (43), the other end of the foil guiding clamping roller set (46) is arranged at the side part of the limiting frame (41) through a bearing, and the foil collecting roller (47) is arranged at the top of the foil guiding clamping roller set (46) through a bearing, the foil pressing roller assembly (48) is arranged at the bottom of the limiting frame (41);

the foil guide roller (45) comprises an outer sleeve (451) and an inner rod (452), wherein the inner rod (452) is mounted inside the outer sleeve (451) through a bearing;

one end of the foil collecting roller (47) is provided with a limiting belt pulley B (471), one end of the foil guiding clamping roller group (46) is provided with a limiting belt pulley A (462), and the outer side of the limiting belt pulley A (462) is wound with a belt (461).

3. The servo gilding press capable of realizing fast die change according to claim 2, characterized in that: pressing foil roller subassembly (48) are including connecting plate (481), screw through hole B (482), fastening rod B (483), pressing foil roller (484), outer sleeve A (485), link interior pole (486) and threaded connection hole (487), connecting plate (481) has seted up a plurality of screw through hole B (482), pressing foil roller (484) one end swing joint in connecting plate (481) one side, pressing foil roller (484) outside do outer sleeve A (485), link interior pole (486) one end and pass through the bearing and install in outer sleeve A (485) inboard, link interior pole (486) one end is equipped with threaded connection hole (487), fastening rod B (483) one end is equipped with threaded connection pole (4831), and fastening rod B (483) passes through threaded connection pole (4831) is connected in connecting plate (481) opposite side.

4. The servo gilding press capable of realizing fast die change according to claim 1, characterized in that: slidingtype thermoprint board subassembly (3) are including connecting dull and stereotyped (32), heating plate (31), thermoprint silica gel board (33), anchorage bar (34) and screw through hole (35), connecting dull and stereotyped (32) are located heating plate (31) top, thermoprint silica gel board (33) sliding connection is in heating plate (31) bottom, screw through hole (35) are seted up in heating plate (31) both sides, anchorage bar (34) one end embedding screw through hole (35).

5. The servo gilding press capable of realizing fast die change according to claim 4, characterized in that: t-shaped sliding grooves (311) are formed in the inner parts of the two sides of the heating plate (31);

the hot stamping silicone plate (33) comprises a bottom plate (331), T-shaped hanging plates (332) and a push-pull handle (333), wherein the T-shaped hanging plates (332) are installed on two sides of the top of the bottom plate (331), and the push-pull handle (333) is installed at one end of the T-shaped hanging plates (332).

6. The servo gilding press capable of realizing fast die change according to claim 1, characterized in that: the die mounting table (5) comprises a supporting sliding table (51) and a fixing rod (52), and the fixing rod (52) is mounted at one end of the supporting sliding table (51).

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