CN113732518B - Laser printing device for machining and working method thereof - Google Patents

Abstract

The invention discloses a laser printing device for machining and a working method thereof, belonging to the field of laser printing and carving; including the material fixed plate, the material fixed plate is provided with two from top to bottom, is equipped with sculpture head installation piece on the material fixed plate, and the material fixed plate comprises a plurality of fixed modules of contradicting, the fixed module of contradicting includes PMKD, movable mounting first stand on the PMKD is equipped with first conflict board on the first stand, two from top to bottom the first conflict board on the material fixed plate sets up in opposite directions, through put into two upper and lower material fixed plates in the middle of, makes two material fixed plates be close to extrusion material each other, because the extrusion first conflict board of material is stressed makes first stand to PMKD motion, so can make the material fixed plate by first conflict board constitute with the face of material contact with the material profile unanimous, so guarantee the firm that the material is fixed, do not need to be because of being single material stress point and lead to the material to be crushed or fixed infirm problem.

Description

Laser printing device for machining and working method thereof

Technical Field

The disclosure belongs to the field of laser printing and engraving, and particularly relates to a laser printing device for machining and a working method thereof.

Background

Under the existing small-sized material engraving technology, the traditional processing technology is still maintained, and the traditional processing technology requires manual operation of laser engraving equipment for engraving. The laser engraving process is based on numerical control technology, and the laser is the processing medium. The processing material is instantaneously melted and gasified under the irradiation of laser engraving, so that the laser engraving can achieve the purpose of processing.

As disclosed in the Chinese patent net, the patent number is 201710951381.5, which is a small stone carving laser carving device convenient to use. The device is provided with a placing disc, a laser engraving device, an electric telescopic rod, a moving column, a sliding block, a clamping seat, a motor, a driving wheel, a driven wheel, a bearing seat and the like. The stone is fixed on the placing plate by utilizing the electric telescopic rod, and the stone is engraved by controlling the action of the laser engraving device to move through the mutual cooperation of the motor, the driving wheel, the driven wheel and the bearing seat.

However, the device has some defects, and the device clamps materials by using the clamping seats to mutually approach in the primary three-dimensional carving process, so that the device is only suitable for massive regular materials. If the material to be engraved is irregular, the problem that the material cannot be clamped exists, and the natural irregular material is often required to be processed to ensure the artistic effect for engraving, the upper material fixing plate and the lower material fixing plate which can be attached to the fixing piece according to the shape change are used for clamping and fixing the material.

Disclosure of Invention

Aiming at the defects of the prior art, the purpose of the present disclosure is to provide a laser printing device for machining and a working method thereof, which solve the problem that the prior art is difficult to clamp irregular-shaped materials for an engraving machine.

The purpose of the disclosure can be achieved by the following technical scheme:

the laser printing device for machining comprises a material fixing plate, wherein the material fixing plate is provided with an upper block and a lower block, and an engraving head mounting block is arranged on the material fixing plate;

the material fixed plate comprises a plurality of conflict fixed modules, the conflict fixed module includes PMKD, movable mounting first stand on the PMKD, is equipped with first conflict board on the first stand, upper and lower two first conflict board on the material fixed plate sets up in opposite directions.

Further, a first mounting groove is formed in the fixing bottom plate, four first through holes distributed in the circumference are formed in the side face of the first mounting groove, a first connecting rod is movably mounted in the first through holes, the first connecting rod penetrates through the first through holes in the adjacent abutting fixing modules where the abutting fixing modules are located, and a telescopic limiting rod is mounted on the first connecting rod.

Further, a first rack is arranged at one end of the first connecting rod, a first gear is arranged in the first mounting groove, the first gear is meshed with the first rack, a first sliding groove is formed in the side face of the first connecting rod, a first sliding block is movably mounted on the first sliding groove, a second sliding block is arranged on the side face of the first sliding block, a second inclined plane is arranged on the second sliding block, a first spring is arranged between the second sliding block and the first sliding block, a first mounting block is arranged below the second sliding block, a second sliding groove is formed in the first mounting block, and the second sliding block is movably mounted on the second sliding groove;

a second installation block is arranged on one side of the end face of the first rack, a third sliding block is movably installed on the second installation block, and a second spring is arranged between the third sliding block and the end face of the first rack.

Further, a first upright post is arranged on the first gear, a third mounting hole is formed in the first upright post, a first vertical groove is formed in the third mounting hole, and a first transverse groove is formed below the first vertical groove;

install on the engraving head installation piece and dismantle the piece, dismantle the third installation piece of piece and install on the engraving head installation piece, be equipped with the third spring on the third installation piece, the other end of third spring is equipped with the activity conflict piece, is equipped with a plurality of first on the activity conflict piece and supports feeler lever and second and support feeler lever, is equipped with first inclined plane on the first feeler lever, is equipped with rotatory power pole on the third installation piece, and the power pole passes the second through-hole on the activity conflict piece, and the tip of power pole is equipped with first horizontal pole.

Further, be equipped with the stand mounting hole on the PMKD, first stand movable mounting is equipped with position sensor in the stand mounting hole between first stand and the stand mounting hole ground.

Further, a fourth mounting groove is formed in the first abutting plate, a first connecting plate is movably mounted in the fourth mounting groove, the first connecting plate is movably mounted on the end face of the first upright post through ball connection, a plurality of first spring mounting holes are formed in the side face of the fourth mounting groove, a fourth spring is arranged in the first spring mounting holes, and one end of the fourth spring abuts against the mounting holes formed in the side face of the first connecting plate;

four adjusting rods are arranged below the first abutting plate, the adjusting rods are connected with the first abutting plate through ball connecting rods, two ends of each ball connecting rod are respectively and movably connected with the first abutting plate and the adjusting rods in a ball connection mode, a plurality of second spring mounting holes are formed in the side face of the first upright post, a fifth spring is arranged in each second spring mounting hole, a fourth sliding block is arranged above each fifth spring, and the lower ends of the adjusting rods are movably connected to the fourth sliding blocks; and a position sensor is arranged on the fourth sliding block.

Further, be equipped with the collar on the first stand, be equipped with the auxiliary cylinder on the collar, the auxiliary cylinder passes through connecting rod activity and adjusts the first erection column swing joint of pole side, and the connecting rod link is movable mounting respectively in the tip of first erection column and auxiliary cylinder push rod.

The beneficial effects of the present disclosure are:

after the material is placed in the middle of the upper material fixing plate and the lower material fixing plate, the two material fixing plates are made to be close to each other to extrude the material, and the first upright post moves towards the fixing bottom plate due to the fact that the first extrusion abutting plate of the material is pressed, so that the surface, which is formed by the first abutting plate, of the material fixing plate and is in contact with the material is consistent with the outline of the material, the firmness of material fixing is guaranteed, and the problem that the material is crushed or is not firm due to the fact that the material bearing point is single is solved.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described, and it will be apparent to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic overall construction of an embodiment of the present disclosure;

FIG. 2 is a schematic view of the structure of a material fixing plate according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of a structure of a fastening module according to an embodiment of the disclosure;

FIG. 4 is a cross-sectional view of an interference securing module according to an embodiment of the present disclosure;

FIG. 5 is a schematic view of the installation of a mounting base plate according to an embodiment of the present disclosure

FIG. 6 is a schematic view of a fixed floor structure of an embodiment of the present disclosure;

FIG. 7 is a schematic view of the installation of a first connecting rod according to an embodiment of the present disclosure;

FIG. 8 is a schematic view of a disassembly block installation of an embodiment of the present disclosure;

FIG. 9 is a schematic structural view of a first gear according to an embodiment of the present disclosure;

fig. 10 is a schematic view of a disassembly block structure of an embodiment of the present disclosure.

Detailed Description

The following description of the technical solutions in the embodiments of the present disclosure will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present disclosure, and it is apparent that the described embodiments are only some embodiments of the present disclosure, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments in this disclosure without inventive faculty, are intended to fall within the scope of this disclosure.

As shown in fig. 1-10, a laser printing device for machining comprises a material fixing plate 2, wherein the material fixing plate 2 is provided with an upper block and a lower block, an engraving head mounting block 1 is arranged on the material fixing plate 2, and a laser engraving head is arranged on the engraving head mounting block 1;

the material fixing plate 2 is composed of a plurality of abutting fixing modules 3, the abutting fixing modules 3 comprise a fixing bottom plate 4, a first upright post 52 is movably arranged on the fixing bottom plate 4, a first abutting plate 5 is arranged on the first upright post 52, and the first abutting plates 5 on the upper material fixing plate 2 and the lower material fixing plate 2 are oppositely arranged; through the design, after the materials are placed between the upper material fixing plate 2 and the lower material fixing plate 2, the two material fixing plates 2 are mutually close to each other to extrude the materials, because the extruded first abutting plate 5 of the materials is pressed to enable the first upright column 52 to move towards the fixed bottom plate 4, the surface, which is formed by the first abutting plate 5, of the material fixing plate 2 and is in contact with the materials is consistent with the outline of the materials, the firmness of the material fixing is ensured, the problem that the materials are crushed or are not firm due to single material stress points is solved, and meanwhile, the positions needing to be engraved are vacated for convenient engraving;

meanwhile, the outline frame can be arranged outside the material fixing plate 2 for fixing, and the air cylinder or the screw rod drives the outline frame to move up and down to enable the material fixing plate 2 to clamp materials.

In some disclosures, the abutting fixing modules 3 are fixed in pairs through a fixing bottom plate 4, a first mounting groove 41 is formed in the fixing bottom plate 4, four first through holes 42 distributed circumferentially are formed in the side surface of the first mounting groove 41, a first connecting rod 44 is movably mounted in the first through holes 42, the first connecting rod 44 penetrates through the first through holes 42 on the abutting fixing modules 3 adjacent to the abutting fixing modules 3, a telescopic limiting rod 45 is mounted on the first connecting rod 44, and the fixing bottom plate 4 is a cuboid; through the design, the abutting fixing modules 3 on four sides of the abutting fixing modules 3 can be fixedly connected together through the first connecting rods 44, the first through holes 42 are positioned in the middle of the side face of the fixing bottom plate 4, the first connecting rods 44 of two adjacent abutting fixing modules 3 are respectively positioned on two sides of the first through holes 42, the limiting rods 45 are used for fixing the first connecting rods 44 to prevent axial movement of the first connecting rods 44 and ensure the fixing effect, furthermore, the limiting rods 45 are movably installed in mounting holes formed in the first connecting rods 44, springs are arranged between the limiting rods 45 and the mounting holes, and through the design, the limiting rods 45 can stretch out and draw back; through such design, can conveniently demolish single conflict fixed module 3, so can make things convenient for the vacation position to carve under the fixed firm circumstances of assurance material.

In some publications, a first rack 441 is disposed at one end of the first connecting rod 44, a first gear 43 is disposed in the first mounting groove 41, the first gear 43 is meshed with the first rack 441, a first sliding groove 442 is disposed on a side surface of the first connecting rod 44, a first sliding block 443 is movably mounted on the first sliding groove 442, a second sliding block 444 is disposed on a side surface of the first sliding block 443, a second inclined surface 440 is disposed on the second sliding block 444, a first spring 445 is disposed between the second sliding block 444 and the first sliding block 443, a first mounting block 446 is disposed below the second sliding block 444, a second sliding groove 447 is disposed in the first mounting block 446, and a gap is disposed between the two first connecting rods 44 in the first through hole 42;

a second mounting block 450 is arranged on one side of the end face of the first rack 441, a third sliding block 449 is movably mounted on the second mounting block 450, and a second spring 448 is arranged between the third sliding block 449 and the end face of the first rack 441; through such design, when the state of abutting fixed module 3 splice each other, the side of head rod 44 is equipped with first spout 442, movable mounting has first slider 443 on the first spout 442, the side of first slider 443 is equipped with second slider 444, be equipped with second inclined plane 440 on the second slider 444, be equipped with first spring 445 between second slider 444 and the first slider 443, so make head rod 44 to the side motion of first spring 445 so first gear 43 and first rack 441 intermeshing break away from the meshing, when need demolish to an abutting fixed module 3, first abutting fixed module 3 is located the gag lever post 45 of waiting to demolish abutting fixed module 3, so rebound under the effect of the tensile force of second spring 448, make its face head rod 44 motion so first spring 445 drive head rod 44 motion through abutting second slider 444, so first gear 43 and first rack 441 meshing are gone out to the spacing of abutting fixed module 3, rotatory first gear 43 drives first rack 43 and makes head rod 44 to be the same as that abutting fixed module 3 is moved, so that abutting fixed module 3 is not carried out the abutting fixed module 3 and other fixed through-hole is fixed to the abutting fixed module 3 is also guaranteed to the abutting fixed module 3.

In some disclosures, the first gear 43 is provided with a second upright post 431, the second upright post 431 is provided with a third mounting hole 432, the third mounting hole 432 is provided with a first vertical groove 433, and a first horizontal groove 434 is arranged below the first vertical groove 433;

the engraving head mounting block 1 is provided with a dismounting block 9, a third mounting block 91 of the dismounting block 9 is mounted on the engraving head mounting block 1, a third spring 92 is arranged on the third mounting block 91, the other end of the third spring 92 is provided with a movable abutting block 93, the movable abutting block 93 is provided with a plurality of first abutting rods 94 and second abutting rods 95, the first abutting rods 94 are provided with first inclined planes 98, the third mounting block 91 is provided with rotary power rods 96, the power rods 96 penetrate through second through holes 99 in the movable abutting blocks 93, and the end parts of the power rods 96 are provided with first cross rods 97; through such design, can be through the first inclined plane 98 of first touch-up pole 94 conflict gag lever post 45 and the second touch-up pole 95 conflict second slider 444, afterwards make the rotation of first gear 43 in the first horizontal groove 434 of first horizontal groove 433 gets into through compression third spring 92 messenger power pole 96, so can realize the installation to touch fixed module 3 fast, further, be equipped with a plurality of first touch-up poles 94 on the movable touch-up piece 93 and be equipped with rotatory power pole 96 on second touch-up pole 95 and the third installation piece 91 and all adopt detachable mode, only remain the first touch-up pole 94 that the head rod 44 that moves now corresponds, so can be after the touch fixed module 3 after carrying out the reinstallation, can be through the head rod 44 that the head rod 3 that will be adjacent after the reinstallation corresponds inserts in the corresponding touch fixed module 3 after the reinstallation in the corresponding reinstallation fixed module 3.

In some disclosures, the fixed bottom plate 4 is provided with a column mounting hole 51, a first column 52 is movably mounted in the column mounting hole 51, and a position sensor is arranged between the first column 52 and the ground of the column mounting hole 51;

further, a fourth mounting groove 501 is formed in the first abutting plate 5, a first connecting plate 53 is movably mounted in the fourth mounting groove 501, the first connecting plate 53 is movably mounted on the end face of the first upright post 52 through ball connection, a plurality of first spring mounting holes 502 are formed in the side face of the fourth mounting groove 501, a fourth spring 54 is arranged in the first spring mounting hole 502, and one end of the fourth spring 54 abuts against the mounting hole formed in the side face of the first connecting plate 53;

four adjusting rods 56 are arranged below the first abutting plate 5, the adjusting rods 56 are connected with the first abutting plate 5 through ball connecting rods 55, two ends of each ball connecting rod 55 are respectively and movably connected with the first abutting plate 5 and the adjusting rods 56 through balls, a plurality of second spring mounting holes 521 are formed in the side face of the first upright post 52, a fifth spring 58 is arranged in each second spring mounting hole 521, a fourth sliding block 57 is arranged above each fifth spring 58, and the lower ends of the adjusting rods 56 are movably connected with the fourth sliding blocks 57; a position sensor is arranged on the fourth slider 57; through the design, the upper and lower heights of the first abutting plates 5 can be adjusted, and the angles of the first abutting plates 5 can be adjusted, so that the form of the material fixing plate 2 can be better adjusted, the contact surface of the material fixing plate 2 and the material is ensured to be consistent with the outline of the material, the firmness of material fixing is ensured, and the problem that the material is crushed or is not firm due to single material stress point is solved; meanwhile, a position sensor is arranged between the first upright post 52 and the ground of the upright post mounting hole 51, and a position sensor is arranged on the fourth sliding block 57, so that the positions of the first upright post 52 and the fourth sliding block 57 can be monitored, the positions of the first abutting plates 5 can be calculated according to the positions of the first upright post 52 and the fourth sliding block 57, the outer contour of the whole material is constructed according to the positions of the first abutting plates 5, the thickness and the shape of each position of the material can be judged by combining the positions of the upper abutting fixing module 3 and the lower abutting fixing module 3, carving can be better performed, the problem that the carving depth is deep due to unreasonable carving procedures, and the problem that the carving effect is poor due to unstable distance between the carving heads and the positions of the material is avoided; further, by directly providing the first upright 52 and the upright mounting hole 51 with a spring, a pressure sensor is provided under the spring, a pressure sensor is provided on the fourth slider 57, and the pressure sensor is operated by displacing the compression spring, so that the position of the first interference plate 5 can be determined by determining the positions of the fourth slider 57 and the upright mounting hole 51 by the value of the pressure sensor, and thus, the position of the first interference plate 5 can be more accurately determined relative to the position sensor.

In some disclosures, a mounting ring 6 is arranged on the first upright 52, an auxiliary cylinder 61 is arranged on the mounting ring 6, the auxiliary cylinder 61 is movably connected with a first mounting column 561 on the side surface of the adjusting rod 56 through a connecting rod 62, and the connecting end of the connecting rod 62 is movably mounted at the ends of the first mounting column 561 and the push rod of the auxiliary cylinder 61 respectively; through so design, can make first conflict board 5 return fast through the holding power of auxiliary cylinder 61 to connecting rod 62, guarantee that first conflict board 5 closely guarantees fixed effect with the material profile contact.

Working principle:

after the material is placed between the upper material fixing plate 2 and the lower material fixing plate 2, the two material fixing plates 2 are mutually close to each other to extrude the material, and the first upright post 52 moves towards the fixed bottom plate 4 due to the fact that the first extrusion abutting plate 5 of the material is pressed, so that the surface, which is formed by the first abutting plates 5, of the material fixing plates 2 and is in contact with the material is consistent with the outline of the material, the firmness of material fixing is guaranteed, and the problem that the material is crushed or is not firm due to single material bearing points is solved.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (6)

1. The laser printing device for machining comprises a material fixing plate (2), and is characterized in that the material fixing plate (2) is provided with an upper block and a lower block, and an engraving head mounting block (1) is arranged on the material fixing plate (2);

the material fixing plate (2) consists of a plurality of abutting fixing modules (3), the abutting fixing modules (3) comprise a fixing bottom plate (4), a first upright post (52) is movably arranged on the fixing bottom plate (4), a first abutting plate (5) is arranged on the first upright post (52), and the first abutting plates (5) on the upper material fixing plate (2) and the lower material fixing plate are oppositely arranged;

the fixing device is characterized in that a first mounting groove (41) is formed in the fixing base plate (4), four first through holes (42) are formed in the side face of the first mounting groove (41) in a circumferentially distributed mode, a first connecting rod (44) is movably mounted in the first through holes (42), the first connecting rod (44) penetrates through the first through holes (42) on the adjacent abutting fixing modules (3) of the abutting fixing modules (3), and a limiting rod (45) which can stretch out and draw back is mounted on the first connecting rod (44).

2. The laser printing device for machining according to claim 1, wherein a first rack (441) is arranged at one end of the first connecting rod (44), a first gear (43) is arranged in the first mounting groove (41), the first gear (43) is meshed with the first rack (441), a first sliding groove (442) is arranged on the side surface of the first connecting rod (44), a first sliding block (443) is movably arranged on the first sliding groove (442), a second sliding block (444) is arranged on the side surface of the first sliding block (443), a second inclined surface (440) is arranged on the second sliding block (444), a first spring (445) is arranged between the second sliding block (444) and the first sliding block (443), a first mounting block (446) is arranged below the second sliding block (444), a second sliding groove (447) is formed in the first mounting block (446), and the second sliding block (444) is movably arranged on the second sliding groove (447);

a second mounting block (450) is arranged on one side of the end face of the first rack (441), a third sliding block (449) is movably mounted on the second mounting block (450), and a second spring (448) is arranged between the third sliding block (449) and the end face of the first rack (441).

3. The laser printing device for machining according to claim 2, wherein the first gear (43) is provided with a second upright post (431), the second upright post (431) is provided with a third mounting hole (432), the third mounting hole (432) is provided with a first vertical groove (433), and a first horizontal groove (434) is arranged below the first vertical groove (433);

install on engraving head installation piece (1) and dismantle piece (9), dismantle third installation piece (91) of piece (9) and install on engraving head installation piece (1), be equipped with third spring (92) on third installation piece (91), the other end of third spring (92) is equipped with activity conflict piece (93), be equipped with a plurality of first on the activity conflict piece (93) and support feeler lever (94) and second and support feeler lever (95), be equipped with first inclined plane (98) on first supporting feeler lever (94), be equipped with rotatory power pole (96) on third installation piece (91), second through-hole (99) on power pole (96) pass activity conflict piece (93), the tip of power pole (96) is equipped with first horizontal pole (97).

4. The laser printing device for machining according to claim 1, wherein the fixed bottom plate (4) is provided with a column mounting hole (51), the first column (52) is movably mounted in the column mounting hole (51), and a position sensor is arranged between the first column (52) and the ground of the column mounting hole (51).

5. The laser printing device for machining according to claim 1, wherein a fourth mounting groove (501) is formed in the first abutting plate (5), a first connecting plate (53) is movably mounted in the fourth mounting groove (501), the first connecting plate (53) is movably mounted on the end face of the first upright post (52) through ball connection, a plurality of first spring mounting holes (502) are formed in the side face of the fourth mounting groove (501), a fourth spring (54) is arranged in the first spring mounting hole (502), and one end of the fourth spring (54) abuts against the mounting hole formed in the side face of the first connecting plate (53);

four adjusting rods (56) are arranged below the first abutting plate (5), the adjusting rods (56) are connected with the first abutting plate (5) through ball connecting rods (55), two ends of each ball connecting rod (55) are respectively movably connected with the first abutting plate (5) and the adjusting rods (56) through balls, a plurality of second spring mounting holes (521) are formed in the side face of each first upright post (52), a fifth spring (58) is arranged in each second spring mounting hole (521), a fourth sliding block (57) is arranged above each fifth spring (58), and the lower ends of the adjusting rods (56) are movably connected to the fourth sliding blocks (57); the fourth sliding block (57) is provided with a position sensor.

6. The laser printing device for machining according to claim 5, wherein the first upright post (52) is provided with a mounting ring (6), the mounting ring (6) is provided with an auxiliary cylinder (61), the auxiliary cylinder (61) is movably connected with a first mounting post (561) on the side face of the adjusting rod (56) through a connecting rod (62), and the connecting end of the connecting rod (62) is movably mounted at the end parts of the first mounting post (561) and the push rod of the auxiliary cylinder (61) respectively.

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