CN215034525U - Full-automatic radium carving processingequipment of high accuracy - Google Patents

Abstract

The utility model discloses a full-automatic radium carving processingequipment of high accuracy, the utility model discloses, including the electronic box, the mainframe box is installed to the one end of electronic box one side, the table is installed at the top of electronic box and mainframe box, there is the drawer at the intermediate position that the table is close to mainframe box one side through slide rail slidable mounting, the one end that mainframe box one side was kept away from at the table top is installed the display, one side that the table top is close to the mainframe box is close to the one end of display and is installed control button, one side that the mainframe box was kept away from at the table top is installed workstation and U type baffle, U type baffle top is close to display one end and is installed the mounting panel. The utility model discloses, will shake the mirror through the cooperation between U type baffle, first rodless electric jar and the backup pad and install in the top of workstation, will shake whole weight of mirror and put in the backup pad, can avoid shaking the mirror and can cause the change in size to take place for the characters and the pattern that carve out because of the slope problem.

Description

Full-automatic radium carving processingequipment of high accuracy

Technical Field

The utility model relates to a radium carving machine technical field specifically is a full-automatic radium carving processingequipment of high accuracy.

Background

The laser engraving machine engraves permanent marks on the surface of a substance or inside a transparent substance by using a laser beam. The laser beam can generate a biochemical effect and a special effect on the substance, and the substance can generate a physical or chemical reaction after instantly absorbing the laser beam, so as to cut the mark or display patterns or characters.

The traditional laser engraving machine needs a worker to position through a lifting handle and a fixed handle before carrying out laser engraving, because the size of the figures or characters to be engraved is different, workers are required to adjust the distance between the galvanometer and the workbench through the lifting handle to achieve the effect of adjusting the engraving area, so that laser engraving can be performed on smaller objects, because the carving area is limited, if the carved object is too large, workers are required to manually adjust the position of the object on the workbench, because of the influence of human factors, the carved patterns or characters have flaws, the connection between the traditional lifting structure and the vibrating mirror is not firm, the whole weight of the vibrating mirror is on the connection point of the vibrating mirror and the lifting device, if the bolt on the connection point is loose, the vibrating mirror can be inclined, and the sizes of the characters and the patterns carved by laser can be changed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic radium carving processingequipment of high accuracy to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a high-precision full-automatic laser engraving processing device comprises an electric box, wherein a mainframe box is installed at one end of one side of the electric box, a table is installed at the tops of the electric box and the mainframe box, a drawer is installed at the middle position, close to one side of the mainframe box, of the table in a sliding mode through a sliding rail, a display is installed at the end, far away from one side of the mainframe box, of the top of the table, a control button is installed at the end, close to the display, of one side, close to the top of the mainframe box, of the top of the table, a workbench and a U-shaped baffle are installed at the side, far away from the mainframe box, of the top of the table, a mounting plate is installed at the end, close to the display, of the top of the U-shaped baffle, a second infrared receiving plate is installed at the middle position, close to one end of the display, of the mounting plate, a first infrared receiving plate is installed at the side, far away from the mainframe box, of the U-shaped baffle is provided with a sliding plate, u type baffle is kept away from the top of display one side and is installed first no pole electricity jar, the backup pad is installed to the output of first no pole electricity jar, the no pole electricity jar of second is installed at the top of backup pad, the mirror that shakes is installed to the output of the no pole electricity jar of second, the bottom of mirror that shakes is close to one side of mainframe box and installs the field lens, the mirror that shakes is kept away from mainframe box one side and is installed first infrared emitter, the backup pad is close to one side of display and installs second infrared emitter.

Preferably, the table is close to mainframe box one side and has been seted up and has been put the thing groove, put the size looks adaptation of thing groove size and drawer on the table, put the inside both ends of thing groove on the table and all be provided with the slide rail, sliding connection between slide rail and the drawer of thing inslot is put through to the table.

Preferably, the size of the supporting plate is matched with the size of the U-shaped baffle plate, four vertex angles of one end of the display is kept away from by the output end of the first rodless electric cylinder are provided with threaded holes, one end of the display is kept away from by the supporting plate and the through holes are provided, and the size of the through holes is matched with the size of the threaded holes of the output end of the first rodless electric cylinder in the supporting plate.

Preferably, the spout has been seted up at the top of slide, the size of backup pad and slide size looks adaptation on the slide, pass through spout sliding connection between backup pad and the slide.

Preferably, the mounting panel has been seted up the fixed slot near the intermediate position of display one end, fixed slot size and the size looks adaptation of second infrared receiver board on the mounting panel, second infrared emitter's transmitting terminal runs through the backup pad and extends to inside.

Preferably, the inside top of keeping away from mainframe box one side of U type baffle has seted up the rectangular channel, the rectangular channel size on the U type baffle and the size looks adaptation of first infrared receiving board, the mounting height of first infrared receiving board on the U type baffle corresponds with the mounting height of first infrared emitter on the mirror that shakes.

Compared with the prior art, the beneficial effects of the utility model are that:

1. this full-automatic radium carving processingequipment of high accuracy will shake the mirror and install the top at the workstation through the cooperation between U type baffle, first no pole electric jar and the backup pad, will shake the whole weight of mirror and put in the backup pad, can avoid shaking the mirror and can cause the characters and the pattern that carve out because of the slope to take place the problem of the change in size.

2. This full-automatic radium carving processingequipment of high accuracy, the staff only need the pattern and the characters input host computer of carving, and inside will needing glyptic article size input host computer, whole process need not the manual work, operate by the computer entirely, through first infrared emitter, first infrared receiving plate, the cooperation between second infrared emitter and the infrared receiving plate of second, reach the effect of location, the precision of the article of carving out has been improved, the problem of flaw appears in pattern or characters of having avoided causing the sculpture to come out because of the influence of human factor.

Drawings

FIG. 1 is a front view of the present invention;

fig. 2 is a side view of the present invention;

fig. 3 is a top view of the present invention;

FIG. 4 is an enlarged view of the structure A of FIG. 1 according to the present invention;

fig. 5 is an enlarged view of a structure B in fig. 2 according to the present invention.

In the figure: 1. an electric box; 2. a main chassis; 3. a table plate; 4. a drawer; 5. a U-shaped baffle plate; 6. a control button; 7. a display; 8. a first rodless electric cylinder; 9. a support plate; 10. a second rodless electric cylinder; 11. a first infrared receiving panel; 12. a galvanometer; 13. a field lens; 14. a first infrared emitter; 15. a work table; 16. a slide plate; 17. mounting a plate; 18. a second infrared emitter; 19. and a second infrared receiving panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides an embodiment: a high-precision full-automatic laser engraving processing device comprises an electric box 1, a main case 2 is installed at one end of one side of the electric box 1, a table plate 3 is installed at the tops of the electric box 1 and the main case 2, a drawer 4 is installed at the middle position, close to one side of the main case 2, of the table plate 3 in a sliding mode through a sliding rail, a display 7 is installed at one end, far away from one side of the main case 2, of the top of the table plate 3, a control button 6 is installed at one end, close to the display 7, of one side, close to one end of the main case 2, of the top of the table plate 3, a workbench 15 and a U-shaped baffle plate 5 are installed at one side, far away from the main case 2, of the top of the U-shaped baffle plate 5, an installation plate 17 is installed at one end, close to the display 7, of the installation plate 17, a second infrared receiving plate 19 is installed at the middle position, far away from one end of the main case 2, at the top of the U-shaped baffle plate 5, a sliding plate 16 is installed at the middle position, close to one end of the display 7, first no pole electricity jar 8 is installed at the top of U type baffle 5 one side far away from display 7, backup pad 9 is installed to the output of first no pole electricity jar 8, second no pole electricity jar 10 is installed at the top of backup pad 9, mirror 12 shakes is installed to the output of second no pole electricity jar 10, mirror 13 is installed to one side that mirror 12 shakes is close to mainframe box 2 in the bottom of shaking, mirror 12 shakes and keeps away from mainframe box 2 one side and installs first infrared emitter 14, second infrared emitter 18 is installed to one side that backup pad 9 is close to display 7.

In this implementation, the table 3 is close to 2 one sides of mainframe box and has been seted up and has been put the thing groove, puts the size of thing groove and drawer 4's size looks adaptation on the table 3, and the both ends of putting the thing inslot portion on the table 3 all are provided with the slide rail, and sliding connection between slide rail and the drawer 4 through putting the thing inslot of table 3, through putting thing groove and slide rail with drawer 4 stable firm the installing inside table 3.

In this implementation, the size of backup pad 9 and the size looks adaptation of U type baffle 5, four apex angle departments that 7 one end of display were kept away from to the output of first no pole electric jar 8 offer screw holes, backup pad 9 keeps away from 7 one ends of display and offers the through-hole, through-hole size and the screw hole size looks adaptation of 8 outputs of first no pole electric jar on the backup pad 9, through the bolt with backup pad 9 stable firm install on the output of first no pole electric jar 8, provide a strong point for backup pad 9.

In this embodiment, the top of the sliding plate 16 is provided with a sliding groove, the size of the supporting plate 9 is matched with that of the sliding groove on the sliding plate 16, the supporting plate 9 is connected with the sliding plate 16 in a sliding manner through the sliding groove, the supporting plate 9 is installed on the sliding plate 16 through the sliding groove on the sliding plate 16 to provide a supporting point for the supporting plate 9, and the supporting plate 9 is stably and firmly installed on the U-shaped baffle 5 through the matching between the two supporting points.

In this implementation, the fixed slot has been seted up to the intermediate position that mounting panel 17 is close to display 7 one end, and the fixed slot size and the size looks adaptation of second infrared receiving board 19 on the mounting panel 17, through the fixed slot on the mounting panel 17 with the stable firm installation on mounting panel 17 of second infrared receiving board 19, the transmitting end of second infrared emitter 18 runs through backup pad 9 and extends to inside, makes things convenient for second infrared receiving board 19 can receive the light signal of second infrared emitter 19.

In this implementation, the inside top of keeping away from mainframe box 2 one side of U type baffle 5 has seted up the rectangular channel, the rectangular channel size on the U type baffle 5 and the size looks adaptation of first infrared receiving board 11, through the rectangular channel with the stable firm installation on U type baffle 5 of first infrared receiving board 11, the mounting height of first infrared receiving board 11 on the U type baffle 5 corresponds with the mounting height of first infrared emitter 14 on the mirror 12 that shakes, be favorable to first infrared receiving board 11 to receive the light signal that first infrared emitter 14 launches on the mirror 12 that shakes.

The working principle is as follows: the worker places the object to be carved on the workbench 15, inputs the coordinates of the four vertex angles of the object to be carved into the host, inputs the carved characters and patterns into the host, starts the first rodless electric cylinder 8 through a computer, drives the support plate 9 to longitudinally move on the sliding plate 16 by the output end of the first rodless electric cylinder 8, achieves the purpose of tracking the longitudinal coordinates of the vibrating mirror 12 through the matching between the second infrared emitter 18 on the support plate 9 and the second infrared receiving plate 19 on the mounting plate 17, drives the vibrating mirror 12 to transversely move by the second rodless electric cylinder 10, achieves the purpose of tracking the transverse coordinates of the vibrating mirror 12 through the matching between the first infrared emitter 14 mounted on the vibrating mirror 12 and the first infrared receiving plate 11 on the U-shaped baffle 5, and sends the transverse coordinates and the longitudinal coordinates into the host as digital signals by the first infrared receiving plate 11 and the second infrared receiving plate 19, thereby achieving the positioning effect.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or scope of the present invention. Accordingly, the embodiments of the present invention are exemplary, and not limiting. The scope of the invention is indicated by the appended claims rather than by the foregoing description, and all changes that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; 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.

Claims (6)

1. The utility model provides a full-automatic radium carving processingequipment of high accuracy, includes electronic box (1), its characterized in that: mainframe box (2) are installed to the one end of electronic box (1) one side, table (3) are installed at the top of electronic box (1) and mainframe box (2), intermediate position that table (3) are close to mainframe box (2) one side has drawer (4) through slide rail slidable mounting, display (7) are installed to the one end of mainframe box (2) one side is kept away from at table (3) top, control button (6) are installed to the one end that one side that table (3) top is close to mainframe box (2) is close to display (7), workstation (15) and U type baffle (5) are installed to one side that mainframe box (2) are kept away from at table (3) top, mounting panel (17) are installed near display (7) one end at U type baffle (5) top, mounting panel (17) are close to the intermediate position of display (7) one end and install second infrared receiving board (19), a first infrared receiving plate (11) is arranged on one side of the top of the U-shaped baffle (5) far away from the mainframe box (2), a sliding plate (16) is arranged in the middle of one end of the U-shaped baffle (5) close to the display (7), the top of one side of the U-shaped baffle (5) far away from the display (7) is provided with a first rodless electric cylinder (8), the output end of the first rodless electric cylinder (8) is provided with a supporting plate (9), a second rodless electric cylinder (10) is arranged at the top of the supporting plate (9), a galvanometer (12) is arranged at the output end of the second rodless electric cylinder (10), a field lens (13) is arranged at one side of the bottom of the galvanometer (12) close to the mainframe box (2), a first infrared emitter (14) is arranged on one side of the galvanometer (12) far away from the mainframe box (2), and a second infrared emitter (18) is arranged on one side of the support plate (9) close to the display (7).

2. The high-precision full-automatic laser etching processing device according to claim 1, characterized in that: the utility model discloses a drawer type desk, including table (3), host computer case (2), table (3) are close to and have seted up on one side of host computer case (2) and put the thing groove, put the size looks adaptation of thing groove size and drawer (4) on table (3), the both ends of putting thing inslot portion on table (3) all are provided with the slide rail, sliding connection between slide rail and the drawer (4) through putting the thing inslot in table (3).

3. The high-precision full-automatic laser etching processing device according to claim 1, characterized in that: the size of backup pad (9) and the size looks adaptation of U type baffle (5), four apex angle departments of keeping away from display (7) one end of the output of first no pole electric jar (8) set up threaded hole, display (7) one end is kept away from in backup pad (9) and the through-hole has been seted up, through-hole size and the threaded hole size looks adaptation of first no pole electric jar (8) output on backup pad (9).

4. The high-precision full-automatic laser etching processing device according to claim 1, characterized in that: the top of the sliding plate (16) is provided with a sliding groove, the size of the supporting plate (9) is matched with that of the sliding groove on the sliding plate (16), and the supporting plate (9) is in sliding connection with the sliding plate (16) through the sliding groove.

5. The high-precision full-automatic laser etching processing device according to claim 1, characterized in that: the fixed slot has been seted up to mounting panel (17) intermediate position near display (7) one end, the fixed slot size and the size looks adaptation of second infrared receiving board (19) on mounting panel (17), the transmitting terminal of second infrared emitter (18) runs through backup pad (9) and extends to inside.

6. The high-precision full-automatic laser etching processing device according to claim 1, characterized in that: u type baffle (5) inside keep away from the top of mainframe box (2) one side and seted up the rectangular channel, the rectangular channel size on U type baffle (5) and the size looks adaptation of first infrared receiving board (11), the mounting height of first infrared receiving board (11) on U type baffle (5) corresponds with the mounting height of first infrared emitter (14) on mirror (12) that shakes.

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