JP6535891B1 - Laser engraving equipment - Google Patents

Abstract

The invention discloses a laser engraving apparatus.
SOLUTION: A rotary case is installed inside the horizontal work bench including a horizontal work bench, support levers are symmetrically installed on left and right ends of an upper end face of the final assembly work bench, and an upper end of the support lever is Connected by the push lever of the hydraulic housing in the fixed block, the lifting and lowering device is fitted to the lever body of the push lever, and engaged with many rotating structures and rotating structures at the center of the upper end face of the work table The four identical rotating bolts used are uniformly distributed, and when the present invention works, the lower pressure washer and the circular support plate form a sandwiching structure, movement occurs when processing the workpiece, and processing fails The waste of the blank is prevented, the vertical movement of the lifting and cutting device is realized through the hydraulic pump, the working point can be determined more accurately, the processing accuracy is improved, the rotary gear A and the gear groove are engaged, and the coefficient of friction is Lower.
[Selected figure] Figure 1

Description

The present invention relates to the field of plating, and in particular to a laser engraving apparatus.

At present, the engraving device is a core technology of plating process by one craft revolution of plating process, the degree of flexo of laser engraving machine is high, the speed of engraving is fast, the production efficiency is high, the cycle is short, the quality is high , Won a wide market from our customers. In the process of laser engraving, it is necessary to consider the maximum size of the workpiece, the material, the thickness necessary for engraving and the width of the raw material, and the present laser engraving machine places the workpiece on the workbench and engraves the laser After the workpiece penetrates the workpiece, the surface of the worktable is damaged, twice affecting the processing accuracy, greatly reducing the service life of the worktable, increasing the processing cost, and moving in the situation where the workpiece is not attached It is easy to generate, affects the processing accuracy, and it is difficult to control the quality during the processing.

Chinese Patent Application Publication No. 102343705

The object of the present invention is to provide a laser engraving apparatus and solve the problems described in the background art above.

In order to achieve the above object, the present invention adopts the following technical solution. The laser engraving apparatus includes a final assembly work table, and a rotary case is installed inside the final assembly work table, and slide grooves are symmetrically installed at left and right ends of the upper end wall of the rotary case, and the slide grooves are rotated. A housing and a horizontal work table are connected, and the horizontal work table and the final assembly work table are slidably engaged and connected through slide grooves, and a drive space is installed on the front end wall of the rotary housing, A drive electric machine is fixedly connected to the front end wall of the drive space, a through hole is installed in the front end wall of the drive space, the through hole connects the drive space and the rotary housing, and the front end is a through hole in the drive electric machine A conical pulley A is connected so as to be able to transmit power and a conical pulley A fixedly connected to the front end of the rotational shaft A is installed, and a conical pulley engaged with and connected to the conical pulley A B is installed, in the center of the conical pulley B A rotary shaft A is fixedly connected to the housing, and the rotary shaft A is rotatably connected to both left and right end walls of the rotary housing, and is fixedly connected to the left end of the rotary shaft A A pulley is installed, a second transmission wheel driven through a belt is installed at the front end of the first pulley , a rotation shaft B fixed and connected to the center of the second transmission wheel is installed, and the rotation shaft A and the rotation are installed The rotary gear A is installed symmetrically on the left and right sides of the axis B, and two gear grooves are installed symmetrically on the lower end face of the horizontal work table at the left and right ends, and the rotary gear A rolls and connects with the gear groove Bearings are installed symmetrically on the left and right sides of the rotation axis A and the rotation axis B, and support levers are installed symmetrically on the left and right ends of the upper end face of the work table, and two fixedly attached to the upper end face of the support lever Fixed block to be connected to each The hydraulic hole A is installed in the upper end surface of the left hydraulic housing, the hydraulic hole B is installed in the upper end surface of the right hydraulic housing, the electromagnetic switch is installed in the hydraulic hole A and the hydraulic hole B, A conduit is installed in hydraulic hole A and hydraulic hole B to connect them, a hydraulic pump is installed at the center of the conduit, a push lever is installed on both left and right hydraulic housings, and a lifting engraving device at the center of the push lever Fixedly connected, the lifting and lowering engraving device includes a mounting block, a lifting and lowering space is installed on the mounting block, a lifting and lowering electric machine is installed on the upper end surface of the lifting and lowering space, and a rotating shaft B is on the lower end of the lifting and lowering electric machine A conical pulley C which is installed and fixed and connected to the lower end of the rotating shaft B is installed, and a conical pulley D which engages with and is connected with it is installed under the conical pulley C, the conical pulley D Fixedly connected to the center of the rotation C is installed, the rotation shaft C is rotatably connected to the left and right end walls of the elevating space, and a rotation gear B positioned on the left side of the conical pulley D is fixedly attached to the rotation shaft C, A rotary gear C engaged with and connected to the lower side of the rotary gear B is installed, a rotary shaft D fixedly connected to the center of the rotary gear C is installed, and the rotary shaft D is the left and right ends of the elevating space A cam rotatably connected to the wall is fixedly attached to the rotary shaft D, and a cam located on the right side of the rotary gear C is fixedly mounted, a lift lever is installed on the lower end face of the cam, and an upper end of the lift lever is mounted Limiting plates are installed symmetrically on the left and right, limiting grooves are installed at positions where walls of the elevating space correspond to limiting plates, and the limiting plates can be slid up and down positioned in the limiting grooves. A storage groove is provided on the upper end wall, and a spring is provided on the upper end wall of the storage groove Fixedly connected, the lower end of the spring passes through the storage groove and fixedly connected with the limiting plate, the lower end of the elevation lever passes through the elevation space and the laser transmitter is fixedly connected, the horizontal work bench On the upper end face of which are disposed many rotational structures distributed in a matrix, the rotational structure includes a rotational space installed on the horizontal work table, and a rotational gear D fixedly connected to the rotational bolt is installed in the rotational space A rotary gear E is installed on the right side of the rotary gear D, and a socket fixedly connected to the center of the rotary gear E is installed, and a screw hole is installed inside the socket A sliding screw is engaged with and connected to the screw hole, and a rectangular rotation prevention space is installed on a lower end surface of the sliding screw; The fixedly connected square anti-rotation block is slidably engaged, its action ensures that the screw moves up and down, prevents the screw from rotating and moving, the sliding screw works horizontally A circular support plate fixedly connected to the place where it connects with the stand is installed.

As a preferred technical solution, the resiliency of the spring is much greater than the sum of the weight of the lift lever and the laser transmitter.

As a preferred technical solution, a pressure pad is fitted to the upper end of the rotating bolt.

The beneficial effect of the present invention compared to the current technology is that, as the present invention works, the work piece is placed on a horizontal work bench, selecting the rotating structure where the support point is and rotating the rotating bolt. The rotary bolt rotates and rotates in conjunction with the rotary gear D and the rotary gear E, thereby moving downward in conjunction with the slide screw, the pressure pad and the circular support plate form a sandwiching structure, and the workpiece is firmly fixed. It fixes and moves when the processed product is processed, prevents waste of the semi-finished product caused by processing failure, can effectively guarantee the quality of the processing process, and when used, the drive electric machine works and the rotating shaft A rotates, and the conical pulley A and the conical pulley B engage and transmit, rotate in conjunction with the rotation axis A, and thereby rotate in conjunction with the two driven support gears of the rotation axis A, belt the first pulley and the communicating rotational axis A and the second transmission gear rotates through And rotate in the same direction, thereby rotating in conjunction with the rotation axis B, the rotation axis B rotates and rotates in conjunction with the two rotation gears A of the rotation axis B, and the four rotation gears A in the same direction It moves to interlock with the horizontal work bench and moves back and forth, and by the action of the hydraulic pump, the electromagnetic switch will be in the open state, realizing the change of the hydraulic pressure of the hydraulic housing, the lift lever engraving device of the push lever The lift electric machine operates in conjunction with the left and right movement, and the conical pulley C and the conical pulley D engage and transmit, rotate in conjunction with the rotating shaft C, and thereby rotate in conjunction with the rotating gear B The rotating gear B engages with the rotating gear C, and the rotating gear C rotates, rotates in conjunction with the rotating shaft D, rotates in conjunction with the cam on the rotating shaft D, and contacts the cam. Under the action of the rotation and the elastic action of the spring, raising and lowering of the raising and lowering lever is realized through the limiting plate, and the raising and lowering lever Fixedly laser transmitter to lift to connect with.

The beneficial effect of the present invention compared to the current technology is that, as the present invention works, the work piece is placed on a horizontal work bench, selecting the rotating structure where the support point is and rotating the rotating bolt. The rotary bolt rotates and rotates in conjunction with the rotary gear D and the rotary gear E, thereby moving downward in conjunction with the slide screw, the pressure pad and the circular support plate form a sandwiching structure, and the workpiece is firmly fixed. It fixes and moves when the processed product is processed, prevents waste of the semi-finished product caused by processing failure, can effectively guarantee the quality of the processing process, and when used, the drive electric machine works and the rotating shaft A rotates, and the conical pulley A and the conical pulley B engage and transmit, rotate in conjunction with the rotation axis A, and thereby rotate in conjunction with the two driven support gears of the rotation axis A, belt the first pulley and the communicating rotational axis A and the second transmission gear rotates through And rotate in the same direction, thereby rotating in conjunction with the rotation axis B, the rotation axis B rotates and rotates in conjunction with the two rotation gears A of the rotation axis B, and the four rotation gears A in the same direction It moves to interlock with the horizontal work bench and moves back and forth, and by the action of the hydraulic pump, the electromagnetic switch will be in the open state, realizing the change of the hydraulic pressure of the hydraulic housing, the lift lever engraving device of the push lever The lift electric machine operates in conjunction with the left and right movement, and the conical pulley C and the conical pulley D engage and transmit, rotate in conjunction with the rotating shaft C, and thereby rotate in conjunction with the rotating gear B The rotating gear B engages with the rotating gear C, and the rotating gear C rotates, rotates in conjunction with the rotating shaft D, rotates in conjunction with the cam on the rotating shaft D, and contacts the cam. Under the action of the rotation and the elastic action of the spring, raising and lowering of the raising and lowering lever is realized through the limiting plate, and the raising and lowering lever Fixedly laser transmitter to lift to connect with.

FIG. 1 is a schematic front view of the entire laser engraving apparatus of the present invention. FIG. 2 is a schematic view of the eyelid structure of the work table of the laser engraving apparatus of the present invention. FIG. 3 is a schematic front view of the elevation engraving apparatus of the laser engraving apparatus according to the present invention. FIG. 4 is a schematic front view of the entire rotating structure of the laser engraving apparatus of the present invention.

The following clearly and clearly describes the technical solution of the embodiments of the present invention with reference to the drawings in the embodiments of the present invention, and the described embodiments are only some of the embodiments of the present invention and all the embodiments. There is no such thing. Based on the embodiments of the present invention, all other embodiments that can be obtained based on the fact that those skilled in the art do not pay creative work belong to the protection scope of the present invention.

With reference to FIGS. 1 to 4, the laser engraving apparatus according to the embodiment of the present invention includes a final assembly work table 1, and a rotary case 2 is installed inside the final assembly work table 1. Sliding grooves 3 are symmetrically installed at the left and right ends of the upper end wall, the sliding grooves 3 are connected to the rotary housing 2 and the horizontal work table 4, and the horizontal work table 4 and the final assembly work table 1 slide along the sliding grooves 3. The drive space 5 is installed in the front end wall of the rotary housing 2, and the drive electric machine 6 is fixedly connected to the front end wall of the drive space 5. A through hole 7 is installed in the front end wall, and the through hole 7 connects the drive space 5 and the rotary housing 2 and a drive shaft 6 is connected so that a rotational axis A8 through which the front end passes through the through hole 7 can transmit power. And a conical pulley A9 fixedly connected to the front end of the rotation axis A8 is installed and engaged with and connected to the conical pulley A9 A conical pulley B10 is installed, a rotary shaft A11 fixed and connected to the center of the conical pulley B10 is installed, and the rotary shaft A11 is rotatably connected to both left and right end walls of a rotary housing, A first pulley 12 fixedly connected to the left end of the rotation shaft A11 is installed, a second transmission wheel 13 driven through a belt is installed at the front end of the first pulley 12, and a center of the second transmission wheel 13 is installed. The rotary gear A15 is installed symmetrically on the left and right sides of the rotary shaft A11 and the rotary shaft B14, and two left and right ends are symmetrically arranged on the lower end face of the horizontal work table 4. A gear groove 16 is installed, the rotary gear A15 is rolled and connected with the gear groove 16, and bearings 17 are installed symmetrically on the left and right sides of the rotary shaft A11 and the rotary shaft B14. Support levers 18 are symmetrically installed at both left and right ends, and the upper end surface of the support lever 18 The fixed block 19 fixedly connected to that of the hydraulic case 20 is installed, the hydraulic housing 20 is installed on the fixed block 19, the hydraulic hole A21 is installed on the upper end surface of the left hydraulic housing 20, and the right hydraulic housing 20 is installed. The hydraulic hole B22 is installed in the upper end face of the second embodiment, the electromagnetic switch 23 is installed in the hydraulic hole A21 and the hydraulic hole B22, the conduit 24 is installed in the hydraulic hole A21 and the hydraulic hole B22, and they are connected. A hydraulic pump 25 is installed at the center, push levers 26 are installed on the left and right hydraulic casings 20, a lift engraving device 27 is fixedly connected to the center of the push lever 26, and the lift engraving device 27 is a mounting block 28, an elevating space 29 is installed in the mounting block 28, an elevating electric machine 30 is installed on the upper end surface of the elevating space 29, a rotating shaft B31 is installed on the lower end of the elevating electric machine 30, A conical pulley C32 fixed and connected to the lower end is installed at the lower end A conical pulley D33 engaged with and connected to the lower part of the conical pulley C32 is installed, a rotary shaft C34 fixedly connected to the center of the conical pulley D33 is installed, and the rotary shaft C34 is an elevation space 29 A rotary gear B35 fixedly connected to the left and right end walls of the rotary shaft C34 and located on the left side of the conical pulley D33 at the rotary shaft C34, and engaged with and connected to the lower part of the rotary gear B35 And a rotary shaft D37 fixedly connected to the center of the rotary gear C36, and the rotary shaft D37 is rotatably connected to the left and right end walls of the elevating space 29, A cam 38 located on the right side of the rotary gear C 36 is fixedly attached to the rotary shaft D 37, and a lift lever 39 is installed on the lower end face of the cam 38. 40 is installed, and the wall of the elevating space 29 is a limiting plate 4 A restriction groove 41 is installed at a position corresponding to 0, the restriction plate 40 is positioned in the restriction groove 41 and can slide up and down, a storage groove 42 is installed on the upper end wall of the restriction groove 41, and the storage groove 42 The lower end of the spring 43 passes through the storage groove 42 and is fixedly connected to the limiting plate 40, and the lower end of the elevation lever 39 passes through the elevation space 29 to transmit the laser. Machine 44 is fixedly connected, a large number of rotating structures 45 distributed in a matrix are installed on the upper end surface of the horizontal working table 4, and the rotating structure 45 includes a rotating space 47 installed on the horizontal working table 4 A rotary gear D48 fixedly connected to the rotary bolt 46 is installed in the rotary space 47, and a rotary gear E49 engaged with and connected to the right side of the rotary gear D48 is installed in the center of the rotary gear E49. A socket 56 for fixed connection is installed, and the socket A screw hole 50 is installed in the inside of the gutter 56, the slide screw 51 is engaged with and connected to the screw hole 50, and a square rotation prevention space 52 is installed on the lower end surface of the slide screw 51. The rectangular rotation prevention block 53 fixedly connected to the lower end surface of the slide screw 51 is slidably engaged, the action of which ensures that the screw moves up and down, the screw rotates and moves In order to prevent this, a circular support plate 54 fixedly connected to the place where the slide screw 51 is connected to the horizontal work table 4 is installed.

Preferably, the resiliency of the spring 43 is much greater than the sum of the weights of the lift lever 39 and the laser transmitter 44, thereby raising the lift in conjunction with the lift lever 39 and the laser transmitter 44 under the action of the spring 43. Do.

Preferably, the pressure pad 55 is fitted to the upper end of the rotating bolt 46, and the action is that when the pressure pad 55 and the circular support plate 54 form a sandwiching structure to fix the workpiece firmly and the workpiece is processed It is possible to prevent the waste of blanks that move and cause processing failures, and effectively guarantee the quality of the processing process.

In the specific mode of use, when the present invention works, the work piece is placed on the horizontal work table 4 and the rotating structure 44 with the support point is selected, the rotating bolt 45 is rotated, and the rotating bolt 45 Rotates in conjunction with the rotating gear D46 and the rotating gear E47, thereby moving downward in conjunction with the slide screw 49, the pressure pad 53 and the circular support plate 52 form a sandwiching structure, and the processed product is firmly fixed It fixes and moves when the processed product is processed, prevents waste of the semi-processed product caused by processing failure, can effectively guarantee the quality of the processing process, and when used, the drive electric machine 6 works and rotates The shaft A8 rotates, and the conical pulley A9 and the conical pulley B10 engage and transmit, rotate in conjunction with the rotation shaft A11, and thereby rotate in conjunction with the two driven support gears 15 of the rotation shaft A11. , The rotation shaft A11 is rotated through the belt, and the second transmission wheel 13 and the first It rotates in the same direction interlocking with the re 12 and thereby rotates interlocking with the rotating shaft B14, rotating the rotating shaft B14 and rotating interlocking with the two rotating gears A15 of the rotating shaft B14, four rotating gears A rotates in the same direction, moves back and forth interlocking with the horizontal work table 4, and the electromagnetic switch 23 is opened by the action of the hydraulic pump 25, and changes in the hydraulic pressure of the hydraulic housing 20 are realized The lift electric machine 30 operates in conjunction with the lateral movement of the lift engraving device 27 of the push lever 26, and the conical pulley C32 and the conical pulley D33 engage and transmit, and rotates in conjunction with the rotation shaft C34. Thus, the rotary gear B35 rotates in conjunction with the rotary gear B35, and the rotary gear B35 and the rotary gear C36 engage, and the rotary gear C36 rotates and rotates in conjunction with the rotary shaft D37, interlocking with the cam 38 of the rotary shaft D37. Under the rotation of the cam 38 and the elastic action of the spring 43, the lift lever 39 which rotates and contacts the cam 38 Through this, the elevation of the elevation lever 39 is realized, and the laser transmitter 44 fixedly connected to the elevation lever 39 is elevated.

For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but may be embodied in other specific forms without departing from the spirit or essential characteristics of the present invention. The scope of the present invention is therefore defined in the appended claims and all equivalents which fall within the meaning and scope of the claims, assuming that this example is by way of example not limiting in any way. Changes are included in the present invention. Any reference signs in the claims shall not be construed as limiting the scope of the claims.

Claims (1)

A laser engraving apparatus, including a final assembly work table, wherein a rotary case is installed inside the final assembly work table, slide grooves are symmetrically installed at left and right ends of an upper end wall of the rotary case, the slide A groove connects the rotary housing and the horizontal work table, the horizontal work table and the final assembly work table are slidably engaged and connected through the slide groove, and the drive space is in the front end wall of the rotary housing A drive electric machine is fixedly connected to the front end wall of the drive space, a through hole is installed in the front end wall of the drive space, the through hole connects the drive space and the rotary housing, and the front end is connected to the drive electric machine A rotational shaft A through which a through-hole passes is connected so that power can be transmitted, a conical pulley A fixedly connected to the front end of the rotational shaft A is installed, and the conical pulley A is engaged with it and connected Conical pulley B is installed, said conical pulley A rotary shaft A fixed and connected to the center of B is installed, the rotary shaft A is rotatably connected to both left and right end walls of the rotary housing, and fixedly connected to the left end of the rotary shaft A The first pulley is installed, the second transmission wheel driven through the belt is installed at the front end of the first pulley , the rotation shaft B fixed and connected to the center of the second transmission wheel is installed, the rotation shaft The rotary gear A is installed symmetrically on the left and right on A and the rotary shaft B, and two gear grooves are installed on the lower end face of the horizontal work table symmetrically on the left and right ends, and the rotary gear A rolls with the gear groove The bearings are installed symmetrically on the left and right sides of the rotation axis A and the rotation axis B, and the support levers are installed symmetrically on the left and right ends of the upper end surface of the work bench. A fixed block fixedly connected thereto is installed, and hydraulic pressure is applied to the fixed block. The body is installed, the hydraulic hole A is installed in the upper end surface of the left hydraulic housing, the hydraulic hole B is installed in the upper end surface of the right hydraulic housing, and the electromagnetic switch is installed in the hydraulic hole A and the hydraulic hole B A conduit is installed in the hydraulic hole A and the hydraulic hole B to connect them, a hydraulic pump is installed at the center of the conduit, a push lever is installed on both left and right hydraulic housings, and the center of the push lever A lift engraving apparatus is fixedly connected, the lift engraving apparatus includes a mounting block, a lift space is installed on the mount block, a lift electric machine is installed on an upper end surface of the lift space, and a rotation lower end of the lift electric machine An axis B is installed, and a conical pulley C fixed and connected to the lower end of the rotational axis B is installed, and a conical pulley D engaged with and connected with the cone is installed under the conical pulley C, the cone It is fixedly connected to the center of the pulley D The rotary shaft C is installed, and the rotary shaft C is rotatably connected to the left and right end walls of the elevating space, and the rotary gear B located on the left side of the conical pulley D is fixedly fixed to the rotary shaft C. A rotary gear C mounted and engaged with and connected to the lower portion of the rotary gear B is installed, a rotary shaft D fixedly connected to the center of the rotary gear C is installed, and the rotary shaft D is an elevating space A cam located on the right side of the rotary gear C is fixedly attached to the rotary shaft D, a lift lever is installed on the lower end face of the cam, and the lift lever Limiting plates are installed symmetrically on the left and right at the upper end, the limiting groove is installed at the position where the wall of the elevating space corresponds to the limiting plate, the limiting plate can be slid up and down positioned in the limiting groove, A storage groove is installed on the upper end wall of the restriction groove, and the upper end wall of the storage groove is Pulls are fixedly connected, the lower end of the spring passes through the storage groove and fixedly connected to the limiting plate, the lower end of the elevation lever passes through the elevation space, the laser transmitter is fixedly connected, the horizontal A rotary gear D is installed on the upper end surface of the work bench, and includes a rotary space installed in the horizontal work bench, wherein the rotary structure includes a rotary space installed on the horizontal work bench, and fixedly connected to the rotary space with the rotary bolt D A rotary gear E is installed on the right side of the rotary gear D, and a socket fixedly connected to the center of the rotary gear E is installed at the center of the rotary gear E, and a screw hole is formed inside the socket A sliding screw is engaged with and connected to the screw hole, and a rectangular rotation prevention space is installed on a lower end surface of the sliding screw; A square anti-rotation block fixedly connected to the lower end surface is slidably engaged, its action ensuring that the screw moves up and down, preventing the screw from rotating and moving, said sliding screw A circular support plate fixedly connected to the point where it connects with the horizontal work table, the elasticity of the spring is larger than the sum of the weight of the lift lever and the laser transmitter, and the pressure pad is attached to the upper end of the rotating bolt Laser engraving device characterized in that