JP2019181557A - Laser engraving device - Google Patents

Abstract

To provide a laser engraving device.SOLUTION: A laser engraving device including a horizontal work table, ion which a rotary housing is located in the horizontal work table, and support levers are symmetrically located at both of left and right ends of an upper end surface of a final assembly work table. Upper ends of the support levers are connected to each other by a push lever of a hydraulic housing in a stationery block, an elevational cutting unit is fitted to a lever body of the push lever, and many rotary structures and four same rotary bolts, which are so used as to be engaged with the rotary structures, are uniformly distributed. When this device performs a work, a lower pressure washer and a circular support plate form a holding structure. When processing a finished article, movement occurs, waste of semi-processed articles due to failure of processing is prevented, lateral movement of the elevational cutting unit is realized through a hydraulic pump, a work point can be more precisely determined, a process tolerance is improved, and a rotary gear is engaged with a gear groove, thereby reducing friction coefficient.SELECTED DRAWING: Figure 1

Description

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

At present, the engraving machine is the core technology of sheet metal processing due to one craft revolution, and the degree of flexure of laser engraving machine is high, the speed of engraving is high, the production efficiency is high, the cycle is short, the quality is high , Won a wide market from customers. In the process of laser engraving, it is necessary to consider the maximum size of the workpiece, the material, the thickness required for engraving and the width of the raw material. The current laser engraving machine places the workpiece on the workbench and engraves the laser. Damages the surface of the workbench after penetrating the work piece, affecting the accuracy of the two-time machining, greatly reducing the service life of the workbench, increasing the processing cost, and moving in situations where the work piece is not attached It tends to occur and affects the accuracy of machining, making it difficult to control quality during the machining process.

Chinese Patent Application No. 102343705 Specification

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

In order to achieve the above object, the present invention adopts the following technical scheme. The laser engraving apparatus includes a final assembly work table, a rotating housing is installed inside the final assembly work table, and sliding grooves are installed symmetrically on both right and left ends of the upper end wall of the rotating housing, and the sliding groove rotates. The housing and the horizontal work table are coupled, and the horizontal work table and the final assembly work table are slidably engaged and connected through a sliding groove, and a driving space is installed on the front end wall of the rotating 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 rotating housing, and the front end of the drive electric machine has a through hole. A conical pulley A is connected so that power can be transmitted to a rotating shaft A that passes therethrough, and a conical pulley A that is fixedly connected to a front end of the rotating shaft A is installed, and is engaged with and connected to the conical pulley A. B is installed at the center of the conical pulley B A rotating shaft A that is fixedly connected to the rotating shaft A is installed, the rotating shaft A is connected so as to be rotatable with the left and right side walls of the rotating housing, and is fixedly connected to the leftmost end of the rotating shaft A. A pulley is installed, a second transmission wheel that is driven through a belt is installed at the front end of the first transmission wheel, a rotation shaft B that is fixed and connected to the center of the second transmission wheel is installed, and the rotation shaft A Rotating gear A is installed symmetrically on the rotation axis B on the left and right, and two gear grooves are installed on the lower end surface of the horizontal work bench symmetrically on both the left and right sides, and the rotating gear A rolls and connects with the gear groove. The rotary shaft A and the rotary shaft B are symmetrically installed with left and right bearings, the support levers are symmetrically installed at the left and right ends of the upper end surface of the work table, and are fixed to the upper end surface of the support lever with two of them. Fixed block is installed, and a hydraulic enclosure is installed on the fixed block A hydraulic hole A is installed in the upper end surface of the left hydraulic housing, a hydraulic hole B is installed in the upper end surface of the right hydraulic housing, and an 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, and they are connected. A hydraulic pump is installed in the center of the conduit. Push levers are installed in the hydraulic housings on both the left and right sides. Are fixedly connected, the lifting engraving apparatus includes a mounting block, a lifting space is installed in the mounting block, a lifting machine is installed on the upper end surface of the lifting space, and a rotary shaft B is installed on the lower end of the lifting machine. A conical pulley C is installed and fixed to and connected to the lower end of the rotating shaft B, and a conical pulley D that engages and connects to the conical pulley C is installed under the conical pulley C, and the conical pulley D Rotate to connect it fixedly to the center of C is installed, the rotary shaft C is connected to the left and right end walls of the lifting space so as to be rotatable, and the rotary gear B located on the left side of the conical pulley D is fixedly attached to the rotary shaft C, A rotating gear C that engages and connects with the rotating gear B is installed under the rotating gear B, and a rotating shaft D that is fixedly connected to the rotating gear C is installed at the center of the rotating gear C. A cam that is rotatably connected to the wall, is fixedly attached to the rotation axis D and is located on the right side of the rotation gear C, and a lift lever is installed on the lower end surface of the cam. A restriction plate is installed symmetrically on the left and right, a restriction groove is installed at a position where the wall of the lifting space corresponds to the restriction plate, the restriction plate is located in the restriction groove and can slide up and down, A storage groove is installed in the upper end wall, and a spring is installed in the upper end wall of the storage groove. The lower end of the spring is fixedly connected to the restricting plate through the storage groove, the lower end of the elevating lever is passed through the elevating space, and the laser transmitter is fixedly connected. A large number of rotating structures distributed in a matrix are installed on the upper end surface of the rotating shaft, and the rotating structure includes a rotating space where the rotating structure is installed on the horizontal workbench, and a rotating gear D fixedly connected to a rotating bolt is installed in the rotating space A rotating gear E that engages and connects with the rotating gear D is installed on the right side of the rotating gear D, a socket that is fixedly connected to the rotating gear E is installed at the center thereof, and a screw hole is installed inside the socket. A sliding screw is engaged with and connected to the screw hole, a rectangular anti-rotation space is installed at the lower end surface of the sliding screw, and the lower end surface of the sliding screw is fixed to the rectangular anti-rotation space. Regularly connected rectangular 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 that is fixedly connected to the place where the table is connected is installed.

As a preferred technical solution, the elasticity of the spring is much larger than the sum of the weights of the lifting lever and the laser transmitter.

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

Compared with current technology, the beneficial effect of the present invention is that when the present invention is operated, the workpiece is placed on a horizontal work table, the rotating structure where the support point is located is selected, and the rotating bolt is rotated. The rotating bolt rotates and rotates in conjunction with the rotating gear D and the rotating gear E, thereby moving downward in conjunction with the sliding screw, and the pressure pad and the circular support plate form a clamping structure to firmly secure the processed product. It can be fixed and moved when the workpiece is machined, the waste of the semi-finished product caused by machining failure can be prevented, the quality of the machining process can be effectively guaranteed, and when used, the drive electric machine works and the rotating shaft A rotates, conical pulley A and conical pulley B engage and transmit, rotate in conjunction with rotating shaft A, thereby rotating in conjunction with the two driven support gears of rotating shaft A, and belt The rotating shaft A rotates through the second transmission wheel and the first transmission wheel. Rotate in the same direction, thereby rotating in conjunction with the rotating shaft B, rotating the rotating shaft B and rotating in conjunction with the two rotating gears A of the rotating shaft B, and the four rotating gears A in the same direction Rotate to move back and forth in conjunction with the horizontal workbench, and the action of the hydraulic pump opens the electromagnetic switch, realizing a change in the hydraulic pressure of the hydraulic enclosure, and lifting lever engraving device In conjunction with the left / right movement of the motor, the lifting / lowering electric machine operates, 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. Rotating gear B and rotating gear C mesh with each other, rotating gear C rotates, rotates in conjunction with rotating shaft D, rotates in conjunction with the cam on rotating shaft D, and the lifting lever that contacts the cam moves the cam. Under the elastic action of rotation and spring, the lifting lever can be lifted and lowered through the limiting plate. Fixedly laser transmitter to lift to connect with.

Compared with current technology, the beneficial effect of the present invention is that when the present invention is operated, the workpiece is placed on a horizontal work table, the rotating structure where the support point is located is selected, and the rotating bolt is rotated. The rotating bolt rotates and rotates in conjunction with the rotating gear D and the rotating gear E, thereby moving downward in conjunction with the sliding screw, and the pressure pad and the circular support plate form a clamping structure to firmly secure the processed product. It can be fixed and moved when the workpiece is machined, the waste of the semi-finished product caused by machining failure can be prevented, the quality of the machining process can be effectively guaranteed, and when used, the drive electric machine works and the rotating shaft A rotates, conical pulley A and conical pulley B engage and transmit, rotate in conjunction with rotating shaft A, thereby rotating in conjunction with the two driven support gears of rotating shaft A, and belt The rotating shaft A rotates through the second transmission wheel and the first transmission wheel. Rotate in the same direction, thereby rotating in conjunction with the rotating shaft B, rotating the rotating shaft B and rotating in conjunction with the two rotating gears A of the rotating shaft B, and the four rotating gears A in the same direction Rotate to move back and forth in conjunction with the horizontal workbench, and the action of the hydraulic pump opens the electromagnetic switch, realizing a change in the hydraulic pressure of the hydraulic enclosure, and lifting lever engraving device In conjunction with the left / right movement of the motor, the lifting / lowering electric machine operates, 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. Rotating gear B and rotating gear C mesh with each other, rotating gear C rotates, rotates in conjunction with rotating shaft D, rotates in conjunction with the cam on rotating shaft D, and the lifting lever that contacts the cam moves the cam. Under the elastic action of rotation and spring, the lifting lever can be lifted and lowered through the limiting plate. Fixedly laser transmitter to lift to connect with.

FIG. 1 is a schematic diagram of the entire front structure of the laser engraving apparatus of the present invention. FIG. 2 is a schematic view of the overhead view of the work table of the laser engraving apparatus of the present invention. FIG. 3 is a schematic diagram of the front structure of the entire lift engraving apparatus of the laser engraving apparatus of the present invention. FIG. 4 is a schematic front view of the entire rotating structure of the laser engraving apparatus of the present invention.

In the following, with reference to the drawings in the embodiments of the present invention, the technical solutions of the embodiments of the present invention will be clearly and clearly described, and the described embodiments are only some embodiments of the present invention, and in all the embodiments, That is not. Based on the embodiments of the present invention, all other embodiments obtained on the assumption that those skilled in the art do not pay creative labor belong to the protection scope of the present invention.

1-4, the laser engraving apparatus according to the embodiment of the present invention includes a final assembly workbench 1, a rotary housing 2 is installed inside the final assembly worktable 1, Sliding grooves 3 are installed symmetrically on the left and right ends of the upper end wall, the sliding grooves 3 are connected to the rotary casing 2 and the horizontal work table 4, and the horizontal work table 4 and the final assembly work table 1 slide through the slide grooves 3. The drive space 5 is installed on the front end wall of the rotating housing 2, the drive electric machine 6 is fixedly connected to the front end wall of the drive space 5, and the drive space 5 A through hole 7 is installed in the front end wall, the through hole 7 connects the drive space 5 and the rotary housing 2, and the rotary shaft A8 whose front end passes through the through hole 7 is connected to the drive electrical machine 6 so that power can be transmitted. A conical pulley A9 fixedly connected to the front end of the rotary shaft A8 is installed, and is engaged with and connected to the conical pulley A9. A conical pulley B10 is installed, a rotation shaft A11 fixed and connected to the center of the conical pulley B10 is installed, and the rotation shaft A11 is rotatably connected to the left and right end walls of the rotating housing, A first pulley 12 that is fixedly connected to the leftmost end of the rotation shaft A11 is installed, a second transmission wheel 13 that is driven through a belt is installed at the front end of the first transmission wheel 12, and the second transmission wheel 13 A rotating shaft B14 fixed and connected thereto is installed at the center, a rotating gear A15 is installed symmetrically to the left and right of the rotating shaft A11 and the rotating shaft B14, and both left and right ends are symmetrically arranged on the lower end surface of the horizontal work table 4. Two gear grooves 16 are installed, the rotating gear A15 rolls and connects with the gear grooves 16, bearings 17 are installed symmetrically on the rotating shaft A11 and the rotating shaft B14, and the upper end surface of the work table 1 Support levers 18 are symmetrically installed at both left and right ends of the A fixed block 19 that is fixedly connected to it is installed, a hydraulic casing 20 is installed in the fixed block 19, a hydraulic hole A21 is installed in the upper end surface of the left hydraulic casing 20, and the right hydraulic casing 20 A hydraulic hole B22 is installed in the upper end surface of the cylinder, an electromagnetic switch 23 is installed in the hydraulic hole A21 and the hydraulic hole B22, and a conduit 24 is installed in the hydraulic hole A21 and the hydraulic hole B22 to connect them. A hydraulic pump 25 is installed at the center, push levers 26 are installed on the hydraulic housings 20 on the left and right sides, a lifting engraving device 27 is fixedly connected to the center of the pushing lever 26, and the lifting engraving device 27 is a mounting block 28, a lifting / lowering space 29 is installed in the mounting block 28, a lifting / lowering machine 30 is installed at the upper end surface of the lifting / lowering space 29, a rotating shaft B31 is installed at the lower end of the lifting / lowering machine 30, and the rotating shaft B31 A conical pulley C32 that is fixed and connected to the lower end is installed, A conical pulley D33 that engages and connects with the conical pulley C32 is installed under the conical pulley C32, and a rotary shaft C34 that is fixedly connected to the conical pulley D33 is installed at the center of the conical pulley D33. The rotary gear B35 located on the left side of the conical pulley D33 is fixedly attached to the rotary shaft C34, and is engaged with and connected to the rotary shaft C34 below the rotary gear B35. The rotating gear C36 is installed, and a rotating shaft D37 that is fixedly connected to the rotating gear C36 is installed at the center of the rotating gear C36, and the rotating shaft D37 is rotatably connected to the left and right end walls of the elevating space 29, A cam 38 positioned on the right side of the rotary gear C36 is fixedly attached to the rotary shaft D37, and an elevating lever 39 is installed on the lower end surface of the cam 38. 40 is installed, and the wall of the elevating space 29 is the restriction plate 4 A restriction groove 41 is installed at a position corresponding to 0, the restriction plate 40 is located 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 A spring 43 is fixedly connected to the upper end wall of the first and second ends of the spring 43 through the storage groove 42 and fixedly connected to the restricting plate 40, and the lower end of the elevating lever 39 passes through the elevating space 29 and transmits laser. Machine 44 is fixedly connected, and a large number of rotating structures 45 distributed in a matrix are installed on the upper end surface of the horizontal work table 4, and the rotating structure 45 includes a rotating space 47 in which the horizontal work table 4 is installed. A rotating gear D48 that is fixedly connected to the rotating bolt 46 is installed in the rotating space 47, and a rotating gear E49 that engages and connects to the rotating gear D48 is installed on the right side of the rotating gear D48, A socket 56 for fixed connection is installed, and the socket A screw hole 50 is installed inside the screw hole 56, a sliding screw 51 is engaged with and connected to the screw hole 50, and a rectangular anti-rotation space 52 is installed on the lower end surface of the sliding screw 51. A rectangular anti-rotation block 53 that is fixedly connected to the lower end surface of the sliding screw 51 is slidably engaged, and its action ensures that the screw moves up and down, and the screw rotates and moves. A circular support plate 54 that is fixedly connected to the place where the sliding screw 51 is connected to the horizontal work table 4 is installed.

Preferably, the elasticity of the spring 43 is much greater than the sum of the weights of the lifting lever 39 and the laser transmitter 44, and as a result, the spring 43 is raised in conjunction with the lifting lever 39 and the laser transmitter 44 under the action of the elasticity of the spring 43. To do.

Preferably, a pressure pad 55 is fitted to the upper end of the rotating bolt 46, and the action thereof is that when the pressure pad 55 and the circular support plate 54 form a sandwiching structure, the work piece is firmly fixed, and the work piece is processed. It is possible to prevent the waste of the semi-processed product caused by the movement and processing failure, and effectively guarantee the quality of the processing process.

In a specific method of use, when the present invention is operated, the workpiece is placed on the horizontal work table 4, the rotating structure 44 where the support point is located is selected, the rotating bolt 45 is rotated, and the rotating bolt 45 is rotated. Rotates and rotates in conjunction with the rotating gear D46 and the rotating gear E47, thereby moving downward in conjunction with the sliding screw 49, and the pressure pad 53 and the circular support plate 52 form a clamping structure to firmly secure the processed product. It can be fixed and moved when the workpiece is processed, the waste of the semi-processed product caused by the failure of the machining can be prevented, the quality of the machining process can be effectively guaranteed, and the drive electric machine 6 works and rotates when used The shaft A8 rotates, the conical pulley A9 and the conical pulley B10 engage and transmit, rotate in conjunction with the rotating shaft A11, and thereby rotate in conjunction with the two driven support gears 15 on the rotating shaft A11. The rotary shaft A11 rotates through the belt, and the second transmission wheel 13 and the first transmission Rotating in the same direction in conjunction with the wheel 12, thereby rotating in conjunction with the rotating shaft B14, rotating the rotating shaft B14 and rotating in conjunction with the two rotating gears A15 of the rotating shaft B14, four rotating gears A rotates in the same direction, moves back and forth in conjunction with the horizontal work table 4, and the action of the hydraulic pump 25 opens the electromagnetic switch 23, realizing a change in the hydraulic pressure of the hydraulic housing 20 Then, in conjunction with the left / right movement of the lifting / lowering engraving device 27 of the push lever 26, the lifting / lowering electric machine 30 operates, the conical pulley C32 and the conical pulley D33 engage and transmit, and rotate in conjunction with the rotating shaft C34. This rotates in conjunction with the rotating gear B35, the rotating gear B35 and the rotating gear C36 mesh, the rotating gear C36 rotates, rotates in conjunction with the rotating shaft D37, and operates in conjunction with the cam 38 of the rotating shaft D37. The elevating lever 39 that rotates and contacts the cam 38 moves the limiting plate 40 under the rotation of the cam 38 and the elastic action of the spring 43. Through this, the elevating lever 39 is raised and lowered, and the laser transmitter 44 fixedly connected to the elevating lever 39 is raised and lowered.

For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but can be realized in other specific forms without departing from the significance and basic features of the present invention. Therefore, the scope of the present invention is defined by the appended claims, and the scope of the present invention is defined in the appended claims as long as the examples are regarded as illustrative and not restrictive. These changes are included in the present invention. Any reference signs in the claims shall not be construed as limiting the claim.

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

At present, the engraving machine is the core technology of sheet metal processing due to one craft revolution, and the degree of flexure of laser engraving machine is high, the speed of engraving is high, the production efficiency is high, the cycle is short, the quality is high , Won a wide market from customers. In the process of laser engraving, it is necessary to consider the maximum size of the workpiece, the material, the thickness required for engraving and the width of the raw material. The current laser engraving machine places the workpiece on the workbench and engraves the laser. Damages the surface of the workbench after penetrating the work piece, affecting the accuracy of the two-time machining, greatly reducing the service life of the workbench, increasing the processing cost, and moving in situations where the work piece is not attached It tends to occur and affects the accuracy of machining, making it difficult to control quality during the machining process.

Chinese Patent Application No. 102343705 Specification

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

In order to achieve the above object, the present invention adopts the following technical scheme. The laser engraving apparatus includes a final assembly work table, a rotating housing is installed inside the final assembly work table, and sliding grooves are installed symmetrically on both right and left ends of the upper end wall of the rotating housing, and the sliding groove rotates. The housing and the horizontal work table are coupled, and the horizontal work table and the final assembly work table are slidably engaged and connected through a sliding groove, and a driving space is installed on the front end wall of the rotating 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 rotating housing, and the front end of the drive electric machine has a through hole. A conical pulley A is connected so that power can be transmitted to a rotating shaft A that passes therethrough, and a conical pulley A that is fixedly connected to a front end of the rotating shaft A is installed, and is engaged with and connected to the conical pulley A. B is installed at the center of the conical pulley B A rotating shaft A that is fixedly connected to the rotating shaft A is installed, the rotating shaft A is connected so as to be rotatable with the left and right side walls of the rotating housing, and is fixedly connected to the leftmost end of the rotating shaft A. A pulley is installed, a second transmission wheel that is driven through a belt is installed at the front end of the first pulley , a rotation shaft B that is fixed and connected to the center of the second transmission wheel is installed, and rotates with the rotation shaft A. A rotating gear A is installed symmetrically on the left and right of the axis B, and two gear grooves are installed symmetrically on the left and right ends on the lower end surface of the horizontal work table, the rotating gear A rolls and connects with the gear groove, Bearings are installed symmetrically to the left and right of the rotating shaft A and the rotating shaft B, and support levers are installed symmetrically to both left and right ends of the upper end surface of the work table, and two of them are fixed to the upper end surface of the support lever. A fixed block to be connected to is installed, and a hydraulic enclosure is installed on the fixed block A hydraulic hole A is installed in the upper end surface of the left hydraulic housing, a hydraulic hole B is installed in the upper end surface of the right hydraulic housing, and an 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, and they are connected. A hydraulic pump is installed in the center of the conduit. Push levers are installed in the hydraulic housings on both the left and right sides. Are fixedly connected, the lifting engraving apparatus includes a mounting block, a lifting space is installed in the mounting block, a lifting machine is installed on the upper end surface of the lifting space, and a rotary shaft B is installed on the lower end of the lifting machine. A conical pulley C is installed at the lower end of the rotating shaft B and fixed and connected thereto, and a conical pulley D that engages and connects with the conical pulley C is installed under the conical pulley C, and the conical pulley D Rotate to connect it fixedly to the center of C is installed, the rotary shaft C is connected to the left and right end walls of the lifting space so as to be rotatable, and the rotary gear B located on the left side of the conical pulley D is fixedly attached to the rotary shaft C, A rotating gear C that engages and connects with the rotating gear B is installed under the rotating gear B, and a rotating shaft D that is fixedly connected to the rotating gear C is installed at the center of the rotating gear C. A cam that is rotatably connected to the wall, is fixedly attached to the rotation axis D and is located on the right side of the rotation gear C, and a lift lever is installed on the lower end surface of the cam. A restriction plate is installed symmetrically on the left and right, a restriction groove is installed at a position where the wall of the lifting space corresponds to the restriction plate, the restriction plate is located in the restriction groove and can slide up and down, A storage groove is installed in the upper end wall, and a spring is installed in the upper end wall of the storage groove. The lower end of the spring is fixedly connected to the restricting plate through the storage groove, the lower end of the elevating lever is passed through the elevating space, and the laser transmitter is fixedly connected. A large number of rotating structures distributed in a matrix are installed on the upper end surface of the rotating shaft, and the rotating structure includes a rotating space where the rotating structure is installed on the horizontal workbench, and a rotating gear D fixedly connected to a rotating bolt is installed in the rotating space. A rotating gear E that engages and connects with the rotating gear D is installed on the right side of the rotating gear D, a socket that is fixedly connected to the rotating gear E is installed at the center thereof, and a screw hole is installed inside the socket. A sliding screw is engaged with and connected to the screw hole, a rectangular anti-rotation space is installed at the lower end surface of the sliding screw, and the lower end surface of the sliding screw is fixed to the rectangular anti-rotation space. Regularly connected rectangular 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 that is fixedly connected to the place where the table is connected is installed.

As a preferred technical solution, the elasticity of the spring is much larger than the sum of the weights of the lifting lever and the laser transmitter.

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

Compared with current technology, the beneficial effect of the present invention is that when the present invention is operated, the workpiece is placed on a horizontal work table, the rotating structure where the support point is located is selected, and the rotating bolt is rotated. The rotating bolt rotates and rotates in conjunction with the rotating gear D and the rotating gear E, thereby moving downward in conjunction with the sliding screw, and the pressure pad and the circular support plate form a clamping structure to firmly secure the processed product. It can be fixed and moved when the workpiece is machined, the waste of the semi-finished product caused by machining failure can be prevented, the quality of the machining process can be effectively guaranteed, and when used, the drive electric machine works and the rotating shaft A rotates, conical pulley A and conical pulley B engage and transmit, rotate in conjunction with rotating shaft A, thereby rotating in conjunction with the two driven support gears of rotating shaft A, and belt the first pulley and communicating the rotation axis A and the second transmission gear rotates through Rotate in the same direction, thereby rotating in conjunction with the rotating shaft B, rotating the rotating shaft B and rotating in conjunction with the two rotating gears A of the rotating shaft B, and the four rotating gears A in the same direction Rotate to move back and forth in conjunction with the horizontal workbench, and the action of the hydraulic pump opens the electromagnetic switch, realizing a change in the hydraulic pressure of the hydraulic enclosure, and lifting lever engraving device In conjunction with the left / right movement of the motor, the lifting / lowering electric machine operates, 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. Rotating gear B and rotating gear C mesh with each other, rotating gear C rotates, rotates in conjunction with rotating shaft D, rotates in conjunction with the cam on rotating shaft D, and the lifting lever that contacts the cam moves the cam. Under the elastic action of the rotation and spring, the lifting lever can be lifted and lowered through the limiting plate. Fixedly laser transmitter to lift to connect with.

Compared with current technology, the beneficial effect of the present invention is that when the present invention is operated, the workpiece is placed on a horizontal work table, the rotating structure where the support point is located is selected, and the rotating bolt is rotated. The rotating bolt rotates and rotates in conjunction with the rotating gear D and the rotating gear E, thereby moving downward in conjunction with the sliding screw, and the pressure pad and the circular support plate form a clamping structure to firmly secure the processed product. It can be fixed and moved when the workpiece is machined, the waste of the semi-finished product caused by machining failure can be prevented, the quality of the machining process can be effectively guaranteed, and when used, the drive electric machine works and the rotating shaft A rotates, conical pulley A and conical pulley B engage and transmit, rotate in conjunction with rotating shaft A, thereby rotating in conjunction with the two driven support gears of rotating shaft A, and belt the first pulley and the communicating rotational axis A and the second transmission gear rotates through Rotate in the same direction, thereby rotating in conjunction with the rotating shaft B, rotating the rotating shaft B and rotating in conjunction with the two rotating gears A of the rotating shaft B, and the four rotating gears A in the same direction Rotate to move back and forth in conjunction with the horizontal workbench, and the action of the hydraulic pump opens the electromagnetic switch, realizing a change in the hydraulic pressure of the hydraulic enclosure, and lifting lever engraving device In conjunction with the left / right movement of the motor, the lifting / lowering electric machine operates, 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. Rotating gear B and rotating gear C mesh with each other, rotating gear C rotates, rotates in conjunction with rotating shaft D, rotates in conjunction with the cam on rotating shaft D, and the lifting lever that contacts the cam moves the cam. Under the elastic action of the rotation and spring, the lifting lever can be lifted and lowered through the limiting plate. Fixedly laser transmitter to lift to connect with.

FIG. 1 is a schematic diagram of the entire front structure of the laser engraving apparatus of the present invention. FIG. 2 is a schematic view of the overhead view of the work table of the laser engraving apparatus of the present invention. FIG. 3 is a schematic diagram of the front structure of the entire lift engraving apparatus of the laser engraving apparatus of the present invention. FIG. 4 is a schematic front view of the entire rotating structure of the laser engraving apparatus of the present invention.

In the following, with reference to the drawings in the embodiments of the present invention, the technical solutions of the embodiments of the present invention will be clearly and clearly described, and the described embodiments are only some embodiments of the present invention, and in all the embodiments, That is not. Based on the embodiments of the present invention, all other embodiments obtained on the assumption that those skilled in the art do not pay creative labor belong to the protection scope of the present invention.

1-4, the laser engraving apparatus according to the embodiment of the present invention includes a final assembly workbench 1, a rotary housing 2 is installed inside the final assembly worktable 1, Sliding grooves 3 are installed symmetrically on the left and right ends of the upper end wall, the sliding grooves 3 are connected to the rotary casing 2 and the horizontal work table 4, and the horizontal work table 4 and the final assembly work table 1 slide through the slide grooves 3. The drive space 5 is installed on the front end wall of the rotating housing 2, the drive electric machine 6 is fixedly connected to the front end wall of the drive space 5, and the drive space 5 A through hole 7 is installed in the front end wall, the through hole 7 connects the drive space 5 and the rotary housing 2, and the rotary shaft A8 whose front end passes through the through hole 7 is connected to the drive electrical machine 6 so that power can be transmitted. A conical pulley A9 fixedly connected to the front end of the rotary shaft A8 is installed, and is engaged with and connected to the conical pulley A9. A conical pulley B10 is installed, a rotation shaft A11 fixed and connected to the center of the conical pulley B10 is installed, and the rotation shaft A11 is rotatably connected to the left and right end walls of the rotating housing, A first pulley 12 that is fixedly connected to the leftmost end of the rotating shaft A11 is installed, and a second transmission wheel 13 that is driven through a belt is installed at the front end of the first pulley 12, and the center of the second transmission wheel 13 A rotating shaft B14 fixed and connected to the rotating shaft B11 is installed, a rotating gear A15 is installed symmetrically on the rotating shaft A11 and the rotating shaft B14, and two left and right ends are symmetrically arranged on the lower end surface of the horizontal work table 4. A gear groove 16 is installed, the rotary gear A15 rolls and connects with the gear groove 16, and a bearing 17 is installed symmetrically on the rotary shaft A11 and the rotary shaft B14 on the left and right sides. Support levers 18 are symmetrically installed at both left and right ends, and two A fixed block 19 that is fixedly connected to it is installed, a hydraulic casing 20 is installed in the fixed block 19, a hydraulic hole A21 is installed in the upper end surface of the left hydraulic casing 20, and the right hydraulic casing 20 A hydraulic hole B22 is installed in the upper end surface of the cylinder, an electromagnetic switch 23 is installed in the hydraulic hole A21 and the hydraulic hole B22, and a conduit 24 is installed in the hydraulic hole A21 and the hydraulic hole B22 to connect them. A hydraulic pump 25 is installed at the center, push levers 26 are installed on the hydraulic housings 20 on the left and right sides, a lifting engraving device 27 is fixedly connected to the center of the pushing lever 26, and the lifting engraving device 27 is a mounting block 28, a lifting / lowering space 29 is installed in the mounting block 28, a lifting / lowering machine 30 is installed at the upper end surface of the lifting / lowering space 29, a rotating shaft B31 is installed at the lower end of the lifting / lowering machine 30, and the rotating shaft B31 A conical pulley C32 that is fixed and connected to the lower end is installed, A conical pulley D33 that engages and connects with the conical pulley C32 is installed under the conical pulley C32, and a rotary shaft C34 that is fixedly connected to the conical pulley D33 is installed at the center of the conical pulley D33. The rotary gear B35 located on the left side of the conical pulley D33 is fixedly attached to the rotary shaft C34, and is engaged with and connected to the rotary shaft C34 below the rotary gear B35. The rotating gear C36 is installed, and a rotating shaft D37 that is fixedly connected to the rotating gear C36 is installed at the center of the rotating gear C36, and the rotating shaft D37 is rotatably connected to the left and right end walls of the elevating space 29, A cam 38 positioned on the right side of the rotary gear C36 is fixedly attached to the rotary shaft D37, and an elevating lever 39 is installed on the lower end surface of the cam 38. 40 is installed, and the wall of the elevating space 29 is the restriction plate 4 A restriction groove 41 is installed at a position corresponding to 0, the restriction plate 40 is located 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 A spring 43 is fixedly connected to the upper end wall of the first and second ends of the spring 43 through the storage groove 42 and fixedly connected to the restricting plate 40, and the lower end of the elevating lever 39 passes through the elevating space 29 and transmits laser. Machine 44 is fixedly connected, and a large number of rotating structures 45 distributed in a matrix are installed on the upper end surface of the horizontal work table 4, and the rotating structure 45 includes a rotating space 47 installed on the horizontal work table 4. A rotating gear D48 that is fixedly connected to the rotating bolt 46 is installed in the rotating space 47, and a rotating gear E49 that engages and connects to the rotating gear D48 is installed on the right side of the rotating gear D48, A socket 56 for fixed connection is installed, and the socket A screw hole 50 is installed inside the screw hole 56, a sliding screw 51 is engaged with and connected to the screw hole 50, and a rectangular anti-rotation space 52 is installed on the lower end surface of the sliding screw 51. A rectangular anti-rotation block 53 that is fixedly connected to the lower end surface of the sliding screw 51 is slidably engaged, and its action ensures that the screw moves up and down, and the screw rotates and moves. In order to prevent this, a circular support plate 54 that is fixedly connected to the place where the sliding screw 51 is connected to the horizontal work table 4 is installed.

Preferably, the elasticity of the spring 43 is much greater than the sum of the weights of the lifting lever 39 and the laser transmitter 44, and as a result, the spring 43 is raised in conjunction with the lifting lever 39 and the laser transmitter 44 under the action of the elasticity of the spring 43. To do.

Preferably, a pressure pad 55 is fitted to the upper end of the rotating bolt 46, and the action thereof is that when the pressure pad 55 and the circular support plate 54 form a sandwiching structure, the work piece is firmly fixed, and the work piece is processed. It is possible to prevent the waste of the semi-processed product caused by the movement and processing failure, and effectively guarantee the quality of the processing process.

In a specific method of use, when the present invention is operated, the workpiece is placed on the horizontal work table 4, the rotating structure 44 where the support point is located is selected, the rotating bolt 45 is rotated, and the rotating bolt 45 is rotated. Rotates and rotates in conjunction with the rotating gear D46 and rotating gear E47, thereby moving downward in conjunction with the sliding screw 49, and the pressure pad 53 and the circular support plate 52 form a clamping structure to firmly secure the processed product. It can be fixed and moved when the workpiece is processed, the waste of the semi-processed product caused by the failure of the machining can be prevented, the quality of the machining process can be effectively guaranteed, and the drive electric machine 6 works and rotates when used The shaft A8 rotates, the conical pulley A9 and the conical pulley B10 engage and transmit, rotate in conjunction with the rotating shaft A11, and thereby rotate in conjunction with the two driven support gears 15 on the rotating shaft A11. The rotating shaft A11 rotates through the belt, and the second transmission wheel 13 and the first Rotating in the same direction in conjunction with the re 12, thereby rotating in conjunction with the rotary shaft B14, and rotates in conjunction with two rotating gears A15 of the rotary shaft B14 rotates the rotary shaft B14, four rotary gear A rotates in the same direction, moves back and forth in conjunction with the horizontal work table 4, and the action of the hydraulic pump 25 opens the electromagnetic switch 23, realizing a change in the hydraulic pressure of the hydraulic housing 20 Then, in conjunction with the left / right movement of the lifting / lowering engraving device 27 of the push lever 26, the lifting / lowering electric machine 30 operates, the conical pulley C32 and the conical pulley D33 engage and transmit, and rotate in conjunction with the rotating shaft C34. This rotates in conjunction with the rotating gear B35, the rotating gear B35 and the rotating gear C36 mesh, the rotating gear C36 rotates, rotates in conjunction with the rotating shaft D37, and operates in conjunction with the cam 38 of the rotating shaft D37. The elevating lever 39 that rotates and contacts the cam 38 moves the limiting plate 40 under the rotation of the cam 38 and the elastic action of the spring 43. Through this, the elevating lever 39 is raised and lowered, and the laser transmitter 44 fixedly connected to the elevating lever 39 is raised and lowered.

For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but can be realized in other specific forms without departing from the significance and basic features of the present invention. Therefore, the scope of the present invention is defined by the appended claims, and the scope of the present invention is defined in the appended claims as long as the examples are regarded as illustrative and not restrictive. These changes are included in the present invention. Any reference signs in the claims shall not be construed as limiting the claim.

Claims (1)

A laser engraving apparatus, comprising a final assembly worktable, wherein a rotary housing is installed inside the final assembly worktable, and sliding grooves are installed symmetrically on both right and left ends of the upper end wall of the rotary housing, A groove connects the rotary casing and the horizontal workbench, and the horizontal workbench and the final assembly workbench are engaged and connected so as to be slidable through the sliding groove, and a driving space is formed on the front end wall of the rotary casing. 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 rotating housing, and the front end is connected to the drive electric machine. Is connected so that power can be transmitted, and a conical pulley A that is fixedly connected to the front end of the rotating shaft A is installed and engaged with and connected to the conical pulley A. The conical pulley B is installed, the conical pulley A rotating shaft A that is fixed and connected to the center of B is installed. The rotating shaft A is connected to the left and right walls of the rotating housing so as to be rotatable, and is fixedly connected to the leftmost end of the rotating shaft A. A first pulley that is installed, a second transmission wheel that is driven through a belt is installed at a front end of the first transmission wheel, a rotary shaft B that is fixed and connected to the center of the second transmission wheel is installed, and the rotation A rotating gear A is installed symmetrically on the left and right sides of the axis A and the rotating shaft B, and two gear grooves are installed symmetrically on the lower left and right ends of the horizontal work table. The rotating gear A rolls with the gear groove. The bearings are installed symmetrically on the rotary shaft A and the rotary shaft B on the left and right sides, and support levers are installed symmetrically on the left and right ends of the upper end surface of the work table. There are fixed blocks that are fixedly connected to one of them, and hydraulic pressure is applied to the fixed blocks. The body is installed, the hydraulic hole A is installed in the upper end surface of the left hydraulic casing, the hydraulic hole B is installed in the upper end plane of the right hydraulic casing, and the electromagnetic switch is installed in the hydraulic hole A and hydraulic hole B A conduit is installed in the hydraulic hole A and the hydraulic hole B and connected to each other, a hydraulic pump is installed in the center of the conduit, push levers are installed in the hydraulic housings on both the left and right sides, and the center of the push lever is installed. A lifting engraving device is fixedly connected, the lifting engraving device includes a mounting block, a lifting space is installed in the mounting block, a lifting machine is installed at the upper end surface of the lifting space, and rotates at the lower end of the lifting machine A shaft B is installed, and a conical pulley C fixed and connected to the lower end of the rotating shaft B is installed, and a conical pulley D that engages and connects to the conical pulley C is installed under the conical pulley C. Fixedly connected to the center of the pulley D A rotating shaft C is installed, the rotating shaft C is rotatably connected to the left and right end walls of the lifting space, and the rotating gear B located on the left side of the conical pulley D is fixedly connected to the rotating shaft C. A rotating gear C that is attached and engaged with and connected to the rotating gear B is installed under the rotating gear B, and a rotating shaft D that is fixedly connected to the rotating gear C is installed at the center of the rotating gear C. A cam positioned on the right side of the rotary gear C is fixedly attached to the rotary shaft D, and a lift lever is installed on a lower end surface of the cam. A restriction plate is installed symmetrically on the left and right at the upper end, a restriction groove is installed at a position where the wall of the elevating space corresponds to the restriction plate, the restriction plate is located in the restriction groove and can slide up and down, A storage groove is installed on the upper end wall of the restriction groove, and a slide is formed on the upper end wall of the storage groove. A pulling is fixedly connected, a lower end of the spring passes through the storage groove and is fixedly connected to the restriction plate, a lower end of the elevating lever passes through the elevating space and a laser transmitter is fixedly connected, and the horizontal A rotating gear D is installed on the upper end surface of the workbench in which a number of rotating structures distributed in a matrix are installed, and the rotating structure includes a rotating space installed on the horizontal working table, and the rotating space is fixedly connected to a rotating bolt. Is installed on the right side of the rotating gear D, a rotating gear E is installed on the right side of the rotating gear D, a socket fixedly connected thereto is installed at the center of the rotating gear E, and a screw hole is formed inside the socket. Installed, a sliding screw is engaged and connected to the screw hole, a rectangular anti-rotation space is installed at a lower end surface of the sliding screw, and the sliding screw is inserted into the rectangular anti-rotation space. A rectangular anti-rotation block fixedly connected to the lower end surface is slidably engaged, and its action ensures that the screw moves up and down, prevents the screw from rotating and moving, and the sliding screw A circular support plate that is fixedly connected to the horizontal workbench is installed, the elasticity of the spring is greater than the sum of the weights of the lifting lever and laser transmitter, and a pressure pad is fitted to the upper end of the rotating bolt A laser engraving apparatus characterized by that.