JP2021094596A - Laser engraving device for cylindrical wood - Google Patents

Abstract

To provide a laser engraving device for cylindrical wood.SOLUTION: A laser engraving device for cylindrical wood comprises a housing. An engraving space is installed in the housing. Since a stationary arcuate plate is installed in the device, wood can be fixed at the time of engraving, and an error in the engraving can be avoided. A movement block that is connected to a rotary shaft with a thread is also installed in the device, the movement block is moved by rotating the rotary shaft, a laser engraving machine is moved, and the laser engraving machine can perform engraving on different portions of the wood. An ascending/descending friction plate is also installed in the device, the ascending/descending friction plate is rotated by moving the ascending/descending friction plate to bring the plate into close-contact with a drive shaft. The stationary arcuate plate is rotated, the wood is rotated following the stationary arcuate plate and each portion on the surface is engraved. Namely, the engraving from all the directions can be performed on the wood.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of engraving technology, and specifically is a laser engraving device for cylindrical wood.

When engraving on cylindrical wood, manual fixing is not very effective due to the shape of the wood, and the position for horizontal engraving on cylindrical wood during engraving When adjusting, loosening the wood fixing can cause large errors. In addition, it is difficult to adjust the position when engraving the sides and bottom of the wood.

Chinese Patent Application Publication No. 10529061

The present application provides a laser engraving device for cylindrical wood, and an object of the present application is to eliminate the above-mentioned drawbacks in the prior art.

The laser engraving device for cylindrical wood of the present invention includes a housing, an engraving space is installed in the housing, the left opening of the engraving space communicates with the outside, and the left and right walls below the engraving space. A disturbing plate is fixedly connected to the space, a laser engraving machine and a laser engraving head are installed in the engraving space, a horizontal moving space is installed on the upper wall of the engraving space, and the right wall of the horizontal moving space is installed. A moving motor is fixedly connected to the moving motor, a rotating shaft is movably connected to the moving motor, and a moving block slidably connected to the horizontal moving space is connected to the rotating shaft by a screw thread. A connecting block fixedly connected to the upper end surface of the laser engraving machine is fixedly connected to the lower end surface of the moving block, a rotation mechanism is installed in the housing, and the rotation mechanism is the said. The elevating friction plate is included in the housing, and the elevating friction plate is rotated to rotate the cylindrical wood, a fixing mechanism is installed in the housing, and the fixing mechanism is vertically symmetrical. A buffer spring for connecting the fixed arc plate and the fixed plate is installed in the fixed space, and the cylindrical wood penetrates the engraving space and is fixed. The fixed plate enters the space, and the fixed arc plate moves the fixed arc plate to the center of the fixed space by the buffer spring to fix the cylindrical wood, and a transmission mechanism is installed in the housing. The transmission mechanism includes a drive space installed in the housing, a drive motor is fixedly connected to the rear wall of the drive space, and the right end of the drive motor is located in the rotation space. The drive shafts are transmitably connected, and the drive motor provides power to the rotation of the lifting friction plate and the movement of the fixing plate by the drive shaft.

Based on the above technical plan, the rotating mechanism includes a rotating space installed in the housing, a rotating disk is installed in the rotating space, and a cylindrical space opened to the left and right in the center of the rotating disk. Is installed, two elevating grooves are formed in the rotating disk, the two elevating grooves are vertically symmetrical with respect to the cylindrical space, and an electromagnet is fixed to the wall away from the cylindrical space in the elevating groove. The elevating block is slidably connected to the elevating groove, two elevating springs are installed in the elevating groove, and the two elevating springs are the elevating block and the elevating groove in the elevating groove. An end wall away from the cylindrical space is connected, and the elevating friction plate whose other end is located in the cylindrical space is fixedly connected to the end surface close to the cylindrical space in the elevating block.

Based on the above technical plan, the fixing mechanism includes a fixed space installed in the housing, the right opening of the fixed space communicates with the engraving space, and the fixed space is vertically symmetrical. The two fixed plates are slidably connected, the fixed arc plate is installed in the fixed space, and two vertically symmetrical rotating blocks can be rotated in the rotating space. Connected, the two rotating blocks are fixedly connected to the rotating disk, an elevating space is installed in the rotating block, and an elevating plate is slidably connected in the elevating space, and the elevating / lowering is performed. A return spring is installed in the space, and the return spring connects an end wall away from the drive shaft and the elevating plate in the elevating space, and on the end face of the elevating plate close to the drive shaft. A moving rack whose other end is fixedly connected to the fixed arc plate is fixedly connected, a driven space is installed on the rear wall of the elevating space, and the front end of the driven space is in the elevating space. The fixed shafts located are connected so as to be transmittable, the fixed gears meshing with the moving rack are fixedly connected to the front end of the fixed shaft, and the driven end located in the driven space is connected to the rear end of the fixed shaft. The pulleys are fixedly connected.

Based on the above technical plan, the transmission mechanism includes a drive cap gear, the drive cap gear is fixedly connected to the drive shaft located in the drive space, and a transmission space is installed in the rotation block. A transmission shaft whose other end is located in the drive space is rotatably connected to the end wall away from the drive shaft in the transmission space, and the drive is connected to the end of the transmission shaft close to the drive shaft. The transmission umbrella gear that meshes with the umbrella gear is fixedly connected, the main driving umbrella gear is fixedly connected to the end of the transmission shaft away from the drive shaft, and the front end is the transmission on the rear wall of the driven space. A driven shaft located in the space is rotatably connected, a driven umbrella gear meshing with the driven umbrella gear is fixedly connected to the front end of the driven shaft, and a transmission pulley is connected to the rear end of the driven umbrella gear. Are fixedly connected, and a transmission belt for connecting the transmission pulley and the driven pulley is installed in the driven space.

Based on the above technical plan, the interfering plate is removable, and the magnetic force of the electromagnet is stronger than the elasticity of the elevating spring.

Since the fixed arc plate is installed in the present invention, the wood can be fixed at the time of engraving and the error of engraving can be avoided. By rotating, the moving block moves, the laser engraving machine is moved, and the laser engraving machine can engrave different parts of the wood, and the elevating friction plate is also installed in the present invention, and the elevating friction plate can be used. By moving and bringing it into close contact with the drive shaft, the lifting friction plate rotates, the fixed arc plate rotates, and the wood rotates along with the fixed arc plate, and each part of the surface is engraved, that is, from all directions with respect to the wood. Can be engraved.

In order to explain the present invention in detail with reference to FIGS. 1 to 3 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 coincide with each other.

FIG. 1 is a schematic configuration diagram of the present invention. FIG. 2 is an enlarged schematic view of the configuration of AA in FIG. FIG. 3 is an enlarged schematic view of the configuration of B in FIG.

With reference to FIGS. 1 to 3, the laser engraving device for cylindrical wood of the present invention includes a housing 10, an engraving space 38 is installed in the housing 10, and the left opening of the engraving space 38 is outside. Interfering plates 39 are fixedly connected to the left and right walls below the engraving space 38, and a laser engraving machine 35 and a laser engraving head 36 are installed in the engraving space 38. A horizontal moving space 30 is installed on the upper wall, a moving motor 33 is fixedly connected to the right wall of the horizontal moving space 30, and a rotating shaft 31 is movably connected to the moving motor 33. A moving block 32 slidably connected in the horizontal moving space 30 is connected to the shaft 31 by a screw thread, and is fixedly connected to the lower end surface of the moving block 32 with the upper end surface of the laser engraving machine 35. The connected block 34 is fixedly connected, a rotating mechanism 55 is installed in the housing 10, and the rotating mechanism 55 includes an elevating friction plate 50 installed in the housing 10, and the elevating friction is provided. By rotating the plate 50, the cylindrical wood 37 is rotated, a fixing mechanism 56 is installed in the housing 10, and the fixing mechanism 56 has two vertically symmetrical fixed arc plates 41. A cushioning spring 42 that connects the fixed arc plate 41 and the fixed plate 43 is installed in the fixed space 40, and the cylindrical wood 37 penetrates the engraving space 38 and is inside the fixed space 40. Then, the fixing plate 43 fixes the cylindrical wood 37 by moving the fixed arc plate 41 toward the center of the fixed space 40 by the buffer spring 42, and a transmission mechanism is contained in the housing 10. 57 is installed, the transmission mechanism 57 includes a drive space 20 installed in the housing 10, a drive motor 19 is fixedly connected to the rear wall of the drive space 20, and the drive motor 19 is connected to the drive motor 19. A drive shaft 44 whose right end is located in the rotation space 11 is movably connected, and the drive motor 19 provides power to the rotation of the elevating friction plate 50 and the movement of the fixed plate 43 by the drive shaft 44. ..

The rotating mechanism 55 includes a rotating space 11 installed in the housing 10, a rotating disk 26 is installed in the rotating space 11, and a cylindrical space 22 opened to the left and right in the center of the rotating disk 26. Is installed, two elevating grooves 51 are formed in the rotating disk 26, and the two elevating grooves 51 are vertically symmetrical with respect to the cylindrical space 22 and separated from the cylindrical space 22 in the elevating groove 51. An electromagnet 54 is fixedly connected to the wall, an elevating block 52 is slidably connected to the elevating groove 51, two elevating springs 53 are installed in the elevating groove 51, and two elevating springs are installed. 53 connects the elevating block 52 and the end wall away from the cylindrical space 22 in the elevating groove 51, and the other end of the elevating block 52 near the cylindrical space 22 is the cylindrical space 22. The elevating friction plate 50 located inside is fixedly connected.

The fixing mechanism 56 includes a fixed space 40 installed in the housing 10, the right opening of the fixed space 40 communicates with the engraving space 38, and the fixed space 40 is vertically symmetrical. The two fixed plates 43 are slidably connected, the fixed arc plate 41 is installed in the fixed space 40, and two vertically symmetrical rotating blocks 12 are installed in the rotating space 11. Is rotatably connected, the two rotating blocks 12 are fixedly connected to the rotating disk 26, an elevating space 14 is installed in the rotating block 12, and an elevating plate is provided in the elevating space 14. 27 is slidably connected, and a return spring 28 is installed in the elevating space 14, and the return spring 28 connects an end wall away from the drive shaft 4 and the elevating plate 27 in the elevating space 14. A moving rack 29 whose other end is fixedly connected to the fixed arc plate 41 is fixedly connected to the end surface of the elevating plate 27 close to the drive shaft 44, and the rear wall of the elevating space 14 is connected. A driven space 46 is installed in the driven space 46, and a fixed shaft 16 whose front end is located in the elevating space 14 is movably connected to the driven space 46, and the front end of the fixed shaft 16 meshes with the moving rack 29. The fixed gear 15 is fixedly connected, and a driven pulley 49 located in the driven space 46 is fixedly connected to the rear end of the fixed shaft 16.

The transmission mechanism 57 includes a drive cap gear 21, the drive cap gear 21 is fixedly connected to the drive shaft 44 located in the drive space 20, and a transmission space 13 is installed in the rotation block 12. A transmission shaft 17 whose other end is located in the drive space 20 is rotatably connected to the end wall of the transmission space 13 away from the drive shaft 44, and is close to the drive shaft 44 in the transmission shaft 17. A transmission bead gear 18 that meshes with the drive bevel gear 21 is fixedly connected to the end, and a main drive bead gear 25 is fixedly connected to the end of the transmission shaft 17 that is distant from the drive shaft 44. A driven shaft 45 whose front end is located in the transmission space 13 is rotatably connected to the rear wall of the driven space 46, and a driven gear 24 that meshes with the main gear 25 is connected to the front end of the driven shaft 45. A transmission pulley 47 is fixedly connected to the rear end of the main drive gear 25, and a transmission belt 48 connecting the transmission pulley 47 and the driven pulley 49 in the driven space 46 is fixedly connected. Is installed.

The obstruction plate 39 is removable, and the magnetic force of the electromagnet 54 is stronger than the elasticity of the elevating spring 53.

In the initial state, the return spring 28, the buffer spring 42 and the elevating spring 53 are in a loosened state, the drive motor 19, the moving motor 33 and the electromagnet 54 are not operating, and the fixed arc plate 41 is separated from the cylindrical wood 37. There is.

When engraving cylindrical wood, the cylindrical wood 37 is manually placed in the fixed space 40 through the engraving space 38, and the drive motor 19 is operated to generate power and drive the drive shaft 44. Rotates, the transmission cap gear 18 is rotated, and the transmission shaft 17 is interlocked to rotate, the main cap gear 25 is rotated, and then the driven cap gear 24 is interlocked to rotate, and the driven shaft 45 is rotated. Subsequently, the transmission pulley 47 is rotated, and the driven pulley 49 is rotated by the transmission belt 48, so that the fixed shaft 16 is rotated, the fixed gear 15 is rotated, and the moving rack 29 approaches the cylindrical wood 37. The fixed plate 43 moves toward the cylindrical wood 37 along with the cylindrical wood 37, and the fixed arc plate 41 also moves toward the cylindrical wood 37 by the buffer spring 42. Cylindrical wood 37 is fixed,
After the fixing is completed, the laser engraving machine 35 is operated to engrave the cylindrical wood 37 via the laser engraving head 36.
To adjust the engraving position in the horizontal direction, the moving motor 33 is operated to generate power, the rotating shaft 31 is driven and rotated, the moving block 32 is moved horizontally, and then the connecting block 34 is interlocked. By moving the laser engraving machine 35 and the laser engraving head 36 horizontally, the engraving position with respect to the cylindrical wood 37 is adjusted in the horizontal direction.
To adjust the engraving position in the circumferential direction, the electromagnet 54 is actuated to push the elevating block 52 and move it closer to the drive shaft 44 to pull the elevating spring 53, and the elevating block 52 pulls the drive shaft. It moves so as to approach 44, the elevating friction plate 50 interlocks and moves so as to approach the drive shaft 44, abuts on the surface of the drive shaft 44, and the drive shaft 44 rotates to move the elevating friction plate 50. Rotating, then the rotating disk 26 is interlocked and rotated, and by rotating the two rotating blocks 12, the moving rack 29 is rotated, the fixed arc plate 41 is rotated, and the cylindrical wood 37 is further rotated. Then, in the circumferential direction, the engraving position with respect to the cylindrical wood 37 is adjusted.
After finishing engraving, the laser engraving machine 35 is stopped, the drive motor 19 and the electromagnet 54 are stopped, and the elevating block 52 moves away from the drive shaft 44 by the elasticity of the elevating spring 53, and the elevating friction plate 50 is interlocked. The drive shaft 44 moves away from the drive shaft 44 to return to the initial position, the return is completed, the drive shaft 44 stops rotating after the drive motor 19 is stopped, and the elevating plate 27 is made of cylindrical wood 37 by the elasticity of the return spring 28. The moving rack 29 and the fixing plate 43 are interlocked to move away from the cylindrical wood 37, and the cushioning spring 42 moves the fixed arc plate 41 away from the cylindrical wood 37. If the cylindrical wood 37 is restored and then the cylindrical wood 37 is manually taken out, the engraving on the cylindrical wood is completed.

According to the above method, the employee in the field can make various modifications according to the working situation within the scope of the present invention.

Claims (5)

An engraving space is installed in the housing including a housing, the left opening of the engraving space communicates with the outside, and disturbing plates are fixedly connected to the left and right walls below the engraving space. A laser engraving machine and a laser engraving head are installed in the space, a horizontal moving space is installed on the upper wall of the engraving space, and a moving motor is fixedly connected to the right wall of the horizontal moving space. A rotating shaft is movably connected to the motor, a moving block slidably connected in the horizontal moving space is connected to the rotating shaft by a screw thread, and the lower end surface of the moving block is laser engraved. A connecting block fixedly connected to the upper end surface of the machine is fixedly connected, a rotating mechanism is installed in the housing, and the rotating mechanism includes an elevating friction plate installed in the housing. The elevating friction plate is rotated to rotate the cylindrical wood, a fixing mechanism is installed in the housing, and the fixing mechanism includes two vertically symmetrical fixed arc plates. A buffer spring connecting the fixed arc plate and the fixed plate is installed in the fixed space, the cylindrical wood penetrates the engraving space and enters the fixed space, and the fixed plate is the cushion. By moving the fixed arc plate to the center of the fixed space by a spring, the cylindrical wood was fixed, a transmission mechanism was installed in the housing, and the transmission mechanism was installed in the housing. A drive motor is fixedly connected to the rear wall of the drive space including the drive space, and a drive shaft whose right end is located in the rotation space is movably connected to the drive motor. A laser engraving device for cylindrical wood, characterized in that the drive shaft provides power to the rotation of the lifting friction plate and the movement of the fixing plate. The rotating mechanism includes a rotating space installed in the housing, a rotating disk is installed in the rotating space, and a cylindrical space opened to the left and right is installed in the center of the rotating disk. Two elevating grooves are formed in the elevating groove, the two elevating grooves are vertically symmetrical with respect to the cylindrical space, and an electromagnet is fixedly connected to a wall away from the cylindrical space in the elevating groove to elevate the elevating groove. An elevating block is slidably connected to the groove, two elevating springs are installed in the elevating groove, and the two elevating springs are the elevating block and an end wall separated from the cylindrical space in the elevating groove. The first aspect of the elevating block is that the elevating friction plate whose other end is located in the cylindrical space is fixedly connected to the end surface of the elevating block close to the cylindrical space. Laser engraving device on the cylindrical wood described. The fixing mechanism includes a fixed space installed in the housing, the right opening of the fixed space communicates with the engraving space, and two vertically symmetrical fixed spaces are contained in the fixed space. The plates are slidably connected, the fixed arc plate is installed in the fixed space, and two vertically symmetrical rotating blocks are rotatably connected in the rotating space, and the two rotating blocks are rotatably connected. The block is fixedly connected to the rotating disk, an elevating space is installed in the rotating block, an elevating plate is slidably connected in the elevating space, and a return spring is provided in the elevating space. Is installed, and the return spring connects an end wall away from the drive shaft and the elevating plate in the elevating space, and the other end of the elevating plate is a fixed arc plate on the end surface close to the drive shaft. A moving rack that is fixedly connected to and is fixedly connected, a driven space is installed on the rear wall of the elevating space, and a fixed shaft whose front end is located in the elevating space can be transmitted to the driven space. A fixed gear that meshes with the moving rack is fixedly connected to the front end of the fixed shaft, and a driven pulley located in the driven space is fixedly connected to the rear end of the fixed shaft. The laser engraving apparatus for a cylindrical wood according to claim 1, wherein the laser engraving apparatus is provided. The transmission mechanism includes a drive cap gear, the drive cap gear is fixedly connected to the drive shaft located in the drive space, a transmission space is installed in the rotation block, and the drive is driven in the transmission space. A transmission shaft whose other end is located in the drive space is rotatably connected to the end wall away from the shaft, and a transmission umbrella meshed with the drive umbrella gear is connected to the end of the transmission shaft close to the drive shaft. The gears are fixedly connected, the driving umbrella gear is fixedly connected to the end of the transmission shaft away from the drive shaft, and the front end is located in the transmission space on the rear wall of the driven space. The shafts are rotatably connected, the driven axle gear meshing with the driven axle gear is fixedly connected to the front end of the driven shaft, and the transmission pulley is fixedly connected to the rear end of the driven axle gear. The laser engraving device for cylindrical wood according to claim 3, wherein a transmission belt for connecting the transmission pulley and the driven pulley is installed in the driven space. The laser engraving device for cylindrical wood according to claim 2, wherein the disturbing plate is removable, and the magnetic force of the electromagnet is stronger than the elasticity of the elevating spring.

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