CN112475915B

CN112475915B - Laser engraving and carving compound machine

Info

Publication number: CN112475915B
Application number: CN202011272911.1A
Authority: CN
Inventors: 朱立亮
Original assignee: Shenzhen Guang Li Jin Technology Co ltd
Current assignee: Shenzhen Guang Li Jin Technology Co ltd
Priority date: 2020-11-13
Filing date: 2020-11-13
Publication date: 2022-06-10
Anticipated expiration: 2040-11-13
Also published as: CN112475915A

Abstract

The invention discloses a laser engraving and pattern marking compound machine, which is used for processing jewelry sheets and comprises a multifunctional compound mechanism and a sheet turning processing mechanism, wherein the multifunctional compound mechanism is provided with a plurality of functional shafts for laser cutting, engraving and pattern marking; the sheet clamping assembly is used for clamping a sheet to be processed, the overturning motor is used for controlling the sheet clamping assembly to overturn for 180 degrees, processing operation on the front side and the back side of the sheet to be processed is achieved, multiple processing operation functions are achieved on the same numerical control mechanism, manual intervention is not needed in the production and processing process, production cost is reduced, production efficiency is improved, and the sheet clamping assembly is more suitable for large-scale production and processing.

Description

Laser engraving and carving compound machine

Technical Field

The invention relates to the technical field of jewelry processing mechanical equipment, in particular to a laser engraving and pattern marking compound machine.

Background

At present, CNC numerical control machine tools in jewelry industry are single in type, one machine can only complete a single machining function, the expansibility of the process is limited, the production cost of a factory is increased, and the production mode is not suitable for occasions of mass production.

Disclosure of Invention

In view of the above, there is a need for a laser engraving and carving complex machine that provides multiple processing operations at the same time.

A laser engraving and pattern marking compound machine is used for processing jewelry sheet materials and comprises a multifunctional compound mechanism with a plurality of functional shafts for laser cutting, engraving and pattern marking, a sheet material overturning and processing mechanism, wherein the multifunctional compound mechanism comprises a laser cutting shaft assembly, an engraving shaft assembly, a pattern marking shaft assembly and a main shaft switching cylinder for controlling the engraving shaft assembly and the pattern marking shaft assembly to be switched; the sheet material overturning and processing mechanism comprises a sheet material clamping assembly and an overturning motor for overturning the sheet material clamping assembly; the sheet material overturning and processing mechanism is arranged below the multifunctional composite mechanism, and the laser cutting shaft assembly, the engraving shaft assembly and the batch pattern shaft assembly of the multifunctional composite mechanism are used for processing the sheet material clamped by the sheet material overturning and processing mechanism; the laser cutting shaft assembly is used for cutting a sheet material, the main shaft switching cylinder is used for switching the engraving shaft assembly and the pattern marking shaft assembly when the sheet material is processed so as to finish different processing procedures on the sheet material, the sheet material clamping assembly is used for clamping the sheet material to be processed, and the overturning motor is used for controlling the sheet material clamping assembly to overturn for 180 degrees so as to realize processing operation on the front side and the back side of the sheet material to be processed.

Furthermore, the multifunctional compound mechanism further comprises a fixed support plate and a rotating support plate, wherein the rotating support plate is rotatably arranged in the center of the fixed support plate and is fan-shaped, the rotating support plate comprises two radius side edges and an arc-shaped edge, the circle center of the arc-shaped edge is the circle center of the rotating support plate, and the rotating support plate rotates by taking the circle center as a shaft.

Further, the carving shaft assembly and the flower carving shaft assembly are fixedly installed on the two radius sides of the rotary support plate respectively, the top ends of the carving shaft assembly and the flower carving shaft assembly are provided with a carving tool and a flower carving tool respectively, and the carving tool and the flower carving tool are arranged at two ends of the arc-shaped edge respectively.

Further, the main shaft switching cylinder comprises a power rod, the main shaft switching cylinder is fixedly arranged on the fixed support plate, the power rod is connected to the side wall of the rotating support plate, the power rod stretches out and draws back, so that the rotating support plate rotates, and the maximum stroke of the power rod controls the rotating angle of the rotating support plate.

Furthermore, the laser cutting shaft assembly is arranged on the fixed support plate, the rotating support plate further comprises an additional support plate, the additional support plate is arranged on the side face of the rotating support plate in parallel, and the additional support plate rotates along with the rotating support plate; the laser cutting shaft assembly comprises a laser cutting shaft and a laser cutting control cylinder, the laser cutting shaft is provided with a telescopic laser cutting head, and the laser cutting control cylinder is used for controlling the laser cutting head to extend or contract; the laser cutting shaft and the laser cutting control cylinder are respectively arranged on the front surface and the back surface of the additional support plate.

The sheet material clamping assembly comprises a material supporting plate for placing the sheet material, a material pressing plate for pressing the sheet material and a pressing cylinder, the material supporting plate is a rectangular frame, the material pressing plate is long-strip-shaped and is arranged on two side edges of the material supporting plate in the length direction, and the pressing cylinder is used for clamping the material pressing plate so as to fix the sheet material to be processed.

Furthermore, the cross section of the pressure plate is a right triangle, the pressure plate is provided with two perpendicular right-angle surfaces, the two perpendicular-angle surfaces are intersected on a right-angle ridge line, the two sides of the two perpendicular-angle surfaces are respectively provided with the pressing cylinder and the pressure spring, and the pressing cylinder and the pressure spring enable the pressure plate to rotate by taking the right-angle ridge line as an axis.

Furthermore, the two right-angle surfaces comprise a first right-angle surface and a second right-angle surface, the pressing cylinder is arranged on the outer side surface of the first right-angle surface, the second right-angle surface faces the material supporting plate, the pressing springs are arranged at two ends of the second right-angle surface, and the pressing cylinder controls the pressing plate to clamp the material to be processed.

Furthermore, one end of the sheet material clamping assembly is provided with the overturning motor and a rotating seat, the other end of the sheet material clamping assembly is provided with a fixed air cylinder and a plug pin plate, the sheet material clamping assembly is fixedly arranged on the rotating seat, and the overturning motor controls the rotating seat to rotate so as to drive the sheet material clamping assembly to overturn; the fixed cylinder is arranged on the machine support, and the bolt plate is arranged at the tail end of the fixed cylinder and moves under the pushing of the fixed cylinder; the outer side of the plug pin plate is provided with a guide pin, the outer side of the sheet stock clamping assembly is provided with a blind hole, the position of the blind hole is arranged corresponding to the position of the guide pin, and the guide pin is inserted into the blind hole to realize the fixing effect on the sheet stock clamping assembly.

The sheet material overturning and processing mechanism further comprises a material supporting frame, wherein the material supporting frame is trapezoidal, the material supporting frame is used for placing the sheet materials to be processed, a lifting air cylinder is arranged below the material supporting frame, and the lifting air cylinder is used for controlling the material supporting frame to ascend and descend.

The multifunctional composite mechanism is arranged on the machine support, a control motor is arranged on the machine support, and the control motor is used for controlling the multifunctional composite mechanism to move at any position within the range of the sheet materials to be processed.

In the laser engraving and flower marking compound machine, the laser cutting shaft assembly, the engraving shaft assembly and the flower marking shaft assembly are mounted on the multifunctional compound mechanism, so that various operation functions such as laser cutting, engraving, flower marking and the like can be provided at the same time, in the sheet material overturning and processing mechanism, the overturning motor controls the sheet material clamping assembly to overturn for 180 degrees, so that the laser cutting shaft assembly, the engraving shaft assembly and the flower marking shaft assembly on the multifunctional compound mechanism can process and operate the front and back surfaces of a sheet material to be processed, various processing operation functions can be completed on the same numerical control mechanism, manual intervention is not needed in the production and processing process, the production cost is reduced, the production efficiency is improved, and the laser engraving and flower marking compound machine is more suitable for large-scale production and processing. The invention has simple structure, easy realization, low cost and convenient popularization.

Drawings

Fig. 1 is a schematic structural diagram of a laser engraving and embossing compound machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a multifunctional compound mechanism of a laser engraving and embossing compound machine according to an embodiment of the invention.

FIG. 3 is a schematic structural diagram of a sheet turning mechanism of a laser engraving and pattern printing compound machine according to an embodiment of the invention.

FIG. 4 is a schematic diagram of a sheet holding assembly of a laser engraving and embossing compound machine according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a pressure plate of the laser engraving and embossing compound machine in the embodiment of the invention.

Detailed Description

The present embodiment is an example of a laser engraving and embossing machine, and the present invention will be described in detail below with reference to specific embodiments and accompanying drawings.

Referring to fig. 1, fig. 2 and fig. 3, a laser engraving and embossing compound machine 1000 for processing jewelry sheets is shown, which includes a multifunctional compound mechanism 100 having multiple functional axes of laser cutting, engraving and embossing, and a sheet turning and processing mechanism 200, where the multifunctional compound mechanism 100 includes a laser cutting shaft assembly 110, an engraving shaft assembly 120 and an embossing shaft assembly 130, and a spindle switching cylinder 140 for controlling the switching of the engraving shaft assembly 120 and the embossing shaft assembly 130; the sheet material overturning processing mechanism 200 comprises a sheet material clamping assembly 210 and an overturning motor 220 for overturning the sheet material clamping assembly 210; the sheet material turning mechanism 200 is arranged below the multifunctional compound mechanism 100, and the laser cutting shaft assembly 110, the engraving shaft assembly 120 and the batch flower shaft assembly 130 of the multifunctional compound mechanism 100 are used for processing the sheet material clamped by the sheet material turning mechanism 200; the laser cutting shaft assembly 110 is used for cutting a sheet material, the main shaft switching cylinder 140 is used for switching the engraving shaft assembly 120 and the batch flower shaft assembly 130 when the sheet material is processed so as to complete different processing procedures of the sheet material, the sheet material clamping assembly 210 is used for clamping the sheet material to be processed, and the overturning motor 220 is used for controlling the sheet material clamping assembly 210 to overturn 180 degrees so as to realize processing operations of the front side and the back side of the sheet material to be processed.

Further, the multifunctional compound mechanism 100 further includes a fixed support plate 150 and a rotating support plate 160, the rotating support plate 160 is rotatably installed in the center of the fixed support plate 150, the rotating support plate 160 is fan-shaped, the rotating support plate 160 includes two radius sides and an arc-shaped side, the circle center of the arc-shaped side is the circle center of the rotating support plate 160, and the rotating support plate 160 rotates with the circle center as an axis. The engraving shaft assembly 120 and the flower carving shaft assembly 130 are fixedly arranged on two radial side edges of the rotary support plate 160 respectively, the top ends of the engraving shaft assembly 120 and the flower carving shaft assembly 130 are provided with engraving tools and flower carving tools respectively, and the engraving tools and the flower carving tools are arranged at two ends of the arc-shaped edge respectively.

Specifically, the rotating bracket plate 160 rotates to make the engraving shaft assembly 120 or the embossing shaft assembly 130 face the sheet to be processed, so as to complete the processing operation of the engraving tool or the embossing tool on the sheet to be processed.

Specifically, the sector angle, the rotation angle, the radius length, the number of the tool assemblies, the mounting sequence and the mounting position of each tool assembly of the rotating bracket plate 160 can be flexibly arranged and assembled according to the size and the functional requirements of the tool assemblies.

Further, the spindle switching cylinder 140 includes a power rod 141, the spindle switching cylinder 140 is fixedly disposed on the fixed bracket plate 150, the power rod 141 is connected to a side wall of the rotating bracket plate 160, the power rod 141 extends and retracts, so that the rotating bracket plate 160 rotates, and a maximum stroke of the power rod 141 controls a rotation angle of the rotating bracket plate 160.

Specifically, the fixed bracket plate 150 is provided with a positioning stopper for limiting the rotation angle of the rotating bracket plate 160.

Further, the rotating bracket plate 160 further includes an additional bracket plate 170, the additional bracket plate 170 is mounted on the side of the rotating bracket plate 160 in parallel, and the additional bracket plate 170 rotates along with the rotating bracket plate 160; the laser cutting shaft assembly 110 comprises a laser cutting shaft and a laser cutting control cylinder, the laser cutting shaft is provided with a telescopic laser cutting head, and the laser cutting control cylinder is used for controlling the extension or contraction of the laser cutting head; the laser cutting shaft and the laser cutting control cylinder are respectively installed on the front and back surfaces of the additional support plate 170.

Specifically, the laser cutting shaft assembly 110 and the engraving shaft assembly 120 are arranged in parallel, and when the engraving shaft assembly 120 works, the laser cutting control cylinder contracts to retract the laser cutting head; when the laser cutting shaft assembly 110 works, the laser cutting control cylinder controls the laser cutting head to extend out, and the cutting work of the sheet material is completed.

Further, referring to fig. 4, the sheet material clamping assembly 210 is shown, the sheet material clamping assembly 210 includes a material supporting plate 211 for placing the sheet material, a material pressing plate 212 for pressing the sheet material, and a pressing cylinder 213, the material supporting plate 211 is a rectangular frame, the material pressing plate 212 is in a long strip shape, the material pressing plate 212 is disposed on two side edges of the material supporting plate 211 in the length direction, and the pressing cylinder 213 is used for clamping the material pressing plate 212 to fix the sheet material to be processed.

Further, referring to fig. 5, the material pressing plate 212 is shown, the cross section of the material pressing plate 212 is a right triangle, the material pressing plate 212 has two perpendicular right-angle surfaces, the two right-angle surfaces intersect at a right-angle ridge, the two sides of the two right-angle surfaces are respectively provided with the pressing cylinder 213 and the material pressing spring, and the pressing cylinder 213 and the material pressing spring make the material pressing plate 212 rotate around the right-angle ridge. The two right-angle surfaces comprise a first right-angle surface 2121 and a second right-angle surface 2122, the pressing cylinder 213 is arranged on the outer side surface of the first right-angle surface 2121, the second right-angle surface 2122 faces the retainer plate 211, the pressing springs are arranged at two ends of the second right-angle surface 2122, and the pressing cylinder 213 controls the pressing plate 212 to clamp the sheet material to be processed.

Specifically, the pressing cylinder 213 pushes the first right-angle surface 2121 to rotate the pressing plate 212 around the right-angle ridge, and the second right-angle surface 2122 presses the sheet to be processed on the retainer plate 211; when the sheet material to be processed needs to be loosened, the pressing cylinder 213 loosens the pressing plate 212, the pressing spring lifts the pressing plate 212, and the sheet material to be processed is loosened.

Specifically, the inclined plane opposite to the right-angled ridge line is in a concave arc shape.

Specifically, the pressure plates 212 and the pressing cylinders 213 on both sides of the retainer plate 211 in the length direction are symmetrically disposed.

Further, one end of the sheet material clamping assembly 210 is provided with the turning motor 220 and a rotating base 221, and the other end is provided with a fixing cylinder 250 and a latch plate 260, the sheet material clamping assembly 210 is fixedly mounted on the rotating base 221, and the turning motor 220 controls the rotating base 221 to rotate so as to drive the sheet material clamping assembly 210 to turn; the fixed cylinder 250 is arranged on a machine bracket, the latch plate 260 is arranged at the tail end of the fixed cylinder 250 and moves under the pushing of the fixed cylinder 250; a guide pin 261 is arranged on the outer side of the latch plate 260, a blind hole is formed in the outer side of the sheet stock clamping component 210, the position of the blind hole corresponds to the position of the guide pin 261, and the guide pin 261 is inserted into the blind hole, so that the fixing effect on the sheet stock clamping component 210 is realized.

Further, the sheet material turning mechanism 200 further comprises a material support frame 230, wherein the material support frame 230 is trapezoidal, the material support frame 230 is used for placing a sheet material to be processed, a lifting cylinder 240 is arranged below the material support frame 230, and the lifting cylinder 240 is used for controlling the material support frame 230 to ascend and descend.

Specifically, when processing a sheet, the lifting cylinder 240 lifts the material holder 230 to hold the sheet, thereby preventing the sheet from being deformed by applying pressure during the processing operation of the laser cutting shaft assembly 110, the engraving shaft assembly 120, and the engraving shaft assembly 130.

Specifically, when the sheet material clamping assembly 210 is turned over, the lifting cylinder 240 descends to move the material support frame 230 downwards, the turning motor 220 controls the sheet material clamping assembly 210 to turn over by 180 degrees, and after the turning is completed, the lifting cylinder 240 ascends to enable the material support frame 230 to tightly support the sheet material to be processed again, so as to complete the processing operation of the back side of the sheet material.

Further, the multifunctional compound mechanism 100 is mounted on a machine support (not shown), and a control motor is mounted on the machine support and used for controlling the multifunctional compound mechanism 100 to move at any position within the range of the sheet materials to be processed.

In the laser engraving and embossing compound machine 1000, the laser cutting shaft assembly 110, the engraving shaft assembly 120 and the embossing shaft assembly 130 are mounted on the multifunctional compound mechanism 100, so that various operation functions such as laser cutting, engraving and embossing can be provided at the same time, in the sheet material overturning and processing mechanism 200, the overturning motor 220 controls the sheet material clamping assembly 210 to overturn 180 degrees, so that the laser cutting shaft assembly 110, the engraving shaft assembly 120 and the embossing shaft assembly 130 on the multifunctional compound mechanism 100 can process the front and back surfaces of a sheet material to be processed, thereby realizing the completion of various processing operation functions on the same numerical control mechanism, and the production and processing process does not need manual intervention, thereby reducing the production cost, improving the production efficiency and being more suitable for large-scale production and processing. The invention has simple structure, easy realization, low cost and convenient popularization.

It should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention, and those skilled in the art can make various modifications and changes. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A laser engraving and pattern marking compound machine is used for processing jewelry sheet materials and is characterized by comprising a multifunctional compound mechanism and a sheet material overturning and processing mechanism, wherein the multifunctional compound mechanism comprises a laser cutting shaft assembly, an engraving shaft assembly, a pattern marking shaft assembly and a main shaft switching air cylinder, and the main shaft switching air cylinder controls the engraving shaft assembly and the pattern marking shaft assembly to be switched; the multifunctional composite mechanism further comprises a fixed support plate and a rotating support plate, wherein the rotating support plate is rotatably arranged in the center of the fixed support plate and is fan-shaped, the rotating support plate comprises two radius side edges and an arc edge, the circle center of the arc edge is the circle center of the rotating support plate, and the rotating support plate rotates by taking the circle center as a shaft; the main shaft switching cylinder comprises a power rod, the main shaft switching cylinder is fixedly arranged on the fixed support plate, the power rod is connected to the side wall of the rotating support plate, the power rod stretches out and draws back to enable the rotating support plate to rotate, and the maximum stroke of the power rod controls the rotating angle of the rotating support plate; the rotary support plate also comprises an additional support plate, the additional support plate is arranged on the side surface of the rotary support plate in parallel, and the additional support plate rotates along with the rotary support plate; the sheet material overturning and processing mechanism comprises a sheet material clamping assembly and an overturning motor for overturning the sheet material clamping assembly; the sheet material clamping assembly comprises a material supporting plate for placing the sheet material, a material pressing plate for pressing the sheet material and a pressing cylinder, the material supporting plate is a rectangular frame body, the material pressing plate is in a long strip shape, the material pressing plate is arranged on two side edges of the material supporting plate in the length direction, and the pressing cylinder is used for clamping the material pressing plate so as to fix the sheet material to be processed; the sheet material overturning and processing mechanism is arranged below the multifunctional composite mechanism, and the laser cutting shaft assembly, the engraving shaft assembly and the batch pattern shaft assembly of the multifunctional composite mechanism are used for processing the sheet material clamped by the sheet material overturning and processing mechanism; the laser cutting shaft assembly is used for cutting a sheet material, the main shaft switching cylinder is used for switching the engraving shaft assembly and the pattern marking shaft assembly when the sheet material is processed so as to finish different processing procedures on the sheet material, the sheet material clamping assembly is used for clamping the sheet material to be processed, and the overturning motor is used for controlling the sheet material clamping assembly to overturn for 180 degrees so as to realize processing operation on the front side and the back side of the sheet material to be processed.

2. The laser engraving and embossing compound machine as claimed in claim 1, wherein said engraving shaft assembly and said embossing shaft assembly are fixedly installed on two of said radial sides of said rotary supporting plate respectively, the top ends of said engraving shaft assembly and said embossing shaft assembly are respectively provided with an engraving cutter and an embossing cutter, and said engraving cutter and said embossing cutter are respectively installed on two ends of said arc-shaped edge.

3. The laser engraving and embossing compound machine as claimed in claim 1, wherein the laser cutting shaft assembly comprises a laser cutting shaft and a laser cutting control cylinder, the laser cutting shaft is provided with a telescopic laser cutting head, and the laser cutting control cylinder is used for controlling the extension or contraction of the laser cutting head; the laser cutting shaft and the laser cutting control cylinder are respectively arranged on the front surface and the back surface of the additional support plate.

4. The laser engraving and embossing compound machine as claimed in claim 1, wherein the cross section of the pressure plate is a right triangle, the pressure plate has two perpendicular right-angle surfaces, the two right-angle surfaces intersect at a right-angle ridge line, the two right-angle surfaces are respectively provided with the pressure cylinder and the pressure spring on two sides, and the pressure cylinder and the pressure spring make the pressure plate rotate around the right-angle ridge line; the two right-angle surfaces comprise a first right-angle surface and a second right-angle surface, the pressing cylinder is arranged on the outer side surface of the first right-angle surface, the second right-angle surface faces the material supporting plate, the material pressing springs are arranged at two ends of the second right-angle surface, and the pressing cylinder controls the material pressing plate to clamp the material to be processed.

5. The laser engraving and batch printing compound machine as claimed in claim 1, wherein one end of said sheet material clamping assembly is provided with said turning motor and a rotary base, and the other end is provided with a fixed cylinder and a latch plate, said sheet material clamping assembly is fixedly mounted on said rotary base, said turning motor controls said rotary base to rotate to drive said sheet material clamping assembly to turn; the fixed cylinder is arranged on the machine support, and the bolt plate is arranged at the tail end of the fixed cylinder and moves under the pushing of the fixed cylinder; the outer side of the plug pin plate is provided with a guide pin, the outer side of the sheet stock clamping assembly is provided with a blind hole, the position of the blind hole is arranged corresponding to the position of the guide pin, and the guide pin is inserted into the blind hole to realize the fixing effect on the sheet stock clamping assembly.

6. The laser engraving and embossing compound machine as claimed in claim 1, wherein said sheet material turning mechanism further comprises a material supporting frame, said material supporting frame is trapezoidal, said material supporting frame is used for placing the sheet material to be machined, a lifting cylinder is arranged below said material supporting frame, and said lifting cylinder is used for controlling the lifting and descending of said material supporting frame.

7. The laser engraving and embossing compound machine as claimed in claim 1, further comprising a machine support, wherein said multifunctional compound mechanism is mounted on said machine support, a control motor is mounted on said machine support, and said control motor is used for controlling said multifunctional compound mechanism to move at any position within the range of the sheet material to be processed.