CN112427743A - Multi-axis linkage high-precision engraving equipment based on industrial automation and engraving method thereof - Google Patents

Abstract

The invention provides multi-shaft linkage high-precision engraving equipment based on industrial automation and an engraving method thereof, and relates to the field of industrial automation, which comprises an installation shell and an engraving mechanism, wherein a limiting cross rod and a serial row column are internally connected to limit waste scraps generated when a pipe body is contacted with a nicking tool to fly out of the device, in the integral operation process of the device, an adhesive solvent is placed in an inner cavity of an inner clamping groove, the waste scraps thrown out by centrifugal force are adhered to the surface of the adhesive solvent, the adhesive solvent is taken out from the inner cavity of the inner clamping groove after processing is finished, the adhesive solvent is filled into a cylinder engraving groove to be paved after being formed and cooled, the position interval adjustment of the nicking tool can be carried out, when three cutter bodies of the adjustment nicking tool and two cutter bodies of the fixed nicking tool are adjusted to be parallel, the engraving overlap ratio of the nicking tool to the outer ring of the cylinder is increased, the cutter bodies of the nicking tool and the two cutter bodies of, the nicking tool can carve the width of arranging and integrating the cutter body of the outer cylinder body.

Description

Multi-axis linkage high-precision engraving equipment based on industrial automation and engraving method thereof

Technical Field

The invention relates to the field of industrial automation, in particular to multi-axis linkage high-precision engraving equipment based on industrial automation and an engraving method thereof.

Background

Industrial automation is a process of controlling various parameters in industrial production to control various processes, and it is called industrial automation that the whole industrial production can fully utilize energy sources other than animals and various information to perform production work by reducing human power operations as much as possible, and the process of industrial automation is called industrial automation.

In-process of industrial automation, tubular product is indispensable material component, carries out glyptic in-process to tubular product, and engraving device is indispensable equipment, and engraving device that exists on the existing market mostly does not possess axle linkage structure, can't carry out the unable make full use of's of high accuracy sculpture and tubular product sweeps problem to tubular product outer wall.

In order to solve the problems, the multi-axis linkage high-precision engraving equipment and the engraving method thereof based on industrial automation are provided.

Disclosure of Invention

The invention aims to provide multi-axis linkage high-precision engraving equipment based on industrial automation and an engraving method thereof, so as to solve the technical problems.

In order to solve the technical problems, the invention adopts the following technical scheme: the multi-axis linkage high-precision engraving equipment based on industrial automation comprises an installation shell and an engraving mechanism, the mounting shell comprises a mounting ring, a mounting shell, an inner clamping groove, a through ring hole and a through hole, the mounting shell is mounted at the side end of the mounting ring, the inner cavity of the mounting shell is provided with inner clamping grooves in an arrangement manner, the outer ring at the bottom end of the mounting shell is provided with a through ring hole in an annular manner, a through hole is arranged between the through ring holes, the inner cavity of the mounting shell is provided with a carving mechanism, the engraving mechanism comprises an installation sheet, an installation shaft, a binding sheet, a series cylinder, a first engraving base cylinder and a second engraving base cylinder, the middle of the side end of the mounting piece is provided with a mounting shaft, the right end surface of the mounting piece is paved with an attaching piece, a series cylinder is annularly arranged at the right end of the mounting piece, a first engraving base cylinder is mounted on the outer ring of the series cylinder, and a second engraving base cylinder is mounted on the other side of the first engraving base cylinder;

the first carving base cylinder comprises a rotary driving cylinder, an inscribed limiting cross rod and series-connected row columns, the rotary driving cylinder is movably connected with the inscribed limiting cross rod, and the series-connected row columns are arranged between the inscribed limiting cross rods.

Preferably, the installation piece includes the lamellar body, through connection hole, driving motor and interior caulking groove, through connection hole has been seted up to the centre of lamellar body, driving motor has been seted up to the terminal surface outer lane annular array of lamellar body, interior caulking groove has been seted up to driving motor's side.

Preferably, the rotary driving cylinder comprises a driving base cylinder, an edge groove, an assembling outer cylinder, an assembling cylinder and an outer clamping ring piece, the edge groove is formed in the outer ring of the driving base cylinder, the assembling outer cylinder is installed between the driving base cylinders, the assembling cylinder is installed on the outer ring of the assembling outer cylinder, and the outer clamping ring piece is installed on the outer ring of the assembling cylinder.

Preferably, the outer clamping ring piece comprises an inner clamping plate, a fixed nicking tool and an adjusting nicking tool, the fixed nicking tool and the adjusting nicking tool are mounted on the outer ring of the inner clamping plate, and the fixed nicking tool and the adjusting nicking tool are arranged at intervals.

Preferably, the mounting shaft penetrates through the through hole and an inner cavity of the through connecting hole.

Preferably, the tandem row columns are members made of an elastomer material.

The invention provides another technical scheme that: the engraving method of the multi-axis linkage high-precision engraving equipment based on industrial automation comprises the following steps:

s1: the integral device is placed in parallel with the ground, the pipe body is sleeved on the outer ring of the installation shaft, the inner cavity wall of the installation shaft is attached to the outer ring, and the installation shaft is linked through an external rotating mechanism, so that the integral device can rotate anticlockwise under the driving of the external rotating mechanism;

s2: the driving motor drives the series cylinder to rotate clockwise, the series cylinder drives the first engraving base cylinder and the second engraving base cylinder to rotate in the same direction, and the friction speed of a contact point of the pipe body and the whole device is increased by utilizing opposite rotation directions;

s3: the internal connection limiting cross rod and the serial row columns limit waste scraps generated when the tube body is in contact with the nicking tool to fly out of the device, and in the integral operation process of the device, an adhesive solvent is placed in an inner cavity of the internal clamping groove, and the waste scraps thrown out by centrifugal force are adhered to the surface of the adhesive solvent;

s4: the position interval adjustment can be carried out on the adjusting nicking tool, when the three cutter bodies of the adjusting nicking tool and the two cutter bodies of the fixed nicking tool are adjusted to be parallel, the carving contact ratio of the nicking tool to the outer ring of the cylinder body is increased, and the cutter bodies of the adjusting nicking tool and the fixed nicking tool can be carved for multiple times at the same position;

s5: when the three cutter bodies of the adjustable nicking tool and the two cutter bodies of the fixed nicking tool are adjusted to be arranged in a crossed manner, the nicking tool can carve the width of the outer cylinder body for arranging and integrating the cutter bodies, and the length of the nicking tool can be adjusted, so that the nicking tool is controlled to adjust the positions of the outer ring of the cylinder body in different depths;

s6: and taking out the processed cylinder after the processing is finished, taking out the bonding solvent from the inner cavity of the inner clamping groove, forming and cooling the bonding solvent, and filling the bonding solvent into the engraved groove of the cylinder to be paved.

The invention has the beneficial effects that:

compared with the prior art, the invention has the following beneficial effects:

1. the invention provides multi-shaft linkage high-precision engraving equipment based on industrial automation and an engraving method thereof.A whole device is placed in parallel with the ground, a pipe body is sleeved on an outer ring of an installation shaft, the inner cavity wall of the installation shaft is attached to the outer ring, the installation shaft is linked through an external rotating mechanism, so that the whole device can rotate anticlockwise under the drive of the external rotating mechanism, a driving motor drives a series cylinder to rotate clockwise, the series cylinder drives a first engraving base cylinder and a second engraving base cylinder to rotate in the same direction, the friction speed of a contact point between the pipe body and the whole device is increased by utilizing the opposite rotating directions, and the friction force between a nicking tool and the cylinder body is increased.

2. The invention provides multi-axis linkage high-precision carving equipment based on industrial automation and a carving method thereof.A limiting cross rod is internally connected with a series-connection row column to limit scraps generated when a tube body is contacted with a carving tool to fly out of a device, an adhesive solvent is placed in an inner cavity of an inner clamping groove in the integral operation process of the device, the scraps thrown out by centrifugal force are adhered to the surface of the adhesive solvent, a processed tube body is taken out after processing is finished, the adhesive solvent is taken out from the inner cavity of the inner clamping groove, and the adhesive solvent is filled into a carving groove of the tube body to be paved after molding and cooling.

3. The invention provides multi-axis linkage high-precision engraving equipment based on industrial automation and an engraving method thereof, which can adjust the position interval of an adjusting graver, increase the engraving contact ratio of the graver to the outer ring of a cylinder when three cutter bodies of the adjusting graver and two cutter bodies of a fixed graver are adjusted to be parallel, enable the cutter bodies of the adjusting graver and the fixed graver to be capable of engraving for multiple times at the same position, and enable the graver to engrave the width of cutter body arrangement and integration of an outer cylinder when the three cutter bodies of the adjusting graver and the two cutter bodies of the fixed graver are adjusted to be arranged in a crossed manner, and adjust the length of the graver, thereby controlling the graver to perform position adjustment with different;

drawings

FIG. 1 is a schematic structural diagram of a multi-axis linkage high-precision engraving device based on industrial automation;

FIG. 2 is a schematic perspective view of the engraving mechanism of the present invention;

FIG. 3 is a schematic perspective view of the mounting housing of the present invention;

FIG. 4 is a schematic perspective view of an installation plate according to the present invention;

FIG. 5 is a schematic perspective view of the rotary driving drum of the present invention;

FIG. 6 is a perspective view of the outer clip ring of the present invention.

Reference numerals: 1. installing a shell; 11. installing a ring; 12. mounting a shell; 13. an inner clamping groove; 14. penetrating the annular hole; 15. a through hole; 2. an engraving mechanism; 21. mounting a sheet; 211. a sheet body; 212. the connecting hole is penetrated; 213. a drive motor; 214. an embedded groove is formed; 22. installing a shaft; 23. a bonding sheet; 24. a tandem drum; 25. a first engraved base cylinder; 251. rotating the driving drum; 2511. driving the base cylinder; 2512. grooving the edge; 2513. assembling an outer cylinder; 2514. an assembly cartridge; 2515. an outer clip ring; 25151. an inner clamping plate; 25152. fixing the nicking tool; 25153. adjusting the nicking tool; 252. the limiting cross rod is internally connected; 253. arranging columns in series; 26. and a second engraved base cylinder.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easily understood, the invention is further described below with reference to the specific embodiments and the attached drawings, but the following embodiments are only the preferred embodiments of the invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative efforts belong to the protection scope of the present invention.

Specific embodiments of the present invention are described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, 2, 3 and 4, the multi-axis linkage high-precision engraving device based on industrial automation comprises an installation shell 1 and an engraving mechanism 2, wherein the installation shell 1 comprises an installation ring 11, an installation shell 12, inner clamping grooves 13, through ring holes 14 and through holes 15, the installation shell 12 is installed at the side end of the installation ring 11, the inner clamping grooves 13 are arranged in the inner cavity of the installation shell 12, the through ring holes 14 are annularly formed in the outer ring of the bottom end of the installation shell 12, the through holes 15 are formed between the through ring holes 14, the engraving mechanism 2 is installed in the inner cavity of the installation shell 12, the engraving mechanism 2 comprises an installation plate 21, an installation shaft 22, a joint plate 23, a series cylinder 24, a first engraving base cylinder 25 and a second engraving base cylinder 26, an installation shaft 22 is installed in the middle of the side end of the installation plate 21, the installation plate 21 comprises a plate body 211, a through connection hole 212, a driving motor 213 and an embedded, the end face outer ring annular array of the sheet body 211 is provided with a driving motor 213, the side end of the driving motor 213 is provided with an inner caulking groove 214, the right end face of the mounting sheet 21 is paved with an engaging sheet 23, the right end of the mounting sheet 21 is annularly provided with a series cylinder 24, the outer ring of the series cylinder 24 is provided with a first carving base cylinder 25, the other side of the first carving base cylinder 25 is provided with a second carving base cylinder 26, the whole device is placed in parallel with the ground, the pipe body is sleeved on the outer ring of the mounting shaft 22, the mounting shaft 22 penetrates through the through hole 15 and the inner cavity penetrating through the connecting hole 212, the inner cavity wall of the mounting shaft 22 is engaged with the inner cavity wall, the mounting shaft 22 is linked through an external rotating mechanism, the whole device can rotate anticlockwise under the driving of the external rotating mechanism, the driving motor 213 drives the series cylinder 24 to rotate clockwise, the first carving base cylinder 25, the friction speed of the contact point of the pipe body and the whole device is increased by utilizing the opposite rotating directions, and the friction force between the nicking tool and the cylinder is increased.

Example 2

As shown in fig. 5 and 6, based on the multi-axis linkage high-precision engraving apparatus of industrial automation, the first engraving base cylinder 25 comprises a rotary driving cylinder 251, an internal connection limiting crossbar 252 and a series connection row column 253, the rotary driving cylinders 251 are movably connected through the internal connection limiting crossbar 252, the rotary driving cylinder 251 comprises a driving base cylinder 2511, an edge slot 2512, an assembly outer cylinder 2513, an assembly cylinder 2514 and an outer clamping ring piece 2515, the outer ring of the driving base cylinder 2511 is provided with the edge slot 2512, the assembly outer cylinder 2513 is arranged between the driving base cylinders 2511, the assembly cylinder 2514 is arranged on the outer ring of the assembly outer cylinder 2514, the series connection row column 253 is arranged between the internal connection limiting crossbars 252, the series connection row column 253 is a member made of synthetic rubber material, the internal connection limiting crossbar 252 and the series connection row column 253 limit the flying out of the scraps generated when the pipe body contacts with the graver, and in the process of the whole operation of the device, an adhesive solvent is placed in the inner cavity of the inner clamping groove 13, scraps thrown out by centrifugal force are adhered to the surface of the adhesive solvent, the processed cylinder body is taken out after the processing is finished, the adhesive solvent is taken out from the inner cavity of the inner clamping groove 13, and the adhesive solvent is formed, cooled and filled into the engraving groove of the cylinder body to be paved.

Example 3

As shown in fig. 6, in the multi-axis linkage high-precision engraving apparatus based on industrial automation, the outer clamping ring 2515 includes an inner clamping plate 25151, a fixed graver 25152 and an adjusting graver 25153, the outer ring of the inner clamping plate 25151 is provided with the fixed graver 25152 and the adjusting graver 25153, the fixed graver 25152 and the adjusting graver 25153 are arranged at intervals, the position interval of the adjusting graver 25153 can be adjusted, when three sets of knife bodies of the adjusting graver 25153 and two sets of knife bodies of the fixed graver 25152 are adjusted to be parallel, the engraving contact ratio of the graver to the outer ring of the cylinder is increased, the knife bodies of the two sets can be engraved for multiple times at the same position, when three sets of knife bodies of the adjusting graver 25153 and two sets of knife bodies of the fixed graver 25152 are adjusted to be arranged in a crossed manner, the graver can engrave the width of the knife body arrangement and the length of the

In order to better show the engraving method of the multi-axis linkage high-precision engraving device based on industrial automation, the embodiment now provides the engraving method of the multi-axis linkage high-precision engraving device based on industrial automation, which comprises the following steps:

s1: the integral device is placed in parallel with the ground, the pipe body is sleeved on the outer ring of the mounting shaft 22, the inner cavity wall of the mounting shaft 22 is attached to the outer ring, and the mounting shaft 22 is linked through an external rotating mechanism, so that the integral device can rotate anticlockwise under the driving of the external rotating mechanism;

s2: the driving motor 213 drives the series cylinder 24 to rotate clockwise, the series cylinder 24 drives the first engraving base cylinder 25 and the second engraving base cylinder 26 to rotate in the same direction, and the friction speed of the contact point of the pipe body and the whole device is increased by utilizing the opposite rotation directions;

s3: the internal connection limiting cross rod 252 and the serial row columns 253 limit scraps generated when the pipe body is contacted with the nicking tool to fly out of the device, and in the integral operation process of the device, an adhesive solvent is placed in an inner cavity of the inner clamping groove 13, and the scraps thrown out due to centrifugal force are adhered to the surface of the adhesive solvent;

s4: the position interval of the adjustable nicking tool 25153 can be adjusted, when three cutter bodies of the adjustable nicking tool 25153 and two cutter bodies of the fixed nicking tool 25152 are adjusted to be parallel, the carving contact ratio of the nicking tool to the outer ring of the cylinder body is increased, and the cutter bodies of the adjustable nicking tool and the fixed nicking tool can be carved for multiple times at the same position;

s5: when the three cutter bodies of the adjusting nicking tool 25153 and the two cutter bodies of the fixed nicking tool 25152 are adjusted to be arranged in a crossed manner, the nicking tool can carve the width of the outer cylinder body for cutter body arrangement and integration, and the length of the nicking tool can be adjusted, so that the nicking tool is controlled to adjust the positions of the outer ring of the cylinder body in different depths;

s6: and after the processing is finished, taking out the processed cylinder, taking out the bonding solvent from the inner cavity of the inner clamping groove 13, forming and cooling the bonding solvent, and filling the bonding solvent into the engraved groove of the cylinder to be paved.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. Multiaxis linkage high accuracy sculpture equipment based on industrial automation, including installation shell (1) and sculpture mechanism (2), its characterized in that: the mounting structure is characterized in that the mounting shell (1) comprises a mounting ring (11), a mounting shell (12), an inner clamping groove (13), a through ring hole (14) and a through hole (15), the mounting shell (12) is mounted at the side end of the mounting ring (11), the inner clamping groove (13) is arranged in the inner cavity of the mounting shell (12), the through ring hole (14) is annularly formed in the outer ring of the bottom end of the mounting shell (12), the through hole (15) is formed between the through ring holes (14), the inner cavity of the mounting shell (12) is provided with the engraving mechanism (2), the engraving mechanism (2) comprises a mounting sheet (21), a mounting shaft (22), a binding sheet (23), a series cylinder (24), a first engraving base cylinder (25) and a second engraving base cylinder (26), the mounting shaft (22) is mounted in the middle of the side end of the mounting sheet (21), and the binding sheet (23) is laid on the right end surface of, a series cylinder (24) is annularly arranged at the right end of the mounting piece (21), a first carving base cylinder (25) is mounted on the outer ring of the series cylinder (24), and a second carving base cylinder (26) is mounted on the other side of the first carving base cylinder (25);

the first carving base cylinder (25) comprises a rotary driving cylinder (251), an internal connection limiting cross rod (252) and serial row columns (253), the rotary driving cylinders (251) are movably connected through the internal connection limiting cross rod (252), and the serial row columns (253) are arranged and installed between the internal connection limiting cross rods (252).

2. The industrial automation based multi-axis linkage high precision engraving device of claim 1, wherein: installation piece (21) include lamellar body (211), through connection hole (212), driving motor (213) and embedded groove (214), through connection hole (212) have been seted up to the centre of lamellar body (211), driving motor (213) have been seted up to the terminal surface outer lane annular array of lamellar body (211), embedded groove (214) have been seted up to the side of driving motor (213).

3. The industrial automation based multi-axis linkage high precision engraving device of claim 1, wherein: the rotary driving barrel (251) comprises a driving base barrel (2511), an edge groove (2512), an assembling outer barrel (2513), an assembling barrel (2514) and an outer clamping ring piece (2515), wherein the edge groove (2512) is formed in the outer ring of the driving base barrel (2511), the assembling outer barrel (2513) is installed between the driving base barrels (2511), the assembling barrel (2514) is installed in the outer ring of the assembling outer barrel (2513), and the outer clamping ring piece (2515) is installed in the outer ring of the assembling barrel (2514).

4. The industrial automation based multi-axis linkage high precision engraving device of claim 1, wherein: the outer clamping ring piece (2515) comprises an inner clamping plate (25151), a fixed nicking tool (25152) and an adjusting nicking tool (25153), wherein the fixed nicking tool (25152) and the adjusting nicking tool (25153) are installed on the outer ring of the inner clamping plate (25151), and the fixed nicking tool (25152) and the adjusting nicking tool (25153) are arranged at intervals.

5. The industrial automation based multi-axis linkage high precision engraving device of claim 1, wherein: the mounting shaft (22) penetrates through the through hole (15) and an inner cavity of the through connecting hole (212).

6. The industrial automation based multi-axis linkage high precision engraving device of claim 1, wherein: the tandem row of columns (253) is a member made of an elastomer material.

7. The engraving method based on the industrial automation multi-axis linkage high-precision engraving equipment as claimed in any one of claims 1 to 6, characterized in that: the method comprises the following steps:

s1: the integral device is placed in parallel with the ground, the pipe body is sleeved on the outer ring of the mounting shaft (22), the inner cavity wall of the mounting shaft (22) is attached to the pipe body, and the mounting shaft (22) is linked through an external rotating mechanism, so that the integral device can rotate anticlockwise under the driving of the external rotating mechanism;

s2: the driving motor (213) drives the series cylinder (24) to rotate clockwise, the series cylinder (24) drives the first carving base cylinder (25) and the second carving base cylinder (26) to rotate in the same direction, and the friction speed of the contact point of the pipe body and the whole device is increased by utilizing the opposite rotating directions;

s3: the internal connection limiting cross rod (252) and the serial row columns (253) limit scraps generated when the pipe body is contacted with the nicking tool to fly out of the device, and in the integral operation process of the device, an adhesive solvent is placed in an inner cavity of the internal clamping groove (13), and the scraps thrown out due to centrifugal force are adhered to the surface of the adhesive solvent;

s4: the position interval of the adjusting nicking tool (25153) can be adjusted, when three cutter bodies of the adjusting nicking tool (25153) and two cutter bodies of the fixed nicking tool (25152) are adjusted to be parallel, the carving contact ratio of the nicking tool to the outer ring of the cylinder body is increased, and the cutter bodies of the adjusting nicking tool and the fixed nicking tool can be carved for multiple times at the same position;

s5: when three cutter bodies of the adjusting nicking tool (25153) and two cutter bodies of the fixed nicking tool (25152) are adjusted to be arranged in a crossed manner, the nicking tool can carve the width of the outer cylinder body for arranging and integrating the cutter bodies, and the length of the nicking tool can be adjusted, so that the nicking tool is controlled to adjust the positions of the outer ring of the cylinder body in different depths;

s6: and after the processing is finished, taking out the processed cylinder, taking out the bonding solvent from the inner cavity of the inner clamping groove (13), forming and cooling the bonding solvent, and filling the bonding solvent into the engraved groove of the cylinder to be paved.

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