CN113135060A - Novel processing and carving equipment for modern handicraft and using method thereof - Google Patents

Abstract

The invention discloses novel processing and carving equipment for modern artware and a using method thereof, and particularly relates to the field of carving. Above-mentioned scheme, the slip through the second slide bar drives the slip cap and slides in the surface of first slide bar, and the synchronous drive sliding plate slides to one side when first sliding block slides to one side, accomplishes vertical sculpture operation to the material by the carving tool of second locating plate bottom.

Description

Novel processing and carving equipment for modern handicraft and using method thereof

Technical Field

The invention relates to the technical field of engraving, in particular to novel processing and engraving equipment for modern artware and a using method thereof.

Background

The diamond is expensive, so that when a large number of workpieces are engraved, the diamond is quickly lost, the maintenance cost is high, and the product is high in price.

At present, in the engraving use process of artware, a plurality of engraving devices are connected to a hanger through a tool apron and can slide relative to the hanger, when a wooden flat plate is fixed on a machine table, the tool apron can move up and down, left and right on the machine table under the control of a computer program, and a tool below the tool apron is used for cutting and engraving materials, but due to the limitation of the shape of the machine table of the engraving machine and the structure of the hanger, the hanger can only move to the edge of a rectangular machine table, namely, the cutting range of the tool can only reach the edge of the machine table, auxiliary devices are needed to be modified, the engraving production efficiency is reduced, and the engraving processing cost of enterprises is increased.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, embodiments of the present invention provide a novel engraving device for modern handicraft and a method for using the same, in which a sliding sleeve is driven to slide on a surface of a first sliding rod by sliding of a second sliding rod, and when the first sliding rod slides to one side, the sliding plate is driven to slide to one side synchronously, so as to solve the problems mentioned in the above background art.

In order to achieve the purpose, the invention provides the following technical scheme that the novel processing and engraving equipment for modern artware comprises a first fixed table, wherein an installation table is fixedly installed on one side of the first fixed table, a second fixed table is connected and installed on one side of the installation table, a transverse sliding groove is formed in one side of each of the first fixed table and the second fixed table, a sliding groove abutting block is fixedly installed on one side of the transverse sliding groove, a first connecting chamber is installed inside the transverse sliding groove in a sliding mode, a second connecting chamber is fixedly connected to the top of the first connecting chamber, a longitudinal sliding table is fixedly and movably installed at the top of the second connecting chamber, and a first sliding rod longitudinal sliding groove is fixedly installed in an inner cavity of the longitudinal sliding table;

the sliding sleeve is sleeved on the surface of the first sliding rod in a sliding mode, a second sliding rod is connected and installed on one side of the sliding sleeve, a rotating wheel is installed on one side of the second sliding rod in a rotating mode, a first sliding block is sleeved on the surface of the second sliding rod in a sliding mode, a longitudinal sliding groove is fixedly installed at the top of the first sliding block in a penetrating mode, a connecting rotating plate is fixedly installed on the bottom of the first sliding block, a third sliding rod is fixedly connected to one side of the connecting rotating plate, a telescopic spring is sleeved on the surface of the third sliding rod in a movable mode, a second sliding block is sleeved on the surface of the third sliding rod in a sliding mode, and a rotary servo motor is fixed to the bottom of the second sliding block.

Preferably, the first connection chamber and the second connection chamber are communicated, the first connection chamber and the second connection chamber are in a cross-shaped structure, the number of the first connection chamber and the second connection chamber is two, the first connection chamber and the second connection chamber are symmetrically arranged inside the transverse sliding groove in a penetrating mode in a sliding mode, and the first connection chamber penetrates through the first fixing table and the second fixing table and is fixedly arranged on one side of the inside of the transverse sliding groove.

Preferably, the carving component is slidably mounted inside the longitudinal sliding groove and comprises a sliding plate, a first positioning plate and a second positioning plate, the first positioning plate is fixedly mounted at the top of the sliding plate, a supporting sliding shaft is fixedly mounted on the surface of the first positioning plate, the supporting sliding shaft penetrates through the first positioning plate and is fixedly mounted at the top of the second positioning plate, a compression spring is movably sleeved on the surface of the supporting sliding shaft, and the bottom of the sliding plate is abutted to the top of the compression spring.

Preferably, the number of the supporting sliding shafts and the compression springs is two, the supporting sliding shafts are horizontally symmetrically and fixedly mounted at the top of the second positioning plate, sliding shaft sleeves are mounted inside the sliding plate and the first positioning plate, the supporting sliding shafts are slidably mounted inside the sliding shaft sleeves, the bottom of the second positioning plate is connected with a cutter mounting sleeve, and an engraving knife is fixed at the bottom of the cutter mounting sleeve.

Preferably, the bottom of the second positioning plate is provided with a mounting hole, the cutter mounting sleeve is fixedly mounted inside the mounting hole, the cross section of the graver is of a rhombic structure, and the cutting edge of the graver is of a rhombic curved structure.

Preferably, the quantity of first connection bent plate, second connection bent plate and third connection bent plate is two sets of, first connection bent plate, second connection bent plate and third connection bent plate are the installation of symmetry form, first connection bent plate, second connection bent plate and third connection bent plate rotate in the one side of second connection chamber inner chamber, one side of axis of rotation is rotated and is installed in one side of the first connection chamber inner chamber of first fixed station one side, the top of third connection bent plate is seted up with connecting pin axle assorted trepanning, connecting pin axle fixed mounting is in telescopic inside.

Preferably, one side fixed mounting of vertical slip table has the supporting shoe, one side fixed mounting of supporting shoe has connecting pin axle.

Preferably, the inner chamber fixed mounting of second connection chamber has driving motor, driving motor's output rotates and installs the axis of rotation, the surface of axis of rotation rotates and has cup jointed first connection bent plate, one side swing joint of first connection bent plate has the second to connect the bent plate, one side sliding connection of second connection bent plate has the third to connect the bent plate, the fixed stopper that has cup jointed in surface of axis of rotation, the top of second connection chamber has been seted up and has been swayd the spout

The use method of the novel processing and carving equipment for modern handicraft comprises the following steps:

s1: the material is carved by a carving knife at the top of the mounting table, when the material needs to be transversely carved in the transverse carving process, a rotary servo motor is started to work, the output end of the rotary servo motor rotates to drive a second sliding block to rotate, and the second sliding block rotates to drive a third sliding rod to slide in the second sliding block;

s2: when the third sliding rod slides, the second sliding block is driven to generate a rotating force towards one side, the telescopic spring is abutted against one side of the second sliding block to carry out telescopic limit, when the third sliding rod rotates, the third sliding rod is driven to rotate to drive the connecting rotating plate on one side to rotate, the connecting rotating plate rotates to drive the first sliding block to rotate towards one side, the first sliding block rotates to drive the second sliding rod to slide in the first sliding block, and the second sliding rod is driven to slide towards one side, when the second sliding rod slides to one side, the second sliding rod slides in the rectangular sliding groove at one side of the inner cavity of the first sliding rod through the rotating wheel, the sliding sleeve is driven to slide on the surface of the first sliding rod through the sliding of the second sliding rod, when the first sliding block slides to one side, the sliding plate is synchronously driven to slide to one side, and the carving knife at the bottom of the second positioning plate finishes the longitudinal carving operation on the material;

s3: when inclination needs to be adjusted in the material sculpture, start driving motor and carry out work, driving motor's output rotates and drives rotation axial one side rotation, drive two sets of first connection bent plate opposite direction synchronous motion, two sets of first connection bent plates rotate to one side and drive the second and connect the bent plate and rotate to one side, the second is connected the bent plate pivoted and is driven the third and connect the bent plate and rotate to one side simultaneously, the third is connected the bent plate and is driven the connecting pin axle and drive vertical slip table along the inside slip of rocking the spout and push up the slope to one side and then accomplish inclination's regulation.

Preferably, in step S2, during the sliding of the sliding plate to one side for reciprocating, the supporting sliding shaft slides in the inner sliding shaft sleeves of the second positioning plate and the sliding plate, and one side of the sliding plate is driven to abut against the top of the compression spring, and the compression spring is compressed to one side of the sliding plate to perform limit protection during the longitudinal carving movement.

The invention has the technical effects and advantages that:

1. in the scheme, the sliding sleeve is driven to slide on the surface of the first sliding rod through the sliding of the second sliding rod, when the first sliding block slides to one side, the sliding plate is synchronously driven to slide to one side, and the carving knife at the bottom of the second positioning plate finishes the longitudinal carving operation on the material;

2. in the scheme, the second connecting curved plate rotates and simultaneously drives the third connecting curved plate to rotate to one side, and the third connecting curved plate drives the connecting pin shaft to slide along the inner part of the swinging sliding chute to drive the longitudinal sliding table to push and incline to one side so as to complete the adjustment of the inclination angle;

3. in the above scheme, the graver is further arranged to be of a diamond-shaped structure in cross section, and the cutting edge is of a diamond-shaped curved surface structure, so that the service life of the graver can be effectively ensured in the actual engraving operation, and the graver is applicable to various types of process engraving and is beneficial to popularization and use.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of an internal structure of the longitudinal sliding table according to the present invention;

FIG. 3 is an enlarged schematic view of the present invention at A of FIG. 1;

FIG. 4 is a schematic view of the longitudinal linkage structure of the present invention;

FIG. 5 is a schematic side view of the longitudinal slide table of the present invention;

FIG. 6 is a schematic cross-sectional view of a second connecting chamber according to the present invention;

FIG. 7 is a schematic view of the tilting linkage structure of the present invention.

The reference signs are:

1. a first fixed table; 2. an installation table; 3. a second stationary stage; 4. a transverse chute; 5. a sliding chute resisting block; 6. a first connection chamber; 7. a second connection chamber; 8. a longitudinal sliding table; 9. an engraving assembly; 71. a drive motor; 72. a rotating shaft; 73. a first connecting curved plate; 74. a second connecting curved plate; 75. a third connecting curved plate; 76. a limiting block; 77. a swinging chute; 81. a longitudinal chute; 82. a first slide bar; 83. a support block; 84. connecting a pin shaft; 91. a sliding plate; 92. a first positioning plate; 93. a second positioning plate; 94. a support slide shaft; 95. a compression spring; 96. a cutter mounting sleeve; 97. a graver; 821. a sliding sleeve; 822. a second slide bar; 823. a rotating wheel; 824. a first slider; 825. connecting the rotating plate; 826. a third slide bar; 827. a tension spring; 828. a second slider; 829. a rotary servo motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides a novel processing and engraving device for modern artware as shown in the attached drawings 1 to 7, which comprises a first fixed table 1, wherein an installation table 2 is fixedly installed on one side of the first fixed table 1, a second fixed table 3 is connected and installed on one side of the installation table 2, a transverse sliding groove 4 is formed in one side of each of the first fixed table 1 and the second fixed table 3, a sliding groove abutting block 5 is fixedly installed on one side of the transverse sliding groove 4, a first connecting chamber 6 is slidably installed in the transverse sliding groove 4, a second connecting chamber 7 is fixedly connected to the top of the first connecting chamber 6, a longitudinal sliding table 8 is fixedly and movably installed on the top of the second connecting chamber 7, and a first sliding rod 82 and a longitudinal sliding groove 81 are fixedly installed in an inner cavity of the longitudinal sliding table 8;

a sliding sleeve 821 is sleeved on the surface of the first sliding rod 82 in a sliding manner, a second sliding rod 822 is connected and installed on one side of the sliding sleeve 821, a rotating wheel 823 is installed on one side of the second sliding rod 822 in a rotating manner, a first sliding block 824 is sleeved on the surface of the second sliding rod 822 in a sliding manner, one side of the sliding plate 91 penetrates through the longitudinal sliding groove 81 and is fixedly installed on the top of the first sliding block 824, a connecting rotating plate 825 is fixedly installed at the bottom of the first sliding block 824, a third sliding rod 826 is fixedly connected on one side of the connecting rotating plate 825, a telescopic spring 827 is movably sleeved on the surface of the third sliding rod 826, a second sliding block 828 is sleeved on the surface of the third sliding rod 826 in a sliding manner, and a rotating servo motor 829 is fixed at the bottom of the second sliding block 828;

first linkage chamber 6 and second linkage chamber 7 link up mutually, and first linkage chamber 6 and second linkage chamber 7 are "ten" column structure, and the quantity of first linkage chamber 6 and second linkage chamber 7 is two sets of, and first linkage chamber 6 and second linkage chamber 7 are the inside of symmetry form slidable mounting in horizontal spout 4 that runs through, and first linkage chamber 6 runs through first fixed station 1 and second fixed station 3 fixed mounting in the inside one side of horizontal spout 4.

The engraving assembly 9 is slidably mounted inside the longitudinal sliding groove 81, the engraving assembly 9 comprises a sliding plate 91, a first positioning plate 92 and a second positioning plate 93, the first positioning plate 92 is fixedly mounted at the top of the sliding plate 91, a supporting sliding shaft 94 is fixedly mounted on the surface of the first positioning plate 92, the supporting sliding shaft 94 penetrates through the first positioning plate 92 and is fixedly mounted at the top of the second positioning plate 93, a compression spring 95 is movably sleeved on the surface of the supporting sliding shaft 94, and the bottom of the sliding plate 91 is abutted to the top of the compression spring 95;

the number of the supporting sliding shafts 94 and the compression springs 95 is two, the supporting sliding shafts 94 are horizontally and symmetrically fixedly mounted at the top of the second positioning plate 93, sliding shaft sleeves are mounted inside the sliding plate 91 and the first positioning plate 92, the supporting sliding shafts 94 are slidably mounted inside the sliding shaft sleeves, the bottom of the second positioning plate 93 is connected with a cutter mounting sleeve 96, and the bottom of the cutter mounting sleeve 96 is fixed with an engraving knife 97;

the number of the first connecting curved plates 73, the second connecting curved plates 74 and the third connecting curved plates 75 is two, the first connecting curved plates 73, the second connecting curved plates 74 and the third connecting curved plates 75 are symmetrically arranged, the first connecting curved plates 73, the second connecting curved plates 74 and the third connecting curved plates 75 are rotatably arranged on one side of an inner cavity of the second connecting chamber 7, one side of the rotating shaft 72 is rotatably arranged on one side of an inner cavity of the first connecting chamber 6 on one side of the first fixing table 1, sleeve holes matched with the connecting pin shafts 84 are formed in the tops of the third connecting curved plates 75, and the connecting pin shafts 84 are fixedly arranged in the sleeves;

a supporting block 83 is fixedly installed on one side of the longitudinal sliding table 8, and a connecting pin 84 is fixedly installed on one side of the supporting block 83;

a driving motor 71 is fixedly installed in an inner cavity of the second connecting chamber 7, a rotating shaft 72 is rotatably installed at an output end of the driving motor 71, a first connecting curved plate 73 is rotatably sleeved on the surface of the rotating shaft 72, a second connecting curved plate 74 is movably connected to one side of the first connecting curved plate 73, a third connecting curved plate 75 is slidably connected to one side of the second connecting curved plate 74, a limiting block 76 is fixedly sleeved on the surface of the rotating shaft 72, and a swinging chute 77 is formed in the top of the second connecting chamber 7;

the use method of the novel processing and carving equipment for modern handicraft comprises the following steps:

s1: the first connecting chamber 6 and the second connecting chamber 7 slide in the transverse sliding chute 4, the carving knife 97 is used for carving materials on the top of the mounting table 2, when the materials need to be transversely carved, the rotary servo motor 829 is started to work, the output end of the rotary servo motor 829 rotates to drive the second sliding block 828 to rotate, and the second sliding block 828 rotates and simultaneously drives the third sliding rod 826 to slide in the second sliding block 828;

s2: when the third sliding rod 826 slides, a side-oriented rotation force is generated by the driving of the second sliding block 828, the third sliding rod 826 rotates to drive the connecting rotating plate 825 at one side to rotate through the extension spring 827, the connecting rotating plate 825 rotates to drive the first sliding block 824 to rotate at one side, the first sliding block 824 rotates to drive the second sliding rod 822 to slide in the first sliding block 824, the second sliding rod 822 slides to one side, when the second sliding rod 822 slides to one side, the rotating wheel 823 slides in the rectangular sliding groove at one side of the inner cavity of the first sliding rod 82, the sliding sleeve 821 is driven to slide on the surface of the first sliding rod 82 through the sliding of the second sliding rod 822, when the first sliding block 824 slides to one side, the sliding plate 91 is synchronously driven to slide to one side, the carving knife 97 at the bottom of the second positioning plate 93 completes the longitudinal carving operation on the material;

s3: when the material sculpture needs to adjust inclination, start driving motor 71 and work, driving motor 71's output rotates and drives the axis of rotation 72 rotatory to one side, drive two sets of first connection bent plate 73 opposite direction synchronous motion, two sets of first connection bent plates 73 rotate to one side and drive second connection bent plate 74 and rotate to one side, second connection bent plate 74 pivoted drives third connection bent plate 75 and rotates to one side simultaneously, third connection bent plate 75 drives connecting pin shaft 84 and drives vertical slip table 8 along the inside slip of rocking spout 77 and move the slope and then accomplish inclination's regulation to one side top.

In step S2, during the sliding of the sliding plate 91 to one side for reciprocating, the supporting sliding shaft 94 slides in the second positioning plate 93 and the inner sliding shaft sleeve of the sliding plate 91, and drives one side of the sliding plate 91 to abut against the top of the compression spring 95, so as to compress the compression spring 95 to one side through one side of the sliding plate 91 for limiting and protecting during the longitudinal carving movement.

As shown in fig. 3, a mounting hole is formed at the bottom of the second positioning plate 93, the cutter mounting sleeve 96 is fixedly mounted inside the mounting hole, the cross section of the graver 97 is of a diamond-shaped structure, and the cutting edge of the graver 97 is of a diamond-shaped curved surface structure.

Specifically, the graver 97 is arranged to have a rhombic structure in cross section, the cutting edge is arranged to be a rhombic curved structure, the service life of the graver 97 can be effectively guaranteed in the actual engraving operation, and the mounting hole in the ground step through the second positioning plate 93 can be used for quickly mounting and dismounting the graver 97 when the graver 97 needs to be replaced.

Finally, it should be noted that, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate relative positional relationships, and when the absolute position of the object to be described is changed, the relative positional relationships may be changed;

secondly, in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to common designs, and under the condition of no conflict, the same embodiment and different embodiments of the invention can be combined with each other;

finally, the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalents, improvements and the like which are within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A novel processing and carving device for modern artware and a using method thereof comprise a first fixed table (1), wherein one side of the first fixed table (1) is fixedly provided with an installation table (2), it is characterized in that one side of the mounting table (2) is connected with a second fixed table (3), one side of the first fixed station (1) and one side of the second fixed station (3) are provided with a transverse sliding chute (4), a sliding chute resisting block (5) is fixedly arranged on one side of the transverse sliding chute (4), a first connecting chamber (6) is arranged in the transverse sliding chute (4) in a sliding manner, the top of the first connecting chamber (6) is fixedly connected with a second connecting chamber (7), the top of the second connecting chamber (7) is fixedly and movably provided with a longitudinal sliding table (8), a first sliding rod (82) and a longitudinal sliding groove (81) are fixedly arranged in the inner cavity of the longitudinal sliding table (8);

a sliding sleeve (821) is sleeved on the surface of the first sliding rod (82) in a sliding manner, one side of the sliding sleeve (821) is connected with and provided with a second sliding rod (822), one side of the second sliding rod (822) is rotatably provided with a rotating wheel (823), the surface of the second sliding rod (822) is sleeved with a first sliding block (824) in a sliding manner, one side of the sliding plate (91) penetrates through the longitudinal sliding groove (81) and is fixedly arranged at the top of the first sliding block (824), the bottom of the first sliding block (824) is fixedly provided with a connecting rotating plate (825), a third sliding rod (826) is fixedly connected with one side of the connecting rotating plate (825), a telescopic spring (827) is movably sleeved on the surface of the third sliding rod (826), a second sliding block (828) is sleeved on the surface of the third sliding rod (826) in a sliding way, and a rotary servo motor (829) is fixed at the bottom of the second sliding block (828).

2. The novel processing and carving device for the modern handicraft articles according to claim 1, characterized in that the first connecting chamber (6) and the second connecting chamber (7) are communicated, the first connecting chamber (6) and the second connecting chamber (7) are in a cross-shaped structure, the number of the first connecting chamber (6) and the second connecting chamber (7) is two, the first connecting chamber (6) and the second connecting chamber (7) are slidably mounted inside the transverse sliding chute (4) in a symmetrical penetrating manner, and the first connecting chamber (6) penetrates through the first fixing table (1) and the second fixing table (3) and is fixedly mounted on one side inside the transverse sliding chute (4).

3. The novel processing and carving device for modern handicraft articles according to claim 1, characterized in that the carving component (9) is slidably mounted inside the longitudinal sliding groove (81), the carving component (9) comprises a sliding plate (91), a first positioning plate (92) and a second positioning plate (93), the first positioning plate (92) is fixedly mounted at the top of the sliding plate (91), a supporting sliding shaft (94) is fixedly mounted on the surface of the first positioning plate (92), the supporting sliding shaft (94) penetrates through the first positioning plate (92) and is fixedly mounted at the top of the second positioning plate (93), a compression spring (95) is movably sleeved on the surface of the supporting sliding shaft (94), and the bottom of the sliding plate (91) is abutted against the top of the compression spring (95).

4. The novel processing and carving device for the modern handicraft articles according to claim 1, characterized in that the number of the supporting sliding shafts (94) and the compression springs (95) is two, the supporting sliding shafts (94) are horizontally and symmetrically fixedly mounted on the top of the second positioning plate (93), sliding shaft sleeves are mounted inside the sliding plates (91) and the first positioning plate (92), the supporting sliding shafts (94) are slidably mounted inside the sliding shaft sleeves, a cutter mounting sleeve (96) is connected and mounted at the bottom of the second positioning plate (93), and a carving knife (97) is fixed at the bottom of the cutter mounting sleeve (96).

5. The novel processing and carving device for modern handicraft articles according to claim 4, characterized in that a mounting hole is formed in the bottom of the second positioning plate (93), the cutter mounting sleeve (96) is fixedly mounted inside the mounting hole, the cross section of the carving knife (97) is of a diamond-shaped structure, and the cutting edge of the carving knife (97) is of a diamond-shaped curved structure.

6. The novel processing and carving equipment for modern handicraft articles according to claim 1, characterized in that the number of the first connecting curved plate (73), the second connecting curved plate (74) and the third connecting curved plate (75) is two, the first connecting curved plate (73), the second connecting curved plate (74) and the third connecting curved plate (75) are symmetrically installed, the first connecting curved plate (73), the second connecting curved plate (74) and the third connecting curved plate (75) rotate at one side of the inner cavity of the second connecting chamber (7), one side of the rotating shaft (72) is rotatably installed at one side of the inner cavity of the first connecting chamber (6) at one side of the first fixing table (1), the top of the third connecting curved plate (75) is provided with a sleeve hole matched with the connecting pin shaft (84), and the connecting pin shaft (84) is fixedly installed inside the sleeve.

7. The novel processing and carving device for modern handicraft articles according to claim 1 is characterized in that a support block (83) is fixedly mounted on one side of the longitudinal sliding table (8), and a connecting pin shaft (84) is fixedly mounted on one side of the support block (83).

8. The novel processing and carving device for modern handicraft articles as claimed in claim 1, characterized in that a drive motor (71) is fixedly mounted in the inner cavity of the second connecting chamber (7), a rotating shaft (72) is rotatably mounted at the output end of the drive motor (71), a first connecting curved plate (73) is rotatably sleeved on the surface of the rotating shaft (72), a second connecting curved plate (74) is movably connected to one side of the first connecting curved plate (73), a third connecting curved plate (75) is slidably connected to one side of the second connecting curved plate (74), a limiting block (76) is sleeved on the surface of the rotating shaft (72), and a swing chute (77) is formed at the top of the second connecting chamber (7).

9. Use of a new machine engraving device for modern handicraft articles, as claimed in any one of claims 1 to 6, characterized by the following steps:

s1: the material is carved by a carving knife (97) at the top of the mounting table (2) through the first connecting chamber (6) and the second connecting chamber (7) sliding in the transverse sliding chute (4), when the material needs to be transversely carved for transverse carving, a rotary servo motor (829) is started to work, the output end of the rotary servo motor (829) rotates to drive a second sliding block (828) to rotate, and the second sliding block (828) rotates and simultaneously drives a third sliding rod (826) to slide in the second sliding block (828);

s2: when the third sliding rod (826) slides, a rotating force towards one side is generated by the driving of the second sliding block (828), the third sliding rod (826) is driven to rotate and drive the connecting rotating plate (825) at one side to rotate by the abutting of the telescopic spring (827) on one side of the second sliding block (828) for telescopic limit, the third sliding rod (826) is driven to rotate and drive the first sliding block (824) to rotate towards one side while rotating, the first sliding block (824) drives the second sliding rod (822) to slide in the first sliding block (824) to drive the second sliding rod (822) to slide towards one side, when the second sliding rod (822) slides towards one side, the second sliding rod (823) slides in the rectangular sliding groove at one side of the inner cavity of the first sliding rod (82) through the rotating wheel (823), the sliding sleeve (821) is driven to slide on the surface of the first sliding rod (82) through the sliding of the second sliding rod (822), when the first sliding block (824) slides to one side, the sliding plate (91) is synchronously driven to slide to one side, and the carving knife (97) at the bottom of the second positioning plate (93) finishes the longitudinal carving operation on the material;

s3: when inclination needs to be adjusted in the material sculpture, start driving motor (71) and carry out work, the output of driving motor (71) rotates and drives axis of rotation (72) rotatory to one side, drive two sets of first connection bent plate (73) opposite direction synchronous motion, two sets of first connection bent plate (73) rotate to one side and drive second connection bent plate (74) and rotate to one side, second connection bent plate (74) pivoted drives third connection bent plate (75) and rotates to one side simultaneously, third connection bent plate (75) drive connecting pin axle (84) drive vertical slip table (8) and push up the slope to one side along the inside slip of rocking spout (77) and then accomplish inclination's regulation.

10. The method of claim 9, wherein in step S2, during the sliding of the sliding plate (91) to one side for reciprocating, the supporting sliding shaft (94) slides in the second positioning plate (93) and the inner sliding shaft sleeve of the sliding plate (91), and one side of the sliding plate (91) is driven to abut against the top of the compression spring (95) to limit and protect the compression spring (95) from one side of the sliding plate (91) during the longitudinal carving movement.

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