CN109015585B - Automatic graphite electrode marking device and method - Google Patents

Abstract

The invention discloses an automatic graphite electrode marking device and a method thereof, wherein the automatic marking device comprises a base, two supporting plates are fixedly arranged at the top of the base, two mounting plates are slidably arranged at the top of the base, the rotating plates are rotatably arranged on the sides, close to each other, of the two mounting plates, slots are formed in the sides, close to each other, of the two rotating plates, moving grooves are formed in the sides, close to each other, of the two mounting plates, moving blocks are slidably arranged in the moving grooves, and the sides, close to each other, of the two moving blocks are respectively in contact with the sides, far away from each other, of the two rotating. The graphite electrode scribing device is convenient for clamping and fixing the graphite electrode, lifting and rotating the graphite electrode, scribing is convenient, the distance between the two scribing wheels is convenient to adjust, scribing is convenient to be carried out on different positions of the graphite electrode according to actual needs, scribing accuracy is high, manpower is saved, and working efficiency is improved.

Description

Automatic graphite electrode marking device and method

Technical Field

The invention relates to the technical field of automatic marking devices, in particular to an automatic marking device and method for a graphite electrode.

Background

The graphite electrode is a high-temperature resistant graphite conductive material which is prepared by using petroleum coke and asphalt coke as aggregates and coal pitch as an adhesive through raw material calcination, crushing and grinding, batching, mixing and kneading, molding, roasting, dipping, graphitization and machining, is called an artificial graphite electrode (graphite electrode for short) and is different from a natural graphite electrode prepared by using natural graphite as a raw material.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides an automatic graphite electrode scribing device and a method thereof.

The invention provides an automatic graphite electrode marking device, which comprises a base, wherein two supporting plates are fixedly arranged at the top of the base, two mounting plates are slidably arranged at the top of the base, rotating plates are rotatably arranged at the mutually close sides of the two mounting plates, slots are respectively arranged at the mutually close sides of the two rotating plates, moving grooves are respectively arranged at the mutually close sides of the two mounting plates, moving blocks are slidably arranged in the moving grooves, the mutually close sides of the two moving blocks are respectively contacted with the mutually far sides of the two rotating plates, air cylinders are fixedly arranged on the inner walls of the bottoms of the two moving grooves, output shafts of the two air cylinders are respectively welded with the bottoms of the two moving blocks, sliding grooves are arranged at the top of the base, two sliding blocks are slidably arranged in the sliding grooves, and the tops of the two sliding blocks are respectively welded with, the inner walls of two sides of the sliding groove are respectively and rotatably provided with a first lead screw, one side of the two first lead screws, which are close to each other, is welded, the two first lead screws are respectively in threaded connection with two sliding blocks, one side of the two supporting plates, which are close to each other, is fixedly provided with a same top plate, the top plate is positioned above the two mounting plates, the bottom of the top plate is provided with a rotating groove, two bearing blocks are slidably mounted in the rotating groove, the bottoms of the two bearing blocks extend to the lower part of the top plate and are fixedly provided with bearing seats, the bottoms of the bearing seats are provided with grooves, the grooves are rotatably provided with scribing wheels, the outer sides of the scribing wheels extend to the lower part of the bearing seats, the tops of the bearing seats are fixedly provided with inserting barrels, the inner walls of two sides of the rotating groove are respectively and rotatably provided with second lead screws, one side of the, the bearing seat is provided with a cavity, the cavity is located above the groove, the inner wall of one side, close to the groove, of the cavity is provided with a first leak hole, a sponge block is fixedly mounted in the first leak hole and is in contact with the scribing wheel, the top of the bearing seat is provided with a second leak hole, and the second leak hole is communicated with the cavity.

Preferably, first mounting grooves are formed in one side, close to each other, of each of the two moving blocks, first rotating motors are fixedly mounted on the inner wall, far away from each other, of one side of each of the two first mounting grooves, and output shafts of the two first rotating motors are welded to one side, far away from each other, of each of the two rotating plates respectively.

Preferably, one side of each of the two rotating plates, which is close to each other, is movably provided with the same graphite electrode, and the two slots are respectively connected with two ends of the graphite electrode in a clamping manner.

Preferably, a second mounting groove is formed in the inner wall of one side of the sliding groove, a second rotating motor is fixedly mounted in the second mounting groove, and an output shaft of the second rotating motor is fixedly connected with one end of one first lead screw in the two first lead screws.

Preferably, one end of the first lead screw is fixedly provided with a cylindrical block, a cylindrical groove is formed in the inner wall of one side of the sliding groove, and the cylindrical block is connected with the side wall of the cylindrical groove in a sliding mode.

Preferably, a limiting groove is formed in the inner wall of the bottom of the sliding groove, limiting blocks are fixedly mounted at the bottoms of the two sliding blocks, and the limiting blocks are connected with the side wall of the limiting groove in a sliding mode.

Preferably, first external screw thread has all been seted up in the outside of two first lead screws, and the direction of turning soon of two first external screw threads is opposite, and the second external screw thread has all been seted up in the outside of two second lead screws, and the direction of turning soon of two second external screw threads is opposite.

Preferably, a third mounting groove is formed in the inner wall of one side of the rotating groove, a third rotating motor is fixedly mounted on the inner wall of one side of the third mounting groove, and an output shaft of the third rotating motor is welded with one end of the second screw rod.

Preferably, the slide opening has been seted up at the top of roof, and fixed mounting has the slide bar in the slide opening, and slidable mounting has two sliding blocks on the slide bar, and the bottom of two sliding blocks welds mutually with the top of two bearing blocks respectively, and the equal fixed mounting in top of two sliding blocks has the pointer, and two pointers all are located the top of roof, and the top fixed mounting of roof has the scale, and two pointers all cooperate with the scale.

The invention also provides a using method of the automatic graphite electrode scribing device, which comprises the following steps:

s1: the third rotating motor is started, the two second lead screws are driven to rotate through the third rotating motor, the second external threads on the two second lead screws are opposite in rotating direction, so that the two bearing blocks can move towards opposite directions through the rotation of the two second lead screws, the two bearing blocks drive the two bearing seats to move, the two scribing wheels are driven to move towards opposite directions through the two bearing seats, and the distance between the two scribing wheels is adjusted according to the position of the graphite electrode needing scribing;

s2: when the two bearing blocks in S1 move in opposite directions, the two bearing blocks also drive the two sliding blocks to move in opposite directions, and the two sliding blocks drive the two pointers to slide on the scale;

s3: placing a graphite electrode on the top of a base, driving two first lead screws to rotate through a second rotating motor, driving two mounting plates to approach each other through the two slide blocks, driving two rotating plates to approach each other through the two mounting plates, clamping two ends of the graphite electrode into two slots at the moment, and clamping and fixing the graphite electrode through the two rotating plates;

s4: when the graphite electrode in the S3 is clamped and fixed, the two moving blocks are driven by the two cylinders to move upwards, the two moving blocks drive the two rotating plates to move, the graphite electrode is driven by the two rotating plates to move upwards, the graphite electrode is separated from the base, until the graphite electrode is contacted with the two scribing wheels, the coating bottle is inserted into the inserting barrel, the coating is along the second through hole, the cavity and the first through hole flow onto the sponge block, the two rotating plates are driven by the two first rotating motors to rotate, the graphite electrode is driven by the two rotating plates to rotate, the graphite electrode is rubbed with the scribing wheels at the moment, so that the scribing wheels extrude the sponge block, the coating on the sponge block flows onto the scribing wheels, and the graphite electrode is scribed by the two scribing wheels.

The invention has the beneficial effects that:

the third rotating motor is started through the cooperation of the top plate, the rotating groove, the bearing blocks, the bearing seats, the grooves, the scribing wheels, the inserting barrel, the second lead screws, the third rotating motor, the sliding block and the dividing ruler, the two second lead screws are driven to rotate through the third rotating motor, and because the rotating directions of the second external threads on the two second lead screws are opposite, the two bearing blocks can move towards opposite directions through the rotation of the two second lead screws, the two bearing blocks drive the two bearing seats to move, the two scribing wheels are driven to move towards opposite directions through the two bearing seats, and the distance between the two scribing wheels is adjusted according to the position of a graphite electrode needing scribing;

the graphite electrode is placed on the top of the base through the matching of the mounting plate, the rotating plates, the slots, the sliding blocks, the first lead screws and the second rotating motor, the two first lead screws are driven to rotate through the second rotating motor, the first external threads on the outer sides of the two first lead screws are opposite in rotating direction, so that the two sliding blocks can move towards the direction of mutual approaching through the rotation of the two first lead screws, the two mounting plates are driven to mutually approach through the two sliding blocks, the two rotating plates are driven to mutually approach through the two mounting plates, at the moment, the two ends of the graphite electrode are clamped into the two slots, and meanwhile, the two rotating plates clamp and fix the graphite electrode;

the coating bottle inserting device comprises rotating plates, slots, moving blocks, a first mounting groove, a first rotating motor and cylinders, wherein the two moving blocks are driven to move upwards by the two cylinders, the two moving blocks drive the two rotating plates to move, graphite electrodes are driven to move upwards by the two rotating plates, the graphite electrodes are separated from a base until the graphite electrodes are in contact with two scribing wheels, a coating bottle is inserted into the inserting cylinder, the coating flows onto a sponge block along a second through hole, a cavity and a first through hole, the two rotating plates are driven to rotate by the two first rotating motors, the graphite electrodes are driven to rotate by the two rotating plates, the graphite electrodes and the scribing wheels rub at the moment, so that the scribing wheels extrude the sponge block, the coating on the sponge block flows onto the scribing wheels, and the graphite electrodes are scribed by the two scribing wheels;

the graphite electrode scribing device is convenient for clamping and fixing the graphite electrode, lifting and rotating the graphite electrode, scribing is convenient, the distance between the two scribing wheels is convenient to adjust, scribing is convenient to be carried out on different positions of the graphite electrode according to actual needs, scribing accuracy is high, manpower is saved, and working efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of an automatic graphite electrode scribing apparatus according to the present invention;

fig. 2 is a schematic structural diagram of a portion a of an automatic graphite electrode scribing apparatus according to the present invention;

fig. 3 is a schematic structural diagram of a portion B of an automatic graphite electrode scribing apparatus according to the present invention;

fig. 4 is a schematic side view of a rotating plate of an automatic graphite electrode scribing apparatus according to the present invention;

fig. 5 is a schematic structural diagram of a portion C of an automatic graphite electrode scribing apparatus according to the present invention.

In the figure: the device comprises a base 1, a supporting plate 2, a mounting plate 3, a rotating plate 4, a slot 5, a moving groove 6, a moving block 7, a first mounting groove 8, a first rotating motor 9, a cylinder 10, a sliding groove 11, a sliding block 12, a first lead screw 13, a second rotating motor 14, a graphite electrode 15, a top plate 16, a rotating groove 17, a bearing block 18, a bearing seat 19, a groove 20, a scribing wheel 21, an inserting cylinder 22, a second lead screw 23, a third rotating motor 24, a sliding block 25 and a graduated scale 26.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

Examples

Referring to fig. 1-5, the embodiment provides an automatic marking device for graphite electrodes, which includes a base 1, two support plates 2 fixedly mounted on the top of the base 1, two mounting plates 3 slidably mounted on the top of the base 1, a rotating plate 4 rotatably mounted on one side of the two mounting plates 3 close to each other, slots 5 respectively formed on one side of the two rotating plates 4 close to each other, moving grooves 6 respectively formed on one sides of the two mounting plates 3 close to each other, moving blocks 7 slidably mounted in the moving grooves 6, one sides of the two moving blocks 7 close to each other are respectively in contact with one side of the two rotating plates 4 far from each other, air cylinders 10 fixedly mounted on the inner walls of the bottoms of the two moving grooves 6, output shafts of the two air cylinders 10 are respectively welded to the bottoms of the two moving blocks 7, a sliding groove 11 is formed on the top of the base 1, and two sliding blocks 12 are, the tops of the two sliding blocks 12 are respectively welded with the bottoms of the two mounting plates 3, the inner walls of the two sides of the sliding groove 11 are respectively and rotatably provided with a first lead screw 13, the side, close to each other, of the two first lead screws 13 is welded, the two first lead screws 13 are respectively in threaded connection with the two sliding blocks 12, the side, close to each other, of the two supporting plates 2 is fixedly provided with a same top plate 16, the top plate 16 is positioned above the two mounting plates 3, the bottom of the top plate 16 is provided with a rotating groove 17, the rotating groove 17 is internally and slidably provided with two bearing blocks 18, the bottoms of the two bearing blocks 18 extend to the lower part of the top plate 16 and are fixedly provided with a bearing seat 19, the bottom of the bearing seat 19 is provided with a groove 20, the scribing wheel 21 is rotatably arranged in the groove 20, the outer side of the scribing wheel 21 extends to the lower part of the bearing seat 19, the top of the bearing, two second lead screws 23 weld each other near one side, two second lead screws 23 respectively with two bearing block 18 threaded connection, seted up the cavity on the bearing seat 19, the cavity is located the top of recess 20, seted up same first small opening on the one side inner wall that cavity and recess 20 are close to each other, fixed mounting has the sponge piece in the first small opening, the sponge piece contacts with marking wheel 21, the second small opening has been seted up at the top of bearing seat 19, the second small opening is linked together with the cavity.

In this embodiment, the two moving blocks 7 are provided with first mounting grooves 8 on the sides close to each other, the first rotating motors 9 are fixedly mounted on the inner walls of the sides far away from each other of the two first mounting grooves 8, the output shafts of the two first rotating motors 9 are respectively welded with the sides far away from each other of the two rotating plates 4, the same graphite electrode 15 is movably mounted on the side close to each other of the two rotating plates 4, the two slots 5 are respectively clamped with the two ends of the graphite electrode 15, the inner wall of one side of the sliding groove 11 is provided with a second mounting groove, a second rotating motor 14 is fixedly mounted in the second mounting groove, the output shaft of the second rotating motor 14 is fixedly connected with one end of one first lead screw 13 of the two first lead screws 13, one end of the first lead screw 13 is fixedly mounted with a cylindrical block, the inner wall of one side of the sliding groove 11 is provided with a cylindrical groove, the cylindrical block, the inner wall of the bottom of the sliding chute 11 is provided with a limiting groove, the bottoms of the two sliding blocks 12 are fixedly provided with limiting blocks, the limiting blocks are connected with the side wall of the limiting groove in a sliding manner, the outer sides of the two first lead screws 13 are provided with first external threads, the rotating directions of the two first external threads are opposite, the outer sides of the two second lead screws 23 are provided with second external threads, the rotating directions of the two second external threads are opposite, the inner wall of one side of the rotating groove 17 is provided with a third mounting groove, the inner wall of one side of the third mounting groove is fixedly provided with a third rotating motor 24, the output shaft of the third rotating motor 24 is welded with one end of the second lead screw 23, the top of the top plate 16 is provided with a sliding hole, a sliding rod is fixedly arranged in the sliding hole, the sliding blocks are provided with two sliding blocks 25 in a sliding manner, the bottoms of the two sliding blocks 25, two pointers all are located the top of roof 16, and roof 16's top fixed mounting has scale 26, and two pointers all cooperate with scale 26.

The embodiment also provides a using method of the automatic graphite electrode scribing device, which comprises the following steps:

s1: the third rotating motor 24 is started firstly, the third rotating motor 24 drives the two second lead screws 23 to rotate, the second external threads on the two second lead screws 23 are opposite in rotating direction, so that the two bearing blocks 18 can move towards opposite directions through the rotation of the two second lead screws 23, the two bearing blocks 18 drive the two bearing seats 19 to move, the two bearing seats 19 drive the two scribing wheels 21 to move towards opposite directions, and the distance between the two scribing wheels 21 is adjusted according to the position of the graphite electrode 15 needing scribing;

s2: when the two bearing blocks 18 in S1 move in opposite directions, the two bearing blocks 18 also drive the two sliding blocks 25 to move in opposite directions, and the two sliding blocks 25 drive the two pointers to slide on the scale 26;

s3: placing a graphite electrode 15 on the top of a base 1, driving two first lead screws 13 to rotate through a second rotating motor 14, driving two sliding blocks 12 to move towards the mutually approaching direction through the rotation of the two first lead screws 13 because the rotating directions of first external threads on the outer sides of the two first lead screws 13 are opposite, driving two mounting plates 3 to mutually approach through the two sliding blocks 12, driving two rotating plates 4 to mutually approach through the two mounting plates 3, clamping two ends of the graphite electrode 15 into two slots 5 at the moment, and clamping and fixing the graphite electrode 15 through the two rotating plates 4;

s4: after the graphite electrode 15 described in S3 is clamped and fixed, the two moving blocks 7 are driven by the two cylinders 10 to move upwards, the two moving blocks 7 drive the two rotating plates 4 to move, the two rotating plates 4 drive the graphite electrode 15 to move upwards, so that the graphite electrode 15 is separated from the base 1 until the graphite electrode 15 contacts with the two scribing wheels 21, a paint bottle is inserted into the insertion cylinder 22, the paint flows onto the sponge block along the second through hole, the cavity and the first through hole, the two rotating plates 4 are driven by the two first rotating motors 9 to rotate, the graphite electrode 15 is driven by the two rotating plates 4 to rotate, and the graphite electrode 15 rubs against the scribing wheels 21, so that the scribing wheels 21 extrude the sponge block, the paint on the sponge block flows onto the scribing wheels 21, and the graphite electrode 15 is scribed by the two scribing wheels 21.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. An automatic graphite electrode scribing device comprises a base (1) and is characterized in that two supporting plates (2) are fixedly mounted at the top of the base (1), two mounting plates (3) are slidably mounted at the top of the base (1), the rotating plates (4) are rotatably mounted on the sides, close to each other, of the two mounting plates (3), slots (5) are formed in the sides, close to each other, of the two rotating plates (4), moving grooves (6) are formed in the sides, close to each other, of the two mounting plates (3), moving blocks (7) are slidably mounted in the moving grooves (6), the sides, close to each other, of the two moving blocks (7) are respectively contacted with the sides, far away from each other, of the two rotating plates (4), air cylinders (10) are fixedly mounted on the inner walls of the bottoms of the two moving grooves (6), and output shafts of the two air cylinders (10) are respectively welded with, the top of the base (1) is provided with a sliding groove (11), the sliding groove (11) is internally provided with two sliding blocks (12), the tops of the two sliding blocks (12) are respectively welded with the bottoms of the two mounting plates (3), the inner walls of the two sides of the sliding groove (11) are respectively rotatably provided with a first lead screw (13), one side, close to each other, of each first lead screw (13) is welded, the two first lead screws (13) are respectively in threaded connection with the two sliding blocks (12), one side, close to each other, of each supporting plate (2) is fixedly provided with a same top plate (16), the top plate (16) is positioned above the two mounting plates (3), the bottom of the top plate (16) is provided with a rotating groove (17), the rotating groove (17) is internally provided with two bearing blocks (18), the bottoms of the two bearing blocks (18) extend to the lower part of the top plate (16) and are, the bottom of the bearing seat (19) is provided with a groove (20), a scribing wheel (21) is installed in the groove (20) in a rotating mode, the outer side of the scribing wheel (21) extends to the lower portion of the bearing seat (19), an inserting barrel (22) is fixedly installed at the top of the bearing seat (19), second lead screws (23) are rotatably installed on the inner walls of the two sides of the rotating groove (17), one sides, close to each other, of the two second lead screws (23) are welded, the two second lead screws (23) are respectively in threaded connection with the two bearing blocks (18), a cavity is formed in the bearing seat (19), is located above the groove (20), one inner wall, close to each other, of the cavity and the groove (20) is provided with a same first leak hole, a sponge block is fixedly installed in the first leak hole and is in contact with the scribing wheel (21), and a second leak hole is formed in the top of the bearing seat (19), the second leak hole is communicated with the cavity.

2. The automatic graphite electrode marking device as claimed in claim 1, wherein the two moving blocks (7) are provided with first mounting grooves (8) on the sides close to each other, the first rotating motors (9) are fixedly mounted on the inner walls of the sides far away from each other of the two first mounting grooves (8), and the output shafts of the two first rotating motors (9) are respectively welded with the sides far away from each other of the two rotating plates (4).

3. The automatic graphite electrode marking device according to claim 1, wherein one side of the two rotating plates (4) close to each other is movably provided with the same graphite electrode (15), and the two slots (5) are respectively clamped with two ends of the graphite electrode (15).

4. The automatic graphite electrode marking device as claimed in claim 1, wherein a second mounting groove is formed in an inner wall of one side of the chute (11), a second rotating motor (14) is fixedly mounted in the second mounting groove, and an output shaft of the second rotating motor (14) is fixedly connected with one end of one first lead screw (13) of the two first lead screws (13).

5. The automatic graphite electrode marking device as claimed in claim 1, wherein a cylindrical block is fixedly mounted at one end of the first lead screw (13), a cylindrical groove is formed in an inner wall of one side of the sliding groove (11), and the cylindrical block is slidably connected with a side wall of the cylindrical groove.

6. The automatic graphite electrode marking device as claimed in claim 1, wherein a limiting groove is formed on an inner wall of the bottom of the sliding groove (11), limiting blocks are fixedly mounted at the bottoms of the two sliding blocks (12), and the limiting blocks are slidably connected with side walls of the limiting groove.

7. The automatic graphite electrode scribing device according to claim 1, wherein first external threads are formed on the outer sides of the two first lead screws (13), the turning directions of the two first external threads are opposite, second external threads are formed on the outer sides of the two second lead screws (23), and the turning directions of the two second external threads are opposite.

8. The automatic graphite electrode marking device as claimed in claim 1, wherein a third mounting groove is formed on an inner wall of one side of the rotating groove (17), a third rotating motor (24) is fixedly mounted on an inner wall of one side of the third mounting groove, and an output shaft of the third rotating motor (24) is welded with one end of the second lead screw (23).

9. The automatic graphite electrode marking device as claimed in claim 1, wherein a sliding hole is formed in the top of the top plate (16), a sliding rod is fixedly mounted in the sliding hole, two sliding blocks (25) are slidably mounted on the sliding rod, the bottoms of the two sliding blocks (25) are respectively welded with the tops of the two bearing blocks (18), pointers are fixedly mounted on the tops of the two sliding blocks (25), the two pointers are located above the top plate (16), a graduated scale (26) is fixedly mounted on the top of the top plate (16), and the two pointers are matched with the graduated scale (26).

10. The use method of the automatic graphite electrode marking device is characterized by comprising the following steps:

s1: the third rotating motor (24) is started firstly, the two second lead screws (23) are driven to rotate through the third rotating motor (24), the second external threads on the two second lead screws (23) are opposite in rotating direction, so that the two bearing blocks (18) can move towards opposite directions through the rotation of the two second lead screws (23), the two bearing blocks (18) drive the two bearing seats (19) to move, the two scribing wheels (21) are driven to move towards opposite directions through the two bearing seats (19), and the distance between the two scribing wheels (21) is adjusted according to the position of the graphite electrode (15) needing scribing;

s2: when the two bearing blocks (18) in the step S1 move in opposite directions, the two bearing blocks (18) also drive the two sliding blocks (25) to move in opposite directions, and the two sliding blocks (25) drive the two pointers to slide on the scale (26);

s3: placing a graphite electrode (15) on the top of a base (1), driving two first lead screws (13) to rotate through a second rotating motor (14), driving two mounting plates (3) to be close to each other through the two sliding blocks (12) because the first external threads on the outer sides of the two first lead screws (13) are opposite in rotating direction, driving two rotating plates (4) to be close to each other through the two mounting plates (3), clamping two ends of the graphite electrode (15) into two slots (5), and clamping and fixing the graphite electrode (15) through the two rotating plates (4);

s4: after the graphite electrode (15) in the S3 is clamped and fixed, two moving blocks (7) are driven to move upwards through two cylinders (10), two rotating plates (4) are driven to move through the two moving blocks (7), the graphite electrode (15) is driven to move upwards through the two rotating plates (4), the graphite electrode (15) is separated from the base (1) until the graphite electrode (15) is contacted with two scribing wheels (21), a paint bottle is inserted into an inserting barrel (22), the paint flows onto the sponge block along a second through hole, a cavity and a first through hole, two first rotating motors (9) drive the two rotating plates (4) to rotate, the graphite electrode (15) is driven to rotate through the two rotating plates (4), the graphite electrode (15) and the scribing wheel (21) rub at the moment, so that the scribing wheel (21) extrudes the sponge block, and the paint on the sponge block flows onto the scribing wheel (21), the graphite electrode (15) is scribed by two scribing wheels (21).

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