CN111070862B

CN111070862B - Pot body electro-corrosion marking device

Info

Publication number: CN111070862B
Application number: CN201911287064.3A
Authority: CN
Inventors: 刘燕辉; 付惠斌
Original assignee: Wuhan Kaiyiyuan Automation Equipment Co ltd
Current assignee: Wuhan Kaiyiyuan Automation Equipment Co ltd
Priority date: 2019-12-14
Filing date: 2019-12-14
Publication date: 2021-06-29
Anticipated expiration: 2039-12-14
Also published as: CN111070862A

Abstract

The invention provides pot body electric corrosion marking equipment, which can fix a pot body by arranging a sucker, is convenient for quick automatic marking because a spring is electrically connected with the pot body, is matched with an electric corrosion die and an electric corrosion brush head to carry out electric corrosion marking, has extremely high precision, can resist high temperature of a marked mark, is not afraid of corrosion of any organic solvent, and never fades and falls off; the electric corrosion brush head is provided with a conductive graphite block which has good conductivity and corrosion resistance, a sponge sheet is arranged to absorb electric corrosion liquid, and a second wire mesh is arranged to fix the sponge sheet and can be penetrated by the electric corrosion liquid; the sponge ring is arranged to buffer the pot body, and the pot body is fixed by matching with the sucker and contacts the spring after the pot body descends to a certain degree, so that the spring is prevented from directly colliding and scraping the pot body; the outer brush head driving assembly, the outer mold supporting assembly and the outer mold driving assembly are arranged, the outer side face of the pot body is automatically aligned, marking is conducted, and supporting is more stable.

Description

Pot body electro-corrosion marking device

Technical Field

The invention relates to the field of electric corrosion marking equipment, in particular to electric corrosion marking equipment for a pot body.

Background

After the pot body is formed, marks are generally marked on the outer side and the inner side of the pot body, and the marks can be LOGO and can also be water line marks. The current marking method generally adopts printing, but the printed mark is difficult to resist high temperature and is easy to fade under the condition of long-time use.

The electric corrosion marking machine belongs to the field of electric printing marking, and utilizes the high technology of "low voltage makes the metal surface be locally ionized under the action of marking liquid". Any mark such as 'trademark, product name, technical index' and the like which is black or white can be printed on various metals. Its advantages are high precision, high resistance to high temp, no corrosion of organic solvent, and no fading and dropping.

The commonly used pot body is generally made of iron or stainless steel and has good conductivity, so that the pot body can be marked by adopting an electro-corrosion marking technology.

Disclosure of Invention

In view of the above, the invention provides pot body electro-corrosion marking equipment which is extremely high in precision, and the marked mark is resistant to high temperature, resistant to corrosion of any organic solvent and never faded and falls off.

The technical scheme of the invention is realized as follows: the invention provides pot body electro-corrosion marking equipment which comprises a rack (10), a motor (11), a suction disc (12), a spring (13), an electro-corrosion die (2) and an electro-corrosion brush head (3),

a suction cup (12) horizontally arranged to adsorb the pot body (S);

the spring (13) is arranged on the sucker (12) and is respectively contacted with the sucker (12) and the pot body (S);

the motor (11) is arranged on the rack (10) and drives the sucker (12) to horizontally rotate;

the electro-corrosion die (2) is contacted with the inner side surface or the outer side surface of the pot body (S), and the surface of the electro-corrosion die is provided with a silk screen in a marking pattern shape;

the electric corrosion brush head (3) is aligned to the electric corrosion die (2) and extruded on the inner side surface or the outer side surface of the pot body (S) to carry out electric corrosion marking on the pot body (S);

wherein, the spring (13) and the electric corrosion brush head (3) are respectively electrically connected with the anode or the cathode of an external power supply.

On the basis of the technical scheme, preferably, the electric corrosion brush head (3) comprises a conductive graphite block (31), a sponge sheet (32) and a second wire mesh (33), wherein the conductive graphite block (31) is in mutual contact with the sponge sheet (32), the sponge sheet (32) is wrapped in the second wire mesh (33), the second wire mesh (33) is fixed with the conductive graphite block (31), an electric corrosion liquid channel (30) is formed in the conductive graphite block (31), the electric corrosion liquid channel (30) is communicated with an electric corrosion liquid source and leads to the sponge sheet (32), and the conductive graphite block (31) is electrically connected with an external power supply.

On the basis of the technical scheme, preferably, the vacuum sucker further comprises a sponge ring (14), the sponge ring (14) is arranged on the sucker (12) and forms a vacuum suction cavity with the sucker (12), and the spring (13) is arranged in the vacuum suction cavity.

On the basis of the technical scheme, the automatic feeding device is preferable to further comprise a rotary table (15) and a supporting rod (16), the supporting rod (16) is vertically arranged on the rotary table (15) and is fixedly connected with the sucker (12), and the rotary table (15) is connected with the motor (11).

Preferably, the electroerosion die (2) comprises an inner die (21) and an outer die (22), wherein a transversely extending through groove is formed in the outer die (22), and a first silk screen in a marking pattern shape is arranged at the through groove; and a vertically extending through groove is formed in the inner die (21), and a third silk screen in the shape of a marking pattern is arranged at the through groove.

Preferably, the electric corrosion brush comprises an outer brush head driving assembly (4), an outer mold supporting assembly (5) and an outer mold driving assembly (6), wherein the outer brush head driving assembly (4) comprises a first electric sliding table (41) and a support (42), the first electric sliding table (41) is arranged on the rack (10) and connected with the support (42), the support (42) is connected with the electric corrosion brush head (3), and the first electric sliding table (41) drives the electric corrosion brush head (3) to abut against the outer side surface of the pot body (S); the outer die supporting component (5) comprises a second electric sliding table (51) and a supporting block (52), the second electric sliding table (51) is arranged on the rotary table (15) and connected with the supporting block (52), and the first electric sliding table (41) drives the supporting block (52) to abut against the inner side surface of the pot body (S); the outer die driving assembly (6) comprises a third electric sliding table (61) and a movable plate (62), the movable plate (62) is respectively connected with the third electric sliding table (61) and the outer die (22), and the third electric sliding table (61) drives the outer die (22) to be abutted against the outer side surface of the pot body (S); and the supporting block (52) is arranged opposite to the outer die (22) and the electric corrosion brush head (3).

Still further preferably, the bracket (42) is connected with two or more than two electric corrosion brush heads (3), and each electric corrosion brush head (3) is aligned with the outer side surface of one pot body (S) to carry out electric corrosion marking.

Further preferably, the electric toothbrush further comprises an inner toothbrush head driving assembly (7) and an inner mold driving assembly (8), wherein the inner toothbrush head driving assembly (7) comprises a fourth electric sliding table (71) and a fifth electric sliding table (72), the fourth electric sliding table (71) is vertically arranged on the turntable (15), and the fifth electric sliding table (72) is horizontally arranged on the fourth electric sliding table (71) and connected with the electric corrosion toothbrush head (3); the internal mold driving assembly (8) comprises a sixth electric sliding table (81) and a connecting plate (82), the sixth electric sliding table (81) is horizontally arranged on the rotary table (15), the connecting plate (82) is respectively connected with the sixth electric sliding table (81) and the internal mold (21), the sixth electric sliding table (81) drives the internal mold (21) to abut against the inner side surface of the pot body (S), and the electric corrosion brush head (3) is arranged right opposite to the internal mold (21).

Compared with the prior art, the pot body electro-corrosion marking equipment has the following beneficial effects:

(1) the pot body can be fixed by arranging the sucking disc, the spring is electrically connected with the pot body, the quick automatic marking is convenient, the electric corrosion marking is carried out by matching the electric corrosion die and the electric corrosion brush head, the precision is extremely high, the marked mark is high-temperature resistant, is not afraid of the corrosion of any organic solvent, and never fades and falls off;

(2) the electric corrosion brush head is provided with a conductive graphite block which has good conductivity and corrosion resistance, a sponge sheet is arranged to absorb electric corrosion liquid, and a second wire mesh is arranged to fix the sponge sheet and can be penetrated by the electric corrosion liquid;

(3) the sponge ring is arranged to buffer the pot body, and the pot body is fixed by matching with the sucker and contacts the spring after the pot body descends to a certain degree, so that the spring is prevented from directly colliding and scraping the pot body;

(4) the outer brush head driving assembly, the outer mold supporting assembly and the outer mold driving assembly are arranged, the outer side face of the pot body is automatically aligned and marked, and the supporting is more stable;

(5) the inner brush head driving assembly and the inner mold driving assembly are arranged, the inner side face of the pot body is automatically aligned and marked, and the support is more stable.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a perspective view of the electro-erosion marking apparatus for pot body of the present invention;

FIG. 2 is a perspective view of a part of the structure of the electro-corrosion marking apparatus for pot body according to the present invention;

FIG. 3 is a perspective view of an outer brush head driving assembly of the electro-erosion marking apparatus for pot body of the present invention;

FIG. 4 is a perspective view of the mechanism of the turntable part of the electro-erosion marking apparatus for pot body of the present invention;

FIG. 5 is a perspective view of an outer mold supporting assembly and an outer mold driving assembly of the electro-erosion marking apparatus for pot bodies of the present invention;

FIG. 6 is a perspective view of an inner brush head driving assembly and an inner mold driving assembly of the electro-erosion marking apparatus for pot body of the present invention;

FIG. 7 is a front cross-sectional view of an electro-erosion brush head of the pan electro-erosion marking device of the present invention;

FIG. 8 is a perspective view of the incoming material of the pot body of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 to 7, the pot body electro-corrosion marking device of the invention comprises a frame 10, a motor 11, a suction cup 12, a spring 13, a sponge ring 14, a rotary table 15, a support rod 16, an electro-corrosion die 2, an electro-corrosion brush head 3, an outer brush head driving assembly 4, an outer die supporting assembly 5, an outer die driving assembly 6, an inner brush head driving assembly 7 and an inner die driving assembly 8.

The frame 10, fig. 1, serves as a fixed support and provides a work surface.

The suction cup 12, as shown in fig. 4, is horizontally disposed to suck the pot S. The pot body S is caught by the conveying device, then buckled on the sucking disc 12 and then is adsorbed and fixed by the sucking disc 12.

And the spring 13 is arranged on the sucking disc 12 and is respectively contacted with the sucking disc 12 and the pot body S, and plays a role of a conductive connecting terminal.

In order to prevent the pot body S from colliding with the suction cup 12 or the spring 13 to scrape the flower on the pot body S, the invention is also provided with the sponge ring 14, the sponge ring 14 is arranged on the suction cup 12 and forms a vacuum suction cavity with the suction cup 12, and the spring 13 is arranged in the vacuum suction cavity. A certain gap is reserved between the spring 13 and the pot body S, so that when the suction cup 12 adsorbs the pot body S, the sponge ring 14 is compressed, and the spring 13 is in electrical contact with the pot body S. Preventing the pot bodies S from directly placing on the spring 13 and colliding with each other.

The motor 11 is arranged on the frame 10 and drives the suction cup 12 to rotate horizontally, and the prior art can be adopted. Specifically, as shown in fig. 6, the device further comprises a turntable 15 and a support rod 16, wherein the support rod 16 is vertically arranged on the turntable 15 and is fixedly connected with the suction cup 12, and the turntable 15 is connected with the motor 11. Therefore, the motor 11 drives the turntable 15 to rotate, and indirectly drives the pot body S to rotate so as to transversely mark the pot body S.

And the electro-erosion die 2 is contacted with the inner side surface or the outer side surface of the pot body S, and the surface of the electro-erosion die is provided with a silk screen in a marking pattern shape. Specifically, the electroerosion die 2 includes an inner die 21 and an outer die 22, as shown in fig. 4, a transversely extending through groove is formed in the outer die 22, and a first silk screen in a marking pattern shape is arranged at the through groove, so as to adapt to a transversely arranged LOGO shape; and a vertically extending through groove is formed in the inner die 21, and a third silk screen in the shape of a marking pattern is arranged at the through groove, so that the setting requirement of the scale patterns of the water line which are longitudinally arranged is met. The marking pattern is generally LOGO or water level line scales, and the silk screen can be penetrated by power supply corrosive liquid and is contacted with the pot body S, so that the pot body S is subjected to electro-corrosion marking.

And the electric corrosion brush head 3 is aligned to the electric corrosion die 2 and extrudes the electric corrosion brush head on the inner side surface or the outer side surface of the pot body S to carry out electric corrosion marking on the pot body S. Wherein, the spring 13 and the electric corrosion brush head 3 are respectively electrically connected with the anode or the cathode of an external power supply. Specifically, the electric erosion brush head 3 is divided into an inner brush head and an outer brush head which are respectively matched with the inner mold 21 and the outer mold 22 to carry out electric erosion marking on the inner side surface and the outer side surface of the pot body S. Specifically, as shown in fig. 7, the electric erosion brush head 3 includes a conductive graphite block 31, a sponge sheet 32 and a second wire mesh 33, wherein the conductive graphite block 31 and the sponge sheet 32 contact each other, the sponge sheet 32 is wrapped in the second wire mesh 33, the second wire mesh 33 is fixed to the conductive graphite block 31, an electric erosion liquid channel 30 is provided on the conductive graphite block 31, the electric erosion liquid channel 30 is communicated with an electric erosion liquid source and leads to the sponge sheet 32, and the conductive graphite block 31 is electrically connected to an external power supply. The electroerosion liquid source provides electroerosion liquid, enters the sponge sheet 32 through the electroerosion liquid channel 30 and is absorbed by the sponge sheet 32, and when the sponge sheet 32 is extruded, the electroerosion liquid passes through the second wire mesh 33 and the electroerosion die 2 to contact the pot body S, and carries out electroerosion marking on the pot body S. Specifically, the conductive graphite block 31 plays a role in conducting electricity and can prevent the corrosion of the electro-corrosive liquid.

Specifically, as shown in fig. 5, the related components for marking the outer side surface of the pot body S further include an outer brush head driving component 4, an outer mold supporting component 5 and an outer mold driving component 6, the outer brush head driving component 4 includes a first electric sliding table 41 and a bracket 42, the first electric sliding table 41 is arranged on the rack 10 and connected with the bracket 42, the bracket 42 is connected with the electric corrosion brush head 3, and the first electric sliding table 41 drives the electric corrosion brush head 3 to abut against the outer side surface of the pot body S; the outer die supporting component 5 comprises a second electric sliding table 51 and a supporting block 52, the second electric sliding table 51 is arranged on the rotary table 15 and connected with the supporting block 52, and the first electric sliding table 41 drives the supporting block 52 to abut against the inner side surface of the pot body S; the outer die driving assembly 6 comprises a third electric sliding table 61 and a movable plate 62, the movable plate 62 is respectively connected with the third electric sliding table 61 and the outer die 22, and the third electric sliding table 61 drives the outer die 22 to abut against the outer side surface of the pot body S; and the supporting block 52 is arranged opposite to the outer die 22 and the electric erosion brush head 3. So, 52 rectilinear motion of second electronic slip table 51 drive supporting shoe supports and holds at the internal side surface of pot S, and third electronic slip table 61 drive external mold 22 supports and holds at the external side surface of pot S for pot S atress is balanced, then first electronic slip table 41 drive electrocorrosion brush head 3 supports and holds and carry out the electrocorrosion and beat the mark at the external side surface of pot S, beats the mark in-process motor 11 drive pot body S and rotates, thereby beats out horizontal LOGO pattern. Specifically, the bracket 42 is connected with two or more than two electric corrosion brush heads 3, and each electric corrosion brush head 3 is aligned with the outer side surface of one pot body S to perform electric corrosion marking. Therefore, the electric corrosion marking can be simultaneously carried out on the plurality of pot bodies S, and the working efficiency is improved.

Specifically, as shown in fig. 6, the related components for marking the inner side surface of the pot body S further include an inner brush head driving component 7 and an inner die driving component 8, the inner brush head driving component 7 includes a fourth electric sliding table 71 and a fifth electric sliding table 72, the fourth electric sliding table 71 is vertically arranged on the turntable 15, and the fifth electric sliding table 72 is horizontally arranged on the fourth electric sliding table 71 and connected with the electric corrosion brush head 3; the internal mold driving assembly 8 comprises a sixth electric sliding table 81 and a connecting plate 82, the sixth electric sliding table 81 is horizontally arranged on the turntable 15, the connecting plate 82 is respectively connected with the sixth electric sliding table 81 and the internal mold 21, the sixth electric sliding table 81 drives the internal mold 21 to abut against the inner side surface of the pot body S, and the electric corrosion brush head 3 is arranged right opposite to the internal mold 21. Therefore, the inner die 21 is driven by the sixth electric sliding table 81 to abut against the inner side surface of the pot body S, the electric corrosion brush head 3 is driven by the fifth electric sliding table 72 to abut against the inner side surface of the pot body S for electric corrosion marking, and meanwhile, the electric corrosion brush head 3 is driven by the fourth electric sliding table 71 to move downwards to mark a water level scale line pattern which is longitudinally arranged.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a pot body electrocorrosion marking device which includes frame (10), its characterized in that: also comprises a motor (11), a sucker (12), a spring (13), an electric corrosion die (2) and an electric corrosion brush head (3),

a suction cup (12) horizontally arranged to adsorb the pot body (S);

the electro-erosion die (2) comprises an inner die (21) and an outer die (22), wherein a transversely extending through groove is formed in the outer die (22), and a first silk screen in a marking pattern shape is arranged at the through groove; a vertically extending through groove is formed in the inner die (21), and a third silk screen in the shape of a marking pattern is arranged at the through groove

wherein the spring (13) and the electric corrosion brush head (3) are respectively electrically connected with the anode or the cathode of an external power supply;

the device is characterized by further comprising a turntable (15) and a supporting rod (16), wherein the supporting rod (16) is vertically arranged on the turntable (15) and is fixedly connected with the sucker (12), and the turntable (15) is connected with the motor (11).

2. The electro-corrosion marking device for pot bodies as claimed in claim 1, wherein: the electric corrosion brush head (3) comprises a conductive graphite block (31), a sponge sheet (32) and a second silk screen (33), wherein the conductive graphite block (31) is in mutual contact with the sponge sheet (32), the sponge sheet (32) is coated in the second silk screen (33), the second silk screen (33) is fixed with the conductive graphite block (31), an electric corrosion liquid channel (30) is formed in the conductive graphite block (31), the electric corrosion liquid channel (30) is communicated with an electric corrosion liquid source and leads to the sponge sheet (32), and the conductive graphite block (31) is electrically connected with an external power supply.

3. The electro-corrosion marking device for pot bodies as claimed in claim 1, wherein: still include sponge ring (14), sponge ring (14) set up on sucking disc (12) and form with sucking disc (12) and inhale the vacuum cavity, and spring (13) set up in inhaling the vacuum cavity.

4. The electro-corrosion marking device for pot bodies as claimed in claim 1, wherein: the electric corrosion brush is characterized by further comprising an outer brush head driving assembly (4), an outer mold supporting assembly (5) and an outer mold driving assembly (6), wherein the outer brush head driving assembly (4) comprises a first electric sliding table (41) and a support (42), the first electric sliding table (41) is arranged on the rack (10) and connected with the support (42), the support (42) is connected with the electric corrosion brush head (3), and the electric corrosion brush head (3) is driven by the first electric sliding table (41) to abut against the outer side surface of the pot body (S); the outer die supporting component (5) comprises a second electric sliding table (51) and a supporting block (52), the second electric sliding table (51) is arranged on the rotary table (15) and connected with the supporting block (52), and the first electric sliding table (41) drives the supporting block (52) to abut against the inner side surface of the pot body (S); the outer die driving assembly (6) comprises a third electric sliding table (61) and a movable plate (62), the movable plate (62) is respectively connected with the third electric sliding table (61) and the outer die (22), and the third electric sliding table (61) drives the outer die (22) to be abutted against the outer side surface of the pot body (S); and the supporting block (52) is arranged opposite to the outer die (22) and the electric corrosion brush head (3).

5. The electro-corrosion marking device for pot bodies as claimed in claim 4, wherein: the support (42) is connected with two or more than two electric corrosion brush heads (3), and each electric corrosion brush head (3) is aligned to the outer side surface of one pot body (S) to carry out electric corrosion marking.

6. The electro-corrosion marking device for pot bodies as claimed in claim 1, wherein: the inner brush head driving assembly (7) comprises a fourth electric sliding table (71) and a fifth electric sliding table (72), the fourth electric sliding table (71) is vertically arranged on the rotary table (15), and the fifth electric sliding table (72) is horizontally arranged on the fourth electric sliding table (71) and connected with the electric corrosion brush head (3); the internal mold driving assembly (8) comprises a sixth electric sliding table (81) and a connecting plate (82), the sixth electric sliding table (81) is horizontally arranged on the rotary table (15), the connecting plate (82) is respectively connected with the sixth electric sliding table (81) and the internal mold (21), the sixth electric sliding table (81) drives the internal mold (21) to abut against the inner side surface of the pot body (S), and the electric corrosion brush head (3) is arranged right opposite to the internal mold (21).