CN210481564U - Annular automatic electroplating cleaning production line - Google Patents

Abstract

The utility model relates to an electroplating factory self-cleaning technical field, specifically speaking relates to an annular automatic electroplating cleaning production line, be the annular upper and lower davit of range including davit operation rail and installing a plurality of even equidistance on davit operation rail, be provided with under the davit operation rail and be the bigeminal ultrasonic cleaning jar that the U type was arranged in proper order, the first jar that sprays, the quintuplet water washing jar, the second sprays the jar, the first water washing jar that crosses, first electrolysis jar, the third sprays the jar, the electrolysis jar, spray and cross the water washing jar with the tetrageminal, the fourth sprays the jar, the second crosses the water washing jar, second electrolysis jar and third cross the water washing jar, the bigeminal ultrasonic cleaning jar is kept away from a tip that sprays the jar and is provided with and hangs the district. The utility model discloses equipment process operation makes production efficiency promote by a wide margin, and the throwing of electroplating plant annular self-cleaning production line will make whole production line more convenient, high-efficient, operation safety is simple and production finished product qualification rate all can reach a best promotion, practices thrift process time.

Description

Annular automatic electroplating cleaning production line

Technical Field

The utility model relates to an electroplating factory self-cleaning technical field specifically is an annular automatic electroplating cleaning production line.

Background

At present, the automatic cleaning industry of electroplating plants adopts linear automatic cleaning production line equipment to operate in the field of hardware cleaning industry, the existing technical problems or defects of the linear cleaning equipment mainly cause communication difficulty and low production efficiency, and the linear cleaning equipment also occupies a large space and cannot achieve the expected production effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an annular automatic electroplating cleaning production line to solve some or some defects that propose in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an annular automatic electroplating cleaning production line, include davit operation rail and install in a plurality of even equidistance on the davit operation rail are annular upper and lower davits of arranging, be provided with the bigeminy ultrasonic cleaning jar, the first jar, the quintuplet of spraying that are the U type and arrange in proper order under the davit operation rail and cross water cleaning jar, the second sprays the jar, the first water cleaning jar, first electrolysis jar, the third sprays jar, the second electrolysis jar, sprays and cross water cleaning jar, the fourth sprays jar, the second water cleaning jar, the third electrolysis jar and the third water cleaning jar that cross that is provided with the U type, bigeminy ultrasonic cleaning jar is kept away from the first tip that sprays the jar is provided with the upper hanging district.

Preferably, each single body of the duplex ultrasonic cleaning cylinder, the first spraying cylinder, the quintuplet water cleaning cylinder, the second spraying cylinder, the first water cleaning cylinder, the second electrolysis cylinder, the spraying and tetraplet water cleaning cylinder, the fourth spraying cylinder, the second water cleaning cylinder, the third electrolysis cylinder and the third water cleaning cylinder adopts a hollow uncovered cuboid structure.

Preferably, the third spraying cylinder is of a hollow uncovered semi-cylindrical structure.

Preferably, the annular upper and lower suspension arms comprise square through-wire rails, an electric cabinet and an annular top seat, the square through-wire rails are installed at the center of the bottom of the annular top seat, the electric cabinet is installed on one side of the bottom of the annular top seat, and two rows of transverse traveling wheels are installed at the top of the annular top seat.

Preferably, the circumference of the transverse travelling wheel is in a shape of a toothed wheel.

Preferably, the boom operation rail is of a concentric double-ring structure, the inner wall of the boom operation rail is in a shape of a tooth, the distance between two rings of the annular upper boom and the annular lower boom is matched with the size of the distance between two rows of transverse traveling wheels, and the two rows of transverse traveling wheels are clamped between the two rings of the annular upper boom and the annular lower boom.

Preferably, a servo speed reduction motor is further mounted at the top of the annular top seat.

Preferably, the inner wall of the square through-wire rail is provided with a rack, the square through-wire rail is connected with a lifting seat through rack meshing, the lifting seat is perpendicular to the square through-wire rail, the bottom of the lifting seat is connected with a hanging tool, and the lifting seat is provided with a conductive copper column.

Preferably, a manual control key is arranged on one side, away from the square through line rail, of the lifting seat.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the annular automatic electroplating cleaning production line adopts the annular lifting suspension arm provided with the servo motor to replace a hook of the original linear automatic cleaning production line equipment, and the annular upper suspension arm and the annular lower suspension arm are more stable in use and longer in service life than the hook of the original equipment; the annular automatic cleaning production line equipment has the advantages that the production efficiency is greatly improved by the operation of the process of one annular automatic cleaning production line equipment; the labor capacity of operators is reduced, the production time is saved, and the processing cost is greatly reduced.

2. This annular automatic electroplating cleaning production line equipment process operation makes production efficiency promote by a wide margin, and the use of throwing of electroplating factory annular automatic cleaning production line will make whole production line more convenient, high-efficient, operation safety is simple and the production finished product qualification rate all can reach an optimum promotion.

3. The annular automatic electroplating cleaning production line is connected with the suspension arm running rail in a meshed mode through the two rows of transverse traveling wheels, so that the annular upper suspension arm and the annular lower suspension arm can move along the suspension arm running rail, and the annular upper suspension arm and the annular lower suspension arm can lift through the meshed connection between the racks on the square-channel line rail and the lifting seat.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of one of the structures of the present invention;

fig. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic structural view of the annular upper and lower suspension arms of the present invention;

fig. 5 is a schematic structural diagram of the annular upper and lower suspension arms of the present invention.

In the figure: 1. an annular upper suspension arm and an annular lower suspension arm; 101. a square through rail; 102. a rack; 103. an electric cabinet; 104. a lifting seat; 105. a conductive copper pillar; 106. a manual control key; 107. an annular top seat; 108. a transverse traveling wheel; 109. a servo deceleration motor; 2. an upper hanging area; 3. a duplex ultrasonic cleaning cylinder; 4. a first spray cylinder; 5. a quintuplet water cleaning cylinder; 6. a second spray cylinder; 7. a first rinsing cylinder; 8. a first electrolytic tank; 9. a third spray cylinder; 10. a second electrolytic tank; 11. spraying and quadruple water cleaning cylinder; 12. a fourth spray cylinder; 13. a second rinsing cylinder; 14. a third electrolytic tank; 15. a third rinsing cylinder; 16. a hanger; 17. the suspension arm runs the rail.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Example 1

An annular automatic electroplating cleaning production line is shown in figures 1 and 2 and comprises a suspension arm running rail 17 and a plurality of annular upper and lower suspension arms 1 which are uniformly arranged at equal intervals on the suspension arm running rail 17, wherein a U-shaped duplex ultrasonic cleaning cylinder 3, a first spraying cylinder 4, a quintuplet water cleaning cylinder 5, a second spraying cylinder 6, a first water cleaning cylinder 7, a first electrolytic cylinder 8, a third spraying cylinder 9, a second electrolytic cylinder 10, a spraying and tetraplet water cleaning cylinder 11, a fourth spraying cylinder 12, a second water cleaning cylinder 13, a third electrolytic cylinder 14 and a third water cleaning cylinder 15 are sequentially arranged under the suspension arm running rail 17, and an upper hanging area 2 is arranged at one end part of the duplex ultrasonic cleaning cylinder 3, which is far away from the first spraying cylinder 4.

In the embodiment, the hook of the original linear automatic cleaning production line equipment is replaced by the annular lifting suspension arm provided with the servo motor, and the annular upper suspension arm and the annular lower suspension arm are more stable in use and longer in service life than the hook of the original equipment; the annular automatic cleaning production line equipment has the advantages that the production efficiency is greatly improved by the operation of the process of one annular automatic cleaning production line equipment; the labor amount of operators is reduced, the production time is saved, the production space is saved, and meanwhile, the processing cost is greatly reduced.

Further, as shown in fig. 3, each individual unit of the duplex ultrasonic cleaning cylinder 3, the first spray cylinder 4, the quintuplet water cleaning cylinder 5, the second spray cylinder 6, the first water cleaning cylinder 7, the second electrolytic cylinder 10, the spray and quartet water cleaning cylinder 11, the fourth spray cylinder 12, the second water cleaning cylinder 13, the third electrolytic cylinder 14 and the third water cleaning cylinder 15 is in a hollow uncovered cuboid structure.

Specifically, the third spray cylinder 9 is of a hollow uncovered semi-cylindrical structure.

The equipment process operation of the annular automatic electroplating cleaning production line of the embodiment enables the production efficiency to be greatly improved, and the throwing of the annular automatic cleaning production line of an electroplating plant can enable the whole production line to be more convenient, efficient, safe and simple to operate and the qualification rate of the produced finished products to achieve the best improvement.

Example 2

As a second embodiment of the present invention, as shown in fig. 4 and 5, the annular upper and lower suspension arms 1 include a square through-wire rail 101, an electric cabinet 103 and an annular top seat 107, the square through-wire rail 101 is installed at the bottom center of the annular top seat 107, the electric cabinet 103 is installed at one side of the bottom of the annular top seat 107, and two rows of transverse traveling wheels 108 are installed at the top of the annular top seat 107.

Furthermore, the circumference of the transverse traveling wheels 108 is in a shape of a tooth, the boom running rail 17 is in a concentric double-ring structure, the inner wall of the boom running rail 17 is in a shape of a toothed tooth, the space between the two rings of the annular upper and lower booms 1 is matched with the space between the two rows of the transverse traveling wheels 108, the two rows of the transverse traveling wheels 108 are clamped between the two rings of the annular upper and lower booms 1 and are meshed with the inner wall of the boom running rail 17, and the top of the annular top seat 107 is further provided with a servo speed reduction motor 109.

In addition, a rack is installed at the top of the boom running rail 17, a gear is connected to an output shaft of the servo speed reduction motor 109, the rack on the boom running rail 17 is meshed with the gear of the servo speed reduction motor 109, and the whole boom is driven with the rail around the annular rack.

It should be noted that a rack 102 is disposed on an inner wall of the square through rail 101, the square through rail 101 is engaged with a lifting seat 104 through the rack 102, the lifting seat 104 is perpendicular to the square through rail 101, a gripper at the bottom of the lifting seat 104 can grip the hanger 16 in the upper hanging area 2, and a conductive copper column is mounted on the lifting seat 104.

In addition, a manual control button 106 is arranged on one side of the lifting seat 104 far away from the square passage rail 101.

The annular automatic cleaning production line of the embodiment is connected with the boom running rail 17 through the two rows of transverse traveling wheels 108, so that the annular upper and lower booms 1 can move along the boom running rail 17, and the annular upper and lower booms 1 can lift through the meshing connection between the racks 102 on the square through line rails 101 and the lifting seats 104.

When the annular automatic electroplating cleaning production line is used, the suspension arm running rail 17 adopts annular rotary conveying, a cleaning product is placed on a hanger 16 of an upper hanging area 2 by an operator, the hanger 16 is clamped and lifted by the annular upper and lower suspension arms 1, the cleaning product is moved to two ultrasonic cleaning cylinders of a duplex ultrasonic cleaning cylinder 3 by the annular upper and lower suspension arms 1 to be respectively cleaned, the cleaning product is moved to a first spraying cylinder 4 to be sprayed after being cleaned, the cleaning product is respectively moved to five water cleaning cylinders of a quintuplet water cleaning cylinder 5 to be washed with water, the cleaning product is respectively moved to a second spraying cylinder 6 and a 3-way water cleaning cylinder of a first water cleaning cylinder 7 to be sprayed for one time and washed with water for three times after being cleaned, the cleaned hanger 16 is moved to a first electrolytic cylinder 8 by the annular upper and lower suspension arms 1 after being cleaned, the first electrolytic cylinder 8 is guided into an anode or a cathode through conductive elastic copper contact heads attached to the upper and lower annular suspension arms to be subjected to conductive electroplating cleaning, after the cleaning, the annular upper and lower suspension arms 1 are moved to a third spray cylinder 9 for primary spray, after the spraying, the annular upper and lower suspension arms are moved to a second electrolytic cylinder 10 for electroplating cleaning, after the cleaning, the cleaning products are respectively moved to a spray and quadruple water cleaning cylinder 11, the four connecting water cleaning cylinders are respectively used for primary spray and quadruple water cleaning through a fourth spray cylinder 12 and a second water cleaning cylinder 13, after the cleaning, the annular upper and lower suspension arms are respectively moved to a third electrolytic cylinder 14 for electroplating, and are cleaned through a bigeminy water cleaning cylinder of a third water cleaning cylinder 15, and the cleaned annular upper and lower suspension arms are hung below a blank area between the third water cleaning cylinder 15 and the bigeminy ultrasonic cleaning cylinder 3.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides an annular automatic electroplating washs production line which characterized in that: including davit operation rail (17) and install in a plurality of even equidistance on davit operation rail (17) is annular upper and lower davit (1) of arranging, be provided with under davit operation rail (17) and be bigeminy ultrasonic cleaning jar (3), first spray jar (4), quintuplet water cleaning jar (5), second spray jar (6), first water cleaning jar (7), first electrolysis jar (8), third spray jar (9), second electrolysis jar (10), spray with tetrageminy water cleaning jar (11), fourth spray jar (12), second water cleaning jar (13), third electrolysis jar (14) and third water cleaning jar (15) that the U type arranged in proper order, bigeminy ultrasonic cleaning jar (3) are kept away from the tip of first spray jar (4) is provided with and hangs district (2).

2. The annular automatic plating cleaning production line of claim 1, characterized in that: the device is characterized in that each single body of the duplex ultrasonic cleaning cylinder (3), the first spray cylinder (4), the quintuplet water cleaning cylinder (5), the second spray cylinder (6), the first water cleaning cylinder (7), the second electrolysis cylinder (10), the spray and tetrad water cleaning cylinder (11), the fourth spray cylinder (12), the second water cleaning cylinder (13), the third electrolysis cylinder (14) and the third water cleaning cylinder (15) is of a hollow uncovered cuboid structure.

3. The annular automatic plating cleaning production line of claim 1, characterized in that: the third spraying cylinder (9) is of a hollow uncovered semi-cylindrical structure.

4. The annular automatic plating cleaning production line of claim 1, characterized in that: the annular upper and lower suspension arms (1) comprise square through line rails (101), an electric cabinet (103) and an annular top seat (107), the square through line rails (101) are installed at the center of the bottom of the annular top seat (107), the electric cabinet (103) is installed on one side of the bottom of the annular top seat (107), and two rows of transverse traveling wheels (108) are installed at the top of the annular top seat (107).

5. The annular automatic plating cleaning production line of claim 4, wherein: the circumference of the transverse travelling wheel (108) is in a shape of a toothed tooth.

6. The annular automatic plating cleaning production line of claim 5, wherein: the suspension arm running rail (17) is of a concentric double-ring structure, the inner wall of the suspension arm running rail (17) is in a mesh shape, the space between two rings of the annular upper suspension arm and the annular lower suspension arm (1) is matched with the space size of two rows of transverse traveling wheels (108), and the two rows of transverse traveling wheels (108) are clamped between the two rings of the annular upper suspension arm and the annular lower suspension arm (1).

7. The annular automatic plating cleaning production line of claim 4, wherein: and a servo speed reducing motor (109) is also arranged at the top of the annular top seat (107).

8. The annular automatic plating cleaning production line of claim 4, wherein: the improved square bus bar is characterized in that a rack (102) is arranged on the inner wall of the square bus bar (101), the square bus bar (101) is connected with a lifting seat (104) through the rack (102) in a meshed mode, the lifting seat (104) is perpendicular to the square bus bar (101), the bottom of the lifting seat (104) is connected with a hanging tool (16), and a conductive copper column is installed on the lifting seat (104).

9. The annular automatic plating cleaning production line of claim 8, wherein: and a manual control key (106) is arranged on one side of the lifting seat (104) far away from the square through line rail (101).

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