CN107502893B - Corrosion machine self-rotating chuck device - Google Patents

Abstract

The invention discloses a self-rotating chuck device of a corrosion machine, wherein a plurality of sail-shaped structures are arranged at the edge of one surface of the chuck device, which is used for installing an etching plate, and are used for receiving the impact force of etching liquid and driving the chuck to rotate; the sail-shaped structure is a hollow structure and is formed by integrally forming a 1/4 spherical shell on the left side and an arc-shaped part on the right side, and the arc-shaped part is formed by cutting a 1/2 circular tube-shaped shell along a direction which forms a certain angle with the radial direction. The invention installs a plurality of sail-shaped structures similar to sails at the edge of the chuck device, and uses the directional impact of etching liquid on the sail-shaped structures to drive the chuck to rotate. Since the sail-like structures are periodically arranged along the edges of the chuck, the chuck can remain uniform during rotation.

Description

Corrosion machine self-rotating chuck device

Technical Field

The invention relates to the field of metal material processing equipment, in particular to a self-rotating chuck device of a corrosion machine.

Background

The metal etching plate comprises a copper plate, a zinc plate, a magnesium plate and the like, can be used in the fields of hot stamping, embossing and the like, has clear and attractive patterns, bright colors, wear resistance and weather resistance, can play roles in drawing eyes and highlighting design subjects, is widely applied to various aspects such as trademarks, registered names, cigarette labels, book covers, gift boxes, wine boxes, greeting cards, invitation cards, gold cards, silver cards, laser cards, glass cards and the like, and the embossed printed matter surface presents patterns and textures with different depths, has obvious relief third dimension, enhances the artistic appeal of the printed matter, and is widely applied to the packaging printing of paper products, leather products and plastic products.

At present, the domestic market pressing plate consumable industry is monopoly by an etching plate and an engraving plate based on copper, zinc, steel and magnesium, wherein the etching plate is formed by coating photosensitive adhesive on the surface of the plate such as copper, zinc and the like, drying, then attaching a film containing graphic information on the plate, then exposing on a plate copying machine to form a graphic region and a non-graphic region, corroding the non-graphic region by using corrosive liquid in a corroding machine after developing, and forming raised grain patterns on the left graphic region.

During etching, the etching plate is mounted under the chuck of the etching machine with the etched side facing vertically downward. The lower liquid throwing blade throws the etching liquid to the upper etching plate to etch. The etcher is very inexpensive, requiring at least three electrical systems: an etching solution stirring system, a temperature control system and a chuck rotating system. The power consumption is mainly concentrated on the aspects of an etching solution stirring system and a temperature control system, and the power consumption of a motor for driving the chuck to rotate is small.

During the etching process, the chuck on which the metal etching plate is mounted is continuously rotated horizontally, thereby ensuring uniformity of etching of the etching plate and thus ensuring product quality. The rotation of the chuck, while consuming less power, requires a single drive motor per etcher.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a self-rotating chuck device of a corrosion machine, which utilizes directional impact of corrosion liquid in the corrosion machine on a chuck to drive the chuck to rotate instead of a motor to drive the chuck to rotate. Such a machine can save the costs of the corresponding drive motor. The metal etching plate comprises a copper plate, a zinc plate, a magnesium plate, a steel plate and the like for hot stamping and embossing.

The aim of the invention is achieved by the following technical scheme:

a self-rotation chuck device of a corrosion machine is characterized in that a plurality of sail-shaped structures are arranged at the edge of one surface of the chuck device for mounting an etching plate and used for receiving the impact force of etching liquid and driving the chuck to rotate; the sail-shaped structure is a hollow structure and is formed by integrally forming a 1/4 spherical shell on the left side and an arc-shaped part on the right side, and the arc-shaped part is formed by cutting a 1/2 circular tube-shaped shell along a direction which forms a certain angle with the radial direction.

Preferably, a rotation shaft is provided at the center of the chuck device, no motor driving rotation is required, the rotation shaft can be rotated clockwise or counterclockwise in a certain direction during etching, and the rotation surface is horizontal.

Preferably, the saillike structures are directional and form a closed periodic circle along the direction of the chuck edge.

Preferably, the number of saillike structures is 6.

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

a plurality of sail-shaped structures similar to sails are arranged on the edge of the chuck device, and the directional impact of etching liquid on the sail-shaped structures is utilized to drive the chuck to rotate. Since the sail-like structures are periodically arranged along the edges of the chuck, the chuck can remain uniform during rotation.

Drawings

FIG. 1 is a schematic view of a self-rotating chuck device for an etching machine according to an embodiment of the present invention.

FIG. 2 is a schematic view of a sail structure according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that variations and modifications could be made by those skilled in the art without departing from the inventive concept. These are all within the scope of the present invention.

As shown in fig. 1, the chuck device 2 is suspended from the etcher cover plate 1, and the metal etching plate is secured to the chuck device by a clamp 4 with the etched side facing vertically downward during operation. During operation, the corrosive liquid and the water throwing blades are arranged below the plate to be corroded and keep a certain distance from the metal plate, the acidic corrosive liquid is thrown to the surface of the metal plate by the water throwing blades in the metal corrosion process, and then the metal plate has a chemical corrosion effect. The clamp can be moved within the clamp rail to adjust the position of the clamp according to the size of the corrosion plate.

The edge below the chuck is provided with 6 sail-shaped structures, and the sail-shaped structures can be made of stainless steel or corrosion-resistant plastics similar to PP and the like. The 6 sails are directional and form a closed periodic circle along the edges of the chuck. During the etching process, the etching liquid generates directional impact on the sail-shaped structure in the horizontal direction, so that the chuck is driven to rotate clockwise.

As shown in fig. 2, the sail structure is a hollow structure, the left part of the sail structure is a 1/4 spherical shell, and the right part of the sail structure can be obtained by cutting a 1/2 circular tube shell along a direction which is at a certain angle to the radial direction. This structure is mounted under the chuck in the manner of fig. 1, and the chuck device 2 will rotate in a fixed direction as long as the rotation direction of the blade-slinging structure of the etcher remains consistent.

When in use, the corrosion machine box is injected with quantitative corrosion liquid. The metal plate is mounted under the chuck device 2 by means of clamps 4 and the etched side of the metal plate is guaranteed to be vertically downwards. Corrosion begins after the cap is applied. In the corrosion process, the water throwing blade throws the corrosive liquid through a certain angle, and directional impact is formed on the 6 sail-shaped structures in the horizontal direction, so that the chuck is caused to rotate clockwise.

The foregoing describes specific embodiments of the present invention. It is to be understood that the invention is not limited to the particular embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the claims without affecting the spirit of the invention.

Claims (1)

1. The self-rotating chuck device of the etching machine is characterized in that a plurality of sail-shaped structures (3) are arranged at the edge of one surface of the chuck device for mounting the etching plate and are used for receiving the impact force of etching liquid to drive the chuck to rotate; the sail-shaped structure (3) is of a hollow structure and is formed by integrally forming a 1/4 spherical shell on the left side and an arc-shaped part on the right side, and the arc-shaped part is formed by cutting a 1/2 circular tube-shaped shell along a direction which forms a certain angle with the radial direction;

a rotary shaft is arranged at the center of the chuck device, the chuck device can automatically rotate towards a certain direction in the etching process, and the rotary surface is horizontal;

the saillike structures (3) are directional and form a closed periodic circle along the direction of the edge of the chuck;

the number of the sail-like structures (3) is 6.