CN106626831B - Printing device used on spherical surface or arc-shaped concave surface and application thereof - Google Patents

Abstract

A printing device used on a spherical surface or an arc-shaped concave surface and an application thereof relate to a printing device, a plurality of 'U' -shaped cards (16) arranged at intervals are clamped on the upper part of a printing rubber plate (18), pin holes (17) of each 'U' -shaped card close to two ends are connected with through holes (19) of the printing rubber plate through pins (12), the middle part of the back of each 'U' -shaped card is connected with the lower end of a telescopic column (11), the upper ends of the plurality of telescopic columns close to two ends are respectively penetrated in square holes (4) of corresponding sliding blocks (2), a cotter pin (9) is arranged in a pin hole (10) at the upper end of the telescopic column, the cotter pin is sleeved on two ends of a spring (8) on each telescopic column and respectively propped against the back of the 'U' -shaped card and the lower surface of the sliding block, and raised strips (22) on the front and back surfaces of the plurality of the sliding blocks are respectively positioned in slide way grooves (20) on two sides of the upper part of an opening (3) of a pressing block (7); the invention uses the pressing block and the spring to print the printing rubber plate on the spherical surface or the arc-shaped concave surface, thereby effectively reducing the labor cost.

Description

Printing device used on spherical surface or arc-shaped concave surface and application thereof

[ technical field ] A

The invention relates to a printing device, in particular to a printing device used on a spherical surface or an arc-shaped concave surface and application thereof.

[ background of the invention ]

Printing is known as a technique of transferring ink to the surface of a material such as paper, fabric, plastic, leather, etc. by performing processes such as plate making, ink application, and pressing on an original such as characters, pictures, and photographs "including some forgery prevention techniques", and is a technique of copying the contents of the original in bulk. In the national standards "GB9851.1-1990" and "GB/T9851.1-2008", the definitions for printing are: "printing" is a process technique that uses a printing plate or other means to transfer the graphic information on an original to a substrate. However, the prior art is only directed at a plane, but is a big problem at present when printing is performed on a non-planar object, for example, on a spherical surface or an arc-shaped concave surface of a ceramic artwork, a stone artwork, a wooden article or a metal product, characters or pictures cannot be printed on the surface of the spherical surface or the arc-shaped concave surface due to fixed shape and uneven surface; the existing mode is to draw pictures or write characters on a spherical surface or an arc-shaped concave surface in a hand-drawing mode, so that the traditional mode is not standard and the labor cost is extremely high.

[ summary of the invention ]

In order to overcome the defects in the background art, the invention discloses a printing device used on a spherical surface or an arc-shaped concave surface and application thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a printing device who uses at spherical face or arc depressed face, including printing offset plate, "U" shape card, flexible post, a spring, briquetting and slider, be equipped with a plurality of through-holes that link up around on printing offset plate, a plurality of "U" shape card cards that the interval set up are on printing offset plate's upper portion, each "U" shape card is close to the through-hole of wearing the pinhole at both ends through wearing the round pin connection printing offset plate, the back middle part of each "U" shape card is connected with the lower extreme of flexible post, the upper end of being close to of a plurality of flexible posts is worn respectively in the slider square hole that corresponds, be equipped with the split pin in the pinhole of flexible post upper end, the cover pushes up respectively at the back of "U" shape card and the lower part face of slider at each flexible post both ends of spring, the protruding strip of a plurality of sliders front and back is in the slide groove of briquetting opening upper portion both sides respectively.

The printing device used on the spherical surface or the arc-shaped concave surface is characterized in that two pin through holes are respectively formed in the two ends, close to each U-shaped card, of each U-shaped card, the middle parts of the two pin through holes are located in the through holes of the printing rubber plate, and the two ends of each pin through hole are respectively fixed in the two pin through holes, close to the two ends, of each U-shaped card.

In the printing device used on the spherical surface or the arc-shaped concave surface, one end of the penetrating pin is provided with an expanded convex ring, the other end of the penetrating pin is provided with an opening, and the anti-falling device is formed by turning over the other end of the penetrating pin.

The printing device used on the spherical surface or the arc-shaped concave surface is characterized in that a connecting seat is arranged in the middle of the back of the U-shaped clamp, a groove on the lower end surface of the telescopic column is clamped on the connecting seat, and the lower end of the telescopic column is hinged with the connecting seat through a shaft.

The printing device used on the spherical surface or the arc-shaped concave surface is characterized in that a middle rod is arranged in the middle of the pressing block, a long strip-shaped opening is formed in the middle rod, slide grooves penetrating through two ends of the middle rod are formed in the upper portion of the opening, protruding stop strips are arranged on the upper portions of the two slide grooves, and the protruding strips arranged on the lower portions of the front surface and the back surface of the sliding blocks are respectively located in the two slide grooves formed between the upper portion of the pressing block opening and the protruding stop strips.

The printing device used on the spherical surface or the arc-shaped concave surface is characterized in that two sides of a middle rod of the pressing block are respectively provided with a semi-annular edge, the end parts of the two semi-annular edges are respectively connected with two ends of the pressing block, an interval is formed between the two semi-annular edges and two sides of the middle part of the pressing block, and the pressing block and the two semi-annular edges are overlooked to form a structure shaped like a Chinese character 'ri'.

The printing device used on the spherical surface or the arc-shaped concave surface is characterized in that a plurality of square holes are formed in one sliding block in the middle of the sliding block, inclined planes are respectively arranged on two sides of the other sliding block square holes in two sides of the middle of the sliding block to form counterbores, and the counterbores are used for acquiring the horizontal swing of the telescopic column.

Use of a printing device on a spherical or curved concave surface: the printing device is applied to printing of figures and characters with spherical surfaces or arc-shaped concave surfaces and hard materials.

The application of the printing device on the spherical surface or the arc-shaped concave surface,

removing dust on the spherical surface or the arc-shaped concave surface of the hard material;

putting the printing surface of the printing offset plate into printing oil to be stained with the printing oil;

using a handle formed by two semicircular edges to enable the printing surface of the printing rubber plate to correspond to the spherical surface or the arc-shaped concave surface of the printing part;

when the two semicircular edges are pressed, the printing rubber plate is subjected to different self-adaptations of the elasticity of the spring on the telescopic column, so that the printing surface is matched with the spherical surface or the arc-shaped concave surface, and the printing of the spherical surface or the arc-shaped concave surface is obtained.

The printing device is applied to the spherical surface or the arc-shaped concave surface, and the hard material comprises a metal material and a stone material.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

the printing device used on the spherical surface or the arc-shaped concave surface and the application thereof are characterized in that when the printing device is used, the printing surface of the printing rubber plate is stained with printing oil, the printing surface of the self-adaptive printing rubber plate is matched with the concave-convex surface by the elasticity of springs on a plurality of telescopic columns during printing, and the angles of the telescopic columns can be changed due to the hinged connection of the U-shaped clamps and the telescopic columns and the lower expanding holes of part of the sliding blocks, so that the printing device has adaptability to the printing of the spherical surface or the arc-shaped concave surface; the invention effectively overcomes the defect that the prior printing mode can not print on the spherical surface or the arc-shaped concave surface, and realizes the printing of the concave and convex surfaces.

[ description of the drawings ]

FIG. 1 is a perspective assembly view of the present invention;

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

FIG. 3 is a schematic view of the slider structure of the present invention;

FIG. 4 isbase:Sub>A view A-A of FIG. 3;

FIG. 5 is a schematic view of the center slide underreaming configuration of the present invention;

FIG. 6 is a schematic perspective view of a compact of the present invention;

FIG. 7 is a schematic view of the opening of a pressure block of the present invention;

in the figure: 1. a middle rod; 2. a slider; 3. an opening; 4. a square hole; 5. a semi-circular edge; 6. spacing; 7. briquetting; 8. a spring; 9. a cotter pin; 10. a pin hole; 11. a telescopic column; 12. pin penetration; 13. a groove; 14. a connecting seat; 15. a shaft; 16. a U-shaped card; 17. a pin hole is penetrated; 18. printing a rubber plate; 19. a through hole; 20. a chute; 21. a bevel; 22. a raised strip; 23. and (6) a raised barrier strip.

[ detailed description ] A

The present invention will be explained in more detail by the following examples, which are intended to protect all changes and modifications within the scope of the present invention and are not limited to the following examples;

the printing device used on the spherical surface or the arc-shaped concave surface, which is described in conjunction with the attached drawings 1-7, comprises a printing rubber plate 18, a plurality of through holes 19 which are through from front to back, a telescopic column 11, a spring 8, a pressing block 7 and a sliding block 2, wherein the printing rubber plate 18 is provided with a plurality of through holes 19 which are through from front to back, the plurality of U-shaped cards 16 which are arranged at intervals are clamped on the upper part of the printing rubber plate 18, two through pin holes 17 are respectively arranged at the two ends, which are close to each U-shaped card 16, of each U-shaped card 16, the middle parts of the two through pins 12 are positioned in the through holes 19 of the printing rubber plate 18, and the two ends of the two through pins 12 are respectively fixed in the two through pin holes 17, which are close to the two ends, of the U-shaped cards 16; one end of the through pin 12 is provided with an expanded raised circular ring, the other end of the through pin 12 is provided with an opening, the through pin 12 is prevented from falling off by the splayed opening of the other end of the through pin, each U-shaped clamp 16 is arranged on the printing rubber plate 18 at intervals, the middle part of the back of each U-shaped clamp 16 is provided with a connecting seat 14, a groove 13 on the lower end surface of the telescopic column 11 is clamped on the connecting seat 14, in order to facilitate the angle change of the telescopic column 11 and the U-shaped clamps 16, the upper end of the connecting seat 14 is of a semicircular structure, the lower end of the telescopic column 11 is also of a semicircular structure, and the rotation convenience when the lower end of the telescopic column 11 is hinged with the connecting seat 14 through a shaft 15 is obtained through the semicircular structures of the semicircular vertical plates of the connecting seat 14 and the plate bodies on two sides of the groove 13 of the telescopic column 11; the upper ends, close to the upper ends, of the telescopic columns 11 are respectively penetrated in the corresponding square holes 4 of the sliding blocks 2, split pins 9 are arranged in pin holes 10 at the upper ends of the telescopic columns 11, two ends of a spring 8 sleeved on each telescopic column 11 are respectively propped against the back of a U-shaped clamp 16 and the lower surface of the sliding block 2, a middle rod 1 is arranged in the middle of the pressing block 7, a strip-shaped opening 3 is arranged on the middle rod 1, sliding channel grooves 20 penetrating through two ends of the middle rod 1 are arranged at the upper part of the opening 3, protruding blocking strips 23 are arranged at the upper parts of the two sliding channel grooves 20, and the protruding strips 22 arranged at the lower parts of the front and the back of the sliding blocks 2 are respectively positioned in the two sliding channel grooves 20 formed between the upper parts of the opening 3 of the pressing block 7 and the protruding blocking strips 23; with reference to fig. 1, 3, 4 or 5, a square hole 4 is formed in one of the sliders 2 in the middle of the plurality of sliders 2, and inclined surfaces 21 are respectively formed in the other square holes 4 of the sliders 2 on two sides of the one slider 2 in the middle of the slider 2 for forming counterbores on two sides of the lower portion of the other slider 2, so that the counterbores can obtain the left-right swing of the telescopic column 11; two sides of a middle rod 1 of a pressing block 7 are respectively provided with a semi-annular edge 5, the end parts of the two semi-annular edges 5 are respectively connected with two ends of the pressing block 7, an interval 6 is formed between the two semi-annular edges 5 and two sides of the middle of the pressing block 7, and a structure shaped like a Chinese character 'ri' is formed by overlooking the pressing block 7 and the two semi-annular edges 5.

The invention is mainly suitable for printing the patterns and characters on the plane of hard materials such as metal materials, stone materials, artificial cement artware, artificial marble and the like, in particular to printing the patterns and characters on the hard materials of the spherical surface or the arc-shaped concave surface.

The specific application method of the invention is as follows:

removing dust on the spherical surface or the arc-shaped concave surface of the hard material;

the handle formed by the two semicircular edges 5 of the pressing block 7 is held by hand, the two semicircular edges 5 are used for controlling the pressing block 7 to provide an upward reserved space for the telescopic column 11, and the hand part can be prevented from being scratched by the cotter pin 9 on the telescopic column 11, so that the printing surface of the printing rubber plate 18 is placed in the printing oil to be stained with the printing oil;

the printing surface of the printing rubber plate 18 corresponds to the spherical surface or the arc-shaped concave surface of the printing part by using the handle formed by the two semicircular edges 5, if the arc-shaped concave surface is formed, the sliding block 2 can be extruded towards the middle part by fingers, so that the use is more convenient, and characters or graphs which are not beneficial to later-stage use and printing due to the fact that two ends of the printing rubber plate 18 contact the arc-shaped concave surface firstly can be prevented; or the printing surface of the printing rubber plate 18 corresponds to the spherical surface of the printing part by using the handle formed by the two semicircular edges 5, at this time, the middle part of the printing rubber plate 18 firstly contacts the hard material, so that the printed characters or figures are on the spherical surface;

at this time, the printing rubber plates of the two semi-annular edges 5 are pressed, and the printing rubber plates are automatically adjusted in a telescopic way under the action of the elasticity of the springs 8 on the telescopic columns 11, so that the printing surface is self-adaptively matched with the spherical surface or the arc-shaped concave surface, and the printing of the spherical surface or the arc-shaped concave surface is obtained.

The present invention is not described in detail in the prior art.

Claims (8)

1. The utility model provides a printing device that uses at spherical face or the sunken face of arc, includes printing offset plate (18), "U" shape card (16), flexible post (11), spring (8), briquetting (7) and slider (2), characterized by: a plurality of through holes (19) which are through from front to back are formed in a printing rubber plate (18), a plurality of U-shaped cards (16) which are arranged at intervals are clamped at the upper part of the printing rubber plate (18), pin penetrating holes (17) which are close to two ends of each U-shaped card (16) are connected with the through holes (19) of the printing rubber plate (18) through penetrating pins (12), the middle part of the back of each U-shaped card (16) is connected with the lower end of a telescopic column (11), the upper ends, close to two ends, of the telescopic columns (11) are respectively penetrated in square holes (4) of corresponding sliding blocks (2), split pins (9) are arranged in pin holes (10) at the upper ends of the telescopic columns (11), two ends of springs (8) sleeved on each telescopic column (11) are respectively abutted against the back of the U-shaped cards (16) and the lower surface of the sliding blocks (2), and protruding strips (22) on the front and back surfaces of the sliding blocks (2) are respectively positioned in sliding groove (20) at the upper parts of two sides of the pressing blocks (7);

the middle part of the pressing block (7) is provided with a middle rod (1), the middle rod (1) is provided with a strip-shaped opening (3), the upper part of the opening (3) is provided with sliding channel grooves (20) which penetrate through the two ends of the middle rod (1), the upper parts of the two sliding channel grooves (20) are provided with convex barrier strips (23), and the convex strips (22) arranged at the lower parts of the front and the back surfaces of the plurality of sliding blocks (2) are respectively positioned in the two sliding channel grooves (20) formed between the upper parts of the opening (3) of the pressing block (7) and the convex barrier strips (23); a plurality of what set up on slider (2) in the middle part of slider (2) is square hole (4), and other slider (2) square hole (4) in middle part slider (2) both sides set up inclined plane (21) respectively for the lower part both sides and form the reaming, the reaming acquires the horizontal hunting of flexible post (11).

2. A printing apparatus according to claim 1, wherein: two pin holes (17) are respectively arranged at two ends of each U-shaped card (16), the middle parts of the two pins (12) are positioned in the through holes (19) of the printing rubber plate (18), and two ends of the two pins (12) are respectively fixed in the two pin holes (17) of the U-shaped card (16) close to the two ends.

3. A printing apparatus according to claim 1 or 2, wherein: one end of the penetrating pin (12) is provided with an expanded convex ring, the other end of the penetrating pin (12) is provided with an opening, and the other end of the penetrating pin (12) is turned over to form an anti-falling function.

4. A printing apparatus according to claim 1, wherein: a connecting seat (14) is arranged in the middle of the back of the U-shaped clamp (16), a groove (13) on the lower end face of the telescopic column (11) is clamped on the connecting seat (14), and the lower end of the telescopic column (11) is hinged with the connecting seat (14) through a shaft (15).

5. A printing apparatus according to claim 1, wherein: two sides of the middle rod (1) of the pressing block (7) are respectively provided with a semi-annular edge (5), the end parts of the two semi-annular edges (5) are respectively connected with two ends of the pressing block (7), an interval (6) is formed between the two semi-annular edges (5) and two sides of the middle part of the pressing block (7), and the pressing block (7) and the two semi-annular edges (5) form a structure in a shape like the Chinese character 'ri'.

6. Use of a printing device according to any of the preceding claims 1-5 on a spherical or curved concave surface, characterized in that: the printing device is applied to printing of figures and characters with spherical surfaces or arc-shaped concave surfaces and hard materials.

7. Use of a printing device according to claim 6 on a spherical surface or an arc-shaped concave surface, characterized in that:

removing dust on the spherical surface or the arc-shaped concave surface of the hard material;

putting the printing surface of the printing offset plate into printing oil to be stained with the printing oil;

a handle formed by the two semicircular edges (5) is used for enabling the printing surface of the printing rubber plate to correspond to the spherical surface or the arc-shaped concave surface of the printing part;

when the two semicircular edges (5) are pressed, the printing rubber plate is subjected to different self-adaption of the elasticity of the spring (8) on the telescopic column (11) to enable the printing surface to be matched with the spherical surface or the arc-shaped concave surface, and the printing of the spherical surface or the arc-shaped concave surface is obtained.

8. Use of a printing device according to claim 6 or 7 on a spherical surface or an arc-shaped concave surface, wherein: the hard material comprises a metal material and a stone material.

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