阅读说明：本技术 钻石画满幅制作方法 (Method for making diamond picture in full width ) 是由 夏芳 于 2019-10-30 设计创作，主要内容包括：本发明公开了一种钻石画满幅制作方法,旨在提供一种不仅能够极大的减小钻石画上的钻石之间的间隙,使钻石画上的钻石按要求密布排列,以提高钻石画的画面效果,而且在钻石画制作不会出现卡钻的问题的钻石画满幅制作方法。它包括A,筛钻机筛钻,筛钻机筛钻包括单排模板筛钻与双排模板筛钻；B,单排钻石粘贴与双排钻石粘贴,单排钻石粘贴与双排钻石粘贴先后进行；单排钻石粘贴步骤中在画纸的粘胶层上形成的若干排钻石与双排钻石粘贴步骤中在画纸的粘胶层上形成的若干排钻石依次交替排列分布。(The invention discloses a method for making a diamond picture in full width, and aims to provide a method for making a diamond picture in full width, which can not only greatly reduce the gaps among diamonds on the diamond picture and ensure that the diamonds on the diamond picture are densely distributed and arranged according to requirements so as to improve the picture effect of the diamond picture, but also avoid the problem of diamond clamping in the process of making the diamond picture. The screening and drilling machine comprises a screening and drilling machine screen drill, wherein the screening and drilling machine screen drill comprises a single-row template screen drill and a double-row template screen drill; b, sticking the single-row diamonds and the double-row diamonds in sequence; a plurality of rows of diamonds formed on the adhesive layer of the drawing paper in the single-row diamond pasting step and a plurality of rows of diamonds formed on the adhesive layer of the drawing paper in the double-row diamond pasting step are sequentially and alternately arranged and distributed.)

1. The diamond picture full-width manufacturing method comprises drawing paper, wherein an adhesive layer is arranged on the surface of the drawing paper, and the diamond picture full-width manufacturing method is characterized by sequentially comprising the following steps of:

a, screening and drilling machines, wherein the screening and drilling machines comprise single-row template screening and drilling machines and double-row template screening and drilling machines,

the single-row template screen drilling adopts a screen drilling machine to screen and drill on a single-row template, a plurality of rows of positioning screen holes are uniformly distributed on the single-row template, gaps are arranged between two adjacent rows of positioning screen holes, the single-row template screen drilling comprises the following steps that a single-row auxiliary adhesive paper is arranged below the single-row template, and diamonds in the positioning screen holes of the single-row template are adhered to the single-row auxiliary adhesive paper after the screen drilling machine screens the diamonds into the positioning screen holes of the single-row template;

the double-row template screen drilling adopts a screen drilling machine to screen and drill on a double-row template, a plurality of rows of positioning screen holes are uniformly distributed on the double-row template, and gaps are formed between every two adjacent rows of positioning screen holes; the double-row template screen drill comprises the following steps that double-row auxiliary adhesive paper is arranged below a double-row template, and diamonds in positioning sieve holes of the double-row template are adhered to the double-row auxiliary adhesive paper after a screen drill screens the diamonds into the positioning sieve holes of the double-row template;

b, single-row diamond pasting and double-row diamond pasting are carried out in sequence, wherein,

the single-row diamond sticking sequentially comprises the following steps of B1.1, enabling diamonds on the single-row auxiliary gummed paper to face an adhesive layer of the drawing paper, and B1.2, enabling the diamonds on the single-row auxiliary gummed paper to be abutted against the adhesive layer of the drawing paper so as to enable the diamonds on the single-row auxiliary gummed paper to be stuck on the adhesive layer of the drawing paper; b1.3, tearing off the single-row auxiliary gummed paper to form a plurality of rows of diamonds on the gummed layer of the drawing paper;

the double-row diamond pasting sequentially comprises the following steps of B2.1, enabling diamonds on the double-row auxiliary gummed paper to face an adhesive layer of the drawing paper, and B2.2, enabling the diamonds on the double-row auxiliary gummed paper to be abutted against the adhesive layer of the drawing paper so as to enable the diamonds on the double-row auxiliary gummed paper to be pasted on the adhesive layer of the drawing paper; b2.3, tearing off the double rows of auxiliary gummed paper to form a plurality of rows of diamonds on the gummed layer of the drawing paper;

and a plurality of rows of diamonds formed on the adhesive layer of the drawing paper in the single-row diamond pasting step and a plurality of rows of diamonds formed on the adhesive layer of the drawing paper in the double-row diamond pasting step are sequentially and alternately arranged and distributed.

2. The method of claim 1, wherein any two adjacent positioning holes in each row of positioning holes in said single row of plates intersect.

3. The method of claim 2, wherein any two adjacent positioning holes in each row of positioning holes on said double row of plates are distributed across each other.

4. The diamond picture full-width manufacturing method according to claim 1, 2 or 3, wherein the step A further comprises a drawing paper positioning step, the drawing paper positioning step adopts a substrate for positioning, the drawing paper is pasted on the surface of one substrate, and the drawing paper is positioned on the substrate.

5. The method of claim 4, wherein the substrate is positioned by a bottom mold, and the top surface of the bottom mold is provided with a positioning groove for positioning the substrate, and the substrate is positioned in the positioning groove, thereby positioning the drawing paper on the bottom mold.

6. The method for making a full width diamond picture according to claim 5, wherein the single row of auxiliary gummed paper in step A is provided with a clamping and positioning assembly, the clamping and positioning assembly comprises a left clamping and positioning piece and a right clamping and positioning piece, one clamping and positioning piece is clamped at the left side of the single row of auxiliary gummed paper, and the other clamping and positioning piece is clamped at the right side of the single row of auxiliary gummed paper;

the bottom die is provided with a bottom die positioning piece for positioning the clamping positioning piece;

in the B1.1 step, the diamond on the auxiliary adhesive tape of single file is towards the concrete operation on the viscose layer of drawing paper as follows, through controlling two centre gripping setting elements with the auxiliary adhesive tape of single file to flatten, then the diamond on the auxiliary adhesive tape of single file is towards the viscose layer of drawing paper to through controlling two centre gripping setting elements location on the die block setting element, in order to fix a position the auxiliary adhesive tape of single file on the die block, this moment, the auxiliary adhesive tape of single file is located directly over the drawing paper.

7. The method for making a full width diamond picture according to claim 5, wherein the double rows of auxiliary gummed paper in step A are also provided with clamping and positioning components, each clamping and positioning component comprises a left clamping and positioning piece and a right clamping and positioning piece, one clamping and positioning piece is clamped at the left side of the double rows of auxiliary gummed paper, and the other clamping and positioning piece is clamped at the right side of the double rows of auxiliary gummed paper;

the bottom die is provided with a bottom die positioning piece for positioning the clamping positioning piece;

in the B2.1 step, the concrete operation of the diamond on the double auxiliary adhesive tape towards the viscose layer of drawing paper is as follows, through controlling two centre gripping setting elements with double auxiliary adhesive tape leveling, then with the diamond on the double auxiliary adhesive tape towards the viscose layer of drawing paper to through controlling two centre gripping setting elements location on the die block setting element, with double auxiliary adhesive tape location on the die block, this moment, double auxiliary adhesive tape is located drawing paper directly over.

8. A method as claimed in claim 1, 2 or 3 wherein the spacing between any two adjacent rows of diamonds in said plurality of rows of diamonds on said sticker layer of drawing paper is less than 0.2 mm.

9. A method as claimed in claim 1, 2 or 3 wherein any row of diamonds on said drawing sheet has a spacing between adjacent diamonds of less than 0.2 mm.

Technical Field

The invention relates to a method for making a diamond picture, in particular to a method for making a diamond picture in full width.

Background

The prior method for manufacturing the diamond picture generally adopts the following method that firstly, drawing paper is positioned, and the surface of the drawing paper is provided with an adhesive layer; secondly, positioning a template above the drawing paper, wherein the template is provided with a plurality of rows of positioning sieve pores which are sequentially arranged and distributed; thirdly, the diamonds are screened into the positioning sieve holes of the template through a screening and drilling machine, and after the diamonds are screened into the positioning sieve holes of the template, the diamonds in the positioning sieve holes of the template are adhered to the adhesive layer; so, realize arranging the pattern of diamond installation design on the viscose layer of drawing paper, produce the diamond and draw.

The existing diamond picture manufacturing method has the following defects that in positioning sieve holes which are sequentially distributed on a template, a certain gap is required to be formed between any two adjacent rows of positioning sieve holes, and the gap cannot be too small, otherwise, in the process that a screen drilling machine sieves diamonds into the positioning sieve holes of the template, the problem of drill clamping is easy to occur, so that the screen drilling machine cannot smoothly move to the outer side of the template, and the problem of diamond picture manufacturing failure is caused; therefore, in the diamond picture manufactured by the existing diamond picture manufacturing method, the gap between any two adjacent rows of diamonds is very large, so that the picture effect of the diamond picture is poor.

Disclosure of Invention

The invention aims to provide a method for making a diamond picture with full width, which can not only greatly reduce the gaps among diamonds on the diamond picture and ensure that the diamonds on the diamond picture are densely arranged according to requirements so as to improve the picture effect of the diamond picture, but also can not cause the problem of diamond clamping in the making of the diamond picture.

The technical scheme of the invention is as follows:

a method for making a diamond picture full width comprises drawing paper, wherein an adhesive layer is arranged on the surface of the drawing paper, and the method sequentially comprises the following steps:

a, screening and drilling machines, wherein the screening and drilling machines comprise single-row template screening and drilling machines and double-row template screening and drilling machines,

the single-row template screen drilling adopts a screen drilling machine to screen and drill on a single-row template, a plurality of rows of positioning screen holes are uniformly distributed on the single-row template, gaps are arranged between two adjacent rows of positioning screen holes, the single-row template screen drilling comprises the following steps that a single-row auxiliary adhesive paper is arranged below the single-row template, and diamonds in the positioning screen holes of the single-row template are adhered to the single-row auxiliary adhesive paper after the screen drilling machine screens the diamonds into the positioning screen holes of the single-row template; in the positioning sieve holes of the rows on the single-row template, gaps are arranged between the two adjacent rows of positioning sieve holes, and passages formed by the gaps can be used for diamond to pass through, so that the diamonds can move along the passages formed between the two rows of positioning sieve holes in the process that the sieve drilling machine moves to the outer side of the template, the problem of diamond clamping is avoided, and the sieve drilling machine can smoothly move to the outer side of the template;

the double-row template screen drilling adopts a screen drilling machine to screen and drill on a double-row template, a plurality of rows of positioning screen holes are uniformly distributed on the double-row template, and gaps are formed between every two adjacent rows of positioning screen holes; the double-row template screen drill comprises the following steps that double-row auxiliary adhesive paper is arranged below a double-row template, and diamonds in positioning sieve holes of the double-row template are adhered to the double-row auxiliary adhesive paper after a screen drill screens the diamonds into the positioning sieve holes of the double-row template; in the positioning sieve holes of the rows on the double-row template, gaps are arranged between the two adjacent rows of positioning sieve holes, and the channels formed by the gaps can be used for the diamonds to pass through, so that the diamonds can move along the channels formed between the two rows of positioning sieve holes in the process that the sieve drilling machine moves to the outer side of the template, the problem of drill clamping is avoided, and the sieve drilling machine can smoothly move to the outer side of the template;

b, single-row diamond pasting and double-row diamond pasting are carried out in sequence, wherein,

the single-row diamond sticking sequentially comprises the following steps of B1.1, enabling diamonds on the single-row auxiliary gummed paper to face an adhesive layer of the drawing paper, and B1.2, enabling the diamonds on the single-row auxiliary gummed paper to be abutted against the adhesive layer of the drawing paper so as to enable the diamonds on the single-row auxiliary gummed paper to be stuck on the adhesive layer of the drawing paper; b1.3, tearing off the single-row auxiliary gummed paper to form a plurality of rows of diamonds on the gummed layer of the drawing paper;

the double-row diamond pasting sequentially comprises the following steps of B2.1, enabling diamonds on the double-row auxiliary gummed paper to face an adhesive layer of the drawing paper, and B2.2, enabling the diamonds on the double-row auxiliary gummed paper to be abutted against the adhesive layer of the drawing paper so as to enable the diamonds on the double-row auxiliary gummed paper to be pasted on the adhesive layer of the drawing paper; b2.3, tearing off the double rows of auxiliary gummed paper to form a plurality of rows of diamonds on the gummed layer of the drawing paper;

and a plurality of rows of diamonds formed on the adhesive layer of the drawing paper in the single-row diamond pasting step and a plurality of rows of diamonds formed on the adhesive layer of the drawing paper in the double-row diamond pasting step are sequentially and alternately arranged and distributed. So, paste through single row diamond and paste complementarily with double diamond, the very big clearance that reduces between the diamond on the diamond picture makes the diamond on the diamond picture densely covered the range as required, and the clearance between two adjacent rows of diamond on the diamond picture can reach 0.1 millimeter densely covered the range to very big improvement diamond picture's picture effect.

Preferably, any two adjacent positioning sieve holes in each row of positioning sieve holes on the single-row template are distributed in an intersecting manner. Each positioning screen aperture is capable of being traversed by a diamond. Therefore, the spacing between any two adjacent positioning sieve holes in each row of positioning sieve holes can be reduced, so that the arrangement gap between diamonds in the same row is reduced; more importantly, can avoid in same row of location sieve mesh, two adjacent location sieve mesh edges meet, in the punching hole forming process of location sieve mesh, meet the department and produce burr or fracture at location sieve mesh edge easily, and influence the quality of the location sieve mesh on the single-row template, finally influence the location sieve mesh to lithodomous location effect, influence the lithodomous location sieve mesh of passing even, lead to the problem that single-row template sieve bored the operation step and fail.

Preferably, any two adjacent positioning sieve holes in each row of positioning sieve holes on the double-row template are distributed in an intersecting manner. Therefore, the spacing between any two adjacent positioning sieve holes in each row of positioning sieve holes can be reduced, so that the arrangement gap between diamonds in the same row is reduced; more importantly, can avoid in same row location sieve mesh, two adjacent location sieve mesh edges meet, in the shaping process that punches a hole of location sieve mesh, easily locate the sieve mesh edge and meet the department and produce burr or fracture, and influence the quality of the location sieve mesh on the double-row template, finally influence the location sieve mesh to the lithodomous location effect, influence the lithodomous location sieve mesh that passes of diamond even, lead to the problem of double-row template sieve brill operation step failure.

Preferably, the step a further comprises positioning the drawing paper, wherein the positioning of the drawing paper is performed by using a substrate, the drawing paper is pasted on the surface of one substrate, and the drawing paper is positioned on the substrate.

Preferably, the base plate is positioned by using a bottom die, the upper surface of the bottom die is provided with a positioning groove for positioning the base plate, and the base plate is positioned in the positioning groove, so that the drawing paper is positioned on the bottom die.

Preferably, a clamping and positioning assembly is arranged on the single-row auxiliary gummed paper in the step A, the clamping and positioning assembly comprises a left clamping and positioning piece and a right clamping and positioning piece, one clamping and positioning piece is clamped on the left side of the single-row auxiliary gummed paper, and the other clamping and positioning piece is clamped on the right side of the single-row auxiliary gummed paper; the bottom die is provided with a bottom die positioning piece for positioning the clamping positioning piece; in the B1.1 step, the diamond on the auxiliary adhesive tape of single file is towards the concrete operation on the viscose layer of drawing paper as follows, through controlling two centre gripping setting elements with the auxiliary adhesive tape of single file to flatten, then the diamond on the auxiliary adhesive tape of single file is towards the viscose layer of drawing paper to through controlling two centre gripping setting elements location on the die block setting element, in order to fix a position the auxiliary adhesive tape of single file on the die block, this moment, the auxiliary adhesive tape of single file is located directly over the drawing paper.

Preferably, the double-row auxiliary gummed paper in the step a is also provided with a clamping and positioning assembly, the clamping and positioning assembly comprises a left clamping and positioning piece and a right clamping and positioning piece, one clamping and positioning piece is clamped at the left side of the double-row auxiliary gummed paper, and the other clamping and positioning piece is clamped at the right side of the double-row auxiliary gummed paper; the bottom die is provided with a bottom die positioning piece for positioning the clamping positioning piece; in the B2.1 step, the concrete operation of the diamond on the double auxiliary adhesive tape towards the viscose layer of drawing paper is as follows, through controlling two centre gripping setting elements with double auxiliary adhesive tape leveling, then with the diamond on the double auxiliary adhesive tape towards the viscose layer of drawing paper to through controlling two centre gripping setting elements location on the die block setting element, with double auxiliary adhesive tape location on the die block, this moment, double auxiliary adhesive tape is located drawing paper directly over.

Preferably, the gap between any two adjacent rows of diamonds in the plurality of rows of diamonds on the adhesive layer of the drawing paper is less than 0.2 mm.

Preferably, the spacing between two adjacent diamonds in any row of diamonds on the drawing paper is less than 0.2 mm.

The invention has the beneficial effects that: not only can the very big reduction diamond draw the diamond between the clearance, make the diamond that the diamond was drawn densely to arrange as required to improve the picture effect that the diamond was drawn, draw the problem that the preparation can not appear blocking the brill at the diamond moreover.

Drawings

FIG. 1 is a schematic diagram of a single row form of the present invention.

Fig. 2 is a schematic diagram of one configuration of the double row template of the present invention.

Fig. 3 is a schematic structural diagram of the substrate of the present invention.

Fig. 4 is a schematic structural view of the bottom mold of the present invention.

Fig. 5 is a schematic structural diagram of the clamping positioning member of the present invention.

Fig. 6 is a top view of fig. 5.

FIG. 7 is a schematic diagram of a diamond painting full width manufacturing process of the present invention.

Fig. 8 is a schematic cross-sectional view taken at D-D in fig. 7.

In the figure:

a single-row template 1;

positioning the sieve pores 2;

a gap 3;

double-row templates 4;

a substrate 5;

bottom die 6, positioning groove 6.1;

a right-angle positioning plate 7;

a clamping positioning piece 8, a clamping plate 8.1 and a hanging hole 8.2;

drawing paper 9;

an adhesive layer 10;

single row of auxiliary gummed paper 11.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention are clearly explained and illustrated below with reference to the accompanying drawings, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present scheme, and are not construed as limiting the scheme of the present invention.

These and other aspects of embodiments of the invention will be apparent with reference to the following description and attached drawings. In the description and drawings, particular embodiments of the invention have been disclosed in detail as being indicative of some of the ways in which the principles of the embodiments of the invention may be practiced, but it is understood that the scope of the embodiments of the invention is not limited thereby. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

In the description of the present invention, it is to be understood that the terms "thickness", "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., and "several" means one or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections, either mechanical or electrical, or communicating with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The first embodiment is as follows: a method for making a diamond picture full width sequentially comprises the following steps:

and A, positioning the drawing paper, namely positioning the drawing paper 9 by using the substrate 5 as shown in figures 2 and 8, adhering the drawing paper on the surface of a substrate, positioning the drawing paper on the substrate, wherein the upper surface of the drawing paper is provided with an adhesive layer 10. The color of the drawing paper can be selected according to the requirement, for example, the red drawing paper or the white drawing paper or the drawing paper with other colors.

The screen drilling machine screen drill comprises a single-row template screen drill and a double-row template screen drill.

As shown in figure 1, the single-row template screen drill adopts a screen drilling machine to screen drill on a single-row template 1, a plurality of rows of positioning screen holes 2 are distributed on the single-row template 1, a gap 3 is arranged between any two adjacent rows of positioning screen holes, and a channel formed by the gap can be used for diamond to pass through. Each positioning screen 2 is capable of being traversed by a diamond. In this embodiment, among the rows of diamonds drawn on the diamond picture, the diamonds in odd rows correspond to the positioning holes in the single-row template one by one.

The single-row template screening drill comprises the following steps that single-row auxiliary gummed paper is arranged below a single-row template, in the embodiment, the single-row auxiliary gummed paper is directly adhered to the lower surface of the single-row template, and the single-row auxiliary gummed paper can also be flatly laid below the single-row template; secondly, the diamond is screened into each positioning sieve hole of the single-row template by the screen drilling machine, and after the diamond is screened into each positioning sieve hole of the single-row template by the screen drilling machine, the diamond in the positioning sieve hole of the single-row template is adhered to the single-row auxiliary gummed paper; and then, tearing off the single-row auxiliary gummed paper from the single-row template so as to enable diamonds in the positioning sieve holes of the single-row template to be sequentially arranged and adhered on the single-row auxiliary gummed paper. Because in the sieve mesh is fixed a position to a plurality of rows on the single row template, be equipped with the clearance between the two adjacent rows of location sieve meshes, the passageway that this clearance formed can supply the diamond to pass through, so, at the in-process that the sieve rig removed the template outside, the diamond can be followed the passageway that forms between two rows of location sieve meshes and removed, avoids appearing the problem of sticking the brill, makes and to remove the template outside smoothly by the sieve rig, and the moving direction of sieve rig parallels with the passageway that forms between two rows of location sieve meshes.

As shown in fig. 2, the double-row template screen drill adopts a screen drill to screen and drill on a double-row template 4, a plurality of rows of positioning screen holes 2 are uniformly distributed on the double-row template, a gap 3 is arranged between any two adjacent rows of positioning screen holes, and a channel formed by the gap can be used for diamond to pass through. Each positioning screen 2 is capable of being traversed by a diamond. In this embodiment, among the rows of diamonds drawn on the diamond picture, even rows of diamonds correspond to the positioning sieve holes on the double-row template one by one.

The double-row template screen drill comprises the following steps that double-row auxiliary gummed paper is arranged below a double-row template, in the embodiment, the double-row auxiliary gummed paper is directly adhered to the lower surface of the double-row template, and the double-row auxiliary gummed paper can also be flatly laid below the double-row template; then, the diamond is screened into each positioning sieve hole of the double-row template by the screen drilling machine, and after the diamond is screened into each positioning sieve hole of the double-row template by the screen drilling machine, the diamond in the positioning sieve hole of the double-row template is adhered to the double-row auxiliary gummed paper; and then, tearing off the double rows of auxiliary gummed papers from the double rows of templates so as to enable the diamonds in the positioning sieve holes of the double rows of templates to be sequentially arranged and adhered on the double rows of auxiliary gummed papers. Because in the sieve mesh is fixed a position to a plurality of rows on the double template, be equipped with the clearance between the two adjacent rows of location sieve meshes, the passageway that this clearance formed can supply the diamond to pass through, so, at the in-process that the sieve rig removed the template outside, the diamond can be followed the passageway removal that forms between two rows of location sieve meshes, avoids appearing the problem of sticking the brill, makes and to sieve the rig and can remove the template outside smoothly along the direction, and the moving direction of sieve rig parallels with the passageway that forms between two rows of location sieve meshes.

B, single-row diamond pasting and double-row diamond pasting are performed in sequence, for example, the single-row diamond pasting operation step is performed first, and then the double-row diamond pasting operation step is performed; or the operation step of pasting the two rows of diamonds is firstly carried out, and then the operation step of pasting the single row of diamonds is carried out.

The single-row diamond pasting sequentially comprises the following steps of B1.1, enabling diamonds on the single-row auxiliary gummed paper to face an adhesive layer of the drawing paper, B1.2, enabling the diamonds on the single-row auxiliary gummed paper to be abutted against the adhesive layer of the drawing paper, and enabling the diamonds on the single-row auxiliary gummed paper to be pasted on the adhesive layer of the drawing paper, wherein in the embodiment, the bonding strength between the diamonds and the adhesive layer of the drawing paper is greater than that between the diamonds and the single-row auxiliary gummed paper; and B1.3, tearing off the single-row auxiliary gummed paper to form a plurality of rows of diamonds on the gummed layer of the drawing paper.

The double-row diamond pasting sequentially comprises the following steps of B2.1, enabling diamonds on the double-row auxiliary gummed paper to face an adhesive layer of the drawing paper, B2.2, enabling the diamonds on the double-row auxiliary gummed paper to be abutted against the adhesive layer of the drawing paper, and enabling the diamonds on the double-row auxiliary gummed paper to be pasted on the adhesive layer of the drawing paper, wherein in the embodiment, the bonding strength between the diamonds and the adhesive layer of the drawing paper is greater than that between the diamonds and the double-row auxiliary gummed paper; and B2.3, tearing off the double rows of auxiliary gummed paper to form a plurality of rows of diamonds on the gummed layer of the drawing paper.

A plurality of rows of diamonds formed on the adhesive layer of the drawing paper in the single-row diamond pasting step and a plurality of rows of diamonds formed on the adhesive layer of the drawing paper in the double-row diamond pasting step are sequentially and alternately arranged and distributed. So, paste through single row diamond and paste complementarily with double diamond, the very big clearance that reduces between the diamond on the diamond picture makes the diamond on the diamond picture densely covered the range as required, and the clearance between two adjacent rows of diamond on the diamond picture can reach 0.1 millimeter densely covered the range to very big improvement diamond picture's picture effect.

And C, taking down the drawing paper from the substrate, arranging and sticking a protective film, and then installing the picture frame.

Further, as shown in fig. 1, in each row of positioning holes on the single-row template 1, any two adjacent positioning holes 2 are distributed in an intersecting manner, for example, if the maximum outer diameter of the diamond is 2.8 mm, the diameter of the positioning hole is 3.2 mm, and in each row of positioning holes on the single-row template, the center-to-center distance D1 between any two adjacent positioning holes is 2.9 mm; the gap width D2 between any two adjacent rows of positioning holes on a single row of die plates is 2.9 mm.

Therefore, the spacing between any two adjacent positioning sieve holes in each row of positioning sieve holes can be reduced, so that the arrangement gap between diamonds in the same row is reduced; more importantly, can avoid in same row of location sieve mesh, two adjacent location sieve mesh edges meet, in the punching hole forming process of location sieve mesh, meet the department and produce burr or fracture at location sieve mesh edge easily, and influence the quality of the location sieve mesh on the single-row template, finally influence the location sieve mesh to lithodomous location effect, influence the lithodomous location sieve mesh of passing even, lead to the problem that single-row template sieve bored the operation step and fail.

As shown in fig. 2, in each row of positioning holes on the double-row template 4, any two adjacent positioning holes 2 are distributed in an intersecting manner, for example, if the maximum outer diameter of a diamond is 2.8 mm, the diameter of each positioning hole is 3.2 mm, and in each row of positioning holes on the double-row template, the center-to-center distance D1 between any two adjacent positioning holes is 2.9 mm; the gap width D2 between any two adjacent rows of positioning sieve holes on the double-row template is 2.9 mm. Therefore, the spacing between any two adjacent positioning sieve holes in each row of positioning sieve holes can be reduced, so that the arrangement gap between diamonds in the same row is reduced; more importantly, can avoid in same row location sieve mesh, two adjacent location sieve mesh edges meet, in the shaping process that punches a hole of location sieve mesh, easily locate the sieve mesh edge and meet the department and produce burr or fracture, and influence the quality of the location sieve mesh on the double-row template, finally influence the location sieve mesh to the lithodomous location effect, influence the lithodomous location sieve mesh that passes of diamond even, lead to the problem of double-row template sieve brill operation step failure.

In this embodiment, among the plurality of rows of diamonds on the adhesive layer of the drawing paper, the gap width between any two adjacent rows of diamonds is 0.1 mm. In any row of diamonds on the drawing paper, the gap width between two adjacent diamonds is 0.1 mm.

Further, as shown in fig. 4, 7 and 8, the substrate 5 is positioned by using a bottom mold 6, a positioning groove 6.1 for positioning the substrate is formed in the upper surface of the bottom mold, and the substrate is positioned in the positioning groove, so that the drawing paper is positioned on the bottom mold.

The bottom die positioning piece is arranged on the bottom die, and in the embodiment, the bottom die positioning piece comprises four right-angle positioning plates 7 distributed at four corners of the bottom die, and the right-angle positioning plates are L-shaped. The bottom die is rectangular or square.

The single-row auxiliary gummed paper in the step a is provided with a clamping and positioning assembly, as shown in fig. 5, fig. 6, fig. 7 and fig. 8, the clamping and positioning assembly comprises a left clamping and positioning piece and a right clamping and positioning piece 8, wherein one clamping and positioning piece is clamped at the left side of the single-row auxiliary gummed paper 11, and the other clamping and positioning piece is clamped at the right side of the single-row auxiliary gummed paper. In this embodiment, the centre gripping setting element includes two upper and lower grip blocks 8.1, and two grip blocks are as an organic whole through two-sided adhesive bonding, and the supplementary adhesive tape centre gripping of single row is between two upper and lower grip blocks, and the supplementary adhesive tape of single row is in the same place with the grip block bonding. The bottom die positioning piece on the bottom die is used for positioning and clamping the positioning piece.

In the B1.1 step, the specific operation on the viscose layer of the diamond orientation drawing paper on the single-row auxiliary gummed paper is as follows, as shown in figure 7, as shown in figure 8, flatten single-row auxiliary gummed paper 11 through controlling two centre gripping setting elements 8, then draw the viscose layer of paper towards diamond on the single-row auxiliary gummed paper, and fix a position on the die block setting element through controlling two centre gripping setting elements, in order to fix a position single-row auxiliary gummed paper on the die block, specifically, left centre gripping setting element 8 is fixed a position on the base between two left right angle locating plates 7, centre gripping setting element 8 on right side is fixed a position on the base between two right angle locating plates 7 on right side, in order to realize fixing a position single-row auxiliary gummed paper. At this time, the single-row auxiliary gummed paper is positioned right above the drawing paper. Thus, the operation workers can conveniently carry out the steps B1.2 and B1.3, and the diamonds on the single-row auxiliary gummed paper are abutted against the adhesive layer of the drawing paper, so that the diamonds on the single-row auxiliary gummed paper are adhered to the adhesive layer of the drawing paper; then the single row of auxiliary gummed paper is torn off, and a plurality of rows of diamonds are formed on the gummed layer of the drawing paper.

And C, a clamping and positioning assembly is also arranged on the double-row auxiliary gummed paper in the step A, the clamping and positioning assembly comprises a left clamping and positioning piece and a right clamping and positioning piece, one clamping and positioning piece is clamped on the left side of the single-row auxiliary gummed paper, and the other clamping and positioning piece is clamped on the right side of the single-row auxiliary gummed paper. In this embodiment, the centre gripping setting element includes two upper and lower grip blocks, and two grip blocks bond as an organic wholely through two-sided adhesive, and the double supplementary adhesive tape centre gripping of row is between two upper and lower grip blocks, and double supplementary adhesive tape and grip block bond together.

In the B2.1 step, with the diamond on the double supplementary adhesive tape towards the concrete operation on the viscose layer of drawing paper as follows, flatten double supplementary adhesive tape through controlling two centre gripping setting elements, then with the diamond on the double supplementary adhesive tape towards the viscose layer of drawing paper, and through controlling two centre gripping setting elements location on the die block setting element, in order to fix a position double supplementary adhesive tape on the die block, specifically, left centre gripping setting element location is between two left right angle locating plates on the base, the centre gripping setting element location on the right side is between two right angle locating plates on the right side on the base, in order to realize fixing a position double supplementary adhesive tape on the die block. At this time, the single-row auxiliary gummed paper is positioned right above the drawing paper.

In this embodiment, as shown in fig. 5, each of the clamping and positioning members 8 is provided with a hanging hole 8.2, and the hanging hole penetrates through the upper and lower clamping plates of the same clamping and positioning member, so that when the single-row auxiliary adhesive tape or the double-row auxiliary adhesive tape is not used, the single-row auxiliary adhesive tape or the double-row auxiliary adhesive tape can be hung on the hook through the hanging holes of the two clamping and positioning members, so as to facilitate the storage of the single-row auxiliary adhesive tape or the double-row auxiliary adhesive tape.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, alterations and equivalents of the above embodiments according to the technical spirit of the present invention are still within the protection scope of the technical solution of the present invention.