CN202917126U - Lamp box - Google Patents

Abstract

The utility model discloses a lamp box which comprises a box body, a raster image arranged in the box body and a light-emitting device. The box body is provided with a window or a display panel, the raster image comprises a raster plate and a light-transmitting picture, the front surface of the raster plate is a carve surface, the light-transmitting picture is arranged on the rear surface of the raster plate, and the raster image is arranged between the light-emitting device and the window or the display panel. By means of the technical scheme, the problem that flat images of a traditional lamp box cannot be observed is solved.

Description

A kind of lamp box

Technical field

The utility model relates to the grating field, relates in particular to a kind of lamp box.

Background technology

Lamp box is widely used in various places, and the picture that present lamp box represents mostly is two dimension, so that display effect is bad.

The utility model content

The utility model provides a kind of lamp box, solves the problem that the conventional lightbank plane picture lacks ornamental.

For solving the problems of the technologies described above, the utility model by the following technical solutions:

A kind of lamp box comprises casing, also comprises the raster image and the light-emitting device that are arranged in the described casing; Described casing is provided with window or display panel; Described raster image comprises original screen panel and printing opacity picture; Described original screen panel front surface is sculptured surface; Described printing opacity picture is arranged on described original screen panel rear surface; Described raster image is arranged between described light-emitting device and described window or the display panel.

Further, described printing opacity picture is fitted by mode and the described original screen panel rear surface of printing, stickup or projection.

Further, described lamp box comprises that also one is used for switching the raster image switching device shifter of described raster image.

Further, described raster image switching device shifter comprises gearing and pull bar; Described gearing one end connects a plurality of raster images continuously, and the other end connects described pull bar; Described gearing is under the effect of pull bar, by screens and cooperating successively of raster image edge each raster image being placed between described light-emitting device and described window or the display panel.

Further, described lamp box comprises that also one is used for switching the printing opacity picture switching device shifter of described printing opacity picture.

Further, described printing opacity picture switching device shifter comprises gearing and pull bar, and described gearing one end connects a plurality of printing opacity pictures continuously, and the other end connects a pull bar; Described gearing is under the effect of pull bar, by screens and cooperating successively of printing opacity image edge each printing opacity picture being placed on described original screen panel rear surface.

Further, described original screen panel is the column mirror grating plate; Described printing opacity picture is arranged by M bar shaped equal portions and is formed, and the grid stroke of M=column mirror grating plate is counted the length on the * column mirror grating plate level direction; M bar shaped equal portions are corresponding one by one with the striped of column mirror grating plate sculptured surface at the setting position of described column mirror grating plate rear surface.

Further, the constituted mode of the M of a described printing opacity picture equal portions is: gather the two-dimension picture of same three-dimensional scenic from N different visual angles, a described N different visual angles is order and arranged with interval, wherein N 〉=2 on the same level direction; The two-dimension picture that respectively each visual angle is gathered vertically is divided into M equal portions, and M equal portions is sorted and the setting sequence number by same order; According to following rule, extract effective equal portions from the two-dimension picture that each visual angle gathers: extract successively K+X*N equal portions from the two-dimension picture that K visual angle gathers, wherein, 1≤K≤N, X get each integer between 0 to (M-K)/N successively; The effective equal portions that are drawn into are arranged in order splicing according to the equal portions sequence number.

Further, the constituted mode of the M of a described printing opacity picture equal portions is: gather L different former two-dimension picture; L 〉=2 wherein; Respectively each former two-dimension picture vertically is divided into M equal portions, M equal portions is sorted and the setting sequence number according to same order; Each former two-dimension picture is copied portion, obtain the replisome of each former two-dimension picture, before the first equal portions of each replisome, fill L equal portions, and according to former order the equal portions of replisome are reset sequence number; According to following rule, 2L the two-dimension picture that is comprised of L former two-dimension picture and L replisome sorted in the lump: each former two-dimension picture is continuous to sort front, rear, and the sequence number of each former two-dimension picture and its replisome differs L to each replisome according to the continuous arrangement that puts in order of former two-dimension picture; According to following rule, from 2L two-dimension picture, extract effective equal portions: J+Y*2L equal portions of extraction from J two-dimension picture, wherein, 1≤J≤2L, Y successively value 0 to each integer between (M-J)/2L; The effective equal portions that are drawn into are arranged in order splicing according to the equal portions sequence number.

Further, the L of institute different former two-dimension picture is: gather L former two-dimension picture that different time points obtains the three-dimensional animation scene from same visual angle.

The lamp box that the utility model provides comprises casing, also comprises the raster image and the light-emitting device that are arranged in the described casing; Described casing is provided with window or display panel; Described raster image comprises original screen panel and printing opacity picture; Described original screen panel front surface is sculptured surface; Described printing opacity picture is arranged on described original screen panel rear surface; Described raster image is arranged between described light-emitting device and described window or the display panel.When human eye is watched raster image by window or display panel, can watch three-dimensional stereo effect or the effect of beating.

Description of drawings

The synoptic diagram of the lamp box that Fig. 1 provides for the utility model one embodiment;

The synoptic diagram of synthesising picture in the image layer of the raster image that Fig. 2 provides for the utility model one embodiment;

The synoptic diagram of replisome in the image layer of the raster image that Fig. 3 provides for the utility model one embodiment.

Embodiment

By reference to the accompanying drawings the utility model is described in further detail below by embodiment.

The synoptic diagram of the lamp box that Fig. 1 provides for the utility model one embodiment, as shown in Figure 1, lamp box comprises casing 11, also comprises the raster image and the light-emitting device 13 that are arranged in the casing 11; Casing 11 is provided with window 111; Raster image comprises original screen panel 121 and printing opacity picture 122; Original screen panel 121 front surfaces are sculptured surface; Printing opacity picture 122 is arranged on original screen panel 121 rear surfaces; Raster image is arranged between light-emitting device 13 and the window 111.The mode that printing opacity picture 122 is arranged on original screen panel 121 rear surfaces arranges including, but not limited to printing, stickup, projection, separation etc.Light-emitting device 13 provides brightness at the rear of printing opacity picture 122, and spectators through the sculptured surface of window 111, original screen panel 121, can watch three-dimensional successively, the image of (two changes or changeable) effect of beating.

Further, available display panel replaces window 111.

Further, light-emitting device 13 can be set directly on the casing 11, as light-emitting device 13 is set directly on the backboard of casing 11.Perhaps light-emitting device 13 can be arranged in the casing 11 by support, as in casing 11, at the rear of printing opacity picture 122 support is set, and light-emitting device 13 is arranged on this support.Preferably, light-emitting device 13 can be fluorescent tube, as for a plurality of fluorescent tubes that are arranged in parallel, and is arranged on the dead astern of printing opacity image 12.

Further, printing opacity picture 122 can be fitted by mode and original screen panel 121 rear surfaces of printing, stickup or projection.

If printing opacity picture 122 is fitted by mode and original screen panel 121 rear surfaces of printing or pasting.The raster image that printing opacity picture 122 and original screen panel 121 form can be set directly on the casing 11, perhaps be arranged in the casing 11 by support, as in casing 11, between light-emitting device 13 and window 111 or display panel, a support is set, raster image is arranged on this support, preferably, raster image is arranged on this support in the mode that removably connects, and is convenient to change raster image.Further, for the ease of realizing the replacing of raster image, can also arrange one for the raster image switching device shifter that switches raster image in lamp box 1, this raster image switching device shifter can be realized each raster image in a plurality of raster images is placed between light-emitting device 13 and window 111 or the display panel successively.As a kind of preferred embodiment, the raster image switching device shifter can comprise gearing and pull bar; Gearing one end connects a plurality of raster images, other end cylinder lever connecting rod continuously; When the user spurred pull bar, gearing was under the effect of pull bar, by screens and cooperating successively of raster image edge each raster image being placed between light-emitting device and window or the display panel.Like this,

Spectators just can see through the sculptured surface of window (or display panel) and original screen panel, watch the image of a plurality of 3-D effects.

If printing opacity picture 122 is fitted by mode and original screen panel 121 rear surfaces of projection, original screen panel 121 can be set directly on the casing 11, perhaps be arranged in the casing 11 by support, as in casing 11, between light-emitting device 13 and window 111 or display panel, a support is set, original screen panel 121 is arranged on this support, preferred, original screen panel 121 is arranged on this support in the mode that removably connects, and is convenient to change original screen panel 121.Projector can be arranged in the casing 11.In addition, because projector can realize by the electronics mode switching of a plurality of pictures, therefore, projector can be projected in original screen panel 121 rear surfaces with a plurality of printing opacity pictures 122, like this, spectators just can see through window 111(or display panel) and the sculptured surface of original screen panel 121, watch the image of a plurality of 3-D effects.

Further, printing opacity picture 122 not necessarily will be fitted with original screen panel 121 rear surfaces, and printing opacity picture 122 can separate with original screen panel 121, is arranged on original screen panel 121 rear surfaces.Be convenient to like this printing opacity picture 122 is changed, and share same original screen panel 121.Preferably, can arrange one for the printing opacity picture switching device shifter that switches printing opacity picture 122 in lamp box 1, this printing opacity picture switching device shifter can be realized each printing opacity picture 122 in a plurality of printing opacity pictures 122 is placed on original screen panel 121 rear surfaces successively.As a kind of preferred embodiment, printing opacity picture switching device shifter can comprise gearing and pull bar; Gearing one end connects a plurality of printing opacity pictures, other end cylinder lever connecting rod continuously; When the user spurred pull bar, gearing was under the effect of pull bar, by screens and cooperating successively of printing opacity image edge each printing opacity picture being placed between light-emitting device and window or the display panel.Like this, spectators just can see through the sculptured surface of window (or display panel) and original screen panel,

Watch the image of a plurality of 3-D effects.

Printing opacity picture 122 needs first in advance process picture processing, comprises multiple processing mode in the prior art,

Printing opacity picture 122 after the processing, by the effect of original screen panel 121 sculptured surfaces, spectators can bore hole see 3-D effect or the picture effect of beating.Preferably, original screen panel 121 is the column mirror grating plate, and the sculptured surface of column mirror grating plate is that the striped that equidistantly distributes forms.Preferably, printing opacity picture 122 is arranged by M bar shaped equal portions and is formed, and the grid stroke of M=column mirror grating plate is counted the length on the * column mirror grating plate level direction, and the grid stroke number of column mirror grating plate refers to contained grating number in the original screen panel per inch; And according to following principle M bar shaped equal portions are arranged on column mirror grating plate rear surface: M bar shaped equal portions are corresponding one by one with the striped of column mirror grating plate sculptured surface.

In order further to realize better bore hole 3-D effect, can process with reference to the following manner one that the utility model provides; If want further to realize better bore hole animation (comprising two changes or changeable) effect,

Can process with reference to the following manner two that the utility model provides.

Mode one:

S101, gather the two-dimension picture of same three-dimensional scenic from N different visual angles, a described N different visual angles is order and arranged with interval on the same level direction.

Arranging of visual angle is regular as follows: N 〉=2, this N different visual angles are order and arranged with interval on the same level direction, and the spacing between head and the tail two visual angles, the spacing between the two adjacent visual angles are determined on a case-by-case basis.Preferably, the formed angle theta of distance between the same focus is 3≤θ≤7 degree in two adjacent visual angles and the described three-dimensional scenic.Preferably, this N different visual angles order and equidistantly arrangement on the same level direction.Preferably, this n different visual angles is arranged in a linear in the same level direction.Preferably, this same three-dimensional scenic is static three-dimensional scenic.When being dynamic three-dimensional scenic, preferred, among the step S101, the method that gathers the two-dimension picture of same three-dimensional scenic from N different visual angles is specially: at one time, gather the two-dimension picture of this three-dimensional scenic from N different visual angles.

When the visual angle was arranged sequentially on the same level direction, if according to from left to right ordering, so leftmost visual angle was the 1st visual angle, turns right to be followed successively by the 2nd visual angle, the 3rd visual angle, until the N visual angle; If according to from right to left ordering, so rightmost visual angle is the 1st visual angle, turns left to be followed successively by the 2nd visual angle, the 3rd visual angle, until the N visual angle.

Take N=5 as example, according to ordering from left to right, setting leftmost visual angle is the 1st visual angle, and turning right is followed successively by the 2nd visual angle, the 3rd visual angle, the 4th visual angle, the 5th visual angle.

S102, the two-dimension picture that respectively each visual angle is gathered vertically are divided into M equal portions, and M equal portions are sorted and the setting sequence number by same order.

In this step, the two-dimension picture that each visual angle gathers all vertically is divided into M equal portions, M the equal portions that the two-dimension picture that respectively each visual angle is gathered is divided into sort, and, for the two-dimension picture that each visual angle gathers, clooating sequence is identical, and like this, the sequence number of the equal portions on each two-dimension picture same position is identical.

Take M=100 as example, the two-dimension picture that respectively above-mentioned 5 visual angles is gathered vertically is divided into 100 equal portions, and 100 equal portions that the two-dimension picture that respectively each visual angle is gathered according to following rule is divided into sort, and sets sequence number:

100 equal portions that the two-dimension picture that the 1st visual angle is gathered is divided into are by from left to right order ordering and set sequence number and be followed successively by the 1st equal portions, the 2nd equal portions ... until the 100th equal portions;

100 equal portions that the two-dimension picture that the 2nd visual angle is gathered is divided into are by from left to right order ordering and set sequence number and be followed successively by the 1st equal portions, the 2nd equal portions ... until the 100th equal portions;

100 equal portions that the two-dimension picture that the 3rd visual angle is gathered is divided into are by from left to right order ordering and set sequence number and be followed successively by the 1st equal portions, the 2nd equal portions ... until the 100th equal portions;

100 equal portions that the two-dimension picture that the 4th visual angle is gathered is divided into are by from left to right order ordering and set sequence number and be followed successively by the 1st equal portions, the 2nd equal portions ... until the 100th equal portions;

The like, 100 equal portions order from left to right that the two-dimension picture that 5 visual angles are gathered is divided into is set as the 1st equal portions, the 2nd equal portions successively ... until the 100th equal portions.

S103, according to following rule, from the two-dimension picture that each visual angle gathers, extract effective equal portions: from the two-dimension picture of K visual angle collection, extract successively K+X*N equal portions.

Wherein, K visual angle refers to the arbitrary visual angle in N the visual angle, and K gets each integer between 1 to N (comprise 1 and N), i.e. 1≤K≤N successively, each integer that X gets between 0 to (M-K)/N successively (comprises 0, if (M-K)/N is integer just in time, then comprises (M-K)/N, if (M-K)/N is non-integer, then value is until less than the maximum integer of (M-K)/N), since K+X*N≤M, therefore, X≤(M-K)/N.For the two-dimension picture that K visual angle gathers, X gets each integer between 0 to (M-K)/N successively.Therefore, for the two-dimension picture that K visual angle gathers, each value of corresponding X can both be drawn into corresponding equal portions.

With above-mentioned N=5, i.e. 5 visual angles, and from left to right successively ordering be the 1st visual angle, turning right is followed successively by the 2nd visual angle, the 3rd visual angle, the 4th visual angle, the 5th visual angle, and M=100, equal portions are sorted is example from left to right, the step that extracts effective equal portions is specially:

S103a, from the two-dimension picture that the 1st visual angle gathers, extract successively 1+X*5(and obtained by K+X*N, wherein, K=1, N=5) individual equal portions, wherein, X gets successively 0 to (100-1)/5(and is obtained by (M-K)/N,

Wherein, M=100, N=5, K=1) between each integer because (100-1)/5=19.8, be non-integer,

Then value is until less than 19.8 maximum integer 19.Relation such as the table 1 of equal portions in the two-dimension picture of the value of X and the 1st visual angle collection:

Table 1

S103b, from the two-dimension picture that the 2nd visual angle gathers, extract successively 2+X*5(and obtained by K+X*N, wherein, K=2, N=5) individual equal portions, wherein, X gets successively 0 to (100-2)/5(and is obtained by (M-K)/N,

Wherein, M=100, N=5, K=2) between each integer because (100-2)/5=19.6, be non-integer,

Then value is until less than 19.6 maximum integer 19.Relation such as the table 2 of equal portions in the two-dimension picture of the value of X and the 2nd visual angle collection:

Table 2

S103c, from the two-dimension picture that the 3rd visual angle gathers, extract successively 3+X*5(and obtained by K+X*N, wherein, K=3, N=5) individual equal portions, wherein, X gets successively 0 to (100-3)/5(and is obtained by (M-K)/N, wherein, M=100, N=5, K=3) between each integer because (100-3)/5=19.4, be non-integer, then value is until less than 19.4 maximum integer 19.Relation such as the table 3 of equal portions in the two-dimension picture of the value of X and the 3rd visual angle collection:

Table 3

S103d, from the two-dimension picture that the 4th visual angle gathers, extract successively 4+X*5(and obtained by K+X*N, wherein, K=4, N=5) individual equal portions, wherein, X gets successively 0 to (100-4)/5(and is obtained by (M-K)/N, wherein, M=100, N=5, K=4) between each integer because (100-4)/5=19.2, be non-integer, then value is until less than 19.2 maximum integer 19.Relation such as the table 4 of equal portions in the two-dimension picture of the value of X and the 4th visual angle collection:

Table 4

S103e, from the two-dimension picture that the 5th visual angle gathers, extract successively 5+X*5(and obtained by K+X*N, wherein, K=5, N=5) individual equal portions, wherein, X gets successively 0 to (100-5)/5(and is obtained by (M-K)/N, wherein, M=100, N=5, K=5) between each integer because (100-4)/5=19, be integer, then value is until integer 19.Relation such as the table 5 of equal portions in the two-dimension picture of the value of X and the 4th visual angle collection:

Table 5

S104, effective equal portions that will be drawn into are arranged in order splicing according to the equal portions sequence number, obtain the synthesising picture that is comprised of M bar shaped equal portions.

By above-mentioned steps S103a as can be known, the equal portions that are drawn into from the two-dimension picture that the 1st visual angle gathers comprise the 1st equal portions, the 6th equal portions, the 11st equal portions ... the 96th equal portions.By above-mentioned steps S103b as can be known,

The equal portions that are drawn into from the two-dimension picture that the 2nd visual angle gathers comprise the 2nd equal portions, the 7th equal portions, the 12nd equal portions ... the 97th equal portions.By above-mentioned steps S103c as can be known, the equal portions that are drawn into from the two-dimension picture that the 3rd visual angle gathers comprise the 3rd equal portions, the 8th equal portions, the 13rd equal portions ... the 98th equal portions.By above-mentioned steps S103d as can be known, the equal portions that are drawn into from the two-dimension picture that the 4th visual angle gathers comprise the 4th equal portions, the 9th equal portions, the 14th equal portions ... the 99th equal portions.By above-mentioned steps S103e as can be known, the equal portions that are drawn into from the two-dimension picture that the 5th visual angle gathers comprise the 5th equal portions, the 10th equal portions, the 15th equal portions ... the 100th equal portions.The effective equal portions that are drawn into are arranged in order splicing according to the equal portions sequence number, obtain synthesising picture, as shown in Figure 2, this synthesising picture is comprised of following equal portions successively: the 1st equal portions (from the two-dimension picture of the 1st visual angle collection), the 2nd equal portions (from the two-dimension picture of the 2nd visual angle collection), the 3rd equal portions (from the two-dimension picture of the 3rd visual angle collection), the 4th equal portions (from the two-dimension picture of the 4th visual angle collection), the 5th equal portions (from the two-dimension picture of the 5th visual angle collection), the 6th equal portions (from the two-dimension picture of the 1st visual angle collection), the 7th equal portions (from the two-dimension picture of the 2nd visual angle collection), the 8th equal portions (from the two-dimension picture of the 3rd visual angle collection), the 9th equal portions (from the two-dimension picture of the 4th visual angle collection), the 10th equal portions (from the two-dimension picture of the 5th visual angle collection) ... ...

S105, will be arranged on by the synthesising picture that M bar shaped equal portions form column mirror grating plate rear surface according to following principle: M bar shaped equal portions are corresponding one by one with the striped of column mirror grating plate sculptured surface.Spectators can bore hole watch three-dimensional stereo effect by the sculptured surface of column mirror grating plate.The mode that synthesising picture is arranged on column mirror grating plate rear surface comprises that printing, stickup, projection, separation arrange etc.

Mode two:

Hereinafter will be defined as by the two-dimension picture that collects former two-dimension picture, and copy former two-dimension picture and obtain being defined as replisome, this processing mode comprises following flow process:

S301, collection L different former two-dimension pictures, wherein L 〉=2.

When L=2, the bore hole that finally the obtains picture of beating only has the variation of two pictures, watches the variation that can see 2 pictures; When L＞2, the bore hole that finally the obtains picture of beating has the variation of a plurality of pictures, watches the variation that can see a plurality of pictures.

Can be without any association, as being Zhang San's head portrait, Li Si's head portrait between this L the former two-dimension picture.Perhaps this L former two-dimension picture can also be the two-dimension picture on L different time points in the three-dimensional animation scene, such as, someone who is moving gathered former two-dimension picture on 2 different time points, suppose that this people is in the jump attitude in one of them former two-dimension picture, this people is in the attitude of landing after the jump in another former two-dimension picture.

S302, respectively each former two-dimension picture vertically is divided into M equal portions, according to same order to M equal portions ordering and set sequence number.

In this step, each former two-dimension picture all vertically is divided into M equal portions, and M equal portions that respectively each former two-dimension picture are divided into sort, and for each former two-dimension picture, clooating sequence is identical.Like this, the sequence number of the equal portions on each former two-dimension picture same position is identical.Wherein same order refers to all the order according to from left to right, perhaps all according to dextrosinistral order,

With L=2, M=100 is example, respectively each former two-dimension picture vertically is divided into 100 equal portions, and respectively 100 equal portions that each former two-dimension picture is divided into is sorted according to following rule, and sets sequence number:

100 equal portions that a former two-dimension picture wherein is divided into are by dextrosinistral order ordering and set sequence number and be followed successively by the 1st equal portions, the 2nd equal portions ... until the 100th equal portions.

Equally, 100 equal portions to another former two-dimension picture is divided into are followed successively by the 1st equal portions, the 2nd equal portions by dextrosinistral order ordering and setting sequence number ... until the 100th equal portions.

S303, each former two-dimension picture is copied portion, obtain the replisome of each former two-dimension picture, before the first equal portions of each replisome, fill L equal portions, and according to former order the equal portions of replisome are reset sequence number, that is to say, the sequence number of filling L the equal portions of coming in is followed successively by 0 to L, and other each equal portions sequence numbers add L on the basis of former sequence number.As shown in Figure 3.

S304, according to following rule, 2L the two-dimension picture that is comprised of L former two-dimension picture and L replisome sorted in the lump: each former two-dimension picture is continuous to sort front, rear, and the sequence number of each former two-dimension picture and its replisome differs L to each replisome according to the continuous arrangement that puts in order of former two-dimension picture.If, this L former two-dimension picture is the two-dimension picture on L different time points in the three-dimensional animation scene, so, also need to require simultaneously between each former two-dimension picture the order ordering according to time point, since each replisome according to the continuous arrangement that puts in order of former two-dimension picture rear, therefore between each replisome, reality also is the order ordering according to time point.

Suppose, someone who is moving gathered former two-dimension picture on 2 different time points, this people is in the jump attitude in one of them former two-dimension picture, this people is in the attitude of landing after the jump in another former two-dimension picture, because the time point of jump attitude is landing before the time point of attitude after the jump, therefore the former two-dimension picture that is in the jump attitude is the 1st two-dimension picture, the former two-dimension picture of attitude of landing that is in after the jump is the 2nd two-dimension picture, and the replisome of the 1st two-dimension picture is that the replisome of the 3rd two-dimension picture, the 2nd two-dimension picture is the 4th two-dimension picture.

S305, according to following rule, from 2L two-dimension picture, extract effective equal portions: from J two-dimension picture, extract J+Y*2L equal portions, wherein, J two-dimension picture refer in 2L the two-dimension picture arbitrary each, J gets each integer between 1 to 2L (comprise 1 and 2L) successively, i.e. 1≤J≤2L, the value of Y is that each integer between 0 to (M-J)/2L (comprises 0, if (M-J)/2L is integer just in time, then comprises (M-J)/2L, if (M-J)/2L is non-integer, then value is until less than the maximum integer of (M-J)/2L), since J+Y*2L≤M, therefore, Y≤(M-J)/2L.

For J two-dimension picture, Y gets each integer between 0 to (M-J)/2L successively.Therefore, for J two-dimension picture, each value of corresponding Y can both be drawn into corresponding equal portions,

With from above-mentioned 4 two-dimension pictures (the 1st two-dimension picture, the 2nd two-dimension picture, the 3rd two-dimension picture,

The 4th two-dimension picture) extracting effective equal portions in is example, specifically comprises:

S305a, from the 1st two-dimension picture, extract successively 1+Y*4(and obtained by J+Y*2L, wherein, J=1,2L=4) individual equal portions, wherein, Y gets successively 0 to (100-1)/4(and is obtained by (M-J)/2L, wherein, M=100,2L=4, J=1) between each integer because (100-1)/4=24.75, be non-integer, then value is until less than 24.75 maximum integer 24.Relation such as the table 6 of equal portions in the value of Y and the 1st two-dimension picture:

Table 6

S305b, from the 2nd two-dimension picture, extract successively 2+Y*4(and obtained by J+Y*2L, wherein, J=2,2L=4) individual equal portions, wherein, Y gets successively 0 to (100-2)/4(and is obtained by (M-J)/2L, wherein, M=100,2L=4, J=2) between each integer because (100-2)/4=24.5, be non-integer, then value is until less than 24.5 maximum integer 24.Relation such as the table 7 of equal portions in the value of Y and the 2nd two-dimension picture:

Table 7

S305c, from the 3rd two-dimension picture, extract successively 3+Y*4(and obtained by J+Y*2L, wherein, J=3,2L=4) individual equal portions, wherein, Y gets successively 0 to (100-3)/4(and is obtained by (M-J)/2L, wherein, M=100,2L=4, J=3) between each integer because (100-3)/4=24.25, be non-integer, then value is until less than 24.25 maximum integer 24.Relation such as the table 8 of equal portions in the value of Y and the 3rd two-dimension picture:

Table 8

S305d, from the 4th two-dimension picture, extract successively 4+Y*4(and obtained by J+Y*2L, wherein, J=4,2L=4) individual equal portions, wherein, Y gets successively 0 to (100-4)/4(and is obtained by (M-J)/2L, wherein, M=100,2L=4, J=4) between each integer because (100-4)/4=24, be integer, then value is until 24.Relation such as the table 9 of equal portions in the value of Y and the 4th two-dimension picture:

Table 9

S306, effective equal portions that will be drawn into are arranged in order splicing according to the equal portions sequence number, obtain the synthesising picture that is comprised of M bar shaped equal portions.

By above-mentioned steps S305a as can be known, the equal portions that from the 1st two-dimension picture, are drawn into comprise the 1st equal portions,

The 5th equal portions, the 9th equal portions ... the 97th equal portions.By above-mentioned steps S305b as can be known, the equal portions that are drawn into from the 2nd two-dimension picture comprise the 2nd equal portions, the 6th equal portions, the 10th equal portions ... the 98th equal portions.By above-mentioned steps S305c as can be known, the equal portions that are drawn into from the two-dimension picture that the 3rd visual angle gathers comprise the 3rd equal portions, the 7th equal portions, the 11st equal portions ... the 99th equal portions.By above-mentioned steps S305d as can be known, the equal portions that are drawn into from the 4th two-dimension picture comprise the 4th equal portions, the 8th equal portions, the 12nd equal portions ... the 100th equal portions.The effective equal portions that are drawn into are arranged in order splicing according to the equal portions sequence number, obtain synthesising picture, this synthesising picture is comprised of following equal portions successively: the 1st equal portions (from the 1st two-dimension picture), the 2nd equal portions (from the 2nd two-dimension picture), the 3rd equal portions (from the 3rd two-dimension picture), the 4th equal portions (from the 4th two-dimension picture), the 5th equal portions (from the 1st two-dimension picture), the 6th equal portions (from the 2nd two-dimension picture), the 7th equal portions (from the 3rd two-dimension picture), the 8th equal portions (from the 4th two-dimension picture), the 9th equal portions (from the 1st two-dimension picture), the 10th equal portions (from the 2nd two-dimension picture) ... ...In the composite diagram, although the 3rd equal portions, the 7th equal portions, the 11st equal portions are from the 3rd two-dimension picture, but because the 3rd two-dimension picture is the replisome of the 1st two-dimension picture, therefore the 3rd equal portions of the 3rd two-dimension picture in fact, the 7th equal portions, the 11st equal portions respectively with the 1st equal portions of the 1st two-dimension picture, the 5th equal portions, the 9th equal portions are identical, similarly, although the 4th equal portions, the 8th equal portions, the 12nd equal portions are from the 4th two-dimension picture, but because the 4th two-dimension picture is the replisome of the 2nd two-dimension picture, therefore the 4th equal portions of the 4th two-dimension picture in fact, the 8th equal portions, the 12nd equal portions respectively with the 2nd equal portions of the 2nd two-dimension picture, the 6th equal portions, the 10th equal portions are identical.

S307, will be arranged on by the synthesising picture that M bar shaped equal portions form column mirror grating plate rear surface according to following principle: M bar shaped equal portions are corresponding one by one with the striped of column mirror grating plate sculptured surface.Spectators just can watch the picture of beating by the sculptured surface bore hole of column mirror grating plate.The mode that synthesising picture is arranged on column mirror grating plate rear surface comprises that printing, stickup, projection, separation arrange etc.

The lamp box that the utility model provides when human eye is watched raster image by window or display panel, can be watched three-dimensional stereo effect or the effect of beating.

Above content is in conjunction with concrete embodiment further detailed description of the utility model, can not assert that implementation of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, can also make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. a lamp box comprises casing, it is characterized in that, also comprises the raster image and the light-emitting device that are arranged in the described casing; Described casing is provided with window or display panel; Described raster image comprises original screen panel and printing opacity picture; Described original screen panel front surface is sculptured surface; Described printing opacity picture is arranged on described original screen panel rear surface; Described raster image is arranged between described light-emitting device and described window or the display panel.

2. lamp box as claimed in claim 1 is characterized in that, described printing opacity picture is fitted by mode and the described original screen panel rear surface of printing, stickup or projection.

3. lamp box as claimed in claim 2 is characterized in that, described lamp box comprises that also one is used for switching the raster image switching device shifter of described raster image.

4. lamp box as claimed in claim 3 is characterized in that, described raster image switching device shifter comprises gearing and pull bar; Described gearing one end connects a plurality of raster images continuously, and the other end connects described pull bar; Described gearing is under the effect of pull bar, by screens and cooperating successively of raster image edge each raster image being placed between described light-emitting device and described window or the display panel.

5. lamp box as claimed in claim 1 is characterized in that, described lamp box comprises that also one is used for switching the printing opacity picture switching device shifter of described printing opacity picture.

6. lamp box as claimed in claim 5 is characterized in that, described printing opacity picture switching device shifter comprises gearing and pull bar, and described gearing one end connects a plurality of printing opacity pictures continuously, and the other end connects a pull bar; Described gearing is under the effect of pull bar, by screens and cooperating successively of printing opacity image edge each printing opacity picture being placed on described original screen panel rear surface.

7. such as each described lamp box of claim 1 to 6, it is characterized in that described original screen panel is the column mirror grating plate; Described printing opacity picture is arranged by M bar shaped equal portions and is formed, and the grid stroke of M=column mirror grating plate is counted the length on the * column mirror grating plate level direction; M bar shaped equal portions are corresponding one by one with the striped of column mirror grating plate sculptured surface at the setting position of described column mirror grating plate rear surface.

8. lamp box as claimed in claim 7, it is characterized in that, the constituted mode of the M of a described printing opacity picture equal portions is: gather the two-dimension picture of same three-dimensional scenic from N different visual angles, a described N different visual angles is order and arranged with interval, wherein N 〉=2 on the same level direction; The two-dimension picture that respectively each visual angle is gathered vertically is divided into M equal portions, and M equal portions is sorted and the setting sequence number by same order; According to following rule, extract effective equal portions from the two-dimension picture that each visual angle gathers: extract successively K+X*N equal portions from the two-dimension picture that K visual angle gathers, wherein, 1≤K≤N, X get each integer between 0 to (M-K)/N successively; The effective equal portions that are drawn into are arranged in order splicing according to the equal portions sequence number.

9. lamp box as claimed in claim 7 is characterized in that, the constituted mode of the M of a described printing opacity picture equal portions is: gather L different former two-dimension picture; L 〉=2 wherein; Respectively each former two-dimension picture vertically is divided into M equal portions, M equal portions is sorted and the setting sequence number according to same order; Each former two-dimension picture is copied portion, obtain the replisome of each former two-dimension picture, before the first equal portions of each replisome, fill L equal portions, and according to former order the equal portions of replisome are reset sequence number; According to following rule, 2L the two-dimension picture that is comprised of L former two-dimension picture and L replisome sorted in the lump: each former two-dimension picture is continuous to sort front, rear, and the sequence number of each former two-dimension picture and its replisome differs L to each replisome according to the continuous arrangement that puts in order of former two-dimension picture; According to following rule, from 2L two-dimension picture, extract effective equal portions: J+Y*2L equal portions of extraction from J two-dimension picture, wherein, 1≤J≤2L, Y successively value 0 to each integer between (M-J)/2L; The effective equal portions that are drawn into are arranged in order splicing according to the equal portions sequence number.

10. lamp box as claimed in claim 9 is characterized in that, the L of institute different former two-dimension picture is: gather L former two-dimension picture that different time points obtains the three-dimensional animation scene from same visual angle.

Images