JP2019074618A - Picture screen - Google Patents

Abstract

To provide a picture screen that can allow audio to pass through even though the picture screen is a rear screen.SOLUTION: The present invention relates to a picture screen 10 of a rear projection system for projecting a picture emitted from the back by a projector to the front, and the picture screen is formed by laminating sheet-like screen fabrics 11, 12, and 13 of woven or knitted fibers which have a nearly round cross section or is translucent or is transparent. The screen fibers 11, 12, and 13 are, for example, a plain-woven cloth, and are laminated to be displaced in directions of weft yarns and warp yarns.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a projection screen for projecting an illuminated image.

  As a method of displaying an image on a screen using a projector, there are a method of emitting an image from the front side of the screen (front projection method) and a method of emitting an image from the back side of the screen (rear projection method). Generally, a screen used in the front projection system is called a "front screen" (see Patent Document 1), and a screen used in the rear projection system is called a "rear screen" (see Patent Document 2). In the front projection method, when the spectator approaches the front of the screen, the spectator itself blocks the light emitted from the projector, which restricts the device relationship between the projector and the screen. On the other hand, in the rear projection method, even if the spectator approaches the front of the screen, the light emitted from the projector is not blocked, so it is possible to approach the front of the screen.

  In addition, as a technique in the front projection system, an acoustic transmission front screen has been developed in which the transmittance of sound output from a speaker is enhanced by providing a hole for acoustic transmission (see Patent Document 3). An outline of a front projection type acoustic imaging system described in Patent Document 3 is shown in FIG. 8A. The audio-visual system 800 includes a front screen 801, a projector 802 disposed in front of the front screen 801, and a speaker 803 disposed behind the front screen 801. The viewer 804 can hear the sound emitted from the speaker 803 through the sound transmission holes formed in the front screen 801.

Japanese Patent Application Laid-Open No. 5-045733 JP, 2001-305661, A JP, 2016-114701, A

  However, an acoustic transmissive rear screen has not been developed yet. An outline of an assumed sound transmission type and rear projection type sound imaging system is shown in FIG. 8B. The audio-visual system 900 includes a rear screen 901, a projector 902 (two are shown here but may be one) and a speaker 903 disposed behind the rear screen 901. Therefore, when a hole for sound transmission is provided in the rear screen 901 in the same manner as in Patent Document 3, a viewer who is on the front side of the rear screen 901 by the light irradiated from the projector 902 passing through the hole for sound transmission. It reaches 904 directly. Therefore, it was not possible to simply provide a hole for sound transmission in the rear screen 901.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a projection screen capable of transmitting sound while being a rear screen.

  In order to solve the above problems, a projection screen according to the present invention is a rear projection type projection screen that projects an image illuminated from the back side by a projection device to the front side, and has a substantially circular cross section shape and is semitransparent or transparent. The screen fabric of a woven or knitted sheet form is laminated in layers.

A projection screen having such a configuration diffuses and outputs the light transmitted through the fiber to the front side due to the surface shape and refractive index of the fiber. In addition, due to the nature of the woven or knitted fabric, fine gaps are regularly formed in each screen cloth, and the gaps play a role of sound transmission holes for transmitting the sound output from the speaker.
On the other hand, if there is only one screen cloth, this gap becomes a defect that transmits the light emitted from the projection device without diffusing it, but in the present invention, since the screen cloth is layered, the projection It is possible to reduce the probability of transmitting the light emitted from the device to the front side without diffusing it. This probability can be further reduced by increasing the number of screen cloths to be stacked. In addition, since the hole for sound transmission is formed by weaving or knitting the fiber whose cross-sectional shape is circular, the unevenness | corrugation based on the structure of textiles and the structure of knitting is formed in the surface of screen fabric. Therefore, even if the screen material is stacked, the sound transmission holes are not completely closed, and the sound output from the speaker propagates without any problem.

  According to the present invention, since it has a function of diffusing light and a function of propagating sound, it is possible to pass sound while being a rear screen.

It is a figure for demonstrating the whole structure of the acoustic imaging system using the screen for projection which concerns on embodiment of this invention. It is a front view of a screen apparatus. The projection screen is shown in a partially flipped state. It is an enlarged front view of screen cloth. It is a schematic diagram which showed the cross section of screen cloth. It is a schematic diagram which showed the state which accumulated screen cloth. It is a schematic diagram which showed the cross section of the screen cloth which accumulated. It is a schematic diagram which showed the cross section of the screen cloth which accumulated. FIG. 1 is a schematic view showing a conventional front projection type audiovisual system. It is a figure for demonstrating the conventional problem, and is the schematic which shows the acoustic imaging system of a rear projection system. It is the model which showed the screen for projection which concerns on a modification. The projection screen is shown in a partially flipped state.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The figures are only schematically shown to the extent that the present invention can be fully understood. Therefore, the present invention is not limited to the illustrated example. Also, dimensions in the drawings referred to may be exaggerated for clarity of the description. In addition, in each figure, about the same component and the same component, the same code | symbol is attached | subjected and those duplicate description is abbreviate | omitted.

<< Configuration of Audio-Visual System Using Projection Screen According to Embodiment >>
The configuration of an audio-visual system using the projection screen according to the present embodiment will be described with reference to FIG. The audio-visual system S is of a rear projection type, and includes a screen device 1 and a projector 2 and a speaker 3 which are disposed at a certain distance from the screen device 1 at the rear.

  The projector 2 is a device (projecting device) that projects an image on the screen device 1. The audiovisual system S emits light 2 a from the back side of the screen device 1 for the rear projection system. Here, one projector 2 is disposed at the upper rear of the screen device 1, but the position and the number of the projectors 2 are not particularly limited. For example, a plurality of projectors 2 may be arranged at a plurality of places, and an image divided from the plurality of places may be projected on the screen device 1.

  The speaker 3 is a device that generates a sound. The sound 3 a generated from the speaker 3 passes through the screen device 1 and reaches a viewer (not shown) in front of the screen device 1. The number and shape of the loudspeakers 3 are not particularly limited as long as the loudspeakers 3 are installed at positions not blocking the light 2 a emitted from the projector 2.

  The screen device 1 projects the light 2a emitted from the projector 2 as an image. The screen device 1 includes a projection screen 10 on which an image is projected, and a frame portion 20 which holds the projection screen 10 in a stretched state. The frame portion 20 here has a rectangular shape surrounding the periphery of the projection screen 10, as shown in FIG. 2. For example, the frame portion 20 is projected using holding means (not shown) for sandwiching the projection screen 10 from both sides. The peripheral portion of the screen 10 is held. For example, a part of the frame portion 20 is fixed to a ceiling, a wall, a floor or the like of a room. The shape of the frame portion 20 and the holding means for holding the projection screen 10 are not particularly limited.

  The projection screen 10 diffuses the light emitted from the rear by the projector 2 to the front. The projection screen 10 here is, as shown in FIG. 2, formed by layering three screen cloths 11, 12, 13 in a sheet shape, for example. The screen cloths 11, 12, 13 are maintained in a stretched state by holding the peripheral part by the frame part 20. Also, the screen cloths 11, 12, 13 sew each other in a contact or close state. As a result, the distance between the screen cloths 11, 12, 13 is changed, and the screen cloths 11, 12, 13 are prevented from loosening. The seam by this stitching is shown in dotted lines and indicated by reference numeral 10a. The number of screen cloths and the positions of the seams described here are schematically shown, and are not particularly limited.

  The screen cloths 11, 12, 13 have a mesh structure (mesh structure), and holes for sound transmission are formed. Since the screen fabrics 11, 12, 13 here have the same structure, the detailed configuration of the screen fabric 11 will be described, and the description of the screen fabrics 12, 13 will be omitted.

As shown in FIG. 3, the screen cloth 11 is a plain weave of thread-like fibers 11 f. The fiber 11f may be any one as long as it diffuses the transmitted light due to the difference in the surface shape and the refractive index, and for example, the one having a substantially circular (including circular and elliptical), semitransparent or transparent cross sectional shape is there. The fibers 11 f here are made of nylon having a circular cross-sectional shape as an example.
Hereinafter, in the case of distinguishing and describing the longitudinal direction (vertical direction) fiber 11 f and the lateral direction (horizontal direction) fiber 11 f, the one extending in the longitudinal direction is referred to as “warp 11 fa” and extends in the lateral direction The existing one is referred to as "weft 11 fb". A rectangular gap 11c is formed between the warp yarn 11fa and the weft yarn 11fb as viewed from the front, and the gap 11c plays a role of a hole for sound transmission. The rectangular shape means a square, a rectangle, a rhombus, a parallelogram, a trapezoid and the like.

  Although the screen fabric 11 will be described here on the assumption that the screen fabric 11 is plain weave, the screen fabric 11 may be any one as long as the warp yarns 11fa and the weft yarns 11b are arranged at predetermined intervals, It may be a woven fabric or a knitted fabric made of fibers 11f. Here, the interval at which the warp yarn 11fa is disposed may not be the same as the interval at which the weft yarn 11fb is disposed. The warp yarn 11fa and the weft yarn 11fb may be different in material and dimensions (particularly, thickness). The size relationship between the warp yarns 11fa and weft yarns 11fb and the gaps 11c is not particularly limited, but as the gaps 11c increase with respect to the warp yarns 11fa and weft yarns 11f, the number of overlapping screen fabrics increases. Details will be described later.

  The schematic diagram which showed the cross section of the screen cloth 11 is shown in FIG. Since the weft yarn 11fb has a circular cross-sectional shape, the light 2a emitted from the projector 2 (see FIG. 1) is diffused mainly in the vertical direction by transmitting the weft yarn 11fb. Although illustration is omitted, for the same reason, the light 2a emitted from the projector 2 is diffused mainly in the left-right direction by transmitting through the warp yarn 11fa. On the other hand, the light 2a not passing through the warp yarn 11fa and the weft yarn 11f (that is, the light 2a passing through the gap 11c of the fiber 11f) goes straight without being diffused. In order to display the light 2a emitted from the projector 2 (see FIG. 1) as an image on the projection screen 10 (see FIG. 1), the light 2a needs to be appropriately diffused by the projection screen 10. Therefore, it is preferable that the amount of light 2a which is not diffused by passing through the gap 11c of the fiber 11f is small.

  In the present embodiment, as shown in FIG. 5, the screen cloths 11, 12, 13 are overlapped in the front-rear direction. Further, the warp yarns 11fa of the screen cloth 11, the warp yarns 12fa of the screen cloth 12, and the warp yarns 13fa of the screen cloth 13 are shifted in the lateral direction so as not to overlap completely when viewed from the front. Further, the weft yarns 11 fb of the screen cloth 11, the weft yarns 12 fb of the screen cloth 12, and the weft yarns 13 fb of the screen cloth 13 are vertically shifted so as not to overlap completely when viewed from the front. That is, here, the gaps 11c, 12c, 13c (see FIG. 7) formed in the screen fabrics 11, 12, 13 by projecting the overlapped screen fabrics 11, 12, 13 in the vertical and horizontal directions are for projection. It arrange | positions so that it may not line up in parallel in the thickness direction (here back-and-front direction) of the screen 10 (it does not connect). Note that only one of the warp yarns 11fa, 12fa, and 13fa and the weft yarns 11fb, 12fb, and 13fb may be shifted.

  The amounts of shifting the warp yarns 11fa, 12fa, 13fa and the weft yarns 11fb, 12fb, 13fb should be set so that the light 2a which is not diffused is eliminated. Here, as shown in FIG. 6, the weft 12fb of the screen cloth 12 is shifted downward by a distance H with respect to the weft 11fb of the screen cloth 11, and the screen cloth is further against the weft 12fb of the screen cloth 12. The 13 wefts 13 fb are arranged to be shifted downward by the distance H. The distance H is, for example, a value smaller than the diameter D of the weft yarns 11fb, 12fb, 13fb and larger than the radius d (diameter D> distance H> radius d). Moreover, although illustration is abbreviate | omitted, it is the same as that of the weft 11fb, 12fb, 13fb also about warp 11fa, 12fa, 13fa. That is, the warp yarn 12fa is shifted to the right by the distance H with respect to the warp yarn 11fa, and the warp yarn 13fa is shifted to the right by the distance H with respect to the warp yarn 12fa.

  Thus, the light 2a emitted from the projector 2 (see FIG. 1) always passes through the warp yarns 11fa, 12fa, 13fa and the weft yarns 11fb, 12fb, 13fb of the screen cloths 11, 12, 13. Therefore, the projection screen 10 can appropriately diffuse the light 2a emitted from the projector 2 within a range suitable for displaying as an image.

  In addition, when fibers 11f, 12f, 13f (see FIG. 5) of screen cloths 11, 12, 13 are thin, it is difficult to shift and arrange warps 11fa, 12fa, 13fa and wefts 11fb, 12fb, 13fb as designed. It is also conceivable. In that case, the number of screens required to be displayed as an image on the projection screen is statistically calculated based on the ratio of the area occupied by fibers when the screen material is viewed from the front, You may stack the dough.

For example, when the ratio of the area occupied by fibers when the screen material is viewed from the front is M (%) and the number of screen materials to be stacked is N (sheets), the screen material satisfying the following equation (1) The projection screen 10 is configured with the minimum number of images.
(M × N) ≧ 100 (%) formula (1)
According to this, if M ≧ 50 (%), two sheets of screen cloth may be stacked.

In addition, in consideration of the fact that the fibers of the screen cloths overlap when viewed from the front, the expected value k _{N in} which the fibers do not overlap may be weighted. The expected value k _N is a value in the range for example of "0 <k _N <1", do not overlap fibers enough larger expected value k _N, fibers overlap enough expected value k _N is small Indicates that. In this case, the projection screen 10 is configured with the minimum number of screen materials for which the following equation (2) holds. The expected value k _N is determined, for example, by experiments.
(M × N) × k _N 100100 (%) formula (2)

  On the other hand, as shown in FIG. 7, the sound 3a outputted from the speaker 3 (see FIG. 1) passes through the gaps 11c, 12c, 13c formed in the screen cloths 11, 12, 13 and is projected to the projection screen 10 Reach the viewer in front of the That is, the light 2a emitted from the projector 2 (see FIG. 1) travels straight in the direction of the viewer, but the sound 3a output from the speaker 3 travels through the air, so in the direction of the viewer You can also move in the diagonal direction. Therefore, the sound 3a can obliquely travel through the gaps 11c, 12c, and 13c which are arranged to be shifted in the vertical and horizontal directions.

  In the present embodiment, since the fibers 11f, 12f, 13f (see FIG. 5) having a circular cross-sectional shape are plain-woven, unevenness is formed on the surface of the screen cloth 11, 12, 13. Therefore, even if the fibers 11f, 12f, 13f are positioned in front of the gaps 11c, 12c, 13c, the gaps 11c, 12c, 13c are not completely closed, and the sound 3a output from the speaker 3 is a problem. Can be propagated without

«Method of manufacturing screen device according to embodiment»
Next, with reference to FIGS. 1 to 7, a method of manufacturing the screen device 1 will be described. In the method of manufacturing the screen device 1, the screen fabric preparation step, the overlapping step, and the screen attachment step are mainly performed.

  The screen cloth preparation step is a step of preparing the screen cloths 11, 12, and 13. The screen fabrics 11, 12, 13 here are plain weaves of the fibers 11f, 12f, 13f (see FIG. 5). The screen cloths 11, 12 and 13 may be made of woven or knitted fibers 11f having a substantially circular cross-sectional shape and translucent or transparent, and the screen cloths 11, 12 and 13 have different materials and structures. It may be The screen cloths 11, 12, 13 should be cut to the same size.

  The overlapping step is a step of suturing in the state where the screen cloths 11, 12 and 13 are overlapped. For example, with the screen fabrics 11, 12, 13 stretched, the warp yarns 11fa, 12fa, 13fa are arranged in parallel so that they do not overlap completely when viewed from the front, and the weft yarns 11fb, 12fb, 13fb Are arranged in parallel so that they do not overlap completely when viewed from the front. Then, the screen cloths 11, 12 and 13 in the overlapped state are sewn together. Thus, the projection screen 10 (see FIG. 2) is completed. Note that, before performing the stitching, an image may be projected on the screen cloths 11, 12, 13 in the overlapped state, and it may be confirmed whether the projected image is as expected.

  The screen attaching step is a step of attaching the projection screen 10 (the screen cloths 11, 12, 13 stacked and integrated) to the frame 20 (see FIG. 2). For example, the peripheral edge portion is fixed to the frame portion 20 in a state where the projection screen 10 is stretched. Thus, the screen device 1 is completed.

  As described above, the projection screen 10 according to the embodiment diffuses and outputs the light 2a transmitted through the fibers 11f, 12f, and 13f to the front side by the surface shape and refractive index of the fibers 11f, 12f, and 13f (FIG. 6) reference). Further, due to the nature of the woven or knitted fabric, fine gaps 11c, 12c, 13c are regularly formed in each of the screen fabrics 11, 12, 13 and the gaps 11c, 12c, 13c propagate the sound output from the speaker 3 Play a role of sound transmission holes (see FIG. 7).

  On the other hand, the gaps 11c, 12c, and 13c are defects that diffuse to the front side without diffusing the light 2a emitted from the projector 2 if there is only one screen material, but the projection screen 10 according to the present embodiment In the above, since the screen material is stacked in layers, it is possible to reduce the probability of transmitting the light 2a emitted from the projector 2 (see FIG. 1) to the front side without diffusing it. This probability can be further reduced by increasing the number of screen cloths to be stacked. The gaps 11c, 12c, and 13c that function as holes for sound transmission are formed by weaving fibers 11f, 12f, and 13f having a circular cross-sectional shape. The unevenness is formed based on the structure of Therefore, even if the screen cloths 11, 12, 13 are stacked, the gaps 11c, 12c, 13c are not completely closed, and the sound output from the speaker 3 propagates without any problem.

  Further, since the screen cloths 11, 12, 13 of the projection screen 10 according to the embodiment are woven fabrics in which the fibers 11f, 12f, 13f are plain-woven (see FIG. 3), warps 11fa, 12fa, 13fa and wefts 11fb, The same number of 12 fb and 13 fb are arranged at equal intervals. Here, since the fibers 11f, 12f, 13f have a circular cross-sectional shape, the warp yarns 11fa, 12fa, 13fa mainly diffuse the light 2a emitted from the projector 2 in the left-right direction, and the wefts 11fb, 12fb, 13fb Diffuse 2a mainly in the vertical direction. Therefore, it is possible to diffuse the light 2a emitted from the projector 2 evenly in the vertical and horizontal directions.

  In the projection screen 10 according to the embodiment, the screen cloths 11, 12, 13 are overlapped in the directions of the warps 11fa, 12fa, 13fa and the directions of the wefts 11fb, 12fb, 13fb. Therefore, it is possible to diffuse the light 2a emitted from the projector 2 efficiently.

  Further, since the screen fabrics 11, 12, 13 of the projection screen 10 according to the embodiment are sewn to each other, the distance between the screen fabrics 11, 12, 13 changes, or the screen fabrics 11, 12, 13 become loose. You can prevent it. Therefore, blurring of the projected image can be suppressed.

[Modification]
As mentioned above, although embodiment of this invention was described, this invention is not limited to this, It can implement in the range which does not change the meaning. The modification of embodiment is shown below.

  In the embodiment, the projection screen 10 is manufactured by superposing the screen cloths 11, 12, 13 cut into the same size. However, the method of manufacturing the projection screen 10 is not limited to this. For example, the projection screen 10 may be a folded long screen cloth.

  In the embodiment, the fibers 11f, 12f, 13f (see FIG. 5) of the plain weave screen cloths 11, 12, 13 become the vertical direction (vertical direction) and the horizontal direction (horizontal direction), and the fibers 11f, 12f, 12f, 13f were arranged so as not to overlap completely when viewed from the front. However, the method of stacking the screen fabric is not limited to this. For example, the screen fabric may be arranged such that the fibers are inclined with respect to the longitudinal direction (vertical direction) and the lateral direction (horizontal direction). FIG. 9 shows the case where the fibers are arranged to be inclined with respect to the vertical direction (vertical direction) and the horizontal direction (horizontal direction).

  As shown in FIG. 9, the projection screen 10A according to the modification is formed by layering four screen cloths 11A, 12A, 13A, 14A in sheet form. The screen cloths 11A, 12A, 13A, and 14A are plain weaves of nylon fibers having a circular cross-sectional shape. In the screen cloths 11A and 13A, the fibers are arranged parallel to the vertical direction (vertical direction) and the horizontal direction (left and right direction), while in the screen cloths 12A and 14A, the fibers in the vertical direction (vertical direction) and It is disposed at an angle of 45 ° with respect to the lateral direction (horizontal direction). The number of screen fabrics, the types of fibers, and the inclination angles of the fibers described herein are not particularly limited, and can be set as appropriate.

1 Screen device 2 Projector (projector)
3 Speaker 10, 10A Projection Screen 10a Stitch 11, 12, 13, 11A, 12A, 13A, Screen Material 11c, 12c, 13c Clearance 11f, 12f, 13f Fiber 11fa, 12fa, 13fa Warp 11fb, 12fb, 13fb Weft 20 Frame S Audio-visual system

Claims (4)

A rear projection type projection screen which projects an image illuminated from the rear side by a projection device to the front side,
What is claimed is: 1. A projection screen characterized in that a screen cloth in the form of a sheet having a substantially circular cross-sectional shape and woven with a semitransparent or transparent fiber is laminated.   The projection screen according to claim 1, wherein the screen cloth is a plain weave of the fibers.   The projection screen according to claim 2, wherein the screen fabric is overlapped in a warp direction and a weft direction.   The projection screen according to any one of claims 1 to 3, wherein the plurality of screen fabrics are sewn together.

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